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International Climate Change Policy: Political and Economic
Underpinnings and Pakistan’s Policy Response for Sustainable
Development
Submitted byZAHOOR KHAN
Ph.D. SCHOLAR
DEPARTMENT OF INTERNATIONAL RELATIONS
UNIVERSITY OF PESHAWAR
December 2016
i
Certificate of Approval
This is to certify that the research work presented in this thesis, entitled “International Climate Change Policy: Political and Economic Underpinnings and Pakistan’s Policy Response for Sustainable Development” was conducted by Mr. Zahoor Khan under the supervision of PROF DR. S. SHAFIQUR REHMAN.No part of this thesis has been submitted anywhere else for any other degree. This thesis is submitted to the Department of International Relations in partial fulfillment of the requirements for the degree of Doctor of Philosophy in Field of (International Relations) Department of International Relations University of Peshawar
Student Name: Zahoor Khan Signature: __________
Examination Committee
a) External Examiner 1: DR. SEEME MALIK(Senior Research Associate, COMSATS, Institute & Technology, Islamabad)
Signature:
b) External Examiner 2: PROF. DR. MUHAMMAD IRFAN KHAN(Department of Environmental Science, International Islamic University, Islamabad)
Signature:
c) Internal Examiner: PROF. DR. ASIF KHAN(Assistant Professor, Department of Environmental Sciences, University of Peshawar)
Signature:
d) PROF. DR. S. SHAFIQUR REHMAN(Supervisor)
Signature:
e) PROF. DR. NASREEN GHUFRAN(Dean / HOD)
Signature:
ii
DECLARATION
I hereby declare that this dissertation is the outcome of my individual research and it has not
been submitted to any other university the grant of a degree.
Zahoor Khan
iii
DEDICATION
I dedicate this work to my parents: my father, Haji Qamar Zaman Khan and my late mother,
Israr Begum, my Babow.
iv
ACKNOWLEDGMENT
Writing is a consistent process of decision making and none can deny that decision making is
burdensome and sometimes nerve raking. I am grateful to Allah for entrusting me with
teachers, friends and family to shoulder my burden and helped me accomplish this task.
My special thanks to Dr. Syed Shafiq Ur Rehman, my supervisor, for his unstinted kind
support. It is a rarity to find an environmental scientist with an inclusive broad understanding
of the environmental issues in their social and political standing and implications. When a
scientific issue like climate change is politicized, the solution to the riddle is always with the
scientists. The decision regarding the solution, nevertheless, always lies with the politicians.
Sir, Shafiq has a thorough understanding of this equation of science and politics. Intellectual
profundity, however, is not the only thing that defines his personality. His humility and
warmth always made me feel important.
I am equally grateful to Dr. Hussain Shaheed Soherwordi, my co-supervisor, for believing in
my potential. His insights and guidance in evaluating the dynamics of international
cooperation among largely disparate sovereign states in an anarchic system helped much in
evolving various aspects of the theoretical discourse of this dissertation. Coarse intellectual
debates become pleasure with a man of ageless charm and rich mind willing to convince you
that you are better than him. Dr. Soherwordi, indeed, raised my hopes about myself.
I register my gratitude to Dr. Nasreen Ghufran, the Chairperson of IR department. I am
thankful to her beyond my expressions. Being a teacher, I always believed that a true teacher
must consider his students his assets, owning their strengths and weaknesses and diligently
but delicately helping them overcome their flaws without hurting their pride. Ma’am Nasreen
personifies these enviable virtues of a true teacher.
My special thanks to my teachers Dr. Ijaz Khan, and Prof. Dr. Taj Moharram. I am more than
grateful to my family especially my wife for standing with me and supporting me through my
peaks and valleys.
v
ABSTRACT
Pakistan is a developing state confronted with the adverse implications of global climate change in presence of its weak economic and institutional infrastructure. The dual task of adapting to negative climate effects and transform its development model to efficient and renewable sources of energy in accordance with the long-term goal of Paris Climate Agreement (2015) is much demanding if not impossible. Global climate change is the sudden transformation, a push, to the natural climate induced by excessive unwise exploitation of natural environment since industrialization. Modern technological civilization for its powering is largely relying on fossil fuels, injecting the largest stores of CO2 into climate. Excessive addition of this heat trapping gas is upsetting the natural greenhouse effect, increased earth surface temperature, a phenomenon termed global warming. Consequently, a torrent of negative climate impacts is unleashed like disruption of hydrological cycle, rapid melting of glaciers and intense and unpredictable weather patterns. These rapid climate variations are constraining human life with crucial implications for the vital sources of livelihood and development: water, food and energy. Pakistan since last decade has witnessed severe floods and intense weather patterns resulting in losses of human life and infrastructure, undermining its crop yields, compounding its existing problems and challenging its fragile governance structure. Fundamentally, a one river based agriculture economy; global climate change could eventually exhaust Pakistan’s freshwater resources and reduce irrigation water for its arid lands. Such constraints could lead to mass migration, inter and intra-state conflict for water sharing, and emergence of strong intransigent societies against state.
Pakistan requires adapting to these adverse climate changes and effectively contributes to goals of the Paris Climate Agreement, 2015 without compromising on its economic development. The Paris Climate Agreement is an outcome of an extended decades old contentious politics of the developed global North and developing global South, the fossils fuel based economies and climate threatened low lying and small island states. By setting a goal of keeping earth surface temperature below 2°C and achieve net-zero emissions by mid of the century, this agreement seeks nationally determined contributions from each state and financial and technological support of the developed states to the developing states in actualizing climate resilient clean development. Pakistan National Climate Change Policy (2012) is centered on achieving sustainable development through climate resilient development. However, actualizing climate resilient development demands specific measurable and achievable targets regarding mitigation and adaptation with well-coordinated institutional structure of monitoring and facilitation from the center and a well informed and resourceful climate response structure at the local level. Such an integrated and inclusive approach exists in policy frames but not effectively mainstreamed in the institutional structure.
vi
Tables of Contents
DECLARATION................................................................................................................................... iii
DEDICATION....................................................................................................................................... iv
ACKNOWLEDGMENT.........................................................................................................................v
ABSTRACT...........................................................................................................................................vi
CHAPTER 1............................................................................................................................................1
INTRODUCTION...................................................................................................................................1
1.1 PAKISTAN POLICY RESPONSE...............................................................................................6
1.2 LITERATURE REVIEW..............................................................................................................7
1.3 STATEMENT OF THE PROBLEM..........................................................................................10
1.4 SIGNIFICANCE OF THE STUDY............................................................................................10
1.5 OBJECTIVES OF THE STUDY................................................................................................11
1.6 METHODOLOGY......................................................................................................................11
1.7 DIVISION OF THE STUDY......................................................................................................12
CONCLUSION.................................................................................................................................15
CHAPTER 2..........................................................................................................................................16
THE SCIENCE OF CLIMATE CHANGE...........................................................................................16
2.1 CLIMATE...................................................................................................................................17
2.2 CLIMATE CHANGE..................................................................................................................21
2.3 GREENHOUSE EFFECT...........................................................................................................22
2.4 LIFE SUSTAINING NATURAL GREENHOUSE EFFECT....................................................22
2.5 GREENHOUSE EFFECT: SCIENTIFIC ESSENCE.................................................................24
2.6 KEELING CURVE.....................................................................................................................25
2.7 ENHANCED GREENHOUSE EFFECT OR GLOBAL WARMING AND CLIMATE
CHANGE..........................................................................................................................................27
2.8 EARTH ENERGY BALANCE...................................................................................................31
vii
2.9 REASONS OF CLIMATE CHANGE: CLIMATE FORCING AND CLIMATE FEEDBACKS
...........................................................................................................................................................32
2.9.1 Climate Feedback Mechanism.............................................................................................35
2.9.2 Earth’s Atmosphere: Structure and Composition.................................................................37
2.9.3 Sun’s Energy and Earth: Solar Cycle and Orbital Variations..............................................40
2.9.4 Tectonic Movements and Volcanic Eruptions.....................................................................42
2.9.5 Natural Climate Oscillations................................................................................................43
PART 11................................................................................................................................................45
FIXING RESPONSIBILITY, ADVERSE IMPACTS, BALANCING MEASURES AND
SUSTAINABLE DEVELOPMENT.....................................................................................................45
2.10 ANTHROPOGENIC CAUSES.................................................................................................45
2.10.1 Greenhouse Gases: Characteristics and CO2 Distinction...................................................46
2.10.2 Carbon Cycle......................................................................................................................49
2.10.3 Oceans and Carbon Cycle..................................................................................................49
2.10.4 Enhanced Concentration of CO2 and Other Greenhouse Gases.........................................50
2.10.5 Land Use Change...............................................................................................................52
2.11 FIXING THE RESPONSIBILITY............................................................................................53
2.12 ASSESSING IMPACTS: CLIMATE MODELS AND UNCERTAINTY...............................57
2.12.1 Temperature Rise...............................................................................................................58
2.12.2 Glacial Melting...................................................................................................................59
2.12.3 Effects of Temperature Changes in Sea Surface................................................................61
2.12.4 Sea Level Rise....................................................................................................................62
2.12.5 Water Scarcity: Limited Freshwater Supply......................................................................63
2.12.6 Disrupted Hydrological Cycle, Intense and Unexpected Weather Pattern........................64
2.12.7 Biospheric Meltdown.........................................................................................................65
2.12.8 Human Diseases.................................................................................................................66
2.12.9 Socio-Economic and Political Implications.......................................................................66
viii
2.13 SENSITIVITY, VULNERABILITY AND ADAPTABILITY................................................68
2.14 UNCERTAINTY, SKEPTICS AND PRECAUTIONARY PRINCIPLE................................69
2.15 SCIENCE CORE CLIMATE POLICY: BALANCING MEASURES AND SUSTAINABLE
DEVELOPMENT.............................................................................................................................71
CHAPTER 3..........................................................................................................................................74
INTERNATIONAL REGIME: THEORETICAL UNDERSTANDING OF COOPERATION AND
COLLECTIVE RESPONSE.................................................................................................................74
3.1 INTEREST-BASED THEORIES OF INTERNATIONAL REGIMES.....................................81
3.2 POWER BASED THEORY OF INTERNATIONAL REGIME................................................93
3.3 KNOWLEDGE-BASED THEORIES.......................................................................................100
CHAPTER 4........................................................................................................................................110
INTERNATIONAL CLIMATE CHANGE REGIME: CONTENTIOUS POLITICS AND
CONTESTED PRINCIPLES..............................................................................................................110
4.1 THE GLOBAL NORTH AND SOUTH DIVIDE: ENVIRONMENTAL PROBLEMS AND
STRUCTURAL INEQUALITY.....................................................................................................111
4.2 COST-EFFECTIVENESS OF CLIMATE CHANGE ACTIONS AND INACTIONS...........115
4.3 FOSSIL EXPORT BASED ECONOMIES/ OPEC FEAR ECONOMIC VULNERABILITY116
4.4 GAS GUZZLING CULTURE AND RIGHT TO DEVELOPMENT FEEL THREATENED.119
4.5 VULNERABLE LOW LYING AND SMALL ISLAND DEVELOPING STATES SEEK
CLIMATE ACTIONS.....................................................................................................................124
4.6 INTERNATIONAL CLIMATE CHANGE REGIME: VITAL PRINCIPLES SINCE
STOCKHOLM, 1972......................................................................................................................126
4.6.1 Sustainable Development...................................................................................................127
4.6.2 State Responsibility............................................................................................................128
4.6.3 Right To Development.......................................................................................................128
4.6.4 Precautionary Principle......................................................................................................130
4.6.5 Common but Differentiated Responsibility (CBDR).........................................................132
4.6.6 Cooperation and Participation............................................................................................135
ix
CHAPTER 5........................................................................................................................................139
INTERNATIONAL CLIMATE CHANGE REGIME: HISTORICAL EVOLUTION OF PARIS
AGREEMENT....................................................................................................................................139
5.1 HISTORICAL EVOLUTION...................................................................................................139
5.2 UNITED NATIONS FRAMEWORK CONVENTION ON CLIMATE CHANGE (UNFCCC)
.........................................................................................................................................................146
5.2.1 Institutional Mechanisms and Related Controversy...........................................................149
5.2.2 Evaluation...........................................................................................................................150
5.3 KYOTO PROTOCOL...............................................................................................................151
5.3.1 Evaluation...........................................................................................................................153
5.4 PARIS AGREEMENT..............................................................................................................154
CHAPTER 6........................................................................................................................................164
CLIMATE CHANGE REDEFINING PAKISTAN’S SECURITY....................................................164
6.1 SECURITY: THEORETICAL UNDERSTANDING, NATIONAL SECURITY AND HUMAN
SECURITY.....................................................................................................................................165
6.2 ENVIRONMENTAL SECURITY OR CLIMATE SECURITY..............................................169
6.3 PAKISTAN’S SECURITY: TRADITIONAL AND NEW REALITIES.................................171
6.4 CLIMATE SECURITY AND PAKISTAN: PROJECTED CLIMATE WOES AND
IMPLICATIONS.............................................................................................................................173
6.4.1 Water Scarcity, Food Insecurity and Forced Migration.....................................................179
6.4.2 Limited Water: Intensification of Interstate and Intrastate Conflicts.................................181
6.4.3 Threatened Coastlines and Volcanic Karachi....................................................................182
6.4.4 Weak State, Strong Societies and Geostrategic Implications.............................................183
CHAPTER 7........................................................................................................................................186
PAKISTAN’S POLICY RESPONSE: CLIMATE RESILIENT DEVELOPMENT, A
SUSTAIANABLE DEVELOPMENT................................................................................................186
7.1 SUSTAINABLE DEVELOPMENT THROUGH CLIMATE RESILIENT DEVELOPMENT:
GOAL OF NATIONAL CLIMATE CHANGE POLICY..............................................................189
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7.1.1 A Resilience Lens and Climate Change Sustainable Adaptation.......................................195
7.2 PAKISTAN TOWARDS CLIMATE RESILIENT DEVELOPMENT: CORE TO
SUSTAINABLE DEVELOPMENT...............................................................................................197
7.3 REVIEW OF POLICY FRAME...............................................................................................197
7.4 ADAPTATION.........................................................................................................................198
7.4.1 Water Crises.......................................................................................................................198
7.4.2 Agriculture and Livestock..................................................................................................199
7.4.3 Health and Forestry............................................................................................................200
7.4.4 Biodiversity and Vulnerable Ecosystem............................................................................201
7.4.5 Disaster Management.........................................................................................................202
7.4.6 Human Development..........................................................................................................203
7.5 MITIGATION: CHALLENGES AND OPPORTUNITIES.....................................................205
7.6 INSTITUTIONAL STRUCTURE AND GENERAL AWARENESS.....................................207
7.6.1 Institutional Mechanism.....................................................................................................211
7.6.2 18TH Amendment and Climate Change............................................................................215
7.6.3 Pakistan Climate Change Act (2017).................................................................................220
CONCLUSION...................................................................................................................................224
REFERENCES....................................................................................................................................238
ANNEXURE.......................................................................................................................................282
xi
List of Tables
Table 1 Warmest years on record (1880-2016)......................................................................30
Table 2 Radiative Forcing of atmospheric gases....................................................................51
Table 3 Characteristics of International Organization and International Regime...................78
Table 4 Three fundamental principles of constructivist social theory..................................102
Table 5 States and Differentiated Responsibilities...............................................................148
Table 6 Main provisions of the Paris agreement..................................................................158
Table 7 Pakistan’s ranking in the German-Watch Climate Index........................................174
Table 8 Projected Impacts of Climate Change (NCCP, 2012).............................................176
Table 9 Ten Objectives of the NCCP (2012).......................................................................188
Table 10 Principles of NDMA.............................................................................................202
Table 11 Various Social Protection Programs......................................................................205
Table 12 Chronological Order of Climate Change Institutional and Policy Responses,
Pakistan................................................................................................................................212
xii
List of Figures
Figure 1 Natural Greenhouse Effect........................................................................................23
Figure 2 Keeling Curve...........................................................................................................27
Figure 4 Average global temperature for the past 150 years (Source: NOAA, as cited in
Silver, 2008)............................................................................................................................31
Figure 5 Conceptual structure of climate forcing and feedback..............................................34
Figure 6 Atmospheric layers....................................................................................................38
Figure 7 Composition of gases in the atmosphere...................................................................39
Figure 8 Milankovitch cycle....................................................................................................41
Figure 9 Characteristics and changed concentration of atmospheric gases.............................47
Figure 10: CO2 difference of the Northern and Southern hemisphere as overall concentration
increases...................................................................................................................................54
Figure 11 Northern hemisphere temperature anomaly since 1300 years................................55
Figure 12 Simulated annual global mean surface temperatures..............................................56
Figure 13 Average glacial melt, a loss of 6 meter in height in last 20 years...........................60
Figure 14 Thermohaline Circulation.......................................................................................62
xiii
CHAPTER 1
INTRODUCTION
Climate change is a characteristically unique global problem because of its immense adverse
impacts across time and space, inherent intricacies and complexity of its science, and its
political and economic implications for states and non-state actors. Owing to the diffuse
structure of the international decision making in the age of globalization, generating a
collective will and response depends upon multiple factors. The magnitude and complexity
of the climate change have made it impossible for a single state to effectively counter its
repercussions. Thus climate change demands a consensus international climate change policy
or more rightly termed an international climate change regime to generate collective efforts
for its solution. However, the same complexity has initiated tangled political disputes among
international actors, states and non-states entities, and further compounded evolution of the
international climate change regime. Understanding international climate change regime, its
formation and limitations, requires not only an insight into the science which has placed this
issue in the international limelight, but also comprehension of the political and economic
underpinnings which are at the base of interstate negotiations.
The basic objective of climate change policy making is to stop emissions of greenhouse gases
(ghgs) into atmosphere through mitigation and enhance capacity building of the vulnerable
communities through adaptation. The rich sources of greenhouse emissions are the fossil-
based modern and industrialized economic societies relying on cheap but dirty sources of
energy and power like coal, oil and gas. This traditional western model of development
centered on exploitation of the environment and its resources by the forces of production and
consumption is understood as the fundamental way of development and thus aspired equally
by rich developed and poor developing states. The fundamental bond of fossil fuel, modern
civilization and climate change is undeniable. As climate change skeptic or “lukewarmer”,
that he preferred to be called, Dr. Patrick J. Michael of the Cato Institute, Washington D.C, in
response to the researcher’s question stated, “How do you power civilization, a modern
technological society if you remove all fossil fuels? We don’t have any alternative!”
1
(Personal communication, September 15, 2016). The underlying assumption of the statement
is evident: the modern technological society is the product of fossil fuels, and a successful
climate change regime with an objective of naturally acceptable level of greenhouse
emissions requires substituting fossil fuels with alternative sources of energy to power
modern civilization. Attributing modern technological civilization to fossil fuels is in a word
a confession that the western developed states are largely responsible for the accumulated
greenhouse gases that result in global warming and culminating in climate changes. This
also means that efforts for reducing fossil fuel emissions, a process termed mitigation, would
undermine quality of life in western industrialized states conveniently termed North, for their
geographical location. Mitigation will equally restrict options for the Southern developing
states to become developed following in line with the Western model of development that
warrants exploitation of the fossil fuels, oil, gas and coal—the rich stores of greenhouse
gases.
The irony, however, of the matter is that powering of the civilization is not a universally
fundamental concern when it comes to climate change. Climate change is a threat to
existence of civilizations living in low lying islands states and life and livelihood to the
majority of the poor developing states located in unfavorable climate zones. To the worst,
their limited resources and technological expertise compromise their adaptive capacity and
thus further compound their vulnerability to climate changes. Apart from the human life, it is
also a threat to biodiversity, undermining existence of different kinds of species. The
developing states are confronted with a problem of adapting to climate changes while at the
same time protect their right to development to overcome their poverty and improve the
living standards of the population. Acknowledging this right of the poor developing south is
at the root of a successful climate change regime. The former U.S Vice President and Nobel
laureate, Al Gore, in championing the cause of climate change assures the developing states
in Kyoto, Japan, in 1992 at the time of evolution of Kyoto Protocol in the following words:
"We understand that your first priority is to lift your citizens from the poverty so many of
them endure," Gore said," and to build strong economies that will ensure your future. This is
your right. It will not be denied" (Joyce, 2015). Pakistan, a developing state, is confronted
with the challenge of overcoming its pervasive poverty through sustained economic growth,
and seeks resources to power its industries and cities. One the other hand, it is a victim to the
2
catastrophic climate disasters because of the disturbed water cycles resulting in floods in one
region and drought in another. Being highly vulnerable to global climate change, Pakistan
needs to devise an effective climate change policy to enhance its capacity building against
foreseeable costs and threats of climate change without compromising its development.
Schmidt and Wolfe (2009) define climate change as changes in our expectations and
predictions about the climate. In a way, our whole life pattern is conditioned by the expected
predictions about the climate and immense variations of it would affect every aspect of
human life. Hall (2009) states that that there is an exponential temperature rise since 1970,
which is inexplicable without taking into account human fueled activities since industrial
revolution. Global climate change is a widely acknowledged occurring phenomenon with few
dissenting voices questioning its presence or largely the degree of its severity. Till present,
unavoidable worth of scientific evidence suggest and is duly concluded that by the
Intergovernmental Panel on Climate Change (IPPC) in its fifth assessment report, 2013 that
“warming of the climate system is unequivocal”, attributing it to “human influence…recent
anthropogenic emissions of greenhouse gases [with clear] widespread impacts on human and
natural systems”. The incessant and rampant development with callous disregard to nature
has resulted in huge emission of greenhouse gases, their trapping and ultimately raising
atmospheric temperature. On the other hand, deforestation and desertification have resulted
in destroying carbon sinks to sequester the most vital greenhouse gas: carbon dioxide (CO2).
The implications of the climate change are multifarious: both positive and negative, varying
from region to region and equally dependent on financial capabilities of a state (Stephenson,
2015). The temperature rise in certain regions like Arctic could generate new opportunities of
life and development in those uninhabited areas (Paterson, 1996). However, the negative
impacts are of calamitous nature including rise in sea level with the effects of wiping out
coastal areas and most importantly small island states, leading to mass environmental
refugees and new range of diseases and loss of biodiversity (Paterson, 1996; Schmidt, 2008).
Moreover, rise in temperature would result in melting of the glaciers, one of the renewable
sources of energy and irrigation for different regions, eventually affecting the natural flow of
water and agriculture yields. The developing states would be much affected because of their
poor politico-economic infrastructure. Atiq Ur Rehman, a Bangladeshi expert on climate
3
change, heralding the plight of his country that has witnessed severe floods and typhoons
leaving hundreds dead and a million turning refugees stated, “If climate change makes our
land uninhabitable, we will march with our wet feet into your living rooms” (Roberts &
Parks, 2007). This warning reveals the seriousness of controversies involved in the process of
international climate change policy making.
Apart from the scientific polemics, global climate change is shrouded in a political mayhem
because of three main factors: The North-South debate, the dependence of the countries on
fossil fuel either as a source of production or consumption, and climate change implications
for a specific country. (Paterson: 1996) The rich industrially developed countries with almost
same attributes are characterized as North and poor developing countries with almost
common socio-economic and political limitations are labeled as South. The rift between the
two is multifaceted. The developing South with its weak socio-economic and political
infrastructure and huge debt deficit is in want of technology and finance to effectively adapt
itself with the climate change. Moreover, the South attributes the creation and development
of this problem to the industrialization and unwise use of technology with disregard to nature
by the North. Therefore, South wants that North must take responsibility for the mitigation as
well as for the technological development and energy assistance of the South, so that the
latter can easily adapt itself with climate change effects without affecting its development
pace.
Paterson (1996) also states that the North does not acquiesce to the South’s concept of
differentiated responsibility. It stresses on uniform measures of mitigations and emission
control of the greenhouse gases for all without exempting the South, and is equally unwilling
to comply to the technology transfer as it entails economic loss. Hence, if the South attributes
this problem to the North, the latter considers South’s stance on climate change regime as a
political maneuver to extract more economic benefits and political leverage in the present
situation. Though the distrust lies on both sides, the approach to the climate change policy is
not universal in the developed states, which is characterized as “Intra-North dispute”
(Paterson: 1996). The EC has played a more effective role in creating and strengthening
international climate organization and emergence of universally acceptable norms and rules
on mitigation (Vig & Faure, 2004). The US, in contrast, has been hesitating and somehow
4
resisting commitment to mitigation policies due to its dependence on fossil fuel, for its
culturally embedded consumptive society. The former US President George Bush crudely
puts it, “American way of life is not open to negotiation” (Roberts & Parks, 2007). The
North-South inequalities and pertaining disputes are more evident when it comes to
international climate change policy making. Moreover, cooperation is not easy to be achieved
in the international world. International system is characterized with anarchy defined as lack
of central authority (Mingst, 2003). In order to understand the politics and economy of the
global climate change in international system, we have to evaluate it in the light of
international system theories of international relations helping us understand interaction of
the state and non-state actors and phenomenon of cooperation at the global level. This
cooperation is at the heart of the international climate change policy. It is important to
incorporate the role of non-state actors in the shape of International Governmental
Organizations (IGOs) and Non-Governmental Organizations (NGOs) as agenda setters and
providing a cognitive milieu for the evolution and development of international
environmental norms in the system.
The trans-boundary effects of environmental pollution and bilateral conflicts on use of
natural resources between neighboring countries have made sustainable development a
matter of great concern and interest to the students of international relations. This
interrelationship, internationally recognized since 1972, initiated a diplomatic process in
collaboration with the United Nations Environmental Program (UNEP) that culminated into
various international treaties (O’Neil, 2009). Global climate change as a threat to humanity at
large has not attained a thorough understanding and priority as the issue of security, for threat
in international relations is still largely define in relation to another state in an anarchic
international system. However, this traditional conception of security is challenged by the
new understanding that environmental problems, especially climate change and ensuing
disasters as ‘apocalypse’, are a threat to all and responsibility of all (Carey, 2000). This new
conception of security in light of the new impending threats from nature demands evaluation.
The essence of international climate change policy is how to stop the dangerous
concentration and input of greenhouse gases (ghgs) in the atmosphere, and equally important
is to reduce the disadvantageous and inescapable effects of climate change. The strategies
5
devised by the United Nations Framework Convention on Climate Change (UNFCCC) for
the said purposes are termed as “mitigation” and “adaptation” (Labatt & White, 2007). Of the
two, mitigation is more controversial as it has a direct bearing on the economies of the states;
however, adaptation is also not without political and economic intricacy. Adaptation and
mitigation are considered indispensable especially after the publication of ‘Stern Review’
which hypothesizes that climate change repercussions could cost 5% of the total world’s
GDP every year, whereas the cost of reducing emissions would be less than 1% of the same
each year (The Stern review, 2009). An understanding of the mitigation and adaptation
policies, which form the core of international climate change policy, is essential not only to
evaluate the co-operation amongst states, but also an insight into the interaction of
development and environment in the developing countries.
1.1 PAKISTAN POLICY RESPONSE
Pakistan is a developing state. Its primary reliance is on agriculture as its economic
backbone. As a developing country with huge debt deficit, weak infrastructure, poor
governance, obsolete technology, lack of capacity, rampant poverty and huge defense
expenditure—it shares all the concerns of Southern countries regarding climate change. It has
a varied topography consisting of plateau, plains and mountains with mostly dry climate. The
environmental problems are already widespread due to air, water and soil pollution, and lack
of proper mechanism and political will to control them. Global climate change has its own
challenges and opportunities for Pakistan. The Intergovernmental Panel on Climate Change
(IPCC) in its 2001 and 2007 reports (as cited in Habib & Nawaz, 2010) has clearly
mentioned that the Himalayan region and Pakistan would see extreme weather events due to
climate change and peculiar geography. Challenges for Pakistan are in the shape of how to
adapt itself with the climate change impacts like melting of its glaciers, which had been so
far working as a renewable resource of freshwater supply. This would result in variation in its
water availability, low agriculture yields, adverse effects on livestock and biodiversity,
emergence of new diseases, endangering its coastal areas culminating in population
displacement, and thus an overall environmental and economic degradation of the country.
Pakistan has witnessed disastrous 2010 floods which almost paralyzed Pakistan’s
infrastructure and exposed its vulnerabilities. The rough estimation of the 2010 floods is
6
about three trillions rupees till now (Habib & Nawaz, 2010). Financial losses of this
magnitude generate a debate to incorporate the environmentalist version of the state security.
However, global climate change also provides certain opportunities. As a developing state,
with least carbon emissions like 0.38% of the total greenhouse gas emissions (UN praises
Pakistan for climate change efforts, 2011), it is least responsible for climate change.
Nevertheless, Pakistan would be hugely affected by climate change effects and, therefore,
deserves all the essential technical and financial assistance of adaptation and mitigation to
enhance its capacity building without compromising on its continued efforts for
development. Therefore, Pakistan has to place its development pace on sound footing of
alternative energies that are friendly to the environment. The strategies for mitigation
especially the Clean Development Mechanism (CDM) allow developed countries to earn
emission credits by investing in emission reducing projects in the developing countries
(Grover,2008). This requires a national policy response primarily based on the objectives of
capacity building and sustainable development to the international climate change policy.
1.2 LITERATURE REVIEW
Literature review reveals that so far there is no extended research works carried out on the
proposed study specifically from the perspective of a developing state like Pakistan. Most of
the studies consist of different aspects of the proposed research: the scientific dimension of
the climate change, the political and economic foundations of the international climate
change policy making, and specifically very least on evaluation of Pakistan’s policy on
climate change. Climate: causes and effects of climate change (2008) by Dana Desonie, is a
detailed account of the causes and effects of climate change. The natural causes as well as
human induced factors are highlighted. In the end, solutions including measures of adaptation
and mitigation have been explored. Global warming the complete briefing (2009) by John
Houston is written in the same fashion. It includes a detailed scientific explanation of the
global warming, carbon cycle, and greenhouse gases, and in the end how to combat it, makes
it an essential contribution and source for the proposed study. All these mentioned subjects
are extensively supported with graphs, and diagrams to simplify the complexity of the
science of global climate change. Jerry Silver’s book, Global warming and climate change
7
(2008) is another worthy effort in understanding the science of the global climate change in
which the significant role of greenhouse gases in climate change is focused. Similarly,
Global warming: Greenhouse gases, worldwide impacts by Julie Kerr Casper (2010) is
equally emphasizing on greenhouse gases. Moreover, the impact of the climate change, the
carbon sequestration and in the end the mitigation and adaptation policies are explained.
Global warming by Natelie Goldstein (2009) not only evaluates the scientific dimension of
the climate change but also looks into international documents on environment to signify
how climate change became a global concern. Controlling climate change by Berz Metz
(2010) highlights scientific aspects and draws relationship of climate change with
development and energy. Global Warming: the science of climate change by Frances Drake
(2000) is though covering hard scientific subtleties of climate change which would not be
resorted to; however, the last two chapters are about the indirect results of climate change
and policy response towards them. The writer has emphasized on the need of a consensus
policy.
The political and economic underpinnings of the international environmental politics, in
general, and climate change policy, in particular, have been dealt by different authors.
Handbook of environmental politics edited by Peter Dauvergne (2005) is an edited work and
an excellent contribution to the understanding of environmental politics. Starting with the
tragedy of the commons it delves into North-South disputes, environmental governance, and
in the end analyses the influence of the scientific communities on the environmental politics.
Climate of injustice, global inequality, North-South politics, and climate policy by J
Timmons Roberts (2007) is an insight into the glaring economic injustice between the North
and the South and the politics and hurdles it has generated in making of international climate
change policy. Different explanations have been rendered to make the readers understand the
inertia. It is a praiseworthy effort to bridge the gulf of disparity between the two sides. In the
end, the writer highlights the significance of a judicious international climate policy.
Environment and international relations by Kate O Neil (2009) helps in understanding the
relationship of environment and international relations. The book explores the different
political and economic underpinnings of the interaction between the two, international
institutions, and theories to explain how they significantly influence each other. Global
warming and global politics by Mathew Paterson (1996) investigates the intricacies of the
8
environmental politics the light of international relations. Mathew Paterson is the most
prolific writer on environmental politics. The book analyses the complexity of the
international climate policy in the light of all the available theories of international relation.
Moreover, the political and economic consideration which is hindering the emergence of the
international climate policy is examined. International environmental politics edited by
Michele M. Betsill, Kathryn Hochstetler & Demitris Stevis (2006) is divided into three parts:
the context of the study of international environmental politics, the forces that shape
international environmental politics, and the normative frameworks for evaluating
international environmental politics. The book is a quintessence of the international
environmental political debates and will be used extensively in the proposed study.
There is a serious dearth of quality works on climate change policy of Pakistan except few
chapters in edited books and power presentations of different NGOs. 50 years of Pakistan’s
economy: traditional topics and contemporary concerns edited by Shahrukh Rafi Khan
(1999) takes into account different dimensions of the Pakistan’s economy. However, the last
chapter, Environment: Some Key Controversies, written by Shaheen Rafi Khan and
Shahrukh Rafi Khan, explores the different dimensions of the environmental problems faced
by Pakistan. The global climate change and its repercussions have also been discussed by the
authors. However, it lacks a thorough analysis and evaluation of the international climate
change policy and policy response of Pakistan. Similarly, Sustainable development and
southern realties: past and future in South Asia, SDPI (2003) consists of different articles
written by various well versed sustainable development experts. It starts with an
understanding of the Pakistan’s environment explained by Shahrukh Rafi khan. The book
then explores different aspects of the environment and development interaction. Adil
Najam’s article on the South concern about the North resistance to comply with the promised
international standards accepted at Rio Earth Summit (1992) is quite an asset for the
proposed study. However, the book does not have any detailed study of Pakistan with
specific reference to climate change.
9
1.3 STATEMENT OF THE PROBLEM
No state including Pakistan can tackle global climate change on its own because of the
magnitude and complexity of the problem. Therefore, an understanding of the factors
involved in the process of securing a consensus international climate change regime to
effectively control the disastrous consequences of climate change is the need of the hour.
Pakistan is a developing state ridden with several problems as mentioned earlier. To its
dismay natural disasters like floods, largely attributed to global climate change, have also
waged war against it and immensely undermine its infrastructure. This has further thwarted
its efforts for development. As it is believed that global climate change with its inescapable
devastating consequences could further paralyze Pakistan’s growth, Pakistan recently framed
National Climate Change Policy (2012) to secure climate resilient development. Pakistan’s
climate policy goal of climate resilient development is evaluated in light of the required
essentials of the concept, the National Sustainable Strategy and Climate Change Act, 2017
strength of its policy frames and operational viability and infrastructure.
1.4 SIGNIFICANCE OF THE STUDY
The study is an essential contribution to the disciplines of International relations and
environment. There are very few researches conducted in respect of drawing relationship
between the two and often lack the perspective from the developing states. It includes the
assessment of climate change implications and opportunities for Pakistan by evaluating the
domestic and international political and economic underpinnings of international climate
change regime. The highlighted limitations in policy and government infrastructure will help
authorities in reevaluation and plugging of the loopholes. At this juncture, the present study
is not only a source of enlightenment for the students of both disciplines but also a useful
document for the policy makers and stake holders in Pakistan.
10
1.5 OBJECTIVES OF THE STUDY
The study is focused on the following objectives:
I. To understand international climate change regime; its evolution, and the political and
economic underpinnings of it;
II. To examine the issue of global climate change, and see how a scientific issue has
resulted in corresponding political controversies and became central to international
politics of today’s world;
III. To analyze and elaborate the phenomenon of international cooperation regarding
climate change policy, regime formation, in a characteristically anarchic world having
considerable disregard for the common environmental resources;
IV. To highlight implications of climate change for Pakistan and the deficiencies in its
policy response at the present stage;
V. To explore and propose measures for Pakistan’s capacity building and sustainable
development in the context of international climate change policy design.
1.6 METHODOLOGY
The study is descriptive, analytical and normative incorporating primary and secondary
sources. A detailed analysis of the scientific dimension of the debate would require
quantitative analysis; however, the research is largely qualitative. An extended literature
review on the international climate change policy making is carried out exploring its essential
dimensions through an interdisciplinary approach. Government policies, official responses
secured through press or personal communication, and research studies at local and
international level by different corporate and non-corporate sectors would be incorporated. In
addition, different international journals, newspapers and websites on sustainable
development, climate change challenges and collective policy responses are consulted.
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1.7 DIVISION OF THE STUDY
After establishing significance of the study, introducing contentious aspects of the
dissertation and creating a niche for the case study of Pakistan in the entire system of
international climate regime, the researcher explores different aspects of his study in detail.
1. Science of Climate Change: Part 1
Chapter 2 explains the concept of climate in light of its various attributes distinguishing it
from the often used term, weather. Human life is dependent on climate and a favorable
climate is an outcome of the right Earth’s energy balance. Role of the greenhouse gases as an
essential life sustaining component of the earth’s atmosphere in maintaining balance of the
Earth’s energy is highlighted. The question before us is to understand what possibly explains
the current exponential rise in earth’s surface temperature, and what possibly attribute this
warming to human induced influence. Addressing this question at its essence demands
differentiating natural causes of earth’s warming from the human induced warming as a
result of rise in greenhouse concentration and changes in land use since the times of
industrialization. The complex interconnectedness of the climate system with change in one
aspect leading to change in another is assessed to understand limitation of our choices in
addressing climate changes.
2. Science of Climate Change: PART 11
While part first of the science of climate change distinguishes various aspect of climate and
the essential natural factors responsible for its changes, the second part of the science of
climate is an understanding of what draws us to the conclusion that the present global climate
change is human induced. Role of the greenhouse gases and special position of CO 2 and
impact of their enhanced concentration in atmosphere, on climate and at large on human life
is assessed. In the end, options for solutions is highlighted to understand how these solutions
set the stage for a political arena among the rich and poor states and fossil fuel dependent
economies
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3. International Regime: A Theoretical Understanding of Cooperation and Collective
Response
Evolving cooperation and collective response on a complex issue of global climate change
requires a comprehensive approach. For cooperation on a global disputed issue among
sovereign states that by law stand equal but by fact are widely different in power and wealth
is indeed difficult. International regime is a comprehensive concept to accommodate agreed
principles, norms and shared understanding that could prospectively evolve into a collective
response towards any global complex issue. International regime evaluates the process of
cooperation culminating into collective response in light of three variables: power, interest
and knowledge. These three variables of power, interest and knowledge correspond to the
three main system paradigms of international relations: neorealism, neoliberalism and
constructivism or cognitivism. Evaluating the idea of cooperation in all its nuances in light of
these three paradigms helps us comprehend the contentious politics and contested principles
involved in the evolution of international climate change regime.
4. International Climate Change Regime: Contentious Politics and Contested
Principles
International climate change regime with climate actions in terms of adaptation and
mitigation are having some serious impacts on the economies, politics and even survival of
low lying and small islands states. These impacts with respect to climate actions or inactions
are embedded in the larger context of history and international political economy. The global
North and South, the symbolic, politically simplified, collective identities for the rich
developed states and the poor developing states respectively, comprehends the issue of global
climate change differently in terms of responsibility and solution of the problem. Similarly,
climate change actions focused on mitigation means reduced use of fossil fuel affecting life
style and economy of states dependent on revenue earned from fossil fuels exports, high
consumption societies and rapidly growing economies of the global South. Climate actions
are highly demanded by states threatened by negative implications of global climate change.
These interests have shaped the contested principles of climate change. Evaluation of the
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contentious politics and involved contested concepts and principles help understand
formation of international climate change regime.
5. International Climate Change Regime: Historical Evolution of The Paris Agreement
In this chapter, the researcher evaluates historical evolution of the international climate
change regime, efforts for bringing harmony in the diverse interests of states for a collective
response against global climate change and its adverse implications. This section follows
history of these troubles and highlight role of international actors making use of their
influence, impact of technological advancements and environmental institutions in forming
thoughts, shaping identities and results; and international organizations in transforming these
differences to one collective will. The international actors in pursuit of their specific interests
were drifted apart in terms of their response towards the issue of global climate change.
Technological innovations, international institutions, environmental organizations and
epistemological communities all shaped ideas and identities in the evolution of climate
change regime. United Nations Framework Convention (1992), Kyoto Protocol 1997 and the
most recent one Paris Agreement 2015 are the landmark endeavors for bridging gulf between
national interests of the sovereign states and international concern for environmentally
dictated global challenge of climate change.
6. Climate Change Redefining Pakistan’s Security
In order to understand Pakistan’s policy response regarding the issue of global climate
change in light of international climate change regime, it is fundamental to evaluate
implications of global climate change for Pakistan. Pakistan traditional comprehension of
threat to existence or to livelihood of its people is either from the outside actor in the form of
a state or an inside terrorist actor with the use of violence for political objectives. However,
Pakistan climate disaster prone location, disruption in its hydrological cycle and intensified
irregular weather patterns because of rising surface temperature will compound its current
multi-layered complex economic and security problems. Pakistan has witnessed worst floods
in 2010 with devastating impacts. The disruption in hydrological cycle owing to rapid
melting of glaciers and irregular monsoon rains will have a drastic impact on the freshwater
resources, crop yield and destruction of infrastructure and life losses in case of floods. These
14
adverse impacts of climate change with its socio-economic and political negative impacts
will result in crises of governance if not a threat to its existence. Climate change, therefore, is
redefining Pakistan’s security.
7. Pakistan’s Policy Response: Climate Resilient Development, A Sustainable
Development
In the light of our understanding of the previous chapters the policy response of the Pakistan
towards the international climate change policy framework is researched. Pakistan as a
responsible nation of the comity of the world nations has ratified the Paris Climate
Agreement (2015). The National Climate Change Policy (2012) is the main policy document
with elaborate policy directives regarding adaptation and mitigation. The policy clearly lays
down its objective: “to ensure that climate change is mainstreamed in the economically and
socially vulnerable sectors of the economy and to steer Pakistan towards climate resilient
development”. In order to understand Pakistan’s policy response, the concept of climate
resilient development is evaluated in detail. After evaluation of the concept, a detailed
analysis is carried out of the NCCP (2012) and other significant policy documents like
National Sustainable Development Strategy (NSDS, 2012) to understand essentials of an
effective climate change policy response of Pakistan.
CONCLUSION
Conclusion includes an assessment of the study and evaluation of the solutions.
15
CHAPTER 2
THE SCIENCE OF CLIMATE CHANGE
Part 1
In this chapter, the researcher will explain those scientific aspects of climate change that are
at the root of the contested international climate change policy making or regime formation.
The foremost in this regard is to understand what defines climate and distinguish favorable
human friendly greenhouse effect from the global warming and the ensued changes that are
characterized as climate change. Distinguishing and elaborating natural causes from the
human induced factors of climate change is important as it will not only help us understand
possible negative effects of the alteration in the natural environmental through processes like
geo-engineering but also highlight role of human induced factors in the exponential rise of
the earth surface temperature in light of the available evidences. The significance of
greenhouse gases (ghgs), the incumbent greenhouse effect and most importantly special
position of carbon dioxide (CO2) will be explored.
Similarly, the future impacts of the climate change as climate scientists projected are at the
heart of the controversial international politics of climate change. The projected impacts of
climate change on international economics and on the community of states have seriously
alarmed the international world. A thorough comprehension of the causes of climate change
would establish the assertion of the scientific community that present rapidly enhanced
climate change is happening due to human amplifying factors like huge emissions of the
ghgs. An understanding of the projected effects of climate change would let us realize the
seriousness of the issue. Once the causes and effects are explored, the focus would shift to
policy options of mitigation and adaptation to combat climate change. These policy choices
ranging from engineered natural alteration to effective efforts in turning man’s life style
environment friendly would be examined. After certifying that current climate change is
largely believed to be human induced, and the best feasible means of thwarting its adverse
repercussions is man-made solutions of mitigation and adaptation, a plethora of political
16
controversies are generated in international politics based on particular orientation and
implications of climate change for the world states. Hence, an understanding of these
scientific aspects of climate change is at the core of comprehending contentious politics of
climate change. For convenience, the science of climate change portion of this work is
divided in two parts. In the first part of the evaluation of science of climate change, the
researcher, in a word, tries to understand the causes of climate change. Second part of this
chapter will look into impacts of the climate changes.
In sum, the study is not evaluating the debate about the scientific claims of the supporters or
dissenters of climate change. It is equally not considering methods of the climate scientists
and climate models they use for ascertaining or defying the climate projections. The primary
objective is to elaborate those scientific dimensions of climate change which have placed it in
the limelight of the international politics. The essence of the “core belief” is well explained
by Desonie (2008) that in order to lessen the human impact on the Earth system we must
understand the “scientific processes” operating and how man has upset them. Desonie
believed that science could provide that sound foundation which would result in the required
human behavioral changes for uplifting Earth system.
2.1 CLIMATE
Earth is characteristically unique because of its massive water and favorable climate. The just
right climate of the Earth has earned it the title of “Goldilocks planet”, which means neither
too hot nor too cold, and thus differentiating it from its own moon (Desonie, 2008).
However, change is a fundamentally constant thing about earth. Schmidt and Wolfe (2008)
emphasize that climate change has occurred before; however, the modern world adopted
itself, though inadequately, with it in due time. Climate and its variations have attained
renewed significance and attention since industrialization and man’s unwise exploitation of
the ecosystem. The selfish anthropocentric understanding of nature by man absolves him
from any moral duty towards nature. As Yang (2006) puts it, an “ethical implication” of their
relationship is discarded. This callous disregard endangers the unique life sustaining
environment of the Earth. What particularly alarms the world today is its inability to
promptly adjust itself with the rapidly transforming climate affecting our lives in multiple
17
ways. Man’s unparalleled adverse alterations and changes in earth’s system have forced
some animals and plants to expand while others extinct. And now these rapid unexpected and
unfavorable variations are endangering his existence. Man with his modern life standards and
self-created habitat is more vulnerable to climate change in comparison to past ages (Eisold,
2010). This vulnerability is at the heart of the growing significance of weather and climate in
today’s world.
Human life is immensely dependent on climate. A man’s life is fashioned, his living
standards, his habitat, even his festivals and funerals are conditioned by weather and climate.
Man envisions and plans major decisions about life and living with a prior understanding of
the expected climate. Weather has its influence small or large in whatever a man does, his
system of transportation, production, supply and demands, in sum his whole decision making
of tomorrow is based on his comprehension of weather and climate of the region (Casper,
2009). Climate is in fact the greatest “natural resource” whose favorability makes life
possible (Borroughs, 2003). Borroughs further extols weather and climate as capable of
influencing our emotions and moods. Geopolitical scientist considers geography and climate
very important in shaping and limiting political choices of people and state (Morgenthau,
1948). Paskal (2010) signifies weather importance in a state policy making by words, “each
country is as dependent on a stable environment as India is on monsoon”. Geopolitical
scientists even claim that democracy flourish in temperate zones, and is unsuccessful in
extreme hot and cold climate regions. Thus, impact of climate upon man’s life is always
acknowledged. Change in these anticipations would ultimately affect adapted life style. This
undeniably huge influence of climate on human life always demands an understanding of its
variations, which sometimes at their extreme have resulted in enormously unsettling life and
habitat of the living organisms.
The irrefutable significance of climate in our life and an understanding of climate change
require a proper comprehension of what does climate mean. The word climate is derived
from the Greek word, Klima, meaning inclination referring to the “angle the sun’s rays are
inclined above the horizon” (Barroughs, 2003). This turns Sun’s energy as the most
significant factor in influencing climate; however not the only one. Climate and weather are
often mistakenly assumed identical because of considerable common features. However, as
18
William (2008) puts it, the two are not synonyms. Weather variations are constantly frequent
on hourly and daily basis, “from one day to the next” (Silverstein, Silverstein, Nunn, 2008;
Becken, 2010). It is the condition of atmosphere over a “short period of time” (Gutro, 2005).
William (2008) explains weather by elaborating its principal constituents as “sum total of its
temperature, pressure, winds, moisture, and precipitation conditions for a short period of a
day or week”. Comstock (1967) termed it as “atmosphere at a moment”; whereas climate is
“weather conditions over several years” with its all “variations”. This unpredictability turns
weather into a state of atmosphere at a given time and place (Lutgen & Tarbuck, 1995).
Climate is more stable than weather (William, 2008). Weather is chaotic but average weather
over a longer period is not, and one can predict about its outcomes (Archer, 2007). Similarly,
Cumo (2008) termed weather variable and climate constant. Gutro (2005) makes climate
simpler as the “long term pattern of weather in a particular area”. The distinction of weather
and climate is further simplified by Borrough (2007) by stating that weather is “what we get”
but climate is “what we expect”. In a way weather is the description of atmosphere at a given
time, climate is what statistics tell us about the future of it. Borrough equally signifies Archer
(2007) understanding that the difference of weather and climate is essential because climate
change scientists are focused on “statistics of the weather phenomenon that provide evidence
of longer term changes”. Casper (2009) summarizes the distinction of weather and climate in
respect of duration and area, time interval in which it is taking place and whether it is
covering a small area like a village or a country.
Climate of a region is generally defined as average weather for more than thirty years
depending on various factors: amount of sunlight it receives, height above the sea level,
shape of the land and distance from the oceans and equator (Hatheway, 2010; Gutro, 2005).
According to Encyclopedia Britannica (2008) the principal components of a climatic system
are “constantly moving oceans, the continents, and the great masses of ice”. Pittock (2009)
also upholds this larger definition and elucidates the responsible factors for the earth climate
as “distance of the sun and composition of the atmosphere, the layer of the gases that
surrounds the earth” and locally dependent on latitude—the distance north or south of the
equator as measured in degrees—and altitude, the height above or below mean sea level.
Climate scientists try to get the “average measures of weather over prolong period in a
particular place” in order to understand its possible effects on human life (Gutro, 2005). This
19
makes climate a “description of aggregate weather” (Lutgen & Tarbuck, 1995; “Weather and
climate basics”, 2003). Temperature variations are often slow and not discernable provided
observed from the “vantage point at long-term global averages” (Silver, 2008). This
necessitates climate observation with all its weather variations for a longer period of times a
pre-requisite essence of the science of climate change.
Global climate, the climate of the whole planet, incorporates the average of the climate of
different regions (Hateway, 2008). In order to understand the climate variations at different
regions and get an average global change, various stations for temperature changes and
corresponding changes has been established around the world. Silver (2008) mentioned that
today more than 7000 temperature collecting stations are spread all over the world, land and
oceans, determining the “anomaly”, the temperature difference from the previously recorded
one. He signifies three major organizations assigned to the task of collecting and compiling
temperature variation data for the purpose of assessing global average temperature
difference. These organizations include: the US National Oceanic and Atmospheric
Administration (NOAA), the US Aeronautics and Space Administration (NASA), and finally
the Climate Research Unit (CRU) at the University of East Anglia in the United Kingdom.
Schmidt and Wolfe (2008) validate the detailed definition of climate and do not limit to the
common version as changes in weather patterns. They endorse the current extended
definition which incorporates the ‘oceans, atmosphere, biosphere, and polar regions’ and
their ‘multiple interactions’ and ‘average conditions’ over a prolonged time frame
distinguished from daily or annual weather variations. Equally essential is a ‘description of
the variability’ during the said time. Variability is regarded an essential element (Pittock,
2009). Cumo (2008) dwells on the constituent elements mentioning “latitude, proximity to
oceans or mountains, altitude, radiation from the sun, ocean currents, wind, continental
drift, the greenhouse effect, volcanic activity, radioactivity of Earth’s core, photosynthesis,
transpiration, eccentricity of Earth’s orbit around the sun, the tilt of Earth’s axis, rainfall, and
the reflection of sunlight from clouds, snow and ice”.
To sum up, study of climate is a detailed study of weather for an extended period of time.
And averages of climate of different regions enable us to understand the global climate at
20
large. This extended definition could make us understand that climate is a very huge system.
System is defined as phenomenon consisting of many different parts working in collaboration
with each other for one common objective, as a ‘unitary whole’ (Kegley & Raymod, 2010).
In case one element stops functioning well, the result is an overall disruption of the system.
This signifies climate as an immense system dependent on various variable elements.
Rafferty (2011) highlights this systemic character of climate subjecting understanding of
interaction among hydrosphere (watery region), lithosphere (crust and uppermost portion of
the mantle) and biosphere (populated regions) and atmosphere for proper evaluation of
climate. Borrough (2003) declares Earth system as ‘closed’ for large with the inflow and
radiation back of the sun energy, connecting and relating everything in the process. This
system would disrupt with serious consequences if there is any unsettling change in any one
of its constituent parts.
2.2 CLIMATE CHANGE
The comprehension of climate makes it easier to understand climate change. To put it simply,
it is the transformation of our predictions about the climate; however, technically, it
encompasses global warming, corresponding droughts, and ‘variations in oceanic currents or
atmospheric winds’ (Schmidt & Wolfe, 2008). Pittock (2009) further extends the definition
by stating that changes in weather patterns “over longer time scale such as one century to
another”; however this time scale is “conventionally limited to 30 years intervals” are termed
climate change. Climate change as mentioned is not a new phenomenon. Paleoclimatology as
a subject is particularly related to understanding climate variations across the Earth’s history
(Casper, 2009). Current climate understanding is based on evaluation of the past climate
trends. This study relies on various physical and biological clues termed as climate proxies
and found in ice cores, tree rings and sediments (Desonie, 2008).
In order to understand climate change, it is essential to explore phenomenon involving Earth
energy balance, and reasons for the imbalance which has its catastrophic impacts. The
primary factor responsible for the life sustaining Earth habitat is the natural greenhouse
effect. However, because of extended heat trapping owing to greenhouse gases, it has
transformed into enhanced greenhouse effect or global warming.
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2.3 GREENHOUSE EFFECT
Earth energy balance is attributed to natural greenhouse effect with sun’s lights received as
ultraviolet while reradiated as infrared after absorption. Climate and its variations is far a
large part dependent on Sun, a consistent source of energy to earth. Earth energy balance is at
the root of the earth climate system (Barry & Chorley, 2003). Borroughs (2007) defines
radiative balance of the Earth as amount of solar radiation absorbed by atmosphere and
surface beneath corresponds to equally emission of heat radiation from Earth to space. A
distinction is drawn in the IPCC 5th Assessment Report between sun energy in the form of
visible light (shortwave radiation) and reradiated energy from Earth in the form of long wave
infrared light (IPCC, 5th AR, 2013). Dawson and Spannagle (2009) consider electromagnetic
radiation of different objects dependent upon their temperature having hot objects like Sun
emitting shortwave, while cold one like Earth emit longwave. Elaborating Greenhouse effect,
Barry & Chorley (2003) state that after reflecting 30% of the solar incoming radiations, 70%
of that reach the earth surface and atmosphere. Half of this is absorbed and reradiated
outward as “long infra-red waves”, which cannot be seen by our eyes (Houghton, 2009). A
detailed description with respect to the assumed input and output of the energy interaction
between the Earth and Sun is rendered in detail by Watts, R.G. (2007). This reradiated
energy is absorbed and retained by the atmospheric greenhouse gases making the earth
environment significantly congenial for the existence of life. Our atmosphere is “transparent
to visible photons but absorbs invisible infrared photons” (Dessler, 2012). This retention or
trapping of heat by atmosphere is termed greenhouse effect as it characteristically shares this
attribute with glass in greenhouse that let visible light pass unimpeded; however retaining the
thermal radiation from the plants(Houghton,2009; Casper,2009). Scientists across the world
with their worthy contributions developed and refined man’s understandings of natural
greenhouse effect and differentiated it from the enhanced greenhouse effect or global
warming.
2.4 LIFE SUSTAINING NATURAL GREENHOUSE EFFECT
Natural greenhouse effect is not without benefits. It results in making Earth climate
hospitable, congenial and life sustaining. Goldstein (2009) considers existence of all living
22
things to this phenomenon. The greenhouse effect is attributed to ‘blanketing effect’ of
certain gases specifically carbon dioxide (CO2) and Methane (CH4) for their absorption of
reflected outgoing infrared rays (Freedman, 2008). It is believed that without greenhouse
effect, Earth would be far less warm, ‘bone chilling’ -18°C (0°F) than its current favorably
pleasant 14.4°C(57.9°F) (Hanson,2008; Freedman,2008). Some of the scientists challenge
this figure as mentioned by Allaby (2007). However, variable may be the exact figure, the
impact of greenhouse effect turns Earth 33% warmer than it would be otherwise (Dawson &
Spannagle, 2009; Pittock,2009). Harris (2010) specifically highlights the importance of
greenhouse gases for life and considers the most significant ones like CO2 and water vapor as
indispensable for life particularly in our food chain. Considering the quintessential nature of
natural greenhouse effect, Gilman (2008) believes that the absence of it would result in
extinction of human life, while Casper (2010) states that without natural greenhouse Earth
would have an ecosystem like the “harshest areas in Antarctica”.
Figure 1 Natural Greenhouse Effect
(Source: IPCC, 2007. 4th Assessment Report)
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2.5 GREENHOUSE EFFECT: SCIENTIFIC ESSENCE
Goldstein (2009) mentions chief scientific efforts which determine Earth climate and
influence of ghgs. Joseph Fourier in 1824 intrigued by the hospitable warm temperature of
the Earth attributed it to heat trapping gases in the atmosphere. He termed atmosphere a
‘hothouse’, ‘voila’ (Henson, 2008). Another notable effort of John Tyndall, a geologist, in
1859 points out CO2 and water vapor as the two most important greenhouse gases with their
reduced atmospheric concentration might result in the retreat of ice age. Tyndall particularly
focused on radiant heat declaring it thoroughly transparent to oxygen, nitrogen and hydrogen
but ‘relatively opaque’ to water vapor, CO2 and ozone (Allaby, 2007). He qualitatively
determines the current greenhouse effect (Bolin, 2007). And attributed past ice ages to
decreased concentration of atmospheric CO2 (Houghton, 2009).
Svante Arrehenius. a Swedish chemist, in 1896 stated that “trace gases” of the atmosphere
like CO2, Methane, and water vapour capture the outgoing long-wave radiation resulting in
natural greenhouse effect and increasing the ‘global surface mean temperature’ by almost
32°C( Benested,2006). His remarkable paper, “On the influence of carbonic acid in the air
upon the temperature of the ground” particularly centered on possible impacts of CO2
variation in the atmosphere (Allaby, 2007). In collaboration with his colleague, Arvid
Hogborn, he comes to the same conclusion with a resounding belief that CO2 increase since
industrialization would make the Earth warm (Goldstein, 2009). He elaborates the natural
greenhouse effect through a model, and concludes that rise in greenhouse effect result in
atmospheric temperature rise. Sun’s radiation to earth is short-wave, while re-radiation from
earth is long-wave or infra-red which are remarkably absorbed by the atmospheric
greenhouse gases. This atmospheric “opaqueness” to infra-red in comparison to its
“transparency” to short wave is generally termed greenhouse effect (Barry & Chorley, 2003).
Ramanthan and Vogelmann (1997), as cited in Bolin (2007), term Arrehenius’ remarkable
discovery of greenhouse effect as the “foundation” for the theories of greenhouse effect and
climate change. He states that doubling of atmospheric CO2 concentration would rise Earth
surface temperature by 5-6°C, an evaluation not widely in conflict with our current
understanding (Houghton, 2009; Gilman, 2008). Mikhail Ivanovich, a Russian meteorologist
is the first scientist who assesses heat balance received from the Sun and reradiated from the
24
Earth and thus establishes climatology as a physical discipline (Allaby, 2007). His
painstaking calculations from 1950 till 1970 establish a link of the past and present climate
history and concluded that fossil fuel consumption has enhanced atmospheric CO2
concentration and generally warm the world.
However, this realization was not seriously taken till American scientist, David Charles
Keeling, with his refined climate measuring experiments emphasized rise in CO2 (Gilman,
2008). Keeling’s work might be the reason for the present day demands for limiting CO2
emission; but the reason for his calculated effort is revelations from Guy Stewart Callender
and Roger Revelle’s research(Allaby, 2007; Goldstein, 2009). Their work revolutionized
understanding of CO2 role in relationship with oceans. Callender questions oceans as
“panacea of the natural balance” and declare them not only incapable of absorbing excessive
CO2 but rather releasing it back after temporary intake in case of its increased atmospheric
concentration (Goldstein, 2009). Revelle, director of the Scripps institution of
Oceanography, further demystifies this firmly ingrained assumption of ocean as sinks for the
entire surplus emitted CO2 without affecting carbon cycle. He states that barely 1/10 th of the
scientists predicted emitted CO2 is absorbed and most of it move back to atmosphere before
firmly sequestered (Goldstein, 2009). Ocean as planet savior, and capable of restoring Earth
energy balance lost significance of its validity. Enormity of the problem of climate change
and its related complexities led Revelle terms it “large scale geophysical experiment”,
unprecedented and could not be recreated in real. Therefore, he advocated its computer
simulation for its proper understanding (Henson, 2008). Evaluation of oceans ability to
absorb and accommodate excessive carbon dioxide(CO2) carried out successively by English
engineer Guy Stewart Callender(1898-1964), chemist Hans Suess(1909-93), and Roger
Revelle(1909-91) declared faith upon ocean as climate savior “misplaced” (Goldstein, 2009).
2.6 KEELING CURVE
Although these understandings were not taken seriously by that time; however, the growing
significance of altering climate became evident with the passage of time. By 1957,
geochemist Charles David Keeling affirms after extended data collection regarding CO2 rise
at Mauna Loa in Hawaii that CO2 level is rising (Goldstein, 2009). Mauna Loa observatory in
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the center of the pacific is chosen for its distinctive conducive environment especially
“pristine air” for detecting any atmospheric anomalies (Henson, 2008). Records gather in
here serves as the “longest continuous” understanding of rising CO2 concentration of the
atmosphere often mentioned as “the most important geophysical record” (Casper, 2009).
Observatory at an elevation of 3.35 km (11,000ft) above sea level was believed by Keeling as
an excellent representation of the whole Earth (Silver, 2008). Keeling Curve depicting a
rising CO2 concentration graph observed by him over the years augmented his understanding
of climate warming subjected to CO2 concentration. Keeling curve is considered as “the
cornerstone of global warming science” (Casper, 2009).James Hansen, NASA climate
scientist, appreciates Keeling’s precision and attributes current understanding of climate
change problem to him (Hansen, 2008). He was successful in determining an accurate
measure of CO2 measurement with 0.6ppmv annual rate of increasing at that time, cautiously
attributing it to human emissions because of fossil fuels (Bolin, 2007). Proper monitoring of
atmospheric CO2 concentration started in 1958 by Charles Keeling at Hawaii’s Mauna Loa
Observatory resulted in a conclusion after detailed measurement that though CO2
concentration keeps fluctuating because of seasonal variation; however, the gross tendency is
definitely inclined towards its increase which in turn enhances temperature (Silver, 2008;
Goldstein, 2009).
26
Figure 2 Keeling Curve
Source: Tomecek (2012)
2.7 ENHANCED GREENHOUSE EFFECT OR GLOBAL WARMING AND
CLIMATE CHANGE
Despite benevolent impact of the atmospheric gases, one evident lesson of the natural
greenhouse effect is that increase in concentration of heat trapping gases would further warm
the earth, hampering natural carbon cycle, and unbalancing Earth’s energy balance. All these
could culminate in unpredictable catastrophic impacts. Enhanced greenhouse effect or global
warming denotes the warming phenomenon attributed to increase concentration of
greenhouse gases since industrialization. Houghton (2009) simplifies global warming or
enhanced greenhouse effect as disturbance in radiation from the sun and reradiating light
from the Earth and atmosphere. The balancing of Sun and Earth energy flow is at the heart of
27
the Earth climate system, which “must balance”. An anomaly in the shape of increased
atmospheric CO2 concentration is counteracted through rise in Earth’s temperature.
Houghton (2009) differentiates between natural greenhouse effect and enhanced greenhouse
effect, attributing the former to atmospheric gases present before man tempered and added
extra element like chlorofluorocarbons (CFCs). In other words water vapor and trace gases in
their natural amount results in natural greenhouse effect making the Earth’s atmosphere
congenial and pleasant(Casper,2010); however, their increase is assumed in a destructive
spiral unbalancing the energy balance.
However, as mentioned an increase in atmospheric trapping gases would result in undue
heating. Since industrialization, extensive use of fossil fuels, deforestation for cultivated
agrarian lands, and mechanized life disproportionately release stored greenhouse gases or
produce them. These human climate perturbations have been classified under fuel usage,
industrial and agricultural practices by Cotton and Pielke (2007). It enhances concentration
of greenhouse gases and transforms the benevolent natural greenhouse effect phenomenon
into enhanced greenhouse effect or global warming. Houghton (2009) particularly
differentiates water vapor from CO2 as the former originates from the ocean surface and is
not influenced by human activity. An imbalance particularly related to thermal radiation
with more energy coming in than going out would culminate affecting other climate
dependent variables with either positive or negative feedback.
Global warming is termed a “sudden unintentional push” to the delicate climate balance that
primarily materializes itself in increased surface temperature (Gilman, 2008). The term
global warming was first used by Svante Arrhenius in his paper in 1896(Casper, 2009).
However, rise in surface temperature, a global warming phenomenon, unleashes a series of
multiple unpredictable and assumed drastic transformations in global climate like upsetting
hydrological cycle leading to floods and droughts, glacial melting, and biodiversity loss
(Schmidt & Wolf, 2008). Warming is the initial variation triggering a multitude of other
changes which are believed drastic to a greater degree if not thwarted properly (Gilman,
2008). In order to encompass all these related accruing “long term” climate
changes(Casper,2009), scientists preferably use the term “global climate change” rather than
global warming which specifically incorporates only the Earth surface warming factor
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(Gilman, 2008). Although the two are sometimes used interchangeably, it is global warming
which results in climate change, a multitude of climate variations. Concepts are assumed to
be politically loaded (Heywood, 2004). Some scientists use the term ‘global heating’ to
emphasize human induced global warming (Henson, 2008). However, the most widely used
term is global climate change, because of its ability to envelope all the related variations in
the atmosphere.
Scientists often relate examples of Venus and Mars to make us understand impact of
greenhouse gases especially CO2 influence on climate. Mars and Venus, both possessing
atmosphere, are believed similar to Earth in experiencing climate change. Venus with its
thick climate possessing mostly of CO2 is hot enough to melt lead, while Mars despite having
greenhouse gases like CO2 and measurable methane is cold because of its thin climate and
distance from the Sun (Gilman, 2008). Venus with 96% CO2 and cloudy atmosphere
resulting in runaway greenhouse effect is extremely hot while Mars with 95% CO2 with thin
atmosphere is very cold (Johansen, 2008). Carl Sagen, a US astronomer, after evaluation of
the Venus concluded that earlier Venus has atmosphere like Earth (Gilman, 2008). However,
that atmosphere drastically changed as a result of ‘Runaway greenhouse effect’. The
increased intensity and concentration of trace gases resulting into an inhospitable climate
aroused his concern for the Earth’s climate (Henson, 2008). He ominously cautioned, as cited
in Silver (2008) that rising human induced global warming if remains unchecked could
transform earth into Venus, an extremely hot and inhospitable planet. Pittock (2009)
considers this runaway carbon dynamics might reverse land based carbon sinks. Michel Hart
in 1979 further augmenting Sagen’s apprehensions stated that Earth because of human
induced enhanced greenhouse effect could might be ‘tipping over’ to be either Mars or
Venus(Gilman,2008). However, Scientists in their later assessment refuted Earth assumed
‘precarious’ state, although verifying unpredictable adverse impacts of the climate change if
the problem is not addressed properly in due time. These impacts will be discussed in the
later sections of the chapter.
An evaluation of the global warming definitions rendered by different climate scientists
makes it obvious that it is significantly concerned with the average temperature of the Earth’s
surface. Rising of it unleashes multiple climate variables transforming it into global climate
29
change. Dessler and Parson (2006) focus on three characteristics to make study of current
climate change comprehensible. Temperature is chosen among all climate variables because
of the rich data, and susceptibility to greenhouse gases. Secondly, Earth’s average surface
temperature is evaluated; and third a particular time span is under consideration to see
whether Human emissions are responsible for it. This limits us to human civilization since
industrialization.
There is an alarming rise in temperature in the last century especially in the last decade of it.
The 1C difference between current temperature 14.4C (57.9F) with that of the last century
13.7C (56.5F) is alarming as this much temperature rise often takes centuries (Silver, 2008).
Climatologists are concerned at the unprecedented rise in the temperature at exponential rate.
Specifically, as mentioned since 1990, earth has witnessed the warmest decades of the last
one thousand years. Desonie (2008) cites a chart provided by NASA which demarcates the
warmest years on record in the last decade.
Table 1 Warmest years on record (1880-2016)
RANK1=WARMEST
PERIOD OF RECORD: 1880-2016Year Anomaly °C Anomaly °F
1 2016 0.94 1.692 2015 0.95 1.623 2014 0.74 1.334 2010 0.70 1.265 2013 0.67 1.216 2005 0.66 1.197 2009 0.64 1.158 1998 0.63 1.139 2012 0.62 1.12
10 (tie) 2003 0.61 1.1010 (tie) 2006 0.61 1.1010 (tie) 2007 0.61 1.10
Source: Global Climate Report-Annual 2016, NOAA
These statistics are considered frighteningly different from the normal course of temperature
fluctuations in the past and could not be simply ascribed to normal factors of temperature
variations. This temperature rise is “off the charts” taking the form of a “hockey stick” that in
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statistics signifies a sudden eruption of climate variability (Silver, 2008, Desonie, 2008;
Dessler & Parson, 2006). Desonie (2008) particularly mentions that this finding have been
supported by a 2006 report of the U.S. National Academy of sciences.
This significantly rapid rise of the average surface temperature especially during the last few
decades culminated into global warming. Following figure showing the average surface
temperature since last one and a half century tell a tale of its own.
Figure 3 Average global temperature for the past 150 years (Source: NOAA, as cited in Silver, 2008).
2.8 EARTH ENERGY BALANCE
Casper (2009) defines global energy balance as “interaction of energy between Sun, the Earth
and atmosphere, which characteristically affect climate. Burroughs (2007) terms this
radiative balance as the ‘amount of solar radiation absorbed by the surface and the
atmosphere beneath it is equal to the amount of heat radiation emitted by the Earth to space’.
Earth energy balance is, as mentioned earlier, at the root of the science of climate change, a
“fundamental process” that materializes the Earth’s temperature (Archer, 2007).In case there
is more of energy leaving the earth than it is receiving from the Sun, result will be cooling,
but if it is retaining and absorbing more than the essential or natural amount of energy then it
would result in warming. Scientists determine Earth’s cooling or warming through evaluation
of its energy balance.
Explaining the earth energy budget, Silver (2008) states that out of 1370W of the sun energy,
342 W of power strikes every square foot of the earth surface because of its elliptical orbit, of
which approximately 30% is reflected by the top of atmosphere. In some of the websites this
31
amount has been mentioned in square foot, i.e. 240watts per square foot (IPCC explains
Earth’s climate system, n.d). The remaining 70% reaches earth after absorption by the
stratosphere, work on photosynthesis, warm up earth and ocean, melt ice, and in the end
reradiate back into the space. This reradiated infrared light is absorbed in the troposphere by
CO2, nitrous oxide (N2O) and water vapour and thus materialize greenhouse effect with least
affect from the abundant nitrogen and oxygen in the atmosphere (IPCC 5th AR, 2013). In this
way, “thermal equilibrium” is established between the Sun and the earth (Silver, 2008;
Casper, 2009). Pidwirny (2010) highlights unequal reception of Sun energy output to Earth
because of its spherical structure. Equatorial regions receive more energy than the polar ones,
thus initiating a relentless atmospheric and oceanic process of heat transfer to even out this
difference. This process is termed as Earth’s heat engine.
Desonie (2008) believes that Earth atmosphere would be “bitterly cold” without heat trapping
greenhouse gases and thus attributes Earth abundant life variability to greenhouse effect
making its average temperate to a favorable degree of 59°F (15°C).
In 2005 Goddard Institute for Space Studies (GISS) after thorough scientific evaluation of
the Earth energy balance concluded that Earth is getting 0.85w/m2 more of Sun’s energy and
most of this extra energy is stored in ocean that lessens current impact of global warming.
This energy imbalance is depressingly large when compare to the past climate variations
(Casper, 2009). Climate and its variations is far a large part dependent on Sun, a consistent
source of energy to earth (Barry & Chorley, 2003). The Sun and Earth energy relationship
fluctuates with respect to certain perturbations termed forcing to which climate responds
either directly or indirectly through feedback mechanisms (IPCC, 5th AR, 2013).
2.9 REASONS OF CLIMATE CHANGE: CLIMATE FORCING AND CLIMATE
FEEDBACKS
The science of climate change is primarily based on understanding of earth energy balance.
Throughout history, Sun has been a consistent source of energy in the form of light waves.
Sun’s energy through a process of absorption and reflection continued maintaining Earth’s
climate stable and hospitable; however, current disruptive tilt towards “warming mode” is
32
resulting in climate change (Silver, 2008). This difference of Sun’s radiation received and
reflected determines Earth’s radiation budget (Rafferty, 2011). Radiative equilibrium is
maintained when an equal amount of heat energy is radiated in response to absorption by
Earth. Mutable to changes in climate system, this radiative equilibrium either falls or enhance
disrupting Earth overall energy budget and culminating in either heating or cooling
(Pidwirney, 2010). There are multiple factors which influence energy balance of the Earth.
However these factors are broadly divided into climate forcing and climate feedbacks
(Radiative forcing of climate change, 2005; Barry & Chorley, 2003). Climate forcing, an
energy imbalance, is dictated either naturally or through human activities. Climate feedbacks
are internal climate reactions to climate forcing, secondary and indirect, either enhancing or
reducing climate response to the primary change (Gilman, 2008; Pidwirney, 2010; Rafferty,
2011).
Change in energy balance that alters climate is termed ‘forcing’ (Casper, 2009). The fifth
assessment report of IPCC (2013) terms these changes as ‘perturbations’ to the Earth’s
climate system. As mentioned climatic forcing, the respective causes or factors that force the
climate to change can be natural as well as human. However they are further distinguished in
light of their respective sphere of occurrence, their impact and their time scale. Natural
climate forcing are listed by Casper (2009) and duly mentioned in the IPCC 5th assessment
report (2013) as fluctuations in the Earth’s orbit, changes in oceanic circulation thereby
affecting their ability of heat transportation, volcanic eruptions, variation in Sun’s radiation
owing to Sun’s natural cycle, and concentration of trace gases in atmosphere. Variation in
Sun’s energy output, volcanic eruptions and human caused increase concentration of
greenhouse gases are external forcing; while, others like oceanic circulation, continental
movements, volcanic eruptions and atmospheric composition are climate dynamics that
occurred within the Earth’s climate system (Bloom,n.d.) These distinctions are listed in detail
by different environmental website including Arnold J Bloom’s (n.d) description of various
natural forcing distinguishing them from human factors with respect to their impact on
Earth’s climate from outside and within the Earth’s system. Climate changes at different time
scales to different forcing and corresponding responses are conditioned by time. The time
scale ranges from millions of years to the minimum of one year (Rafferty, 2011; Forcing of
climate change, n.d). Apart from external and internal determinants, climate forcings are
33
distinguished in the light of their impact on radiative budget, whether it is direct, indirect or
non-radiative in character (Radiative forcing of climate change, 2005).
Equally significant are the human induced changes to climate change. Human civilization is
drastically changed since industrialization. Though having insignificant ‘metabolic’ impact,
it is the cultural and economic life of man which is believed to have immense pressure on the
atmosphere, and responsible for altering it (Rafferty, 2011). Combustion of fossil fuels and
biomass changes atmosphere gaseous makeup with emission of greenhouse gases,
particularly CO2 (Archer, 2007). Similarly, changes in Earths’ vegetation cover affects its
reflective capacity making it absorbing and retaining more of Sun’s light. Scientifically
confirmed natural greenhouse effect has a drawn conclusion that rising concentration of
greenhouse gases enhances atmospheric opacity to thermal radiation, thus increasing surface
air temperature. Earth radiation budget is a balance of incoming solar radiation with the equal
amount of reflected thermal radiation. However, natural greenhouse effects owing to
atmospheric gaseous composition make this balance life favorable by retaining outgoing
radiation (Houghton, 2009). However, remarkably increased concentration of the greenhouse
gases since industrialization has undermined this life sustaining balance. The distinctive
differences are highlighted in a comprehensive chart.
Figure 4 Conceptual structure of climate forcing and feedback
Source: Radiative forcing of climate change (2005).
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2.9.1 Climate Feedback Mechanism
Climate feedback involves an “initial change” prompting another change which further
influences the earliest one (Silver, 2008). Positive and negative feedbacks are distinguished
from each other with respect to their effect (Gilman, 2009; Pidwirney, 2010; Rafferty, 2011).
Positive feedbacks maximize the original change, characteristically disrupting and enhancing
the imbalance. However, negative feedback is more of redressing and rectifying measure
which lessens the impact of the original change and restores balance and stability.
Positive and negative climate feedback with their intricate impact are highlighted and
considered significant in determining the future prediction and impact of climate changes
(Rafferty, 2011; Dessler, 2012). Silver (2008) and Scott (2011) list several positive and
negative feedbacks and the complex cause and effect relationship of them. The positive
climate feedbacks encompass rise in atmospheric temperature that affect various climate
variations. And these changes induced by high temperature further enhance the atmospheric
temperature. The glacial ice and snow melting as a result of temperature rise turns the Earth’s
surface less reflective and more retentive of heat, a phenomenon termed as ice-albedo effect
(Sawaya, 2010). Similarly, forests replacing tundra reduces Earth’s reflectivity and releases
methane, a high absorption greenhouse gas, as a result of permafrost melting (Rafferty, 2011;
Dessler, 2012). In the same fashion, rising temperature contributes huge water vapors, a
vibrant greenhouse gas, leading to more absorption of the reflective sunlight (Dessler, 2012).
Rising droughts lead to plants decay which releases the stored CO2 and reduces its
absorption. Temperature rise especially oceanic warming reduces their capacity of the
absorption of CO2 (Silver, 2008; Rafferty, 2011). Warm oceans with less CO2 absorption
means more of CO2 stay in the atmosphere contributing to temperature rise. Silver(2008)
signifies that “glacial decent” into lower altitude and erosion of glacial ends termed
“tongues” further expedite the ice melting process. All these examples rendered are explicitly
explaining positive feedback phenomenon of how one atmospheric change initiates another
one which further accelerates the primary change.
In contrast, negative feedback involves all those dimensions of initiated changes, which
reduces the impact of the earlier change and restores the balance. Silver (2008) elucidates
35
that enhanced temperature results in more water evaporation and cloud formation which
works as effective reflective agent. Similarly, rising temperature with equally enhancing CO2
promotes plants growth through photosynthesis and thus absorbs the excessive amount of
CO2.
Radiative forcing is a mechanism developed for comparative assessment of different factors
affecting Earth’s temperature and climate to measure energy imbalance (Radiative forcing of
climate change, 2005). Houghton (2009) considers it a change in ‘average net radiation’ at
tropospheric top mostly attributed to changes in atmospheric composition of greenhouse
gases. Rafferty (2011) terms it a measure to determine the impact of a climate factor on the
‘downward directed radiant energy’ upon the Earth’s surface. Radiative forcing, a measure to
determine disruptive tendencies of the Earth-atmosphere energy balance is dependent
primarily on variations in Sun’s energy output to Earth, corresponding reflectivity of Earth
i.e. albedo, and longwave radiation to space or concentration of greenhouse gases(IPCC,
AR4,2007). Silver (2008) highlights radiative forcing self-explanatory. Radiative derives
from the fact that these changes would have an impact on the balance Sun’s energy output
and Earth reflected energy, while forcing signifies ‘how a particular influence’ affects
climate. IPCC AR 4(2007) declares ‘forcing’ as ‘pushing away’ of this radiative balance. In
sum, Radiative forcing, a measure to determine disruptive tendencies of the Earth-
atmosphere energy balance is dependent primarily on variations in Sun’s energy output to
Earth, corresponding reflectivity of Earth i.e. albedo, and longwave radiation to space or
concentration of greenhouse gases. The underlying understanding is that anything effecting
radiation balance in the atmosphere would force or initiate change in global climate turning it
warm or cool. Radiative forcing, thus, is the net difference in absorption and respective
emission of radiation in the Earth-atmospheric system. Dessler (2012) signifies radiative
forcing as a common metric in order to measure and evaluate effects of different
perturbations to climate system. Radiative forcing could be either positive or negative.
Positive forcing leads to an increase in the net energy contributing to warming of the
atmosphere; while negative forcing leads to decrease in this energy leading to cooling (IPCC,
AR4, 2007). Radiative forcing or radiative imbalance, the loss or gain of energy between the
Earth and Sun is measured with a standard unit of watts per square meter (W/m2) (Gilman,
2009; IPCC, AR4, 2007).
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2.9.2 Earth’s Atmosphere: Structure and Composition
Before evaluating the radiative forcing of the natural and human induced climate forcing
including the feedback mechanism, it is important to understand Earth’s atmosphere which
characteristically make it different from the rest of the planet. Earth would not have been a
‘goldilocks planet’ with a moderate temperature without its characteristically distinguished
atmosphere. The structure and composition of atmosphere is having a consequential
importance with major effect on climate variability.
Atmosphere, as a ‘dynamic fluid’ acts along ocean as a heat engine in transferring uneven
heat distribution received more at low latitude (Rafferty, 2011). The intricate complexity and
underlying multiple variables has earned its study a holistic approach, Earth system sciences,
relying on ecology, geology, climatology, oceanography, glaciology and social sciences.
Atmosphere is a complicated uneven frame1 composed of multiple absorbing agents and
different inconsistent layers of varying temperature (Tomecek, 2012). Graedel and Crutzen
(1993) distinguishes atmospheric regions the troposphere, the stratosphere, the mesosphere
and the thermosphere from their boundaries as the tropopause, the stratopause, and the
mesopause. Of the regions, stratosphere and troposphere are the most susceptible to
temperature fluctuations as well as natural and human emissions. The lowest layer
troposphere characterized as ‘most dense and turbulent’ is home to all the weather activities
(Tomecek, 2012). Temperature intensity decreases with elevation in troposphere. This
temperature change with latitude is significant to understand climate activities in troposphere
(Graedel & Crutzen, 1993). Stratosphere with a height of about 30miles (48km), including
ozone layer, embraces increase in temperature with elevation (Tomecek, 2012)
Atmospheric temperature structure is dependent on emission and absorption of radiation
(Graedel& Crutzen, 1993). Graedel and Crutzen attribute tropospheric heat received from
1 For further study of atmosphere and its different layers in intricate relationship with temperature and air pressure following sources can be consulted: Vertical structure of the atmosphere (n.d). Oklahoma climatological survey. Retrieved 16April, 2012 from http://okfirst.mesonet.org/train/meteorology/VertStructure.htmlFearing, J. (2003). Layers of Atmosphere. Retrieved 15March,2012 from http://www.geosociety.org/educate/LessonPlans/Layers_of_Atmosphere.pdfJeffery, M.(n.d.). Global warming causes stratospheric cooling. Retrieved 15 March, 2012 from http://www.wunderground.com/resources/climate/strato_cooling.asp
37
below to water vapor and CO2, most significant greenhouse agents are in bulk present at
atmospheric base, troposphere, and their concentration decreases with higher altitude. This
explains increased temperature at the troposphere, a home to every climate activity.
Stratospheric temperature rise is attributed to presence of Ozone absorption of ultraviolet
rays. In sum, temperature is not uniform in the vertical structure of the atmosphere.
Figure 5 Atmospheric layers
Source: The vertical structure of the atmosphere (n.d.)
Maintaining a balanced equation of the incoming Sun’s energy and reradiated outgoing
energy is disturbed not by mostly concentrated Nitrogen 78% and Oxygen 21% in the
atmosphere; they are transparent to the outgoing and incoming energy (Rafferty,2011;
Siver,2008; Graedel & Crutzen,1993). Significant contribution to global warming is rather
assigned to “molecules more complex and less common” like water vapour, and CO2 (IPCC,
AR4, 2007; Houghton, 2009). Diatomic nitrogen and oxygen, Argon and water vapor
constitute 99.95% of the atmosphere (Dessler, 2012). Of these water vapor works as a
greenhouse gas. It becomes part of the atmosphere through evaporation and removes through
precipitation. Human emissions are not directly acting as its source. The remaining 0.05%
forms greenhouse gases of which CO2 constitutes major part with its 0.039%. The
concentration and impact of the greenhouse gases are not uniform. CO2 is measured 390ppm,
38
CH4 1.8ppm, and N2O 0.3ppm. Methane, ozone and Halocarbons with their least
concentration work as very potent greenhouse gases. Desonie (2008) and Rafferty (2011)
state that zone concentration and usefulness varies from near the surface of the Earth to
stratosphere. Stratospheric ozone is termed ‘good’ as it stops harmful Sun’s ultraviolet
radiation. Ozone presence in the lower atmosphere is considered bad as it results is life
constraining leading to various breathing problems.
Figure 6 Composition of gases in the atmosphere
Source: Tomecek (2012)
Atmospheric greenhouse gases despite their insignificant atmospheric volume plays critical
role in governing Earth’s climate. Their concentration and potency varies which distinguish
them from each other. Similarly greenhouse gases interaction with feedback mechanism, a
highly complex phenomenon, is important. Knowing the influence of these greenhouse gases
helps and determines policy formulation for effective control. Therefore, the significance of
greenhouse gases and their role in current global warming would be discussed in detail in the
following pages. However, it is important to understand other significant factors traditionally
responsible for climate variability. This would enable us to attribute and determine the
reasons for the current climate change.
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2.9.3 Sun’s Energy and Earth: Solar Cycle and Orbital Variations.
As the Sun and Earth relationship is at the heart of earth climate system, it is quintessential to
explore all its dimensions. Also for the fact that human generated influence on climate could
be properly evaluated and discerned when all the natural sources of climate variations are
assessed on its own.
Every square meter of the earth surface relentlessly receives nearly “1370” W of power in
form of electromagnetic radiation” termed as solar constant; however, since 1978 satellites
measurements of solar output have revealed that solar constant is not exclusively
constant(Silver,2008; Casper, 2009). The Sun energy output keeps changing after every 11
years dependent on the increase or decrease of the sunspots related to Sun’s ‘changing
magnetic structure’ (Graedel & Crutzen,1993; Raffety,2011). The 11.1 year solar cycle was
recognized by Heinrich Schwabe in 1843; however, sunspots and related impacts on solar
output were under observation since times of Galileo (Climate attribution, n.d.). Desonie
(2008) defines them as magnetic storms that appear as dark, relatively cool regions on the
Sun’s surface positively influencing Earth temperature by raising it 0.1 percent after every
eleven years. Silver (2008) and Desonie (2008) have consensus regarding this figure
considering it insignificant. However, Casper (2009), citing NASA scientists, states it to be
0.5 percent increase in solar radiation per decade since 35 years, which if continued could
significantly alter climate. Dessler and Parson (2006) based on the same evidence declare it
‘important’; but least helpful in explaining the rapid warming of the last decades.
As mentioned balancing energy balance is at the core of climate science for maintaining
hospitable environment for life. Paleoclimatology is the study of past climatic variation in the
light of various evidences likes sea sediments, ice cores, and coral reefs (Tomecek, 2012;
Desonie, 2008; Silver, 2008). This analysis has evolved into various theoretical explanations
of climate change. The foremost of them is Earth’s varying orbit primarily in three
characteristic ways: eccentricity, obliquity and precession (Riebeek, 2006). This is termed as
orbital forcing of Earth’s climate. James Croll, a Scottish geologist, was the first to attribute
Earth shifting phases from glacial to interglacial to variations in its orbital eccentricity
around the sun (Rafferty, 2011). The theory was refined further by Serbian mathematician
40
and astronomer Milutin Milankovitch in 20th century. Rafferty referred to orbital variation as
the ‘dominant radiative forcing’ bringing changes in ‘seasonal and latitudinal’ variation in
reception of Sun’s energy with a significant influence on ‘continental ice sheets’. The impact
of orbital variations, finds its support from the ice core data in the Greenland and Arctic
(Riebeek, 2006). The underlying idea is that planetary movements exert pressure on each
other culminating in orbital and axial variations of the Earth’s like eccentricity, the elliptical
changes in the Earth’s orbit, obliquity, the orbital tilt of the Earth’s axis, and precession i.e.
the wobble of the Earth’s axis with respect to Sun. Obliquity affects distribution of Sun
energy, eccentricity or elliptical shape of the Earth’s orbit determines amount of energy
received by it, and precession like obliquity affects distribution of Sun’s energy (Silver,
2008). In sum, it affects energy output of Sun’s to Earth and its respective distribution,
influencing Earth’s Energy budget (Rafferty, 2011) at different times and different locations
(Sliver, 2008). All these variations have a very long time span of thousands of years
(Riebeek, 2006).
Figure 7 Milankovitch cycle
Source: Goldstein (2009)
41
There is a unanimous consensus among most climate scientists that Milankovich’s study
verifies and attributes past climate changes to natural cycles; however, it could not explain
the current temperature rise (Archer, 2007; Riebeek, 2006; Silver, 2008). This drives our
attention to seek explanation for the current global climate change in other sources.
2.9.4 Tectonic Movements and Volcanic Eruptions
Dessler and Parson (2006) term tectonic movements those ‘geological processes’ that shape
continents and mountain ranges and influence their location; thus, transforming the Earth’s
surface. These geological processes are driven by Earth’s internal heat (Graedel & Crutzen,
1993). Graedel and Crutzen show this gradual evolution and transformation of the present
Earth through different phases of history. This transformation entails altering Earth’s albedo
either through reducing ice covered area, or shifting land masses towards the equator leading
to cooling and warming respectively. These changes also influence oceanic bathymetry
(study of underwater depth of oceans., its circulation pattern and expose rocks to weathering
and thus release the stored carbon (Rafferty, 2011).In sum, tectonic movements effect Earths’
radiation budget, global heat transportation mechanism, and atmospheric composition.
Despite these impacts on the Earth climate, tectonic movements are not considered
accounting for the current warming, because of the immense time span involved (Dessler &
Parson, 2006). Continental drifting and shaping of the Earth surface take millions of year,
many centuries, and thus seem not actuating the current phenomenal rise of Earth’s average
surface temperature in the last century, especially since 1970s.
Volcanism like tectonic plates is engendered by Earths’ interior heat (Graedel & Crutzen,
1993) and release dust, ashes and ‘subsurface gases’ like sulphur and CO2 into atmosphere
(Hoyle, 2008). Their influence as a positive or negative forcing, warming or cooling effect,
depend much upon their presence in a particular layers of atmosphere and nature of volcanic
activity(Atmospheric aerosols, 1996). Volcanic eruption to stratosphere turns sulphur into
sulphuric acid aerosols with high reflectivity resulting in enhanced cooling (Borroughs,
2007). Casper (2009) defines these aerosols as ‘small solid particles or liquid droplets’. The
volcanic eruptions at the lower atmosphere may be short lived and absorbent to outgoing
infrared that enhances greenhouse effect; however, the stratospheric sulphuric acid aerosols
42
with cooling impact have a much longer staying duration (Atmospheric aerosols, 1996).
Eruption of Mount Pinatubo in Philippines in 1991 and Mount Tambura in 1815 are the most
cited examples of volcanic eruption impact on atmospheric heat budget (Rafferty, 2011).
Other than regional or global cooling, presence of sulphuric acid results in acidic
precipitation destroying forests and crops (Casper, 2009). This scenario is indeed unfavorable
to developing states leading to food scarcity. Despite significant impact, volcanic eruptions
with all its particles addition into atmosphere is discarded by Dessler and Parson (2006) as a
reason for current climate change because of their short lived impact.
2.9.5 Natural Climate Oscillations
Other than the natural cycles pointed out by Milankovich, there are natural climate
oscillations like El Nino/La Nina Southern Oscillations , irregularly occurring after every 3 to
7 years. Unlike Earth’s orbital variation and solar variation which are forced through
external elements, Southern oscillation is an internal variability depicting the complexity of
Earth’s climate system (Dessler & Parson, 2006). Rafferty (2011) mentions the phenomenon
a major factor for the inter-annual climate variations like floods and droughts. El Nino is a
Spanish term meaning “child”, while La Nina means “sister”; the two are having quite an
opposite impact on equatorial Pacific Ocean (Silver, 2008). Climate oscillation is attributed
to reasons like temperature and climate interaction (Desonie, 2008), to an impact of ‘hot
magma between tectonic plates in Pacific sea floor’ (Hot vents and global climate,n.d.);
while, Graedel and Parson (1993) think that factors responsible for this deviation is still not
well understood. Results of a ‘long term climate pattern’ called ‘southern oscillation’ or most
specifically El Nino Southern Oscillation (ENSO), its two phases El Nino and La Nina, are
not similar in their impact. El Nino results in warming and lead to rise in the surface
temperature while La Nina has a cooling impact resulting in a periodic change to atmospheric
and oceanic circulation. Impact of ENSO on global heat engine or heat transmission is
acknowledged (Rafferty, 2011; Graedel & Crutzen, 1993). Scientists cautiously affirm that El
Nino would become more severe and devastating in its impacts, generating floods and
droughts in different regions; whereas, La Nina would be less severe in its cooling impacts as
a result of continued rise in temperature (Silver, 2008). In a word, global warming is
considered affecting the natural climate oscillation, making it more tilted to the warmer side,
43
with El Nino becoming more disastrous with growing warming. Like ENSO, North Atlantic
oscillations (NAO) significantly alters climate of the northern hemisphere (Rafferty, 2011).
Natural climate cycles and natural climate oscillations reveal that Earth climate depending on
multiple factors, primarily on the solar energy received from the Sun, keeps shifting from
warm to cold. However, there is a growing tendency of dangerously leaning towards the
warmer side of the tilt. Evaluation of past proxy data reveal that natural climate oscillation
like ENSO and NAO contribution to global warming seems undeniable; however, attributing
current climate change to it seems ‘highly unlikely’(Dessler & Parson,2006).
44
PART 11
FIXING RESPONSIBILITY, ADVERSE IMPACTS, BALANCING
MEASURES AND SUSTAINABLE DEVELOPMENT
This part of the science of climate change discusses anthropogenic, human induced, reasons
for climate change. In order to understand anthropogenic factors, distinguished
characteristics of the CO2 –the significantly excessive disruptive human contribution to the
earth’s atmosphere—needs to be highlighted and distinguished in terms of its global warming
potential (GWP). The excessive concentration of human contributed CO2 has disturbed
carbon cycle. To the worst, the man desired development mantra at the expense of
environment has negatively altered land use. After evaluating natural and human reasons for
climate change, a final assessment or verdict based on the models of rising temperature will
help us understand the current climate changes. The excessive concentration of CO2 and
inability of the respective absorbent to absorb it has culminated in adverse climate changes.
The negative outcomes of the climate change are underscored for their respective
repercussions on human life. This discussion will give us an insight into the validity of the
preferred human based solutions: adaptation and mitigation.
2.10 ANTHROPOGENIC CAUSES
Human beings with their negligible metabolic presence are significantly altering Earth’s
climate system through their cultural and economic activities (Rafferty, 2011). Scientifically
confirmed natural greenhouse effect has a drawn conclusion that rising concentration of
greenhouse gases enhances atmospheric opacity to thermal radiation, thus increasing surface
air temperature (Houghton, 2009; Desonie, 2008; Silver, 2008; Dessler, 2012). Earth climate
relying on Earth radiation budget, a balance of incoming solar radiation with the equal
amount of reflected thermal radiation, is favorably altered in natural greenhouse effect as
retention of reradiated light by atmosphere. However, remarkably increased concentration of
the greenhouse gases like CO2 as revealed through Keeling curve since industrialization has
dangerously undermined this life sustaining balance. Human activities like combustion of
45
fossil fuels, deforestation, changes in land use that affected its ‘vegetation cover’, rice
cultivation, cement production, are all those various reasons of enhancing greenhouse gases
like CO2 and CH4 concentration and also adversely affecting Earth’s
reflectivity(Dessler,2012; Rafferty,2011). Similarly, machines driven life with inventions like
refrigerators and air conditions are releasing man made chlorofluorocarbons (CFCs), very
potent greenhouse gases(Desonie,2008; Silver,2008). CFCs are pointed as stratospheric
ozone depleting substances affecting incoming solar radiation, and a strong absorber of
reradiated light from the earth in the troposphere. Natural greenhouse effect and ozone layer
both make life possible by providing conducive temperature and stopping ultraviolet
radiation respectively(May & Caron, 2009).
2.10.1 Greenhouse Gases: Characteristics and CO2 Distinction
Altering atmospheric gaseous composition through addition of greenhouse gases is critically
significant. Our discussion on atmosphere, its structure and composition, greenhouse effect
and enhanced greenhouse effect has drawn us to a conclusion that despite 0.05% of the dry
atmosphere, greenhouse gases are the most significant players when it comes to climate
change. The favorability of the Earth climate is attributed to greenhouse gases (Desonie,
2008). Their potential to absorb reradiated light from the earth make it warm; however,
increase in the atmospheric concentration of these greenhouse gases enhance atmospheric
capacity to capture more heat turning natural greenhouse effect into global warming.
Greenhouse gases are not uniform in their characteristics and their influence (Goldstein,
2009). Global warming potential (GWP) of a gas is determined based on its ability to absorb
infrared light, and its concentration and residence time in the atmosphere (Silver, 2008).
Global warming potential (GWP) is a radiative forcing measure of a greenhouse gas in
relation to the same amount of CO2. CO2 key position of a measuring standard is because
human primarily contribute it in comparison of the rest to the atmosphere. Equally significant
is its distinguished character of acting either as a climate forcing or climate feedback agent
(Rafferty, 2011).
Atmospheric gases have different capacity of absorption. As mentioned, Nitrogen and
Oxygen, despite their greater volume of 99 percent, are transparent to infrared. Water vapor,
46
CO2, CH4, and N2O are all natural greenhouse gases capable of absorbing infrared light or the
reradiated light from the Earth contributing to natural greenhouse effect (Houghton, 2009).
Over the years, scientists discovered other man made greenhouse gases like
Chlorofluorocarbons (CFCs), Hydrofluorocarbons, Perfluorocarbons, Sulfur hexafluoride,
used for multiple purposes such as cooling agent in refrigerators (May & Caron, 2009).
These greenhouse gases have different impact based on their above mentioned attributes:
absorption capacity for infrared light, concentration and staying duration in atmosphere, and
whether it works as a climate forcing or feedback. Goldstein (2009) gives a table with
comparison of these greenhouse gases in light of their sources, impact, concentration,
lifespan and current level since industrialization. Knowing the influence of greenhouse gases
determines and helps in policy formulation for effective control (Raffety, 2011).
Figure 8 Characteristics and changed concentration of atmospheric gases
Source: Goldstein (2009)
CO2 despite much concentration than CH4, N2O, Chlorine and fluorine bearing compounds
are less absorbing than the latter, termed as ‘energy sponges’ (Silver, 2008). Other than the
absorption potential, “residence time” and atmospheric volume of greenhouse gases are
different from each other, determining their impact. Methane is quickly eliminated, CFCs are
stable; and CO2 takes the natural carbon cycle for its removal. Similarly, Nitrous oxide and
CFCs have high staying power but much less concentration than CO2 (May & Caron, 2009;
Goldstein, 2009). The global warming potentials of all the gases are compared to CO2 and
47
thus significantly termed as carbon dioxide equivalents (CO2e) (Silver, 2008; May & Caron,
2009). In sum, it is not only the quality (absorption potential and life span), but also the
quantity (volume) of the gases that determine GWP of the atmospheric gases.
The defining attribute of a greenhouse gas as a climate forcing or a climate feedback agent,
the initiator of a climate change or a response to it respectively, also determines its impact
(Rafferty, 2011). Water vapor despite its potency primarily acts as feedback (Goldstein,
2009). Human activities not directly but indirectly influence concentration of atmospheric
water vapor, not “freely vary”, but through a chain of linking effects (Rafferty, 2011). CO2
concentration increases heat trapping capacity of atmosphere by capturing long-wave
radiation, thus further rising temperature. Increased temperature resulting in more water
evaporation leads to more water vapor. Water vapor dependence on CO2 concentration in the
atmosphere makes the latter critically important in driving climate change. Pidwirny (2010)
further signifies and distinguishes CO2 by terming it potentially far more effective receptor
and retainer of infrared than water vapour despite the latter being most abundant of
greenhouse gas in atmosphere. CO2 is more susceptible to infrared wavelength. This turns
rising concentration of CO2 a major disruptive climate forcing agent.
High concentration, enduring atmospheric life span of at least a century, remarkable
sensitivity and receptivity to the infrared radiation, and a primary forcing agent as a
greenhouse gas are not the only attributes that distinguish CO2. Archer (2007) highlights the
indispensible link of carbon, energy and climate. Archer considers carbon at the root of our
energy production, driving our current human civilization. The intricate and complex
interdependent process of CO2, energy and climate, an essence of our life system and present
energy production, initiates when Sun’s energy is used by plants in Photosynthesis for their
growth by absorbing CO2 and releasing of Oxygen. Plants after being fossilized become
major source of stored carbon energy that drives our industries, transport, and even modern
agriculture for fertilizers demand and consume considerable energy for their production. This
energy production process from the fossils release stored carbon back into atmosphere which
on reaction with atmospheric oxygen becomes carbon dioxide (CO2). This completes a whole
cycle of carbon moving from one reservoir to another. Understanding this carbon cycle is
quintessential for the proper grasp of the current climate perturbations. CO2 emissions with
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57% ratio from fossil fuels stand largest of the entire anthropogenic greenhouse contribution;
whereas, more than 19% of its emissions are attributed to factors like deforestation and
unfavorable land usage (Silver, 2008). Silver mentions that that this makes CO2 80% of the
greenhouse gases injected into atmosphere.
2.10.2 Carbon Cycle
Carbon is the essence of human life and an indispensable element of his current civilization.
Almost 50% of our dry weight is carbon (Understanding the global carbon cycle, 2009).
Equally significant is its role in global climate change. Constituting fourth major part of the
universe, it intricately flows from one reservoir, like atmosphere, rocks and oceans, to
another in a cycle maintaining a life sustaining balance (Riebeek, 2011). The exchange
occurs through process of intake like photosynthesis and released through respiration and
decay (Silver, 2008; Rafferty, 2011). Carbon cycle moves 100Gt of carbon among its various
reservoirs: land, ocean, rocks and atmosphere. Almost the same amount is absorbed by
oceans (Dessler, 2012). This carbon cycle is interlinked with oxygen and nitrogen cycle
(Rafferty, 2011). The extended carbon releasing sources are mentioned as production of
cement, incapacity of warm water to dissolve and hold CO2, volcanic eruption, deforestation
and fossil fuel combustion (Global carbon cycle, 2011). Combustion of fossil fuels is like
respiration process producing CO2 and energy (Dessler, 2012). Inequality in the intake and
release through the mentioned processes would result in carbon increase either on land or
atmosphere (Silver, 2008). Carbon concentration in any reservoir would upset this balance,
making life vulnerable, as witnessed in its atmospheric excess at Venus (Riebeek, 2011).
2.10.3 Oceans and Carbon Cycle
The most significant role in carbon regulation is played by ocean. It principally works as
distributor and transporter of heat as well as primary storage of CO2 (Vallis, 2012). As
mentioned earlier, the uneven distribution of atmospheric heat at poles and tropics initiates
heat transportation through ocean and wind currents from equators to poles and from low to
high latitudes respectively. Ocean currents are of two types: surface currents that constitute
10% of the ocean waters, and thermohaline circulation consisting 90% of the rest of water.
49
Thermohaline as elaborated by Desonie (2008) is derived from the word thermo meaning
heat and haline that stands for salt.
Herring (n.d.) elaborates physical and chemical interaction of atmosphere and oceans.
Physically, energy is transferred and stored in the form of heat through ocean with this
exchange dependent upon atmospheric temperature. This significant task of regulating global
heat has earned oceans the title of ‘global heat engine’. The chemical interaction of the
atmosphere and oceans is at the root of regulating climate change with latter being
understood as source as well as sink of greenhouse gases. Oceans release evaporated water, a
potent greenhouse gas. However, water vapor on transformation becomes clouds with a
cooling impact. Oceans regulate CO2 between atmosphere and itself and its upper and deeper
levels. Solubility and biological pump are those oceanic processes that regulate CO2
(Rafferty, 2011; Houghton, 2009). Solubility pump moves absorbed CO2 between upper and
deeper ocean and settle them there; while biological pump relies on oceanic life like
phytoplankton through process of photosynthesis for CO2 storage.
Houghton (2009) and Silver (2008) highlight differences of ocean and land with respect to
their absorption and response. These differences play major role in determining Earth’s
energy balance. Although 90% of the Sun’s energy is absorbed by the oceans, yet there is a
slight rise of 0.1° C since last few decades in their temperature. Silver attributes it to water
inherent quality, for it requires more heat “to change the temperature of a given mass of
water” than air and rock. Oceans major influence as a huge source of CO2 absorber is
reducing the actual warming because of its slow reaction in the whole process termed as
climate time lag (Pidwirney, 2012). This has evolved into the concept of ‘committed
warming’ or warming ‘in the pipeline’ signifying warming which could not be stopped
(Dessler, 2012). Oceanic attributed thermal inertia of climate does not mean that the radiative
imbalance is restored, stopped or not happening; rather, it is gradual in impact (Pidwirney,
2012).
2.10.4 Enhanced Concentration of CO2 and Other Greenhouse Gases
Modern man since industrialization and technological revolution has drastically exploited
nature in pursuit of high standard living. Human unsustainable exploitation of resources like
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fossil fuels combustion, activities like deforestation spree, sprawl of urbanization, and related
changes in land use have perturbed delicate balance of carbon cycle (Understanding global
climate change; Rafferty, 2011). This resulted in releasing the stored greenhouse gases
especially CO2, eliminating their sinks or transforming them into sources. We are relying on
fossil fuels like coal, oil, and gas derived from organic matters preserved through ages for the
production of energy. Carbon is an essential component of all the fuels except hydrogen, thus
their burning produces CO2 (Silver, 2008). This dramatically enhanced CO2 atmospheric
concentration with 35% more than it was 150 years ago, releasing 7.2gega tons (7.2 billion
tons of it from the year 2000 to 2005 alone (Silver, 2008). Its concentration rose from pre-
industrial 280ppm to 369 by the end of 20th century and expected to reach 560ppm till the
mid of 21st century in the presence of continued CO2 driven global economy(Rafferty, 2011).
Continuous digging, pumping and burning of fossil fuel have increased atmospheric heat
trapping gases (Gilman, 2008); CO2 concentration increased by 30% while the other two
significant greenhouse gases, methane by 150 % (Casper, 2009) and N2O atmospheric
presence increased 15% respectively( Casper,2009; Geerts & Linacre, n.d.). Geerts and
Lincara consider that the ratio of Methane has increased by 145%. Sliver (2008) considers
this increased volume of CO2, 387ppm and CH4, 1774ppb in light of 2005 data respectively
as the highest observed in the last 650,000years. The radiative forcing incurred by different
greenhouse gases is not found uniform in different sources as shown in the following table..
Table 2 Radiative Forcing of atmospheric gases
Greenhouse gases Radiative Forcing: W/m2
Carbon Dioxide 1.79
Methane 0.50
Tropospheric Ozone 0.35
Nitrous Oxide 0.18
Source: Blasing (2012)
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Radiative forcing of fluorinated carbon is mentioned 0.34W/m2 in Rafferty (2011). Rafferty
mentions estimated positive radiative forcing of greenhouse gases as 2.3 W/m2. As seen
CO2 impact is comparatively stronger to rest of the greenhouse gases. Houghton (2009)
further confirms this understanding with CO2 having 72% added greenhouse effect, methane
(CH4) 21% and Nitrous oxide (N2O) almost 7% till date.
2.10.5 Land Use Change
Equally significant but not exhaustively explored contributing phenomenon to climate
change is the changes in land use since industrialization. Environmental transformation could
be largely attributed to man’s changed use of land in the form of intensely forced agricultural
production involving slash and burn deforestation and urbanization sprawl to accommodate
burgeoning population. IPCC (5th AR, 2013) terms changes in land use undeniably important,
but not primarily responsible. These changes result in altering Earth energy budget by
affecting the emissivity, defined as ability of a particular object to retain or emit heat
(Casper, 2009). This reflective tendency of a surface termed albedo is defined as that amount
of incoming light that is reflected back to space(Archer, 2007). This reflected radiation enters
into space without changing its wavelength (Burroughs, 2007). Silver(2008) distinguish
various surfaces from each other in terms of their reflective capability as albedo is not found
uniform, with ice reflecting 90% of the sun’s light and the remaining 10% is absorbed by the
oceans. Similarly, forest-covered lands are more reflective than barren surfaces (Archer,
2007; Silver, 2008; Casper, 2009). Reflective tendency is not limited to surfaces: presence of
clouds, contrails (cloud-like path left by airplanes), and aerosols (suspended particles in the
air) are all those elements which affect albedo capacity, undermining Earth’s energy
equilibrium and contributing to global dimming (Desonie, 2008).
Man’s changed uses of land are attributed to direct and indirect anthropogenic effects.
Measures like deforestation, afforestation and urbanization are direct anthropogenic factors;
while, man’s addition of greenhouse gases especially CO2 and its corresponding effects on
vegetation cover is an indirect effect of human activates. To Casper (2009) land use change
and atmospheric composition are evidently related as unwise forests destruction, burn and
52
trash policy to create cultivable lands, not only decrease surface albedo but also release
stored carbon into atmosphere, which in combination with oxygen turns into CO2.
The age of industrialization initiated modernization and resulted in phenomenal urbanization.
The most vital sign of urbanization is the concrete production, a significant source of CO2
production (Graedel & Crutzen, 1993). Towns with speedy transformation into skyscrapers
are contributing CO2 through production of cement as limestone (CaCO3) on its combustion
produces calcium oxide and CO2 (Silver, 2008). Obviously, the heat involves in the process
largely relies on the use of fossil fuels. The cement habitat of urbanization is absorbing more
Sun’s energy and therefore contributes to local climate warming—a phenomenon termed
urban heat island (Desonie, 2008). This heat island effect may have least effect on global
average temperature; however, it is assumed to influence accuracy of temperature recording
(IPCC 5th AR, 2013). Urbanization and industrialization have gone ‘hand in hand’
(Pickvance, 2006). Urbanization is taking a heavy toll on natural vegetation and forests
destroying carbon sinks and senselessly transforming natural ecosystem into man managed
environment with serious repercussions (Silver, 2008).
Impacts of changes in the land use are not easy to assess; however, leading author on the
study, Dr, Roger Pielke Sr, considers them potentially vital than the altogether influence of
anthropogenic greenhouse gases (Kirby, 2002).
2.11 FIXING THE RESPONSIBILITY
Apart from the inadequacy of the natural forcing to explain current global warming, there are
other plausible reasons which attribute it to anthropogenic factors. In the first place,
simultaneous rise of CO2 with corresponding increase in surface air temperature evidently
establishes a link between the two (Rafferty, 2011). Dessler (2012) distinguishes added
carbon to atmosphere as ‘radiocarbon dead’ which is the result of fossil fuels combustion
since industrialization. A worthy proof of human induced rise of atmospheric CO2 is evident
from the marked difference of the South and North contribution in the matter (Silver, 2008).
North is extensively industrialized with huge reliance on fossil fuels, south is a developing
53
region, and thus more of CO2 is released by the earlier. The following figure shows this
marked difference of the two.
Figure 9: CO2 difference of the Northern and Southern hemisphere as overall
concentration increases.
(Source: Silver, 2008).
This difference of CO2 concentration has affected corresponding temperature rise in the two
regions as shown in the following figure.
54
Figure 10 Northern hemisphere temperature anomaly since 1300 years
(Source: Silver, 2008)
However, most importantly there seems unanimity among climate scientist regarding current
climate change on a point that the evaluated data with the help of simulated models are
unable to explain current unprecedented temperature rise since mid-twentieth century without
taking into account human induced factors (Pittock, 2009; Silver, 2008; Rafferty, 2011;
Desonie, 2008; Dessler & Parson, 2006; Henson, 2008; Hall, 2008). Dressler and Parson
(2006) and Henson (2008) reproduce IPCC graphic details of different sources of climate
change in the twentieth century. Characteristic rise in atmospheric temperature particularly
since 1970s could not be understood if the human induced factors, in which major role is
attributed to emission of greenhouse gases, are not taken into account. Climate models
explaining recent warming trends proved futile when they evaluated it only in light of the
natural reasons or human responsible factors. A judicious incorporation of both the natural
and human induced factors of climate change in the climate models irrefutably establishes
that rise in greenhouse gases, 27% since industrialization and generated due to human
activities, have played a significant role in climate change (Desonie, 2008). Natural forcing,
anthropogenic ones and a combined impact of the two are shown in fig, with last one
explaining it affectively.
55
Figure 11 Simulated annual global mean surface temperatures
Source: Dessler & Parson (2006).
Despite substantially compelling evidence IPCC cautiously evolve its present stance on
climate change. The understanding that humans are primarily responsible for the global
warming was initially acknowledged with reluctance. Reservations could be discerned from
the prudent use of adjectives describing climate change and the possible human responsibility
for it. Desonie (2008) gives an interesting account of how Intergovernmental Panel on
Climate Change (IPCC) cautiously used different terminologies to acknowledge human
induced climate change. IPCC, established by UN in 1988, has moved gradually in
strengthening its conception of the human induced climate change. In its first meeting in
1990 they termed human emissions of greenhouse gases as “likely” factor of the global
56
warming. The second meeting in 1995 declared the man’s contribution to global warming as
“discernable”; while, the third meeting in 2001 termed temperature rise “attributable” to
human emissions. Silver (2008) states that fourth IPCC meeting was characteristically
unambiguous in its stance as 90% of the climate scientists unequivocally made human
activities overwhelmingly responsible for global climate change.
2.12 ASSESSING IMPACTS: CLIMATE MODELS AND UNCERTAINTY
Earth in its 4.55 billion-year history witnessed extreme climate variability with more intense
temperature and 4-6 m rise to current sea level (Desonie, 2008). However, the alarmingly
unprecedented rapid pace of current climate change with least time for adaptation is
unsettling today’s human civilization with its agriculture and settlement patterns (Dessler &
Parson, 2006; Silver, 2008).
The IPCC in its 2007 report termed happening of global warming “unequivocal” and
attributed it “with high confidence” to human activities, considering CO2 as the “single most
important” factor for rising temperature (Silver,2008). The IPCC 5 th Assessment Report
(2013) validates these understanding with greater certainty. Dessler and Parson (2006) list
various impacts of global warming like extinction of many animals and plants, limiting
availability of food, medicines and construction materials. The most evident impacts of
global warming are melting ice caps and glaciers, seasonal changes with disastrous influence
on plants and animals’ life cycle, devastating floods, intense heat waves, and catastrophic
hurricanes to which our world is more prone today than it was at the beginning of the 20th
century (Desonie, 2008).
Climatologists understand climate change implications through climate models. Climate
model is defined by Silver (2008) as “a mathematical description relating physical, chemical
and biological patterns of the system” exploring cause and effect relationship and impact of
feedback. Prediction about future emission depends upon multiple factors (Dessler &
Parson, 2006; Houghton, 2009). Dessler and Parson (2006) highlight them like population
growth and resulting human unsustainable activities, the energy reliant expansion of the
world economy, technological innovation that could either decrease or increase emission
57
ratio; and government policies affecting any of the mentioned factors like population
increase, energy exploitation and consumption, and technological development. Equally
significant is the influence of systemic changes or radical transformation in the form of wars,
epidemic outbreak and political and economic upheavals. Dependence on multiple factors
including atmospheric science and our insufficient knowledge leads to complexity and
uncertainty about future emissions, undermining its exact accuracy (Dessler & Parson, 2006;
Silver, 2008).
IPCC, acknowledging limitations of climate models, esteems them for their working on
globally accepted principles of physics to simulate past and current climate changes (Metz,
2010). Houghton (2009) considers it appropriate to call it projections rather than predictions.
To overcome uncertainty, scientists respond with a set of scenarios, ‘a fairly wide range of
possible future’ (Dessler & Parson, 2006). A set of scenarios is a set of assumptions
regarding the main factors responsible for emissions (Metz, 2010). However, climate models
are considered reliably effective for longer duration, larger areas, and for measuring
temperature rather precipitation (Dessler & Parson, 2006; Rafferty, 2011).
2.12.1 Temperature Rise
There is an unequivocal consensus that the existing build up in concentration of CO2 would
keep Earth warm even if we return back to the emission ratio of pre-industrial era. Svante
Ahremius initiated the process of evaluating the relationship of increase of atmospheric CO2
and possible atmospheric change and quantifies that doubling of CO2 level could result in a 5-
6°C (7-9°F) temperature of the earth (Silver, 2008). However, this temperature is less today
because of the presence of aerosols (Metz, 2010). Several estimates have been rendered since
then by many climate scientists. However, despite uncertainty regarding its magnitude,
continued warming is an accepted projected phenomenon (Dessler & Parson, 2006). Best
estimated rise of global average temperature for year 2100 ranges from 2-4°C; however, if
uncertainties regarding feedback and future emissions included, it could be from 1-6°C
(Houghton, 2009). It is supposed to be enormously large in comparison to the observed
temperature variation in the past. Reduced cold days and nights in the last 50 years, and
intense European summer witnessed in Europe 2003 claiming hundreds of lives are cited as
58
evidence to rising temperature (Metz, 2010; Henson, 2008). Temperature rise would not be
uniform with variation in warming intensity different to region, area, timing and season
(Dessler & Parson, 2006). The expected extreme warming in Arctic and sub-arctic region
resulting in effects like thawing of permafrost, sea ice thinning, unsettling marine life and
eroding coastlines are witnessed with alarming influence on the region. However, rising
temperature with enhanced growing season will make regions like Siberia, Scandinavia or
Northern Canada very favorable for cultivation of multiple crops (Houghton, 2009).
2.12.2 Glacial Melting
Climate scientists around the world have highlighted implications of climate change. These
effects are broadly divided in respect to atmosphere, hydrosphere and biosphere. Silver
(2008) elaborates several evident signs of global warming, specifically glacial melting all
around the world. The most significant impact of rising temperature is the loss of world
glaciers. Measuring impact on glacier is a consistent scientific evaluation of “accumulation”
(ice mass gaining) and “ablation” (ice mass losing): the latter is observed since the little ice
age (around 1850); however, glaciers are receding with remarkable speed since last few
decades (Morgen, 2003). Scientists believe that the enormous loss of sea ice is inexplicable
without taking into account the human propelled greenhouse gas emissions (Desonie, 2008).
Archer (2007) categorized frozen water on planet into its various types: sea ice, glaciers, ice
sheet, and ice shelves. Sea ice is frozen water at the sea surface, glaciers are solidified snow
at mountaintops, ice sheet larger than glaciers are available in the form of Arctic and
Greenland, while ice shelves are the receded ice sheet into the water termed by
Desonie(2008) as “thick floating platform of ice” are, however, still attached to it source.
This demarcated division makes it easier to understand ice melting all around the globe.
Global warming and corresponding altered cryosphere (all frozen water) followed by
hydrosphere variations are worldwide observed phenomena (Desonie, 2008; Silver, 2008;
Wallace & Hobbs, 2006). Every year there is enhanced fresh melt water into world oceans
resulting in 0.8 mm rise in sea level, receding snow cover by 2 % in the Northern
Hemisphere, and ice covers on world’s lakes and rivers are reduced by 12 days duration in
winter months. Ice covers on world’s 160,000 glaciers are reducing not only in size but in
their thickness (Boyd, 2002). Moreover, permafrost, a high latitude land surface, defined as
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“soil that it frozen year around” (Archer, 2007) is found 7 % less than it was in 1900(Silver,
2008). The enormous change of the ice and snow into liquid water culminating in gradual
permanent loss of ice covering, 10% of the land and 7% of the oceans, is the most potent
undeniable sign of global warming. Glacier melting in the North, both US and Canada, is
evident as believed that Glacier National Park in US could extinct as glacier in future (May
& Caron, 2009; Archer, 2007). Northern hemisphere is having short winter every year and
thus less accumulation and more ablation in warm seasons.
Account of glacial melt across the world at an unexpected rate is alarming. Projected model
elaborates that an approximate 4°C (6°F) rise in temperature would “eliminate” all worlds’
glaciers (Morgen, 2003; Weart, 2003). The IPCC (2001) reported figure as produced in
Archer (2007) largely indicate ice receding of 20 glaciers at a rapid pace; however, recent
graphic details of global glacial melt mentioned in World view of global warming(2005), and
The world’s melting glaciers (2009) speak for the disaster itself. The massive glacial erosion
has resulted in losing an average 6 meter in height since 20 years (Black, 2007).
Figure 12 Average glacial melt, a loss of 6 meter in height in last 20 years
(Source: BBC news, 2007)
Ice accumulation and ablation presents a mixed picture; however, continued loss of ice cover
is unprecedented (Melting glaciers signal global warming, 2001). There are irrefutable
evidences of ice loss in alpine and continental glaciers also termed “ice caps” (Desonie,
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2008); however, glaciers in some mid-to-high latitude have witnessed snow accumulation
(Pittock, 2009). The mixed impact of global warming could be seen in case of Antarctica
(Johansen, 2008). This much larger ice chunk is assumed to possibly contributing 80m rise to
sea level in case of its complete melting, submerging all the world’s major cities (Black,
2007). However, Antarctic reaction to global warming is termed a complex phenomenon by
David Vaughan (Pittock, 2009; Black, 2007). Black (2007) dividing Antarctic shelf into three
portions: peninsula, western belt and eastern part states that the former two is losing while
the eastern mass is gaining in mass. Peninsula is the highly affected part (Johansen, 2008).
Carrington (2010) presenting the catastrophic details of the melting ice terms Earth as a
victim waving a “white flag” against the onslaught of human propelled atmospheric
warming. In elaborating the vital sign of global warming, he mentions that baring of
Kilimanjaro and Pyrenees, swelling lakes in Himalaya, shrinkage of the Greenland and
arctic, (15%) of the former, would have tremendous impacts on environment and human life.
2.12.3 Effects of Temperature Changes in Sea Surface
Oceans with their enormous capacity of heat absorption are assumed to have absorbed 20
times more heat than atmosphere since 1960 that resulted in rising sea surface temperature
(Silver, 2008). Climate changes like rising sea surface temperature and enhanced CO2
concentration would further compound complexity of ocean and atmosphere relationship. As
mentioned, uneven heat distribution is balanced mostly through air and oceanic currents.
Climate changes could disrupt ocean’s CO2 absorption as well as heat distribution capability
transforming it into a source rather than a sink of CO2. (Black, 2007; Herring,n.d). Rising
surface temperature would reduce ocean capacity of CO2 absorption contributing to its
concentration in the atmosphere (Silver, 2008; Rafferty, 2011). Moreover, oceanic acidity
rising with increased CO2 undermines oceanic life, the biological pump, which absorbs and
maintain different level of CO2 in the upper and lower surface (Rafferty, 2011; Herring,n.d.).
Most significantly, freshwater, an outcome of glacial melting, would decline oceanic salinity
that drives thermohaline circulation, a heat distribution engine and solubility pump (Herring,
n.d; Rafferty, 2011; Silver, 2008; Houghton, 2009). Disruption of thermohaline circulation
could result in cooling Northern hemisphere (Riebeek, 2006), bring the high concentration of
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carbon from ocean’s depth to its surface affecting its overall circulation (Herring,n.d); and
thus ultimately transform oceans from sink to source of CO2.
Figure 13 Thermohaline Circulation
Source: Oceans. (2011).
2.12.4 Sea Level Rise
The most certain and alarming results of rising temperature is rising sea level (Dessler, 2012;
Silver, 2008). Silver and Dessler attribute rising sea level to two major factors. The liquid
volume is increasing due to enhanced fresh melt water, accounting for half of the rise in sea
level. The rest of sea level rise is attributed to thermal expansion. Oceans since 1961 have
absorbed almost 80% of the extra heat, raising its average temperature till 3,000m down from
its surface (Tomecek, 2012). Temperature increase results in expansion of liquid water,
increasing its volume. Melting of sea ice and land ice are not similar in their impact (Metz,
2010). Sea ice melting could act as a positive feedback and disrupt natural ecosystem
(Dessler, 2012). Primarily, melting of land ice contributes to rising sea level. Since 1993, sea
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level rise has substantially increased to 3mm per year because of melting land ice and
expansion of warming water (Metz, 2010). However, Tomecek (2012) mentions the rise
since the same period till 2003 to be 3.1mm per year.
Rising sea level and their devastating impacts are pictured in detail by Pilkey and Young
(2009). Sea level rise is projected 0.20m with continued emissions; however, land ice melting
in Greenland and West Antarctic as a result of 3°C rise in temperature could result in 4-6m
rise with devastating implication for life and infrastructure (Silver, 2008). Metz (2010) raises
this mentioned figure by a degree considering it to be 7m.
2.12.5 Water Scarcity: Limited Freshwater Supply
Global water cycle moving within the three reservoirs atmosphere, ocean and land surface is
crucial to human life and civilization (Houghton, 2009). Highlighting freshwater
significance, Metz (2010) states it to be the life line of our current civilization in light of 20%
of world population dependent on glaciers fed rivers. Water use significantly increased,
almost three fold, since last 50 years because of burgeoning population, extensive agriculture
production, rising foods demands, and luxury driven economy (Houghton, 2009). IPPC
declares that climate changes would significantly undermine freshwater availability in some
tropical regions by 10-40% and drifting it away from desperately water scarce areas like
equator (Silver, 2008). However, disparity exists among states regarding the use and
availability of freshwater resources with 1.5 to 2 billion people living in water stressed
countries. Rapid climate changes would intensify hydrological cycle with more floods and
droughts, constrain life of 20% of world population near the river basins in case of flooding,
and decline ground water regeneration and increase its salinity because of sea level rise
(Metz, 2010; Houghton, 2009). Climate changes would not only affect availability but also
quality of freshwater due to intrusion of salinity because of rising sea level (Metz, 2012). By
undermining freshwater availability, climate change would adversely affects life of about 2-3
billion people by 2080 (Metz, 2010). Freshwater sources are mostly shared among different
states and its limitations could spark violent conflicts among them. Former UN Secretary
General, Boutros Boutros-Ghali’s predicts water to be the reason for another Middle East war
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(Houghton, 2009)—the statement signifies pivotal position of water resources in shaping
global political dynamics of war and peace.
2.12.6 Disrupted Hydrological Cycle, Intense and Unexpected Weather Pattern
Global warming is believed to upset hydrological cycle leading to droughts and floods in
different regions (Silver, 2008; Dessler & Parson, 2006; Tomecek, 2012). Unexpected
weather patterns are another notable distressing aspect of rising global temperature.
Destructive hurricanes, intense, longer and violent storms, rampant floods, droughts and heat
waves have increased since 1970s (Silver, 2008; Desonie, 2006; Dessler & Parson, 2012;
Metz, 2010; Tomecek, 2012). Projected intense downpour would be more a runoff leaving
less for earth’s absorption and human storage. Paradoxically, high temperature would
enhance “rain producing moisture” on one end and critically drain water resources of the arid
areas on the other (Henson, 2008). Changed precipitation patterns would make dry areas
further dry and wet areas more wet (Metz, 2010). Extreme wetness would culminate in floods
and landslides, while enhanced dryness because of warming induced evaporation could
disrupt water availability and agricultural productivity. Since 1950s an imminent “drying
trend” has been observed in different areas of Africa, Southern Europe, Southern Asia,
Canada and Alaska (Silver, 2008). The drying spree engulfing areas like Amazonian forests
is leading to huge losses in trees, turning forests from sinks to sources of atmospheric carbon
(Tomecek, 2012). Diaz and Murnane (2008) also subscribe to the idea that rising heat waves
and precipitation are the most notable impacts of human induced climate change. However,
uncertainty exists regarding areas that are more prone to these impacts (Dessler & Parson,
2006; Silver, 2008).
The adverse erratic extreme weather patterns are validated by intense heat waves in Europe
in 2003, Washington’s snowstorms, New York’s tornadoes, Hurricane Katrina, and most
significantly by 2010 floods of Pakistan (Tomecek, 2012). The devastating Pakistan’s floods
overtaking an area of 62,000 sq. miles (160,580 sq. Km), almost the size of England, resulted
in loss of 1600 lives and billions of dollars in infrastructure. Scientists consider all these as
signs of continued disruption in the lower atmosphere. However, despite growing
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understanding regarding extreme unexpected events, Kolbert (2008) cautiously states that
attribution of such events is a difficult task to accomplish.
2.12.7 Biospheric Meltdown
Climate change is creating new environmental conditions which are endangering the survival
of certain species resulting in loss of biodiversity. Biodiversity stands between 10-30 million
of various species—excluding their own peculiar variations within the species—with a
specific climate dependent place and time of origin (Naeem, 2008). This inseparably links
biodiversity and climate.
Metz (2010) and Houghton (2009) elaborate significance of ecosystem, its integrated
character and extended services. It provides multiple economic functions, regulates
hydrological and carbon cycle, and has a cultural importance. These are termed ecosystem
services (Houghton, 2009). Climate induced negative changes would undermine multiple
advantages of ecosystem: limit its potential as a source of recreation, inspiration, provision of
different natural resources, and most importantly as a regulator of atmosphere—oxygen
production and carbon sequestration (Naeem, 2008). Human induced atmospheric rise of CO2
concentration and temperature and extensive transformation of “natural system into managed
system” like conversion of forests in plantation has imbalanced ecosystem, exacerbating
climate changes (Naeem, 2008).
Extreme climate are sometimes considered productive for the development of ecosystem
(Diaz & Murnane, 2008). However, rapid climate transformations would change such
suitable environment termed “niche” by Houghton (2009). Looming survival threats are
witnessed to species like receding alpine system in United States, bleaching coral reef, loss of
golden toad, displacement of African plain tiger, and mangroves system (Dessler & Parson,
2012; Houghton,2009; Silver,2008; Desonie,2008). Climate change imperils biodiversity by
altering living habitat and interrelationship of living organisms forcing their displacement,
endangering their adaptation or leading to their extinction: a process termed by Naeem
(2008) as “biospheric meltdown”, with 50% of world’s species lost till 2050. Every living
species contributes to sustenance of ecosystem and its absence would vitiate its promising
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potential benefits resulting in unpredictable changes. The loss of some species could threaten
the rest because of a holistic character of the ecosystem (Metz, 2010).
2.12.8 Human Diseases
Intensity of weather patterns, severe heat waves, droughts and floods, are having adverse
implications for human life, generating various waterborne diseases (Silver, 2008). Climate
change would enhance widespread presence of standing water breeding mosquitoes. The
changing weather patterns would drive their movements across continents spreading
infectious disease like dengue fever and malaria, possibly spreading them to areas still
immune to them (Metz, 2010). Climate change fosters various ailments primarily respiratory,
cardiac, and nutritional that according to World Health Organization (WHO) could result in
estimated human life losses of 150,000 per annum (Naeem, 2008). These impacts are
understood not uniform, for economically deprived communities will suffer much because of
their inadequate resources (Naeem, 2008, Metz, 2010). Dessler (2012) and Houghton (2009)
point out certain positive effects like reduced number of deaths due to decreased intensity of
cold and disappearance of malaria. However, negative climate change impacts outweigh
positive ones of the phenomenon. Controlling such complex diseases requires effective
preventive measures supported by a unanimous international will.
2.12.9 Socio-Economic and Political Implications
Climate changes like rising sea level and melting permafrost would result in huge losses in
infrastructure, life, and population displacement (Tomecek, 2012). Rising sea level is a
serious threat to the built environment and infrastructure around the coastal areas (Dessler &
Parson, 2012; Houghton, 2009). Silver(2008) drawing a dismal picture states that sea level
rise of 5m would endanger human life causing serious flooding in many of the world’s
coastal regions including major cities like New York, London, Sydney, Vancouver, Mumbai,
and Tokyo. Similarly, melting permafrost would endanger existing infrastructure resulting in
massive economic losses (Dessler & Parson, 2006). Vulnerability to sea level rise is not
uniform. Low lying states and islands like Bangladesh, Netherlands, Maldives and coastal
regions in different countries would significantly suffer (Silver, 2008). Houghton (2009)
considers half of a meter rise in sea level detrimental after mentioning the projected sea level
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rise of 1m till 2030. Coastal regions are populous, extremely fertile, and work as economic
nuclei. Intense storms attributed to sea level rise would further aggravate situation
(Houghton, 2009). Continued rise in sea level is acknowledged and projected despite desired
stable emissions because of extended time lag required for ocean adjustment to temperature
rise (Dessler & Parson, 2012).
Houghton (2009) considers 3% of global GDP, as mentioned in the Stern review, insufficient
to effectively counter impending threats of climate change. In consideration of adverse
impacts of extreme events, the mentioned cost could amount to 1-4% for developed and 5-
10% for developing states. Moreover, evaluating human life losses, massive population
displacement and entail socio-political disruption in governance in terms of financial
equivalents seems injudicious and not possible.
Cultivation and production of crops depend upon expected weather patterns like variations of
temperature and precipitation. Climate variations determine water availability, carbon
concentration, temperature changes, and extreme weather events that subsequently influence
agriculture yields (Houghton, 2009). Metz (2010) particularly cautions against adverse
impact of temperature on agriculture. Climate changes would impacts food availability if
global temperature increases to 3°C. Production for crops like wheat and maize would
flourish subjected to water availability and less than 3°C temperature in temperate zone.
However, temperature rise of 1-2°C would adversely affect agriculture yields in tropical and
sub-tropical regions leading to food scarcity. Houghton (2009) highlights different climate
change impacts on developing and developed states with agricultural production decreases in
the case of former while increases in case of the latter. The declined production could entail
disruptive socio-economic repercussions like unemployment as agriculture is the major
source of income and subsistence in large number of developing states. The adverse effects
would not be limited to agricultural yields, but also projected in poultry, cattle industry and
fishery because of reduced grazing land or grazing and changed pattern of oceanic circulation
respectively (Metz, 2010). Climate change is, therefore, assumed to compromise availability
and production of food; however, such negative impacts are not uniformly shared across the
globe.
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Limited freshwater resources, intense heat and unexpected weather could undermine
agriculture yields, result in food scarcity and forced environmental refugees. Such life
constraints are especially detrimental to developing states, creating or further exacerbating
crises of authority (Viotti & Kauppi, 2007) in presence of their inadequate infrastructure and
financial resources. African agriculture yields would reduce by half till 2020 (Silver, 2008).
Almost similar adverse implications are heralded for most of the Asian region. Losing our
primal agricultural areas could result in serious global food crises. Climate extremes like
recent 2010 flooding in Pakistan displaced almost 20 million people (Tomecek, 2012).
Environmental refugees and resource scarcity subjected to multiple contextual matters would
aggravate existing problems and conflicts especially in developing states (Viotti & Kauppi,
2007). Moreover, limited freshwater supplies could become a major source of conflict among
states where it is a primary source of irrigation and development. In sum, climate could ignite
or intensify intra as well interstate conflicts as a major reason for socio-economic and
political instability, compromising state security. This link between climate change and
national security is explored in Chapter.6 the context of Pakistan.
2.13 SENSITIVITY, VULNERABILITY AND ADAPTABILITY
Assessment of climate changes involves multiple disciplines like social science, physical and
biological sciences and application of diverse methods and tools. Therefore, Houghton
(2009) advocates an ‘integrated assessment’ process for the thoroughly evaluation of climate
sensitivity, adaptive capacity and vulnerability of a region. Climate sensitivity is the positive
or negative impact of climate changes on a system, adaptive capacity determines the system’s
ability to adjust to climate variations, and vulnerability relates to the protective potential of a
system against climate variations and extremes. All these successively depend on the ‘rate
and magnitude’ of climate changes (Houghton, 2009). Dessler and Parson (2012) conclude
their debate on impacts of climate change with an understanding that negative repercussion
would significantly depend on state’s technical and financial capacity to adapt to new
challenges. Adaptive capability distinguishes between sensitivity and vulnerability (Metz,
2010). This amounts to different outcomes for the rich and poor countries despite their facing
not entirely diverse threats. Bangladesh and Netherlands face climate challenges of the same
nature (Peterson, 2008). However, techno-financial superiority of Netherlands with 400
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dukes and sand dunes is thwarting climate threat (Houghton, 2009). The estimated costs
against the expected 1m rise in sea level of the 21st century are 12,000 million US dollars in
Netherlands. For a developing state like Bangladesh such huge adaptation cost could become
a drain on its resources. Climate change impacts would significantly undermine human life
by affecting ecosystems that are substantially dependent on man’s decision like agriculture,
forests and fisheries. However, adverse effects could be reduced through adequate adaptation
policies. Impact assessment is subjected to particular “behavior of climate-sensitive system”,
the local conditions and response of the people to the problem (Dessler & Parson, 2006). A
system capable of adapting itself to new climate changes is not vulnerable despite its
sensitivity to these changes. Vulnerability in other words relates to weakness of an
ecosystem.
2.14 UNCERTAINTY, SKEPTICS AND PRECAUTIONARY PRINCIPLE
Enhanced Greenhouse effect because of increased concentration of atmospheric carbon
resulting in earth warming is well understood. However, determining exact timing,
magnitude and impact of warming is still quite complex because of reliance on multiple
factors, some of which still unclear like feedback process and regional variations (Houghton,
2009).Silver (2008) points out IPCC cautious expression of attributing current global climate
change to human induced factors because of the involved climate variations and multiple
factors with words like “likely” to “very likely”, “extremely likely virtually certain and high
confidence”. IPCC attributes uncertainty to ‘incomplete understanding’ of carbon sources
and sinks, impacts of clouds, ocean and its interaction with other reservoirs and polar ice-
sheets contribution to sea level (Houghton, 2009). Highlighting complexity of atmospheric
science and future prediction, Dessler and Parson (2006), Houghton (2009) and Dessler
(2012) signify the uncertain role of aerosols. Black carbon aerosols termed soot contribute to
warming as it absorbs incoming as well as outgoing radiation; however, liquid sulfate
aerosols result in cooling because of its reflective capacity. The inadequate information
regarding their respective concentration and impact make aerosols ‘the largest source of
uncertainty’ about climate projection. However, Metz (2010) considers that if policies to
curtail pollution continue, the resulting decreased ratio of aerosols might reduce cooling
phenomenon and contribute to enhance warming. Other than uncertainty related to aerosols,
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the role of ocean and its interaction with atmosphere is still not clearly understood
(Houghton, 2009).
Science of global climate change requires continued exhaustive evaluation. Scientists have
highlighted their limitations regarding proper understanding of the solar output (Silver, 2008;
Pittock, 2009), relationship between aerosols and cloud properties (Bolin, 2007; Casper,
2009; Rafferty, 2011), and recent methane reduction (Silver, 2008). They voice their
concern about finding exact quantity of stratospheric water vapor (Archer, 2007), insufficient
proper global paleo-climatic records (Pittock, 2009), partial understanding of ENSO and
impacts of climatic variations on oceanic currents (Silver, 2008). In addition, there are
several other factors which hinder climatologists’ ability to properly comprehend climate
science and achieve precision regarding climate projections (Pittock, 2009). For instance,
West and Nicola (2010) voicing climate denialists, highlight inherent flawed characteristics
of climate models and climate complexity to be exactly conditioned to laboratory
experiments. Similarly, their study gives a new understanding of the equilibrium between
sun’s energy and Earth, conclusively different from the IPCC understanding of the climate
change. Dependence of Earth climate system on multiple variables makes prediction about its
outcomes difficult. Climate feedbacks with all its complexity could either speed up or slow
down the initial changes. Proper assessment of climate change demands multiple evaluation
models.
However, these uncertainties are used as excuse for inaction by ‘handful’ of climate sceptics
with few of them involved in climate research (Henson, 2008). Sceptics’ denial like the case
of Bjorn Lomborg’s assessment is attributed to overlooking the balanced evidence (Henson,
2008), their tendency for seeking public approval (Pittock, 2009) and vested interests mostly
with oil and energy corporations and active support in US (Hickman, 2012; Henson, 2008).
Absolute certainty is not possible, even not desirable for action (Pittock, 2009); however,
scepticism drives the need and pursuit for further concrete evidence. This consistent and
continued urge for more certainty and reliability has resulted in more valuable supporting
data and changed mindset of climate sceptics like Prof. Richard Muller (Hickman, 2012).
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Despite this uncertainty, Houghton (2009) highlights that a consensus evolved among
scientists on IPCC forum for establishing International Framework Convention on Climate
Change (FCCC) in 1992 signed by representatives of 160 countries including US. IPCC’s
efforts were acknowledged and rewarded with a noble peace award in 2007 and Global
Climate Observatory system (GCOS) was established for better comprehension of climate
complexities. This consensus is attributed to the fact that “enough is already known” for
action (Houghton, 2009), the huge risk involved in case of inaction (Pittock, 2009), an
understanding that continued addition of greenhouse gases with their longer staying duration
would further compound the problem, and most importantly, measures taken to reduce
climate impacts are socially and economically productive (Houghton, 2009). The underlying
essence of action is based on precautionary principal (Houghton, 2009; Pittock, 2009) that
questions the injudicious policy of ‘wait and see’ in light of available evidence and
impending threats.
2.15 SCIENCE CORE CLIMATE POLICY: BALANCING MEASURES AND
SUSTAINABLE DEVELOPMENT
Climate with all its complexity is experiencing further perturbations owing to
environmentally disruptive unsustainable human activities. The zero-sum policy in which
economic development is procured at the expense of environmental degradation is declared
detrimental at Rio Earth Summit1992 for existing as well as future generations (Baker,
2006). Therefore, a balance needs to be secured between development and environmental
conservation, an approach broadly termed as sustainable development (Baker, 2006;
Houghton, 2009). Both Baker and Houghton signify sustainable development as a wider
concept enveloping social, economic and ecological aspects with emphasis on social and
economic justice, fair allocation and distribution of resources, and judicious use of
environmental resources. The objective is to materialize sustainable communities based on
social justice and equity (Houghton, 2009).
In order to actualize balance in our climate system, climate policy debates is centered on
adaptation, mitigation and understandably unfavorable geo-engineering (Dessler & Parson,
2006; Dessler, 2012, Houghton, 2009; Desonie, 2008). The impact of negative forcing and
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feedback resulting in cooling of the planet, a phenomenon termed as global dimming
(Casper, 2009; Desonie, 2006) initiated a new thinking for climate change control. This
cooling of planet is attributed to increased polluted particles in the atmosphere with their
capability to reduce sunlight flow to Earth. David Travis as mentioned in Desonie (2006)
observed that reduced contrails (Airplane emissions) in the wake of tragic 9/11 resulted in
1.8°F (1°C) rise in atmospheric temperature across United States. This experiment amplifies
that reduced pollution increases temperature while increase in it cools the planet. Similarly,
aerosols with 40% of negative forcing limit positive forcing (Dessler, 2012). Cooling impact
of negative forcing resulted in a renewed thinking of controlling climate changes through
geo-engineering, which means vital interference in climate system to neutralize hazardous
relationship of emissions and climate changes (Dessler & Parson, 2006). Houghton (2009)
lists various measures like iron fertilization of the ocean, installation of mirrors in space to
enhance reflectivity; increasing aerosols in atmosphere to enhance cooling, and changing
cloud concentration are all part of geo-engineering. The objective is to increase negative
forcing; however, there is serious apprehension of their being counterproductive, further
aggravating favorability of the global climate (Dessler, 2012).
Adaptation involves measures to enhance capability of an ecosystem against climate
vulnerability. As mentioned, impacts of climate change are not uniform and specifically
detrimental to developing states with their least contribution to the problem. Protection
against climate change implications demand enormous adaptation capacity, specifically for
developing states because of their meager financial and technical capabilities (Schmidt,
2008) without compromising their economic development. Mitigation requires reducing
emissions of greenhouse gases attributed to human activities and modern civilization with its
high consumption (Dessler & Parson, 2006). The longer staying nature of the greenhouse
gases and continued warming due to past emissions require mitigation rather stabilization of
greenhouse gases to stop ‘dangerous anthropogenic interference’ with climate (Schmidt,
2008). Silver (2008) elucidates different contributing sources of greenhouse gases to the
atmosphere: energy supply constitutes 26%, industry adds up 19.5%, mans’ interference in
forestry and agriculture 17.4%, and 13.5% respectively, transport 13.1%, heating or cooling
buildings 7.9%, and landfills 2.8% respectively. The two primary sources of greenhouse
gases emissions are extensive coal burning for the production of electricity and modern
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petroleum powered transportation. Together they constitute 80 percent of global heat
trapping emissions (Siler, 2008). Effective mitigation policies primarily require fixing our
technology by upgrading our energy production and transportation process, resorting to
renewable energy sources, and hindering emissions through carbon capture and storage
(Zemen, 2008). Zemen considers energy efficiency as an effective mitigation measure
without compromising on economic growth.
As mention, science provides framework for the climate policy. Climate science might have
been resourceful, despite considerable uncertainties, in chalking out prospective policies.
However, policies like adaptation involve financial assistance to developing states that are
least responsible for the problem; while, mitigation measures would disrupt the usual course
of business in the world. Therefore, policy debate is highly clouded in politics among states
and various non-state actors to devise their respective preferred solution to the problem. In
the preceding chapters, the political and economic dimensions of climate change regime
formation making will be evaluated in light of the international regime theory. Climate
change portends disastrous consequences and upsetting challenges. It equally highlights an
urgent need to transform our live styles and balance economic growth and environmental
sustainability and enhanced resilience of the vulnerable communities: In a word, sustainable
development, a clean development is the only option for survival.
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CHAPTER 3
INTERNATIONAL REGIME: THEORETICAL UNDERSTANDING OF
COOPERATION AND COLLECTIVE RESPONSE
This chapter explores the idea of cooperation among independent sovereign states regarding
a complex issue like climate change in an anarchic international system—lacking a formal
centralized authority. Actualizing cooperation on a complex global issue among sovereign
states that by law stand equal but by fact are widely disparate in terms of power and wealth is
a hard nut to crack. The concept of international regime with its broad conception lays
foundation of collective response, evaluated in light of three variables: power, interest and
knowledge. This concept has broad parameters encompassing almost every layer of an agreed
interactive process among international actors. Understanding various aspects of the
formation and continued existence of international regime would help comprehend the
evolution of international climate change regime and undercurrents of its contentious politics
and contested principles.
The notion of international regime introduced by John Gerard Ruggie in mid-1970s (Hwee,
2003) evolved as a form of international organizations to address widening gulf between
formal organizations and international politics in the 1970's: Vietnam War and the US
unilateral withdrawal from the world established monetary standards are cited as major
reasons for this estrangement (Simmons & Martin, 2000). Ruggie (1998) further adds factors
like decline of US post-war hegemony, Soviet Union’s possession of nuclear weapons—
much earlier to expectation of the US (Nye & Welch, 2014)—, economic resurgence of
Europe and Japan; and OPEC’s influence on world economy termed “economic
dislocations”. Ruggie signifies a theoretical shift in the role of international institution in
global governance by the 1960s. “The key assumption of the formal institutionalist
approach”, he states, “that international governance is whatever international organizations
do have been abandoned”. This understanding extended role of international institutions as
growing complexity of international problems required further evolved and comprehensive
structures for international governance. Ruggie (1998) attributes focused attention on
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regimes to this “intellectual odyssey” and above mentioned international events, understood
“to express both the parameters and perimeters of international governance”.
Regime, as a required political necessity, combines technical aspects with rules and norms
and extends theoretical frame of international governance (Hasenclever et al, .2000). Ruggie
(1975) understands it as one of the “collective responses”, a form of institutionalization, to
collective situations, apart from epistemic communities and international organizations.
Focused on specific issue, convergence of expected behaviors materialized a regime in
presence of rules or even shared understanding among actors. In the same vein, Greene
(1998) highlights international regimes as an “international framework” that facilitates
interaction among domestic and international actors and processes, including power, interest
and knowledge regarding specific issue area. Regimes, significantly environmental ones, are
understood as vehicle for norm creation by establishing foremost a “commonly accepted
scientific basis” and “joint appraisal and interpretation of scientific findings” (Schiele, 2014).
Schiele maintains that scientific consensus could shape state’s interest directing it towards
long term goals; however, this scientific process of evolving consensus knowledge requires
being without any political interference for its objectivity. He further mentions importance of
regime as it helps gathering related people in the decision making process, broadening their
spectrum and making them realize benefits of continued cooperation. In addition, weaker
states find regime a forum to pool their efforts and sources for shared interests (Schiele,
2014). The consensus knowledge evolved through regime further establish foundation of
shared accepted norms or “normative expectations” leading to comprehensive obligations
provided regime successfully keep reducing the cost of transaction among states. Effective
presence of regime creates norm and facilitate implementation of existing rules through their
refinement and reinterpretation.
International organizations have evolved in various forms in exponential number.
Characterized with “agency, agenda setting” and “socializing influences”, international
organizations are attributed with initiative, allocative and distributive capacity and evolution
of common identities and concepts. Simmons and Martin (2002) considers emergence of
regime an attempt to bridge the gulf between the formal organization and international
politics. The concept of agency, an ability to “exert influence or affect the outcome of any
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given process or event in some way”, is much significant in theoretical debates and
assessment of actors in international relations (Steans, Pettiford, Diez, and El-Anis, 2010).
These writers distinguish the idea of agency from structure that signifies “the context in
which things happen”—factors that constrain human actions.
Regime is an effort to secure cooperation among wide range of actors with diverse preferred
outcomes and different driving forces: power, interest and knowledge. Ruggie (1975) defines
international regime as “sets of mutual expectations, generally agreed-to rules, regulations
and plans, in accordance with which organizational energies and financial commitments are
allocated” (Dombroski, 2007; Schiele, 2014). This rudimentary definition was further refined
with specific emphasis upon particular aspects. Regimes, however, are criticized for lacking
specific definitions, but possess significance for bridging the widening bridge of formal
international organization and growing complexity of global problems and international
relations. Regime termed “institution”, “policy coordination” or “governance system” is
charged imprecise and impractical for its “woolliness” and inherent “ambiguities” (Strange,
1982; Young, 1986). Apart from “imprecision”, Strange (1982) terms regime a value loaded
concept, much state centric, and more a fashion that is given “exaggerated attention”.
The consensus definition of the regime is proposed by Stephen D. Krasner (1982) in the
following words:
“Implicit or explicit principles, norms, rules, and decision-making
procedures around which actors' expectations converge in a given
area of international relations. Principles are beliefs of fact, causation,
and rectitude. Norms are standards of behavior defined in terms of
rights and obligations. Rules are specific prescriptions or
proscriptions for action. Decision-making procedures are prevailing
practices for making and implementing collective choice.”
This definition clarifies two things: an international regime is a special case of international
institutions and different to international organizations. International organizations are
comprehended in three different capacities: instruments, arena and actors (Rittberger, Zangl
& Kruck, 2012). As instruments they are understood tools that states use to promote their
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interests, significantly by the most powerful ones; as arena, they provide forum where
national policies are coordinated and contested to actualize an internationally consensus
policy; whereas, as actors they are considered vitally independent entities enjoying delegated
sovereignty from the states. Distinguishing international regimes from international
organizations requires a clear definition of both. Schiele (2014) significantly differentiate
these two in terms of their legal standing. Lacking a legal personality, regimes are different to
international organization for the latter are attributed with physical existence: offices,
acquisition of property, maintaining its staff and budget.
International organizations possess “concrete entities with physical presence” providing an
institutional machinery across boarders for materializing cooperation in related fields like
economics and security (Stein, 2008). Regimes, on the other hand, substantially broaden this
understanding of international organizations by including principles, norms, rules and
decision making procedures that facilitate cooperation among actors regarding a stated issue
area. Dombroski (2007) adds further that focused attention on a specific issue helps
excluding the unrelated aspects. This extended understanding incorporates subjective frames
of international organizations, comprehensively termed international arrangements, and
establishes regime theorists in the larger paradigm of realism after their accepting
fundamental realist assumptions regarding international system and state’s orientation
towards it ( Dombroski, 2007; Stein, 2008). Stein (2008) attributes replacing concept of
regime by institutions to institutionalists’ intellectual compatibility with the term and
growing significance of institutions in different disciplines. The marked difference between
the neoliberal institutionalist and realists is the emphatic stance of the former on cooperation
and institutions despite incorporating and using realist main premise and methodology—an
intellectual union termed rationalism (Stein, 2008).
International regimes and international organization are both “international social institutions
characterized by behavioural patterns based on international norms and rules, which
prescribe behavioural roles in recurring situations that lead to a convergence of reciprocal
situations” (Rittberger et al., 2012). Characteristically lacking capacity to act and having
focused attention on a single issue, regimes are different from organizations (Hasenclever et
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al, 2000). The marked differences are tabled below based on the study of Rittberger et al.,
(2012).
Table 3 Characteristics of International Organization and International Regime
No Characteristic International organization International regime
1 Parameters It transcends specific issue-area.
Always relate to specific issue-area
2 Entity It can operate as actor like the UN
Not possessing actor like qualities
3 Comprehensiveness Many regimes with its rules, principles and norms could become part of an international organization.
It derives its defining characteristics like norms and principles from different international organizations.
4 Keohane’s Definitions “International social institutions that are collective or corporate actors and can cover several issue areas of international relations”.
International social institutions with “implicit or explicit principles, norms, rules and decision-making procedures around which actors’ expectations converge in a given issue area of international relations”.
International organization and international conventions encircle a wide range of issue areas
(Greene, 1996). Encompassing informal or politically agreed rules and procedures as well as
legally binding ones, regime is understood an international social institution originally
developed by ‘institutionalists’ in reaction to ‘neorealists’ claims that international
institutions matter least in world politics (Greene, 1996; Hasenclever et al., 2000).
The definition of regime has undergone various stages from the rudimentary definition
offered by Ruggie (1975), a consensus definition by Krasner (1982) and a “lean definition”
of Keohane with its further concretization of the concept. This debate is drawn to a
conclusion by Young when he contends that regime has the ability to evolve over time
(Schiele, 2014). Krasner’s classic definition is highlighted for being imprecise, but lauded for
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its substantive comprehensiveness. Greene (1996) and Dombroski (2007) concur with the
critics that the concept of regime and consensus definition of it is contested. The constituent
elements like norms and rules are not rigidly framed; however, Greene equally contends that
social scientists avoiding contested concepts would not serve the purpose of discipline.
Therefore, Greene (1996) upholds the broad understanding of regime—“an international
social institution with agreed-upon principles, norms, procedures and programmes that
govern the activities and shape the expectations of actors in a specific issue area”—an
acceptable basis for assessing regimes.
Institution as a concept if understood in its extended definition as “rules of the game”, with
rule underlying all recurrent behaviour, encompasses the entire study of international
relations (Stein, 2008). Even anarchy of the international system, lacking central authority, is
not without rules and therefore constitutes an institution. Similarly, Stein highlights that
terming rules as “humanly devised constraints” does not specify much, for every social
reality is humanly devised and every chosen outcome among different alternatives results
through a process of constraints. This absence of well-defined conceptual parameters of
institution makes Stein (2008) contends that “scholars have fallen into using the term…so
disparately…that it ranges from an umbrella for all international relations to little more than a
synonym for international organizations”.
Robert Keohane further clarifies Krasner’s consensus definition terming regimes as
“institutions with explicit rules agreed by governments” regarding specific issues in
international relations to regularize behavior and control outcomes (Hasenclever et al., 2000;
Dombroski, 2007). Principles, norms, rules and procedures are represented in a single
concept of rules. However, Keohane concretization of the consensus definition is found
lacking the essential comprehensiveness (Hasenclever et al., 2000; Dombroski, 2007). For
instance, Krasner attributes changes in principles and norms as change of the regime, while
change in rules and procedures are termed changes within the regime. Apart from such
distinguishing aspects, Krasner (1982) also highlights reasons for weakness of the regimes,
“Change within a regime involves alterations of rules and decision-making procedures, but
not of norms or principles; change of a regime involves alteration of norms and principles;
and weakening of a regime involves incoherence among the components of the regime or
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inconsistency between the regime and related behaviour”. Similarly, according to Krasner,
long term cooperation evolving itself into a structure is another distinction making regime
markedly different from the short term interest based agreement.
Fine distinctions are drawn to further clarify nature of regime relying on behavioral,
cognitive and formal approaches (Hasenclever et al., 2000). Behavioral approach sanctions
presence of regime to state observed compliance, not in absolute sense, to rules in a specific
issue area. Extended period of deviance, however, especially on part of the major powerful
state undermines efficacy of a regime injunctions. Cognitive approach, on the other hand,
considers intersubjective and shared understanding rather presence of “overt behaviour” in
the shape of states' compliance as essential elements of regime existence. Such variables are
understood difficult to assess objectively (Keohane, 1993 ); however, emphatically voiced
understanding of “convergent expectations” as fundamental constituent of regime reinforces
the intersubjective dimension (Kratochwil & Ruggie, 1986).Not limited by behavioralists’
required observed compliance and cognitivists' convergence of expectations, the formal
approach focuses on explicit agreed upon rules among governments for cooperation in a
specific area for the emergence of regime. Formal approach further addresses the inherent
ambiguities of the concept. Keohane understanding the missing link between written rules
and social institution, as critics point out, further adds a “thin substantive content” to his
definition:
“Agreements in purely formal terms (explicit rules agreed upon by more than one state) and
to consider regimes as arising when states recognize these agreements as having continuing
validity.... [A] set of rules need not be "effective" to qualify as a regime, but it must be
recognized as continuing to exist. Using this definition, regimes can be identified by the
existence of explicit rules that are referred to in an affirmative manner by governments, even
if they are not necessarily scrupulously observed.”
The “continued validity” of the agreed explicit rules, with states identifying themselves with
them, transforms those accepted rules among states into regime, in other words, institution.
The current working definition of the regime is evolving to overcome ambiguities of the
concept. Professor Volker Rittberger argues, as cited by Honghua (n.d.), that theories of
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international regime emphasizes three explanatory variables categorized as power, interest
and knowledge, respectively conforming to the three schools of international relations:
realism, neoliberalism and constructivism or cognitivism.
3.1 INTEREST-BASED THEORIES OF INTERNATIONAL REGIMES
Modernization with its massive industrialization, extensive production capacity and refined
communication links not only unleashed a liberal intellectual revolution—believing in the
sanctity of human reason that seemingly subjected man’s fears and lust for power—but also
enhanced the need for cooperation. James Rosenau in his book, The study of global
interdependence (1980) coined a new phrase, transnationalism, to signify extended relations
across national boundaries among actors other than states like International Governmental
Organizations, Non-Governmental Organizations, Multinational Corporations, private
individuals and groups (Jackson & Sorensen, 2003). Rosenau contends that growing
transnationalism evolved a “new multi centric world composed of diverse ‘sovereign-free
collectivities’ [existing] in competition with the anarchic state-centric world of sovereignty
bound actors”. This competition, Rosenau predicts, could result in breakdown of the nation
state system, existing since last four centuries (Busch, 2007). Transnationalism, extended
multilayered links across national boundaries, promoting prospects of peace among states is
Karl Deutsch major premise (Moller, 2007; Griffiths, Roach, & Solomon, 2009).
Interest based understanding of the regime is mainstream approach of regime theory, an
outgrowth of neoliberalism more specified as institutionalism by its main proponent, Robert
Keohane (Archer, 2001). For facilitating actors’ common interests, neoliberal interest based
theory of regime advocates two approaches: contractualism and situation structuralism,
strategic situations in which actors work (Hasenclever et al. 1997). Contractualist or
functional theory of Keohane is also termed neoliberal institutionalism as it seeks
“institutionalization of a growing sector of international behaviour” (Hasenclever et al.
1997). Once the functional importance of international institutions is established by Keohane
(1984), the idea that institutions could shape states’ incentive for cooperation is further
developed by others (Hwee, 2003; Simmons & Martin, 2000). Adhered to the main premise
of Keohane’s functional theory of institutions that state are rational and egoists, the later
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interest based regime theorists highlighted different conditions/situation for the success and
failure of cooperation among states ( Simmons & Martin, 2000; Hasenclever at al. 1997;
Rittberger et al. 2012).
After concurring with realists’ postulates regarding the anarchic international system and its
main unit state—driven by self-interest—neoliberals propound that cooperation among states
through international organization is completely rational (Rittberger et al. 2012). Drawing
such a promising conclusion of the anarchic system disregards realist pessimism about
inevitability of conflict among international actors. International politics, to institutionalists,
is distinguished by “ interest constellations (situational structures) in which states have a
common interest in reaping joint gains or avoiding joint losses by cooperating with each
other, while at the same time, each individual state has some incentive to refrain from
cooperation” (Rittberger et al. 2012). International institutions materialize cooperation by
transforming these incentives and facilitate international actors towards cooperation.
Neoliberal institutionalists contend that growing interdependence, vulnerabilities of the
international actors because of this dependent relationship and complexity of current
problems demand collective response that requires renouncing reliance on realists’ self-help
mechanism (Rittberger et al. 2012;
Liberals highlight multi-polarity of actors and primarily signify economic interdependence,
another outcome of modernization and extension of transnationalism. Growing expertise in
specialized knowledge, technological advancement, and enhanced transnational interactions
in presence of rising technical problems has conditioned cooperation among states, David
Mitrany contends, to functionalism—technical experts seeking effective solution for global
issues under the aegis of international institutions (Jackson & Sorensen, 2003; Viotti &
Kauppi, 2012). Successful resolution of these complex technical problems will earn
international institutions comprised of experts the trust and allegiance of a common man.
This could bring political integration of states that to Viotti and Kauppi (2012) would limit
states’ authority or their capacity to act independently, but enhance their capacity to deliver a
required service or a public good (Brown & Ainley, 2005). Mitrany advocates limiting
political sovereignty, the bundles of powers that a state possesses, rather than the legal and
juridical sovereignty of the state. An enhanced cooperation owing to reliance on technical
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expertise for successful resolution of the complex technical problems will shift powers away
from states to these functional organization, and materialize absolute gains with maximum
benefits for all the parties involved (Brown & Ainley, 2005; Jackson & Sorensen, 2003). The
shifting of sovereignty from state to functional organizations would be prospectively
successful based on an underlying assumption that effective resolution of problems will have
them earn loyalty of world people irrespective of their territorial allegiance (Brown & Ainley,
2005).
In contrast, Ernst Haas (1924-2003) re-emphasized role of political elites in wake of the
Western European economic integration, highlighting that “integration between states could
come as a result of a politically driven process of spillover” (Brown & Ainley, 2005). He
argues that politics is integral to integration process (Jackson & Sorensen, 2003; Viotti &
Kauppi, 2012). Technical assistance and cooperation would not materialize if perceived
unproductive and not serving interests of the political elite. Integration, Haas contends,
requires positive sanctions of politically connected elites. His neo-functionalism
encompasses a supra-national body having jurisdiction on the existing state structure as
essential constituent that would upgrade service of their common and long-term interests
through cooperative and collaborative efforts (Viotti & Kauppi, 2012). Cooperation realized
in one area would have spillover effects and promote cooperation in other areas. However,
Haas subjects regional integration to the overall pattern of interdependence that involves not
transferring state sovereignty to any regional organization (Viotti & Kauppi, 2012).
The idea of international regime emerged out of the Keohane and Nye’s (1977) theory of
Complex Interdependence (Brown & Ainley, 2005). They differentiate the postwar patterns
of interdependence involving multiple actors within the state and other than states on the
international stage. State with its non-unitary standing and presence of non-state transnational
actors form coalition based on their preferred interests, their interests converging on issues of
low politics likes economic and environment making them at par with the issues of war and
security—issues of high politics. Robert Keohane and Joseph Nye (1975) work, cited as a
“transition essay” between the integration and interdependence literature, reoriented
liberalism core frame by ceding to certain realist’s postulates (Ruggie, 1975). The paradigm
of complex interdependence in its ideal form is based on an underlying assumption that
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international system despite anarchic is having a secured existence for its constituent actors
(Gehring, 1994). This understanding transforms position of state from the ‘status maximizer’
concerned for relative gains to ‘utility maximizer’ accepting cooperation and constraints to
further welfare. A related assumption, Gehring mentions, is the dismantling of the stable
hierarchical order of issues that prioritized security concern. In a secured environment with
each issue equally significant to security matters, raw power is not fungible, making use of
military force dangerous and expensive. “Constellation of power and interests” varies from
issues to issues among actors (Gehring, 1994). Keohane and Nye (2012) contend that use of
military force as reliable option for conflict resolution has become unfavorable, however, not
obsolete. Mutually profitable relationship of the transnational world has made trade a
promising source of power. Richard Rosecrance argues in the same vein that trade like
military force is a vibrant mean of securing and enhancing state’s power (Nye & Welch,
2014). Reliance on transnational interaction through peaceful prospects of mutually
beneficial economic interdependence could lead to effective cooperation among states.
This changed dynamic of international relations is understandably based on different
understanding of state as an actor by liberals and realists (Jackson & Sorensen, 2003).
Realists comprehend state as a rational unitary actor, for liberals, it is rational but not a
unitary actor. State consists of different actors that might pursue goals in conflict with others
and seek transnational cooperation from their counterparts provided their interests converge
significantly on non-military issues (Gehring 1994; Jackson & Sorensen, 2003). The emerged
transnational relations with different administrative units within a state in connection with
their counterparts in other states in pursuit of their common interests have undermined role of
a state as a unitary actor in international relations. Political outcomes are not exclusively
determined by state only (Gehring, 1994).
Keohane and Nye (2012) distinguish interdependence, characterized with situation of
reciprocal effects that involves cost and benefits, from the rising multi-layered
interconnectedness. The ratio of costs and benefits will depend on the value of the actors and
nature of their relationship, and will be analyzed in terms of joint gains or losses and relative
gains and distributional issues. Drawing relationship between power and interdependence,
Keohane and Nye define power as an ability to influence others’ action and control outcomes.
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Power dynamics in an interdependent relationship depend upon sensitivity and vulnerability.
Sensitivity, according to Keohane and Nye (2012), depends on “degree of responsiveness
within a policy framework” of one country to changes in another. Vulnerability, on the other
hand, is the cost involved in terms of changing ones policies and looking for other viable
alternatives with respect to changes in another country. After defining interdependence and
its essential characteristics, attention is drawn to the presence of regime as effective means of
changing the context for facilitating mutual relationship among the governments. Regimes
are sets of governing arrangement that affect relationship of interdependence. Distinguishing
world political system from the domestic national government, Keohane and Nye (2012)
highlight weakness of the rules and institutions at the international stage leading to an
erroneous conclusion that international regimes are insignificant. However, regimes influence
patterns of interdependence depending upon the structure—distribution of capabilities among
similar units—and process, allocative or bargaining behavior within a power structure.
Keohane and Nye term international regime as “intermediate factor” between the
international power structure and the bargaining process. The international structure,
capabilities of similar units, affects international regime: rules, norms and procedure;
however, regime in turn influence the bargaining process that occur within the system. Power
is understood effective in materializing desired outcomes; however, not effective in every
issue area (Ruggie, 1975).
Classical liberals emphasize the inside-out approach taking into account the political, social
and psychological underpinnings of state, society and individual to understand decision
making process (Viotti & Kauppi, 2012). Unlike that, neoliberal concurs with the structural
realists regarding the anarchic structure of the international system and of state as a rational
actor. However, as mentioned earlier, state standing as a unitary actor is questioned, for there
is plurality of actors in the international system and within the state (Gehring, 1994; Jackson
& Sorensen, 2003). This understanding of the international system and state, its primary
constituent unit, underlines significance of international organizations as channels of
information, shaping agenda and interests of the state. This concurrence between neorealists
and neoliberals institutionalists, however, does not overcome their differences regarding the
prospects of cooperation among actors in the international anarchic system and the respective
role of international organizations in this regard. Neoliberal institutionalists contend that
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cooperation can be materialized by “upgrading the common interests” facilitated and
promoted through formal international organizations or its informal structure, regime: the
convergence of actors’ expectations (Viotti & Kauppi, 2012). These developments,
neoliberals contend, have made the world a better place in terms of cooperation among its
actors.
Neoliberals and neorealists have same understanding of the anarchic international system, but
draw different conclusions. For Neorealists like Waltz (1959) the idea of harmony—actor’s
pursuit of self-interest based policies automatically facilitating those of others—is
questioned, for it is not possible in international anarchic system. International political
system, Keohane (1984) concurs with neorealists, is decentralized and not hierarchic owing
to principle of state’s sovereignty. Each state legally equal to another and not subjected to any
superior authority relies on self-help in the international anarchic system (Genest, 1996;
Waltz, 1979). However, cooperation, according to Keohane, is possible in this self-help
system as witnessed in the case of balance of power—the order established as an outcome of
states pursuing self-interest policies largely defined in terms of relative power maximization.
The political military alliances to counter dominance of any single state or group of states to
maintain the international system decentralized and anarchic (Nye & Welch, 2014) are
termed by Keohane (1984) as a form of “cooperative endeavors”. Mutual interests serve
foundation for cooperation among allies for security interests despite fear of distrust;
however, orthodox theorists [realist school] for no valid reason do not extend this mutual
interests based cooperation beyond security consideration and to the system at large
(Keohane, 1984).
Regime theory as propounded by Keohane (1984) absorbs realists’ premise of the importance
of power and predominant role of powerful actors in shaping structure and agenda of the
regime, attributing it to anarchic international system of sovereign state principally motivated
by self-interest. However, realist insight of power and interest in creating and shaping
international regime does not undermine significance of international institutions because of
the latter capability to influence interest. Keohane (1984) contends: “The notion of self-
interest is itself elastic and largely subjective. Perceptions of self-interest depends both on
actors' expectations of the likely consequences that will follow from particular actions and on
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their fundamental values.” After elaborating the notion of self-interest and subjecting it to
change with the changed dynamics of human values and perceptions, Keohane highlight
significance of regime. He states, however without undermining the importance of power and
interests in shaping international behavior, that “regimes can certainly affect expectations and
may affect values as well” (Keohane, 1984). After concurring with realist premise about the
anarchic nature of international system and the significance of power and interest driven
entities, Keohane (1984) terms “regime consistent both with the importance of differential
power and with a sophisticated view of self-interest … [however, also indicate] the
inadequacy of theories that define interests so narrowly that they fail to take the role of
institutions into account.” Thus role of international institutions are reinforced.
Regime theory is effective for its useful comprehensiveness. Citing Vinod Aggarwal (1998),
Hwee (2003) contends that regime theory helps analysis of less developed institutions. Not
limited by formal frames and structures of international organization, regime theory assesses
evolution and development of international negotiated principles, norms and procedures. It
finds its acceptance as a promising understanding of how to secure cooperation under
anarchy—absence of a central authority, government, in the international system to enact and
enforce rules. Keohane’s (1984) after establishing that the presence of hegemon is not
sufficient even a necessary condition for regime formation propounds that hegemony and
cooperation are in a state of symbiotic relationship and not antithetical to each other.
Hegemon’s crucial role for the creation of regime is acknowledged, and hegemon unlike an
imperial power is understood to require sovereign states’ cooperation to make and enforce
rules. United States vital role in the emergence of post-world war 2nd international
arrangements to regulate international political and economic affairs is cited as evidence to
this fact by realist as well as neo-liberal institutionalists. Without denying hegemon’s
significant position in regime creation, Keohane (1984) maintains that regime would emerge,
could maintain itself and foster cooperation in an interdependent world characterized with
shared interest in absence of hegemon. Apart from shared interests, the involved cost in
maintaining a regime is understandably less than the cost involved in creating a new regime
is another vital reason for the continued presence of regime in the absence of hegemon.
Therefore, decline of the hegemon, Keohane argues, is not necessarily resulting in the end of
regime.
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Keohane refines concept of cooperation differentiating it from discord and distinguishing it
from harmony. Keohane (1984) citing Adam Smith’s assumed invisible hand of laissez-faire
as an example defines harmony as “a situation in which actors’ policies (pursued in their own
self- interest without regard for others) automatically facilitate the attainment of others
goals”. In contrast, he characterizes cooperation as a situation where actors coordinate to
arrive at a mutually acceptable outcome through negotiation, that in turn, implies policy
adjustment to accommodate others preferences. Thus intergovernmental cooperation to
Keohane (1984) results “when the policies actually followed by one government are regarded
by its partners as facilitating realization of their own objectives, as the result of a process of
policy coordination”. The objective of this policy coordination is to reduce negative
consequences of cooperation (Milner, 1998). Milner further elaborates this concept as
comprising of two elements: goal oriented behavior of each actor that results in mutually
productive gains. The underlying anticipation of serving one’s own interest by assisting the
other brings the actors to cooperate. Therefore, neither absence of conflict nor presence of
harmony and common interest but active efforts for “mutual adjustment” despite discord
defines cooperation (Keohane, 1984). Keohane formal definition of cooperation as cited by
Hwee (2003) states, “Intergovernmental cooperation takes place when the policies actually
followed by one government are regarded by its partners as facilitating realization of their
own objectives, as the result of process of policy coordination”. Milner (1998) highlights a
concurrence among scholars like Keohane, Joseph Grieco, Kenneth Oye and Peter Haas
regarding this definition; however, their suggested means for achieving such a cooperation
are markedly different to each other.
Regime, an intervening variable, secures its independent influence after its creation (Hwee,
2003). Materializing regime is not an end, but a mean to create opportunities for actualizing
cooperation—develop an attitude for bringing suboptimal outcomes to optimal and realize
joint gains. Securing cooperation requires regimes to perform certain functions: mitigate
fears of cheating, improve flow and quality of information, lower transaction costs for an
agreement and makes governments’ expectations consistent with each other (Hasenclever et
al. 1997). These functions are significantly required in a characteristically anarchic world
where “incentive to defect” is found profitable in joint cooperation (Rittberger et al. 2012).
Presence of international organization reduces such uncertainty by providing the mentioned
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essentials function and thus facilitate cooperation. In a word, as Simmons and Martin (2002)
put it, they resolve problems of international collective actions. Neoliberal institutionalists
contend that these active efforts for mutual adjustment and accommodation of other
preferences result in the necessity of institutions to facilitate communication and exchange of
information—a major hurdle to cooperation. Moreover, international organizations as forum
for political actions, coalition formation and agenda shaping has become a vital characteristic
of the international system (Viotti & Kauppi, 2012).
Hasenclever et al. (1997) expounds states as rational actor primarily motivated by self-
interest that create regimes; however, he acknowledges that regimes are maintained even
after the interests and circumstances that shaped their creation are changed because of the
inherent expense and difficulty in establishing new pattern of interaction, regimes, among
states. Their creation and continued existence materialize the vital infrastructure that
facilitate actualizing common goals and minimize the entailing costs. Moreover, regime is an
effective mechanism to promote common goals by reducing information cost involved in
different stages of agreement formation and implementation (Hasenclever, et al. 1997).
Interdependence as mentioned earlier is a situation where independent actors are linked in a
dependent reciprocal relationship. Choices and decision of each is shaped by the others;
outcomes are mutually determined. Patterned states’ behaviour, an international regime, is
evolved for realizing joint gains in an interdependent relationship. However, the complexity
of the interdependent relations among states requires an international regime termed a
“mechanism for managing interdependence”, a “missing link” between cooperation and
interdependent relationship (Hwee, 2003). Complex interdependence is characterized with
different competitive goals pursued with various means. International collaboration reduces
the uncertainty inherent to the complexity of the problems, competitive goals and
multilayered communications, regarding the mutually preferable outcomes (Hasenclever, et
al. 1997; Hwee, 2003). Regimes facilitate cooperation by changing “incentives for action”
rather than changing actors’ interests and values (Hasenclever, et al. 1997). Hasenclever et al
(1997) highlight that mutual distrust or fear of defection, a characteristic feature of prisoners’
dilemma, is overcome in presence of a regime that ensures presence of continued interaction,
provides information to overcome fear of deception, and thus envisions cooperative actions
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beneficial for all the parties involved. Regimes, therefore, work as catalysts of international
cooperation. Inclusive in their nature, impact of a regime is not limited to one issue area.
Compliance in one area extends cooperation in other sectors; however, non-abidance
aggravates relationship by increasing the trust deficit. In other words, regime commands
compliance through involved reputational effects, not through it monitory or retaliatory
potential (Hasenclever et al. 1997).
Once the functional significance of institutions is established by Keohane (1984), the rest of
the neoliberal institutionalist conferring to the basic postulate that cooperation can be
materialized among the rational states driven by self interest in an anarchical international
system highlighted others situations or constellation of interest other than Prisoner’s dilemma
problems (Simmons & Martin, 2002; Rittberger et al. 2012; Hwee, 2003). These situation or
constellation of interests characterized as collective action extends parameters of
contractualist theory by taking into account particular strategic nature of the situations that
push states for cooperation in a specific field. The “situation structural (game theoretic)”,
(Hwee, 2003; Zangl, 2014) “problem structural” (Simmons & Martin, 2002; Zangl, 2014)
and “institutional bargaining” (Hwee, 2003; Hasenclever et al. 1997) are the extension of the
mainstream functional theory of Keohane (1984). Situation-structuralism distinguishes
collaboration games like Prisoners’ Dilemma, highlighted by Keohane, from coordination
games—an interdependence situation with a problem of collectively choosing from several
pareto-efficient equilibria (Hasenclever et al. 1997). Regime facilitates avoiding pareto-
inefficient equilibria. Main proponents of situational structuralist are Arthur Stein, Lisa
Martin and Duncan Snidal (Hwee, 2003). Hwee further differentiates collaboration from
coordination as the former involves dilemma of common interests; while the latter is centered
on problems of common aversion. Collaborative regime requires replacing independent
decision making as in Prisoner dilemma with agreed rules assisted with monitoring
mechanism to control defection in order to materialize common interest. Collaboration
regime is understood more formalized involving an international organization for effective
communication and dissemination of information (Hasenclever et al. 1997). Unlike that
coordinative regime, in a situation exemplified by chicken game, demands facilitating
coordination among actors to control certain behavior. No monitoring mechanism is required
(Hwee, 2003).
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Assurance and suasion, highlighted by Zurn and Lisa Martin as cited by Hasenclever et al.,
1997 and Hwee, 2003 are two other less formal types of strategic situation that emerge into
cooperation of different nature. In assurance situation two equilibrium outcomes are offered
with one of them pareto-efficient, preferable to both actors. Inability to actualize pareto-
efficient outcome results in false fear of being cheated by other. In such a situation, regime
facilitates cooperation through exchange of information for overcoming the present trust
deficit. Suasion situation offers one equilibrium outcome, an unbalanced one of “unrequited
cooperation”, often leaving the privileged one satisfied while other dissatisfied. Martin
(1993) highlights hegemon’s contribution in emergence of suasion regime. The hegemon
tries to persuade others into cooperation either by resorting to threats, making noncompliance
unproductive; or promises, making cooperation more useful. Regime, in such a situation,
procures side-payments from the privileged actors to ensure cooperation (Hwee, 2003).
Fundamentally accepting the neoliberal theoretical parameters, the problem-structural
approach characteristically differentiates conflict over absolutely assessed goods and
relatively assessed goods and takes into account the nature of the issue area as a key
determinant in regime formation and sustenance (Hasenclever et al. 1997). This, in turn,
questions neoliberal postulate regarding state as uncompromising egoist and rational entity,
mostly inclined to relative gains. Highlighting state’s choice for relative gains in certain
conditions, the problem-structural approach also relates itself to the power based approach
(Hasenclever et al. 1997).
Issue area is crucial to the formation of regime as regimes are “partial orders” regarding an
area of trade, money or environment. States might resort to cooperation in one area and
pursue goals in other area through reliance on self-help. Regime, thus, does not encompass
the whole gamut of a state’s political relations and aspirations. In order to understand, states’
cooperation or regime formation regarding an issue area demands evaluating the core concept
of issue area. Problem-structuralists define it as:
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"Issue-areas. . . consist of one or more . . . inseparably connected
objects of contention and of the behavior directed to them. The
boundaries of issue-areas are determined by the perceptions of the
participating actors” (Hasenclever et al, 1997).
The interconnected disputed matters and the corresponding behaviour towards them
constitute issue areas. However, the essence of an issue area is shaped by the perception of
the actors regarding the contested objects. Changed perception changes dynamics and
interdependence of the issue areas despite uniformity of the objective facts. With perception
as core dependent factor, delineating issue area has become a highly political process.
Regimes are differently conceptualized based on the nature of issue area. Simmons and
Martin (2002) and Hasenclever et al (1997) mention various kinds of regimes based on
understanding of the issue area and concur with the main proponents of problem-structural
approach that the degree of cooperation among actors varies based on nature of the issue,
perception of the participants and means used for realizing common goals.
Oran Young (1994) in his noteworthy work, “Modes of Regime Formation” coined the
concept of institutional bargaining approach of regime formation (Hasenclever et al. 1997).
Institutional bargaining subscribes to interest based theory for its treatment of state as selfish
actor; however, Young’s understanding of international institutions relates more to
cognitivists than neoliberal, highlighting state as a role player than a thoroughly utility
maximizer (Hwee, 2003). Such a combination of neoliberal and cognitivist approach can also
be witnessed in the works of Gehring (1994) (Zangl, 2014).
Focused on the real world circumstances, Young underlines institutional bargaining—
processes that materialize “constitutional contracts” (Hasenclever et al. 1997). Young
institutional bargaining with an objective to create an institution has a descriptive and
analytical aspect: the former concerns with the essential circumstances culminating in
collective efforts to create regimes; while the later assess those factors that make regime a
success (Hwee, 2003). The real world situations to institutional bargainers, unlike the rational
choice theorists, are characterized with lack of knowledge about the prospective outcomes,
available means, and thus have an absence of a “zone of agreement”. Presence of this “veil of
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uncertainty” incentivizes institutional agreement or regime formation, prioritizing
“integrative rather than distributive bargaining” (Hasenclever et al. 1997).
Young draws three major hypotheses about the success and failure of regime. Hasenclever et
al (1997) and Hwee (2003) distinguishes Young’s approach for its emphasis on factors that
encourage integrative bargaining. In first place, success of institutional bargaining requires
that the “issues at stake ‘lend themselves to contractual interaction’” Apart from this
understanding, international regime formation is accelerated in case of “exogenous shocks or
crises”. The emergence of Ozone hole in 1985 is cited an example of such a crisis that
brought international focus on preservation and promotion of common interests and
resources. Secondly, presence of an option regarded equitable, a salient solution simple and
clear—it does not rule out presence of ambiguity and uncertainty—enhances chances of
regime formation. Equally significant is the presence of a “‘clear-cut and effective’
compliance mechanism” that reduces fear of being cheated by others in presence of actions
primarily motivated by self-interests. Last but not the least, Young considers role of effective
leadership pivotal for the success and failure of the international regime. Leadership,
assumed to be individuals, is divided in following categories: entrepreneur or brokers utilize
their ingenuity and negotiation skills rather than power; skillful leadership converts power
derived from material resources into bargaining leverage; and intellectual leadership
influences and shapes understanding of the negotiating parties through the power of ideas
(Hasenclever et al. 1997; Hwee, 2003).
3.2 POWER BASED THEORY OF INTERNATIONAL REGIME
Realism standing as the dominant theoretical paradigm, particularly from 1930 to 1970s,
highlights power as the main drive behind the “facade of international institutions” (Simmons
& Martin, 2002). Realists comprehend utility functions of the state actors differently to
liberals. States conscious and concerned about relative distribution of power and resources—
the benefits accrued by others—make rule based cooperation difficult. Changes in power
distribution or negative outcomes of distribution would upset cooperation mechanism. Hans
Morgenthau, the classical realist, attributes “rule-consistent behaviour to convergent interests
or prevailing power relations”. Morgenthau defines interest in terms of power, the main
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medium to objective assessment of international politics (Morgenthau, 1948; Neacsu, 2009).
Power secures interests, and thus dominant interest to pursue should be to increase power.
Therefore, cooperation among states is much a possibility in presence of their mutual
understanding that cooperation would secure their specific interests or most importantly
enhance their power potential. However, Lebow (2003) argues that power is the starting and
not the end point of Morgenthau's analysis of international relations.
The interest driven politics of power maximization among states transformed international
relations to what Aaron signifies, “relations between political units, each of which claims the
right to take justice into its own hands and to be the sole arbiter of the decision to fight or not
to fight” (Griffith, Roach, & Solomon, 2009). With Wiberian state definition of “monopoly
over the legitimate use of force within a given territory”(Nash, 2010) and absence of a central
government or higher authority characteristically termed anarchy of the international system:
states as unitary actors are much relying on self-help that demands enhancing and ensuring
its security against the others (Mingst, 2003; Nye Jr & Welch, 2014). Realists traditionally
consider anarchy a major problem of international relations (Steans; Pettiford; Diez; & El-
Anis, 2010). To realists, an understandable outgrowth of the anarchic system and self-help
rule is security dilemma. Nye Jr and Welch (2014) terming it a specific type of Prisoner's
Dilemma defines it an insecurity of a state that is an outcome of another state's effort to
increase its own security. This culminates into an environment that largely lacks trust among
its different entities.
States to realist not only fashion and dominate will and working of international organization
but also their creation and existence. The famous classical realist, E.H. Carr, extends this
understanding and terms international institutions “epiphenomenal to state power and
interests” (Simmons & Martin, 2002). By introducing 'basic force model', Stephen Krasner
(1982) as cited by Simmons and Martin (2002), relies on 'Hegemonic Stability Theory'
(HST) that attributes creation and stability of international institutions to relative power
distribution. Broadly, hegemonic stability theory stems from the Robert Gilpin's
understanding of the international order. Vitally different to the dominant realist strand that
understands international order as decentralized system having power equilibrium among
states, Robert Gilpin in his classic work, War and change in world politics (1981), attributes
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creation of international order to the leading or hegemonic states, founded on favorable rules
and institutions to promote their interests. To the classical realist, Hans Morgenthau,
significant objective of the equilibrium of power is preservation of all the elements of the
system and “preventing any element from gaining ascendancy over the others” (Morgenthau,
1948). Keeping states autonomous by not allowing any single entity of state(s) dominating
the entire system is the dominant realist understanding of the international system. However,
for Gilpin, international order owes its creation and existence to the “asymmetry of power”
rather than balance of power (Gilpin, 1981). Disequilibrium occurs when a single power
entity dominate the system by changing the existing balanced power configuration
(Morgenthau, 1948). In contrast, Gilpin, relying on material capabilities of power, considers
disequilibrium an outcome of challenging forces to the established hegemony—that refer to
leadership of one state in Greek—and their favorable composition of international order:
norms, rules and institutions (Gilpin, 1981; Ikenberry, 2014). The contending forces and
internal incapabilities are the major factors for disequilibrium. Gilpin (1981) states,
“Disequilibrium entails a disjuncture between the basic components of the existing
international system and the capacity of the dominant state or states to maintain the system,
between the costs of defending the existing distribution of territory, spheres of influence,
rules of the system, and international economy, on the one hand, and the revenues necessary
to finance these arrangements.” In a recurring struggle for power and wealth among
independent actors in an anarchic world, Gilpin (1981) acknowledges order and pattern in the
relationship among states and in this regard attribute a degree of control to the system
( Milner, 1991).
Hegemonic stability theory (HST) is an extension of the Charles Kindleberger's theory,
which, in turn, is based on Mancur Olson's theory of groups. Members of a large group
rationally pursuing their personal welfare will not promote common group interest in absence
of a “coercion or some other special device” and characteristic individual incentives (Olson,
1965). Olson conditions the formation of international organization to the same principle.
Despite shared understanding regarding common interests and means of their achievement,
formation of international organization is subjected to the presence of coercive power and
selfish interests to motivate individual actors to bear cost of the collective goals and goods.
Charles Kindleberger extends Olson's understanding explaining reasons of economic great
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depression (1929) in his book, The world in depression 1929-1939. He argues in the wake of
Great Depression (1929) that maintaining stability of international economic infrastructure is
a public (collective) good and its stability requires “one stabilizer”: a strong economic and
political power with potential and willingness to lead, supply and support to ensure existing
of this infrastructure. Kindleberger contends that the absence of this hegemon means
“Superfluity of would-be-free riders”, more dangerous than excessive domination
(Kindleberger, 1986).
Kindleberger considers macroeconomic policy coordination a zero-sum game in which one
state understandably secures its interests and welfare at the expense of others. Such an
environment necessitates presence of a hegemon to ensure promising interaction of the actors
and stabilize the system. Kindleberger (1986) justifying presence of the hegemonic
leadership argues:
“the international economic and monetary system need leadership, a country
which is prepared consciously or unconsciously, under some system of
rules that it has internalized, to set standards of conduct for others
countries; and to seek to get others to follow them, to take on an undue
share of the burdens of the system”.
In his explanation of the economic depression 1929, Kindleberger highlights systemic
instability and attributes it to Britain inability and US unwillingness to serve the much
required role of a world economic stabilizer. The leadership of a hegemon is defined as
“persuading others to follow a given course of action which might not be in the follower’s
short-run interest if it were truly independent” (Kindleberger, 1986). Apart from providing
market for ‘distress goods’ and a continuous capital flow, the hegemon ensures structure of
foreign exchange-rate and coordination of domestic monetary policies.
Olson (1965) and Kindleberger (1986) concur that the vital negative outcome of the absence
of a hegemon is the emergence and presence of “superfluity of free-riders” attributed to the
inherent characteristic of public goods, of not restricting their use to everyone. Olson (1965)
terms it the “impossibility of exclusion” that, in turn, discourages rational actors from taking
responsibility of public goods, undermining their worth and quality. In order to avoid it,
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Kindleberger advocates presence of coercion and additional inducement to make large groups
secure and produce public good. Leadership, not cooperation and regime formation is
prioritized (Kindleberger, 1986).
Hegemonic stability theory attributes effective international institution to presence of a
hegemon: “unipolar configuration of power in a particular issue-area” (Hasenclever; Mayer;
& Rittberger, 2000). The theory states that regime is formed and sustained with support of
state actors with “preponderance of power resources” in an issue area; on the other hand,
regime is weakened if this power is equally distributed. Regimes are termed as an
“unpromising alternative” to leadership. Hegemonic stability theory maintains that first order
of cooperation—states conceding to adjust their policies to ensure mutual benefits—
achievable. However, the second order of cooperation, the process involving rule formation
and implementation, is difficult and is rejected for the burden of involved costs (Hasenclever;
Mayer; & Rittberger, 2000). Pointing out its limitations, critics consider hegemonic
stability theorists' application of Olson's theory of groups in-exhaustive. Confirming,
however, to the notion that regimes are established by hegemonic power to ensure and
increase their relative gains, HST has an underlying assumption that regimes are not without
influence of the great powers and to a larger extent lacks agency. This structure-agency
debate revolves around the relative influence of environmental constraints and actors'
independence within the system (Steans; Pettiford; Diez; & El-Anis, 2010).
Apart from the absence of hegemon, a stabilizer, power based theorists attribute failure of
cooperation to inherent fear of favorable relative gains to powerful states in presence of
anarchic system. Neo-realists attributing international conflict to anarchic international
system question significance and influence of international institutions. The characteristic
difference between classical realists and Neo-realists or Structural realists is their respective
emphasis upon reason for conflict. Genest (1996) highlights this difference with a
comparative analysis of classical realist, Hans Morgenthau who argues that wicked and
selfish human nature successively extrapolated to state machinery bound to result in conflict
among states: structural or Neo-realists like Kenneth Waltz (1979), unlike Morgenthau,
ascribe such conflict to the absence of a central government or authority in the international
system—an anarchy. In other words, classical realists are more relying on domestic factors to
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understand international relations and state behaviour; while, Neo-realists are much focus on
the systemic factors of power concentration and diffusion among the various actors in the
international system ( Ikenberry, 2014).
For realists, this absence of a central authority termed anarchy is understood major factor for
promoting competition and conflict among states despite presence of shared interests
(Grieco, 1995). Keeping in view these marked different orientation towards the international
relations, Neo-realists argues that concerns for relative gains hinder prospects for deep
cooperation. State’s apprehensions of another state relative gains are a constraint in
cooperation despite assured of others commitments to the relationship (Joseph Grieco, 1995).
This concern that a joint arrangement will yield collective benefits, but reward an actor
relatively more obstructs the success of cooperation among actors. Institutional joint
arrangement feared to be favorable for few actors understandably increase their relative
power—an ability to effectively secure their interests in comparison to others. The
underlying working apprehension regarding relative gains and prospective increase in power
of others hinders possibility of the cooperative process.
Realists like Grieco extends implication of this absence of centralized authority, anarchy, to
incorporate state's insecurity and primary reliance on “self-help” as the order of the day. This
makes state's sense of insecurity motivating its actions. Realists and neo-liberals concur that
states are utility maximizer but with a different comprehension of their utility functions.
Anarchy, however, does not restrict cooperation on common issues rather makes it difficult
by creating “a structurally induced intolerance for relative gains” (Hasenclever; Mayer; &
Rittberger, 2000). Grieco (1995) conditions possibility of cooperation to certain prerequisites:
when absolute gains outweigh relative ones; in case common concerns are more significant
and relegate concerns about relative gains; in presence of extended power difference that
makes any prospective pay off unable to bridge or balance the relative differences; and nature
of the issue area and respective gains equally limits cooperation. Relative gains in economic
areas are affordable to be overlooked than security concerns in actualizing mutual
cooperation. Similarly, cooperation becomes difficult in issue areas where gains are feared to
be used for increasing military or bargaining capabilities (Hasenclever; Mayer; &
Rittberger, 2000).
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Predominantly focused on the pivotal dynamics of interests and power relationship, Susan
Strange (1982) considers regimes much susceptible to disruption with changed power
distribution and preferred interests among cooperative actors. Strange terms regime a
“pernicious concept” having no impact on behavior and outcomes of the international system
—rather it blurs influence of power and interest, the “proximate causal factors” for changes.
Consistent with traditional realist position, Strange like Waltz (1979) primarily conceives
independent rational self-seeking states as major actors on the world stage. Waltz evaluates
international system in terms of relative distribution of power among these actors and
attributes behaviour change in the system to the change in the power capabilities and
configuration among them.
Kindleberger (1986) signifies presence of a hegemon as a provider of public goods and the
decline of hegemon is understood to undermine provision of such public. In contrast, Stein
(1982) and other neoliberal institutionalists argue that a regime once established will sustain
itself in absence of hegemon as its presence serves the interests of small states (Lianos & Le
Blanc, 2012)
The power based theory focuses on systemic power configuration where cooperation is
realized when dominant powers in the system strengthen and support the system. However,
these scholars believe that any regime created because of a hegemon or dominant powerful
states would favorably accommodate the interests of its major contributors. Lyold Grubber
(2000) in his book, Ruling the World: Power Politics and the Rise of Supranational
Institutions argues that despite exponential rise of international institutions and regimes and
willing participation of small states, these international forums are not without influence of
the powerful states.
The presence of a hegemon willing to contribute its resources for stability of the system is
found effective in bringing cooperation among actors on economic issues (Gilpin, 1975;
Kindleberger, 1986). Rowlands (2001) signifies a hegemon’s capabilities to “transform
international structure” to actualize “coordinated policies” for addressing perceived common
problems rather than his motivations—which could be benevolent or malevolent. Power
based theories—hegemonic stability theory, Krasner's power oriented research program and
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Grieco's modern perspective of realism—attempt to offer an alternative to interest based
theories. The important point to assimilate is the rising number of regime despite concerns
for relative gains.
3.3 KNOWLEDGE-BASED THEORIES
Cognitivism, knowledge based assessment of regime evolution, is also referred to as
constructivism (Puthucherril, 2015; O’Neil, 2009). This knowledge based evaluation is
comprehensive enough to involve role of “ideas, new information, and international norms--
shared conception of appropriate behaviour”—in shaping states’ interests and international
cooperation (O’Neil, 2009). Constructivism, the logic of appropriateness, with its focus on
ideas, norm and culture considers role of collectively held or shared understanding about
social life pivotal (Johnstone, 2013) in generating a collective response (Ruggie, 1998). Role
of ideas becomes prominent in aftermath of the Soviet Union disintegration for the positivist
paradigms could not explain or predict this qualitative change (Stewart, 2001). Cited as
“striking evidence” of “qualitative transformations” in world politics, it testifies that
fundamental change in the international politics is the outcome of new ideas. The abolition of
colonialism and establishment of right to self-determination as a norm are also vital historical
facts unable to be exclusively explained through the dynamics of power and interest—
rationalist bases of regime (Mutschler, 2013). For cognitivism, ideas matter and guide
behaviour and are a reason for shaping and framing interests and identities that rationalists
wrongly assume to be given, thus “blackboxing” processes that shape their evolution
(Mutschler, 2013). Neoliberalism and neorealism, positivist frames, are found limited and
questioned for their static and not evolutionary understanding of international politics.
Stewart (2001) highlighting these limitations contends that “neoliberalism and neorealism
share a primitive conception of interstate anarchy, a narrow view of interest formation, and
an unwanted skepticism about the impact of collective norms on foreign policy choices....
[They] depict the world as an essential asocial landscape populated by rational state actors
maximizing expected utility across a range of consistently ordered, exogenously given
preferences”. The rationalist theories broadly encompassing the power and interest based
understanding of the regime (Simmons & Martin, 2002) contends that “political actors
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(primarily states) motivated by self-interest act strategically to advance those interests”
(Johnstone, 2013).
Critical of interest based theories, cognitivists question neo-liberals' realist heritage and its
assumption of states as rational actors with their interests and power preceding international
society and international institutions (Hasenclever et al., 1997). This statist approach is found
in-comprehensive. Primarily focused on the origin of interests, knowledge-based theorists
assess normative and causal beliefs of decision makers to understand process of their
preferences and interest formation. Constructivists distinguish social fact from the brute fact,
understanding the former to be dependent on socially developed conventions for their
existence; the latter, in contrast, remain true independent of human action (Brown & Ainley,
2005). Considering social facts for the brute facts—conditions that are a reason of a social
fact are given a natural status, fixed and unchanging—is misleading. Constructivists contend
that social reality is shaped through collective interpretation and meanings given to
experience; therefore, it is important to understand how social facts are constituted. “Rather
than treating identities and interests as nontheorized initial conditions (or deducing it from
behaviour)” Stewart (2001) states, “constructivists deepen the analysis of motivation and
choice by examining the normative, epistemic, and institutional contest in which states
acquire perceptions of themselves and international society”.
For neorealists compliance with norms is an expedient concern for state survival (Stewart,
2001), that seems closer to Machiavellian understanding of prioritizing politics to morality
(Bell, 2008). Neoliberals, on the other hand, acknowledge norms to influence international
relations outcomes; however, term them incapable of altering actors’ identities and ends
(Stewart, 2001). Eliding impact of new values, intersubjective interpretations, and social
institutions on constituting actor identities, frame premises for action, and enter state utility
functions; neoliberal neglect critical source of variation in the foreign policies and global
outcomes (Stewart, 2001).
Constructivists comprehend international relations in sociological perspective where the
society of states is understood lacking a legitimate central authority, but knitted together
through a sense of social life, basic common goals and prescribed rules and institutions for
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their achievement. The three fundamental principles of constructivist social theory derived
from Wendt’s study are tabled by Weber (2001) and reproduce here for better comprehension
of the theory.
Table 4 Three fundamental principles of constructivist social theory
1 Social Knowledge “People act toward objects, including other actors, on the basis of
the meanings that the objects have for them”
2 Social Practice “The meanings in terms of which action is organized arise out of
interaction”
3 Social Identities
and Interests
“Identities [and interests] are produced in and through ‘situated
activity’
This sociological comprehension of the international relations places norms, “a collective
expectation for the proper behaviour of actors with a given identity”, at a pivotal position of
influence. Norms termed “nonmaterial element of structures” with prescriptive character
exert a compliance pull different to “power constraints and particular interest” (Stewart,
2001). The national interest and power politics is understood an outcome of a normative and
cultural understanding of the material objectives. As Wendt (1992) contends, “power politics
is historically conditioned, socially constructed response to anarchy”. Compliance, pull of
law, depends on its congruence with shared understandings, accepted criteria of legality, and
enmeshment in “an interactive practice of legality” (Johnstone, 2013). Shared understanding
about legitimate conduct evolves into a shared social purpose of life (Stewart, 2001).
Knowledge based understanding of the regime formation is broadly distinguished in terms of
weak and strong cognitivism (Hasenclever et al, 1997). Weak cognitivism attributes regime
formation to “complex learning…new consensual knowledge or shared understanding that
spurs states to reformulate national interest and means to achieve them” (Stewart, 2001). This
approach is found much reconciled with the rationalist approach (Hasenclever et al., 1997),
supplement and improve it with a focused attention on how interests emerge and change
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(Mutschler, 2013). Strong cognitivism challenges rationalist approach (Stewart, 2001).
Espousing power of legitimacy, argument and identity (Puthucherril, 2015) strong
cognitivists argue that mutual expectations and intersubjective understanding constitute
identities as well as interests (Stewart, 2001). Stewart further differentiates these two
ontologically as strong cognitivism emphasizes structure; while, weak cognitivism signifies
agency.
Weak cognitivism contends that rationalist approaches are incomplete for not highlighting
that changes in actors’ interests are independent of material factors (Mutschler, 2013).
Without denying importance of power and interest in regime formation, the role of actors’
perception of the international problem that demands regime formation is understood vital.
Actors’ perceptions of the issues [the defining process of interests] are shaped by causal and
normative beliefs (Mutschler, 2013). Causal beliefs, beliefs about cause and effect
relationship, also termed “professional judgment” (Haas, 2016) are the outcome of “shared
consensus of recognized elites” (Mutschler, 2013) that “provide analytic reasons and
explanation of behavior” (Haas, 2016). The normative or principled beliefs, “value-based
rationale for social action”, (Haas, 2016) characteristically differentiate right from wrong and
just from unjust (Mutschler, 2013).
Understanding origin of “convergent expectations”—fundamental to regime formation—is
responded with three assumptions (Hasenclever et al, 1997). First, the international structure
and human volition is interspersed with interpretation: understanding circumstances and
defining interests before making choices. Interpretation, in turn, relies on existing body of
knowledge that shapes perception of the reality as well as procedures in light of the
objectives—this body of knowledge is at the base of decision making. In a word, interests are
not fixed but determined, shaped and analyzed by actors' consideration of the environment
and favored choices (Hasenclever et al., 1997). This makes study of the origin of interests
quintessential for understanding international relations (Mutschler, 2013). The second
assumption, founded on the first, makes “intersubjectively shared meaning”, at least a
minimum of collective understanding, indispensable for materializing the essential
convergent expectations and cooperation of the independent international actors in an issue-
area (Hasenclever et al., 1997). Convergent expectations regarding acceptable behaviour and
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desirable goal lay a foundation for international institutions (Stewart, 2013). Intersubjectivity
if simplified means “shared by people—defined by their person-to-person, self-other
exchanges” (Viotti & Kauppi, 2012). States’ collective understanding of the nature and
measures to address problems constitutes the ideational component of international relations.
Thirdly, weak cognitivists assume and attribute cooperation and influence regarding policy
issues to the presence of expert knowledge and information: epistemic communities
(Hasenclever et al. 1997) that is defined by Hass (1992) as, “a network of professionals with
recognized expertise and competence in a particular domain and an authoritative claim to
policy-relevant knowledge within that domain or issue-area”. This community possesses four
characteristics: a shared set of normative and principled beliefs, shared causal beliefs, shared
notions of validity and a common policy enterprise (Haas, 1992). The role of epistemic
community becomes fundamental to convergent expectations as shared accepted knowledge
fulfilling essential notions of validity plays crucial role in the process of intelligent effective
decision making. Decision making—specifically regarding complex, technical and
unfamiliar situation—demand reducing of uncertainty by pursuing expert reliable
information by state actors to effectively secure their interests.
Exceeding reliance of the decision makers on technical and expert knowledge seems
unavoidable in today’s highly interdependent world with characteristically complex issues.
Weak cognitivists espouse the pivotal purpose of ideas as guiding behaviour by stipulating
causal patterns and providing compelling ethical and moral motivations (Mutschler, 2013).
Changes in behaviour without taking into account the change in ideas and beliefs are
inexplicable. Robert Jackson (1993) exemplifies it with decolonization as an outgrowth of a
“fundamental shift of normative ideas”—changed conception of the legitimate and
illegitimate rule and not mere change of power equation or economic considerations. Weak
cognitivism, therefore, signifies importance of ideas as focal points and road maps
(Hasenclever et al., 1997). Hasenclever et al mention that ideas shape behaviour through
three causal pathways. With actions chosen primarily in consideration of the “normative and
analytic understandings”, ideas offer a road map. Secondly, similar to the Young's notion of
“salient solution”, the widely shared ideas serve as focal points defining acceptable solutions
to collective action problems. Most significantly, ideas once acknowledged and establish as
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international rules and norms—embodied institutional frameworks—are more influential in
influencing policies.
Epistemic communities earlier defined as “networks of professionals with recognized
expertise and competence in a particular domain and an authoritative claim to policy relevant
knowledge within that domain” are vital to transnational knowledge dissemination. With
shared understanding of the problems and their possible solutions, epistemic communities
actively seek influencing government for the desired better policy outcomes. Modern means
of communications have extended transnational access of these independent scientific
communities to societies and governments. Peter Haas states three determining conditions for
the effectiveness of epistemic communities as “vehicle of international learning” and
international policy coordination (Hasenclever et al., 1997; Mutschler, 2013). Prevalent
uncertainty and lack of understanding of the issues and their possible causes among policy
makers is the foremost factor. Evidently, such limitations are realized in shock and crises
situations that necessitates prospective contribution of the experts in the field. Secondly,
divided opinion of the experts on an issue hinders growth of a coherent policy. Absence of
concrete evidence and consensus experts’ opinion subjects policy formulation to political
rather than scientific considerations. Third fundamental factor to the sway of epistemic
communications is the political power it accrues by actively becoming part of the decision
making structure. Without undermining epistemic communities’ effectiveness of persuasion,
Peter Haas attributes national compliance to the power acquired by them termed process of
institutionalization (Hasenclever et al., 1997; Mutschler, 2013). This institutionalization
involves gaining access or power in the governing institutions—acquires bureaucratic power
or shape domestic politics of the states by influencing domestic political dynamics.
In the same vein, Emmanuel Adler and Haas (1992) signify role of epistemic communities at
four levels of regime formation and maintenance. During formulation process, information
provided by the epistemic communities frames negotiation process as well as assist states in
determining their action course in presence of limitations and uncertainty. Equally significant
is the potential of the communities as agents of international dissemination of knowledge and
shared understandings in today’s globalized world. With “integrative” solutions in presence
of existing diversity, epistemic communities can influence highly politicized stage of policy
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making. Most importantly, epistemic communities provide a justification of the existing
regime as a mechanism to resolve or alleviate concerns. Disruption in the shared
understanding among the epistemic communities, however, could undermine effectiveness
and even question existence of the established regime.
Epistemic communities create that body of knowledge that serves as bases for the decision
makers (Mutschler, 2013). Adler (1992) renders example of arms control limitations
measures initiated between the United States and Soviet Union attributing it to the efforts
carried out by arms control epistemic community. Understanding how this body of
knowledge evolves is important, for it shapes perception of reality. This signifies
constructivists’ fundamental claim that interests and identities are not given (Mutschler,
2013). Changed beliefs are in other words new knowledge if result in changed behavior,
termed learning. This evolved understanding of the social and political milieu would either
reshape or redraw the means to achieve the intact goals, termed simple learning, or extend to
complex learning: reformulation of the very goals demanding new measures and means to
achieve them (Hasenclever et al., 1997; Mutschler, 2013). Established regimes in an issue
area could strengthen prevalent learning that facilitated their very existence as their presence
effect course of political actions and preferences. However, learning—evolved understanding
—could question, adversely affect and even erode foundations of regime based cooperation
(Hasenclever et al., 1997). This emphasizes pivotal position and role of knowledge in
highlighting essential conditions and limitations for the success of regime in an issue area.
Weak and strong cognitivism concur regarding the significance of the international normative
structure, each establishes that international regime is an independent entity with inherent
stability and self-interest; however, strong cognitivism offers a radical critique of mainstream
rationalists (Hasenclever et al., 1997; Puthucherril, 2015) In contrast to mainstream
rationalists' state centric approach, strong cognitivism advocates “institution-centric
approach” (Hasenclever et al., 1997). For rationalists, state's interest and power are the
primary determinants—units of analysis. For strong cognitivists, understanding and working
of the international relations would not be comprehended if established practices and rules—
institutions—liked sovereignty, diplomacy and international law are not evaluated in their
own capacity.
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Strong cognitivists underline the social normative world, a product of established regime, and
thus signify independent constitutive character of regime. It emphasizes the power of
legitimacy, argument and identity (Puthucherril, 2015). Strong cognitivists maintain that the
logic of appropriateness supersedes logic of consequentiality. Norms are understood to have
their “compliance pull”, most importantly once understood by states legitimate (Hasenclever
et al., 1997). Legitimacy signifies the notion that states cooperate out of their sense of
obligation, complying with rules and norms consider legitimate (Puthucherril, 2015).
Legitimacy of the norm,—most importantly it’s “coherence” with the overall normative
structure, “rule-skein”, of the international system—determines its compliance pull.
However, the presence of norms and their conception as legitimate does not override or
substitute formal structure (Hasenclever et al., 2015).
Strong cognitivists highlight importance of the dialogue, an interactive communicative
process that evolves into shared understanding and acceptable reasons for cooperation among
actors on any issue area (Hasenclever et al., 2015). The practical discourse among states form
and shape regime, for it establishes and inspires norms of conduct and their application
(Puthucherril, 2015). The importance of dialogue—a continued process of persuasion and
evolution of convincing shared reasons—has become significant since neoliberal discredit of
military force as social control mechanism in a characteristically interdependent international
system. Similarly, rising complexity of the current international problems has made it
difficult for state to effectively assess their national interest; thus, making communication
and persuasion an indispensable requirement in presence of “divergent understanding of
reality” (Hasenclever et al., 1997).
Kratochwil and Ruggie (1986) highlight that the presences of regimes offer resistance to rule
breaking. Termed “sanctioning problem”, the existing regime seeks justification for rule
breaking from the offenders. The provided rationale could result in reassessment of the rule,
an “intersubjective appraisal” in relation with the given set of circumstances. Regime,
therefore, seems not just strengthen “mutually agreed expectation” but also reformation and
evolution of the normative structure in light of the changed international reality (Hasenclever
et al., 1997). Strong cognitivists contend that a community with a collective consciousness
and identity established as a result of “rule-based cooperation” will overcome self-interest
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driven hurdles to cooperation (Hasenclever et al., 1997; Puthucherril, 2015). Puthucherril
argues that “states acquire role specific understandings and expectations about themselves by
socializing into the inter-subjective structure of the international system”. Interests of the
different actors, not given and rigidly framed, are understood susceptible to the collective
identity of this evolved community. As mentioned earlier, the most highlighted hurdles to
cooperation are free-riding and defection. Cognitivists argue the emerged community with its
collective identity, though an outcome of individualistic and selfish considerations attains an
agency once formally structured and promote reciprocity and willingness to bear cost of
cooperation (Wendt, 1994). Continued socialization under the ambit of collective frame or
regime further inculcates and strengthens collective understanding that makes cooperation a
habit and evolves into a collective identity (Puthucherril, 2015). Focused on social
construction of international politics, constructivism/cognitivism analyzes foreign policy in
terms of how the actors perceive and define the world and their role that can be reoriented in
collective mold with continued cooperation among the actors (Wendt, 1994). The consensual
cooperation mechanism redefines reasons for cooperation and evolve new collective identity
and interests, an outcome of a process termed “positive echo-effect” by Hasenclever et al
(1994). Wendt (1994) cites continued post-cold war West European security collaboration as
pertinent example to support this claim.
Consensual knowledge and ideas are important for cooperation; however, cognitivists
dismiss that mere presence of such shared understanding could secure international
cooperation. Even Peter Haas as cited by Hasenclever et al (1997) declares that consensual
knowledge in an issue area is not a pre-requisite and a convinced hegemon of the new
learning plays an effective role in regime formation. Similarly, Adler and Haas (1992)
question excessively estimated influence of epistemic communities by arguing that policy
making is inclined to political consideration instead of scientific assessment— scientific
conclusion, significantly, corresponding to political objectives are highlighted and
incorporated. Despite criticized for its inconsistent insights and overemphasis on
international institutions at the discount of domestic determinants, cognitivism’s key
variables: intersubjective meanings, social institutions, and interpretive approaches, are
found palatable and helpful in understanding international relations.
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The three explanations for regime formation and robustness are rested on three different
variables: realists attribute it to relative power capability of the actors; neoliberals, to self-
interested behaviour of the actors; whereas, cognitivists consider that conception of these two
—interest and power capabilities—depend upon actors' “causal and social knowledge”
( Hasenclever et al., 1997; Puthucherril, 2015). However, none of them is found to be
exclusively “the” explanation of regime formation or entirely captures all the essential
dimensions and reasons of the regime existence (Hasenclever et al., 1997; Puthucherril,
2015). Regime formation could be spontaneous, a result of mediation or imposed and
fostered by power states; however, considering these factors exclusively unrelated would be a
distortion of reality (Puthucherril, 2015). As mentioned, the three different variables power,
interests and knowledge propounded by realists, liberals and constructivists profoundly
explain reasons for cooperation among states to address global issues. In the preceding
chapters, the researcher will highlight working of these variables while evaluating historical
evolution of climate change regime. The various environmental values and principles would
be seen evolved through a process incorporating power, interest and knowledge formation
among the actors.
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CHAPTER 4
INTERNATIONAL CLIMATE CHANGE REGIME: CONTENTIOUS
POLITICS AND CONTESTED PRINCIPLES
This chapter encompasses those political and economic underpinnings that restricted
evolution of international climate change regime. Global climate change is an enormously
complex global issue with catastrophic adverse implications for the entire world, largely for
the developing states because of their unfavorable location and inadequate adaptation
resources. However, this understanding took much time in sinking in and is still not
universally shared with same significance by stakeholders on international stage. The reason
can be broadly assigned to different conception of the problem and its solution in light of
preferred national interest of states in the international anarchic system. Powerful and small
states are legally standing equal despite their factually disparate economic and political
position in international system. However, elephants and sparrows are not on the same
footings in terms of responsibility for the problem and its repercussions. Powerful states with
their enriched resources and earlier industrialization are the main perpetrators. Less powerful
states of the international comity are victims despite negligible role in creation of this
problem. Apart from disparity in light of historical responsibility, the developed rich states
are also far ahead in their adaptive capabilities to adverse climate changes than the poor
developing states with meager resources. Global climate change politics has three main
contentious dynamics: nature of dependence on non-renewable energy resources like oil, coal
and gas; international political economy or influence of wealth and power in international
relations that distinguishes developed North from developing South; and understanding of
climate impacts and associated reduction costs. States are differentiated with respect to nature
of their dependence on energy from fossil fuels and corresponding evolved culture as
outcome of that dependence. The contentious political dynamics of global climate change has
shaped key principles of international climate change regime and are discussed to
comprehend foundation of international climate change regime.
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4.1 THE GLOBAL NORTH AND SOUTH DIVIDE: ENVIRONMENTAL
PROBLEMS AND STRUCTURAL INEQUALITY
Global climate change is a scientifically acknowledged global concern that is widely
understood to have planetary implications, and thus demands collective efforts. International
political economy broadly concerned with the question of wealth, poverty and entailing
relationship of dependence is an important factor determining dynamics of climate change
policy making. The poor developing south argues that responsibilities for solution of the
problem should be accorded in light of contribution to the problem and respective capacity.
Relative contribution and ability to address the problem decide relative obligation and
responsibility of states (Agarwal, 2002). The rich developed North with early
industrialization and exploitation of the nature in disregard to man’s ethical responsibility
towards clean environment resulted in global climate change. The poor developing South, on
the other hand, is not only least responsible for the problem with its meager negligible
emissions, but also a major victim to its negative climate impacts. The issue is further
compounded in presence of pre-existing trust deficit because of the structural inequality.
Despite analytical ambiguity, the extensively used concept of “South” and differently
interpreted idea of “sustainable development” underpin politics of global environment
(Najam, 2005). Najam considers concept of global South having profound political essence
that symbolically gives collective identity to poor developing states in light of the global
economic inequalities. Economic poverty as well as “poverty of influence” with South
exclusion from the mainstream international politics is at the base of this concept. Politically
dependent with insignificant influence in the global state of affairs, the South considers itself
vulnerable to external manipulations that further threaten its “functional sovereignty”
(Najam, 2005). Rourke (2003) mentions facts to highlight the glaring disparity of these two
blocks of states. North, the economically developed countries lying north of the equator with
higher GNP and living standards, has a rich diverse economic foundations. It commands
higher export capacity of manufactured goods and provides refined sophisticated
technologies and services. South, the collective identity of developing states lying south of
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the equator, is vulnerable as its 34% export base is relying on primary goods. The level of
deprivation in South is alarmingly worrisome. In comparison to South's rising
undernourishment and malnutrition cases, 400,000 people in US only underwent liposuction
in 1990s (Rourke, 2003).
The global South is a collective identity and image of the developing states despite divergent
strands since decades (Paterson, 1996). The economic disparity and pervasive poverty in
these countries attributed to structural exploitation created the necessary conditions for these
states to collectively assert themselves and bring the essential changes in the international
system. Krasner (1985) contends that “vulnerability” and not just poverty has been
motivating the marginalized voices termed, the South. Rich states, harnessing opportunities
of Victorian industrial revolution with its sweatshops and cheap but harmful coal resources,
develop themselves at the expense of others’ share of the environmental space (Agarwal,
2002).International environmental negotiations, influenced of these conflicts between North
and South, are considered by the North part of a “larger game” to rectify prevalent systemic
disempowerment and imbalance of wealth and influence (Najam, 2005). However, the South
is unable to compete, even though a collective unit, the overweening influence of powerful
states in determining agenda and policy process in formation of climate change regime
(Depledge, 2005). It demands financial and technological resources to enhance its adaptive
capacity against adverse repercussions of climate change and achieve clean energy
development to reduce their poverty. Principally accepting responsibility for the problem of
global climate change, the North lacks political will and determined unified approach to
direct required financial resources and technology to South (Paterson, 1996). Apprehensions
exist on both sides.
Paterson (1996), highlighting this rift, points out that North fears climate convention as
South's justification for a changed economic order, a concerted effort of developing states in
their access to global market and modern scientific technology. In addition, it demands a
comprehensive mitigation policy as emission reduction in North is assumed futile if it
remains unchecked in South, especially in case of its continued intense rise in countries like
China and India. Likewise, South fears North’s binding quantified emission target, an ‘eco-
colonialism’, an attempt to restrain its growth. Developing states consider binding emission
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target for themselves unjustified in light of them not historically responsible for global
climate change and least current per capita emissions (Paterson, 1996). The North
apprehends that South’s unchecked emissions justified on the ground of availing their share
of development would triple current ratio of atmospheric CO2 (Agarwal, 2002). Agarwal’s
proposed solution to avert catastrophic impacts of western development pattern—“historical
inefficiencies” and potential “environmental threats”—is avoiding them by leapfrogging. As
Environmental problems like climate change are outcomes of North’s economic development
model, the South argues that development not in accordance with the North’s footsteps is a
solution (Najam, 2005). However, structural and domestic limitations limit the process of
leapfrogging: Northern states especially U.S is willing for technology cooperation but not to
technology transfer, South’s mounting and crippling debt, its dependence on external
resources, unequal terms of trade with limited access to global market, and domestic political
and institutional instability (Paterson, 1996). The rationalist logic of consequentiality guided
by fear of relative gains is at the root of this relationship between the global North and global
South.
The disagreement on environmental policy making is much deep rooted and complex. Its
underlying roots are global inequality and injustice (Redcliff & Sage, 2002; Miller, 2002).
Roberts and Parks (2007) state that inequality with respect to responsibility; vulnerability and
mitigation determine the contours of global environmental policy making. South’s
participation is indispensible in formulating a sound environmental policy, which it has
hinged to its economic development. Reuveny and Thompson (2005) and Najam (2005)
concur that the South vies to address its perennial issues of neglect and exploitation and
ensure a favorable just order, addressing global power and influence disparity in addition to
improving state of global environment. South questioned and resisted North’s intended
environmental agenda at Stockholm conference, 1972, for being exclusively focused on
human environment. This overemphasis on environment was feared to arrest South’s
development and growing industrialization (Najam, 2005; Reuveny & Thompson, 2008), —a
neo-imperialism (Laferriere, 2006) in the garb of ending environmental degradation and
harmful emissions. The Rio conference, 1992 knitted environment with development
(Laferriere, 2006), and initiated politics of sustainable development—a “defining moniker”
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for all future environmental and political forums (Najam, 2005). The developing South
lauded the concept.
The South exclusion from influence in global political and financial decision making, a
structural denial to development and influence, has turned it vulnerably dependent on
international actors. Its efforts for entrusting flow and transfer of financial and technological
resources to Conference of Parties (COP) didn’t materialize, and was entrusted to Global
Environmental Facility (GEF) (Paterson, 1996). Atiq Ur Rehman, Coordinator of the Climate
Action Network for South East Asia, Dhaka, terms it an evidence of power disparity with
South conceding to GEF as financial mechanism in absence of any other alternative, and for
fear of World Bank’s wrath (Gupta, 2006). Systemic denial of South access to rule formation
and agenda setting (Gupta, 2006) has made weak states vulnerable to exploitation of the
international actors other than powerful states, like IMF and World Bank (Hurrell & Wood,
2002). International financial institutions like World Bank, IMF and WTO fashion
development dynamics that often override South’s understanding of development. In
addition, institutions like World Bank are not inclusive in their decision making structure in
presence of weighted voting. Gupta (2006) argues that GEF under the supervision of World
Bank is distrusted, for the latter’s pursuit of grand development projects favorable to
multinationals and ruling groups at the expense of locals’ considerations. North imposed
preferred institutional mechanism on South under the supervision of World Bank despite
their avowed mistrust in World Bank operation, its ideological orientations, least concern for
environmental cause, and obvious inclination towards industrialized states is a major reason
of discord between the two blocks (Gupta, 2006).
The North and South have different understanding of environmental degradation and equally
divergent order of priorities and solutions (Roberts & Parks, 2007; Redcilff & Sage, 2002;
Najam, 2005). Southern states believe in light of their understanding of development (Gupta,
2006) that issues like huge debt servicing and its constrains on social and economic
development, unfair global trade, safe drinking water, inadequate diet and soil erosion
leading to low agricultural yields demand their attention than resorting to clean sources of
development for mitigation of greenhouse gas emissions. South contends that in light of the
North historical contribution to climate change problem (Redcliff & Sage, 2002), it should
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take leading massive emission curtailing measures. The distinctly variant order of preferred
environmental objectives is witnessed in case of GEF primary focus on four key global
concerns: global warming, pollution of international waters, destruction of biological
diversity, and destruction of the stratospheric ozone layer (Gupta, 2006). To the disadvantage
of global South, Gupta contends, an artificial demarcation of domestic and global
environmental problems is drawn and only those issue receive financial support that are
widespread enough to be the North’s concern. To the detriment of South's interests, North's
technical and economic superiority as well as its ability to shape ideological context,
preferences, and conception of favorable development process limit choices of developing
states (Agarwal, 2002). South considers North’s development pattern responsible for the
global environmental degradation and systemic increase of global inequality (Gupta,; Najam,
2005). It idealizes development in terms of empowerment and seeks production that would
ameliorate living condition of people. Gupta (2006) terms problem of development, global
poverty and environmental degradation as “social ecological crises”, attributed to North
unsustainable economic models, excessively unwise consumption, and unfair global
economic system. There are no same solutions for problems with different understandings
and interpretations. The global South, without invalidating the North’s environmental ideal,
significantly seeks improving state of global politics to actualize a much fair and just
international order (Najam, 2005). Equalizing per capita emission of one US citizen to 30
Pakistanis, Agarwal (2002) argues that the industrialized North as “holders of natural debt”
limits environment capacity to carbon emissions at the expense of South’s share of
development. Therefore, financial and technological assistance to the global South should not
be understood as an economic burden and threat but repayment of debt and ecological
necessity. International cooperation on climate change requires addressing equity concerns,
bringing a sense of fairness, by accepting equitable right of each to share atmospheric space.
4.2 COST-EFFECTIVENESS OF CLIMATE CHANGE ACTIONS AND INACTIONS
Power disparities of North and South and differences in their preferred political and
economic goals and course of actions are not the only factors shaping global climate change
politics. Contested definitions and principles of international climate policy making equally
depends on a fundamental consideration: cost-effectiveness of climate change actions.
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Perception as well as reality shape understanding of cost and benefits of climate actions.
Perception as mentioned in the previous chapter plays a significant role in defining an issue
area and in shaping an interest. Perception of the reality is different from state to state and
demands evaluating assessment of social and political dynamics of a political system.
Climate change actions, as discussed, involve limitation of greenhouse emissions that
consequently restrict state’s choices of economic development. The extensive dependence on
fossil fuels to make our mechanized world function and grow is attributed to its abundance
and man's technical expertise for its exploitation (Judkins, Fulkerson, & Sanghvi, n.d.).The
link between carbon emissions and fossil fuel run modern industrialized civilization is
evidently established. The solution seeks de-linking this bond between fossil fuels and energy
production and consumption. However, the pattern of energy production and consumption
evolve a socio-economic and political culture that influences decision making process.
Energy system and socio-economic life patterns are having an intricate dependent
relationship (Herbstreuth, 2011; Karl, 2004).
4.3 FOSSIL EXPORT BASED ECONOMIES/ OPEC FEAR ECONOMIC
VULNERABILITY
Environmental scientists and the world at large are growing conscious and concerned about
two things: depleting fossil fuels and rising concentration of greenhouse gases. Our entire
life pattern in a modern technological society is inextricably linked to fossil fuel combustion,
consequently emitting greenhouse gases. Alday, Baron and Tubiana (n.d.) drawing
relationship of fossil fuel led economy and climate change highlight that greenhouse
emission is a corollary of every economic activity. They argue that cost and perception of
cost lie at the root of effective climate policy. Therefore, one major task before the
stakeholders of the global economy and environment is to “manage cost” of the international
climate regime to accommodate states that are having fossil fuel dependent economy for
ensuring their participation (Alday, Baron & Tubiana, n.d.). The cost-effective climate
strategy demands maximum emission reduction with minimum cost. Cost evaluation,
however, is a complex and demanding process regarding climate change. Timing, long
atmospheric residual of the greenhouse gases and their possible adverse impacts in case of
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inaction or benefit in case of action, makes countering climate change a 'political dilemma'
for policy makers. They desist, for fear of losing political clout and favourability, to impose
public cost for distant benefits. Climate policy making is equally limited in presence of
uncertainty regarding its adverse impacts and cost of climate actions for controlling climate
change that for fossil fuel exporters mean less production. Apprehensions that impacts of
climate change are “irreversible”, thus, cost on action would be “irrecoverable” limits
effective policy making (Alday, Baron & Tubiana, n.d.).
States climate policies, however, are not only shaped by understanding of cost or perception
of it, but also involves comparative evaluation of the cost undertaken—relative cost. Cost
distribution among states fundamentally influences political viability and environmental
effectiveness of a climate policy (Aldy, Baron, & Tubiana, 2003).A policy is politically
contested for equitable sharing of benefits and burdens and in consideration to development
goals and increasing adaptive capacity of the vulnerable states. States with respect to the
domestic socio-economic and political consideration consider climate change controlling
measures disastrous for their national interests. States divergent stances in essence are
fundamentally their understanding of how climate actions to counter climate change will
affect their respective state. States are differentiated with respect to nature of energy
dependence in relation to economy and culture it evolves (Paterson, 1996). Energy exporter
countries like Organization of Petroleum Exporting Countries (OPEC) are dependent on
export of oil and gas for revenue and thus resist any strong climate convention. With 87% of
its revenue dependent on oil export, Saudi Arabia demanded to be treated as special as
vulnerable small island states with an understanding that rigid climate rules could seriously
undermine its economy and development (Paterson, 1996). Paterson highlights how
consistently Saudi Arabia sought obstructing negotiation process, resorting to scientific
uncertainty and questioning critical role of CO2 in global warming.
Russell (2011) after emphasizing the intensity of climate change implications elaborates
political culture that dominates decision making structure of the oil rich Middle Eastern
states. Climate change is limiting human development—growing human potential and
freedom—by restricting human freedom and choices. It equally undermines history as an
idea of progress that future will be better than the past, a quintessential foundation of
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enlightenment and modernism. The oil producing states maintain both their highly
consumptive man-made artificial world and continued spending on mitigation and adaptation
measures with revenue earned from international energy market. Paradoxically, revenue
generation through enhanced global consumption of petroleum products and fossil fuel are
further contributing to greenhouse emissions, aggravating global climate change. In a word,
mitigation and adaptation efforts require regulating global consumption of fossil fuels, which
is understood fundamentally threatening the existing socio-political and economic
infrastructure of the Persian Gulf. Extensive intervention of state machinery has actualized a
man-made artificial world that is overtaxing natural environment in the oil producing Persian
Gulf. Russell (2011) cites Saudi Arabia's desperate measure for generating artificial rains to
irrigate its arid lands as an example of such profligate use of state resources and machinery.
Apart from this paradoxical situation, the OPEC countries are considered accursed with
'resource curse’—elite decision making structure in absence of democratic norms and system
that secures political acquiescence through extensive public luxurious welfare services (Karl,
2011;). This favourable interdependent relationship of elites' continued control of state's
machinery and luxury driven society flourishes with the help of revenue accrued from the
international energy markets. Most of the fossil fuel export economies in Middle East could
not develop effective democratic norms, structures and accountability mechanisms
(Waterbury, 2013). Resource curse, in a word, has strengthened if not originated the
authoritarian decision making structure that excludes masses but provides them excessive
economic benefits for their political docility Waterbury(2013) considers that market
liberalization, understood to have entrenched this political exclusion, has further limited
economic benefits and political power in few hands. Examination of this seemingly
inescapable cycle could make one understand the pivotal position of fossil fuels and
dependence of the governments and governed in OPEC on revenue generated from this
resource. Russell (2011) terms this interaction “inexorably intertwined”.
However, global climate changes are constraining the environmental benefits and catalysing
the existing problems: burgeoning population, poverty, unemployment and political and
government fragmentation. Crucially important of all these problems is the rising freshwater
scarcity in the oil rich Persian Gulf (Russell, 2011. Inhospitable and rugged environment,
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however, has not restrained these states from its extended unwise investment in their efforts
to develop their efficient agricultural self-sufficiency. As discussed earlier, the inherent
contradiction of actualizing adaptation and mitigation measures through acquired capital
from the international energy markets successively undermine environmental soundness. The
impending climate impacts followed by exacerbation of related socio-economic problems,
however, are perceived less threatening by these regimes than the divergence between
politics of climate change and their national interests. Babiker (2003) argues that in view of
the oil exporting countries dependence on oil industries, economic implications of the
response measures to climate change are the most important adverse effects. Saudi Arabia,
overwhelmed by this understanding, has been resisting formation of a global agreement that
could either reduce energy demands or make OPEC countries commit to mitigation and
adaptation in developing states (Paterson, 1996).
Economic vulnerability is prioritized in comparison to other physical vulnerabilities. OPEC's
solution to climate change problem is technological evolution and development, as
propounded by Saudi oil minister, rather than substitute of fossil fuels (Rusell, 2011).
Explaining state-society relationship, the rentier state theory postulates that states relying on
income of oil and gas imports levy no taxes on their subjects (Gray, 2011; Machowski, 2010)
that result in “fewer political demands” from them (Levins, 2013). Similarly, state's profuse
societal distribution of this revenue, understandably, makes it less obliged to its subjects in
terms of democratic values and developmental foundations. Gray (2011) concludes that rents
and rentierism remain fundamental to understanding of the gulf OPEC states, despite
presence of many other determinants and problems. In view of the paramount significance
and dependence of OPEC socio-economic and political infrastructure on external rents from
international energy markets, resistance to climate actions that are feared to undermine these
rents flow is comprehensible.
4.4 GAS GUZZLING CULTURE AND RIGHT TO DEVELOPMENT FEEL
THREATENED
Apart from the energy exporters, industrialized states with rich energy resources and
corresponding high consumption as well as states with available cheap fossil fuels and
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leaping ambitions to rapid development also consider climate change controlling actions
disadvantageous and thus resist them. With strong resource base, they are not necessarily
exporters. US with its gas guzzling culture, second largest production in oil and gas and first
in coal, stands out among these states because of its political, economic and military
superiority (Paterson, 1996). Equally strong resistance has been provided by countries which
has the potential to become developed and industrialized with available capped resources like
India, Brazil, and China. Following fossil-fuel model of development, an excessive rise is
witnessed in their carbon emissions (Schreuder, 2009).
United States rich resources procure a highly consumptive society with rich lifestyle.
Although China has replaced US position as the world highest greenhouse gases emitter, the
latter still has the largest per capita emissions (Schreuder, 2009). Having a gas guzzling
culture, US refuses to commit itself to any of emission reduction commitment that would
compromise its existing life standards. Roberts and Parks (2007) quote former US President
George H.W. Bush stating that “the American lifestyle is not open to negotiation” to reinforce
its reluctance to commit to global emission reduction. Sachs (2014) highlights the large
global implications of this lifestyle terming it an “outsized damage” because of the massive
wastage it produces. John Perkins, author “Confession of an Economic Hit Man (2004) is
cited by Diaz (2008) in his famous documentary, The End of poverty” about this dismal
global impact of the US. Perkins laments that despite comprising below 5% of the world’s
population, United States consume 25% of its resources and produce more than 30% of its
pollution. Bolin (2007) in light of these understanding seeks effective US response against
climate change, not only because of largest fossil fuel consumption but also its enormous
capacity to plays an effective role. However, large industrialized states in general but US in
particular resists hard line industrially restrictive agreements (Jaggard, 2007). U.S prefers
ensuring continued energy security largely defined as “sufficient quantities of supplies at
affordable price” (Sauter & Mackerron, 2008). Climate actions are understood to have
negative economic implications, undermining existing industrial infrastructure and cultural
life patterns (Aldy, Baron & Tubiana, 2003).
Differences exist in response to climate change actions based on different economic and
physical implications of climate change. Common but Differentiated Responsibility and
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Respective Capacity (CBDR-RC) principle, though contested, acknowledges vulnerable
conditions as well as historical non-responsibility for the climate change. Based on the same
principle developing states, group G77, are absolved of binding commitments. However, US
resists what Handl(2012) terms diminution of responsibilities on behalf of developing states,
especially the growing economies like China and India. U.S understands that without
compliance of these states, especially China, to global emission reduction, international
climate change policy would remain ineffective (Weissmann, 2013). Fossil fuels, understood
as cheap and abundant resource, lies at the heart of the gifts and comforts of the present
integrated small world. Developing states believe that they are entitled to have their
development through fossil fuels (Roberts & Parks, 2007). Based on these grounds, their
proposed solutions to climate change prioritize their development objectives. Advocating per
capita emission standard for assessment of emissions, India and China desire to enlarge their
space of emissions and consequent development (Roberts & Parks, 2007). As earlier
discussed, an international climate regime and policy is possible if understood and perceived
grounded in justice and fair play. This understanding and perception of justice and fair play
are widely different. Developing world, especially China and India, rigid adherence to the
principle of CBDR-RC is almost equally matched by the developed world, specifically US,
unflagging insistence to seek commitment from these rapidly growing economies.
Burgeoning population, massive export and rising carbon emission characterized today's
China. China has resisted pressure for emission reduction under the clout of a large umbrella
of G77—a collective voice to global South. It is committed to its right to development
justifying it on the ground of having lower per capita emissions compare to the US, and
historically assigning problem of climate change to the early western industrialization. There
is, however, growing understanding that China would address the issue in view of the
impending threats and international pressure. Climate change poses domestic as well as
international threats to China (Lewis, 2011). Domestically, climate change, as argued by
Werrell and Femia (2013), acts as a life constraining factor, a “threat multiplier” or a
“stresser” that enhances acceleration and complexity of the existing problems. With
cataclysmic changes in water circle and disruptive unfavourable environment, China could
face mass forced migration that may adversely affect its social and political cohesion.
Undermined coastal areas, reduced watershed and rivers are some of China's major concerns.
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Equally intimidating, however, is the international constraints of not subjecting itself to
environmental standards despite understood as world's largest emitter (Lewis, 2011).
The contested politics of international climate change regime is incomprehensible without
taking into account other contentious issues of global political economy between China and
the rest of the developed world, specifically US. The most vital of such issues are financial
and trade wars (Bracken, 2007; Evenett, 2010; Otero-Iglesias, 2011). Apart from the financial
imbalances, China’s large population, resolute efforts for rapid development and growing
consumption of its society are understood to have pulled the war for foreign resources and
their transportation in to the ambit of US and China embittered relationship (Wiggin, 2013;
Zweig & Jianhai, 2005). China's drive for access to world's resource, most of which lie in
Middle East and Africa, is forcing it to take an adversarial position to the US against states
declared by the latter as pariah or axis of evil. Zweig and Jianhai (2005) cite examples of
China harmonious economic relationship with Iran, 1997 Sudan and Venezuelan government,
potentially threatening US hegemonic influence and its acclaimed world order. Furthermore,
growing control of the Chinese oil companies in Iraq was understood challenging vital US
interest in the Middle East as propounded in Carter doctrine—an outside force's attempt to
gain control of the Persian Gulf is an assault on the vital interests of the US (Wiggin, 2013).
In a word, climate change political dispute is part of a large frame of divergent national
interests of the two largest global emission emitters. Politics for climate actions could further
accelerate the existing embittered financial relations. Lewis (2011) argues that the widening
bridge between those seeking commitment to reduce global emission and those resisting it
could further intensify the existing contentious issues between China and developed world.
The question confronting analysts of climate politics and international political economy is to
assess whether these environmental and financial constraints and exigencies would result in
cooperation or confrontation between these two states. Most importantly, in case of
confrontation—an unwise choice to Zweig and Jianhai (2005)--China needs to assess its
capacity to sustain international pressure for noncompliance to international standards of
emissions reduction.
International climate policy grounded in justice and fairness, primarily perceived so, is
indispensable for its acceptance and implementation (Soltau, 2009; Roberts & Parks, 2007).
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China's position as a world major carbon emitter and non-compliance to the expected
environmental standards is unacceptable to the developed West. Feared discounting global
market space for others, China's vibrantly flourishing economy—cautiously attributed to its
currency devaluation—has estranged rather embittered its relations with US and EU (Otero-
Iglesias, 2011; Hughes, 2005).) These broad conflicting financial issues could envelop
disagreements about international climate policy. Quoting French President Sarkozi for
restricting imports of countries in violation of the global environmental protection, Lewis
states that China could face economic sanctions from the US as well as EU. In addition, G77
forum, China's secured platform, is divided since Brazil and Mexico's signalled decision to
subject themselves to international climate actions. Most importantly, China's options to
growth are not limited in presence of its rising capabilities in Nuclear as well as renewable
energy like Solar. It current extensive reliance, however, on coal for rapid growth will
gradually change in consideration of the impending environmental threats and international
political and economic pressure (Lewis, 2011).
Though lagging behind China, India undoubtedly tries to match the latter’s zest for economic
development (Cohen, 2001). Climate change is also posing formidable challenges to India.
Effective countering of the adverse implications of climate change requires viable state
capacity: ability of its institutions and political elite of a proficient response against societal
disruptions in case of climate challenges (Paul, 2011). Paul considers that climate change
would accentuate existing socio-economic and political threats by aggravating environmental
constraints: problem of sharing limited water at inter and intrastate level (Ray, 2008), low
crop yields, and serious implications for forests, coastal areas and human health (Mittal,
2003; Paul, 2011). India is a conflict ridden multi-ethnic and multi-lingual society with
widespread relative poverty. Apart from the radical islamist forces, India is rifted with
various armed socialist movement (Sharma & Behera, 2014). The Naxalites or Moist
Socialists, with its tentacles spread over 14 of the Indian 29 states—termed the most serious
internal threat.
China and India relate in terms of their burgeoning population and pursuit of economic
development with continued uncompromising reliance on their fossil fuels and recent global
demand for the world energy resources. Rajan (2007) argues that the two states enhancing
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their access to global energy resources require good relations to ensure transportation through
sea lanes. Despite their uncompromising stance of reducing carbon emission at the expense
of economic development and poverty alleviation, India reactive policy on the issue could
substantially change if China adopts a favourable stance on international climate actions.
4.5 VULNERABLE LOW LYING AND SMALL ISLAND DEVELOPING STATES
SEEK CLIMATE ACTIONS
John Kerry, United States Secretary of State, in view of the unequivocal rising certainty of
climate change and its impending adverse impacts, declared climate change as the “fearsome
weapon of mass destruction”(Harvey, 2014). As highlighted earlier, taking into account
special needs and circumstances of states is a predominant consideration of the Common But
Differentiated Responsibility and Respective Capacity principle (CBDR-RC). This principal
emphasizes that developed industrialized North should primarily address climate change
problem through mitigation as well as enhancing adaptive capacity of the developing states.
However, developing states are not given free ride but asked to seek sustainable development
(Aginam, 2011). Small Island Developing States (SIDS) and low lying states like Bangladesh
would suffer seemingly insurmountable problems rather feared extinction in case of inaction
against climate change. Continued rising sea level, as discussed earlier because of the
involved extended time lag despite actualizing stable emissions, makes climate change the
foremost existential threat to SIDS and low lying states (Dessler & Parson, 2006; Hougton,
2009). Reduced freshwater sources, rising temperature, devastation of the resource base and
infrastructure, and most importantly feared inundation are some of the most adverse impacts
of climate change. Paradoxically, with less than 1% contribution to the problem of climate
change, SIDS lies at the front against the marching vanguard of climate destruction (Lopes,
2013).
Climate change has serious adverse implications for low lying states like Bangladesh and
SIDS. Topographically vulnerable, Bangladesh is declared one of the world's twelve states
with highest risk of climate disasters (Riaz, 2011), feared to enhance its socio-political
disruptions. The Maldives' President symbolizes crucial climate threat to his state's existence
by holding an underwater cabinet meeting (Harvey, 2014). It could not, however, draw the
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required worlds' attention to the neglected concerns of these vulnerable states. SIDS
prioritizes adaptation essentially demanding financial and technological assistance to
strengthen their capacity against climate impacts. These countries seek fair mechanism that
duly voice and represent their concerns for financial and technological assistance.
Developing South at large and the most vulnerable small island states in particular seek
redirection of the global climate funding to their adaptation requirements (Barnett &
Campbell, 2010). Continued appeal for the desired restructuring of the financial mechanisms
under GEF has not yet been addressed (Streck, 2011).
The economic and technological dependence of SIDS on developed states is further
aggravated in presence of ineffective political and diplomatic representation. Alliance of
Small Island States (AOSIS) has given them a unanimous voice (Aginam, 2011). However,
as pointed out by Aginam (2011) and Roberts and Parks (2007), they are “overwhelmed”
diplomatically and failed to achieve preferable climate deal because of lacking required skill
and expertise. SIDS in presence of existential threats advocate climate change insurance
fund; however, developed states like UK rejects and terms it early enough to commit such
financial allocation (Gray, 2010).
Number of environmental refugees—forced migration because of life constraining
environmental factors—would increase because of rising sea level and subsequent
inundation. However, Harvey (2014) highlights conspicuous absence of the legal standing of
an environmental refugee. Currently, refuge is granted in view of religious and racial
persecution. The large number of displacement, intra as well as interstate, is feared
compounding and accentuating existing socio-economic and political conflicts. Keeping in
view these limitations, Bangladesh has advocated the concept of 'migration with dignity'
(McAdam & Saul, 2010). Wisdom and justice demand that SIDS must be assisted in
achieving their sustainability existence and growth. Aginam (2011) and Roberts and Parks
(2007) argue that SIDS should be vocal for their justified claims as it is obligatory on
developed states to commit to their adaptation and sustainable development.
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4.6 INTERNATIONAL CLIMATE CHANGE REGIME: VITAL PRINCIPLES SINCE
STOCKHOLM, 1972
A vital lacuna in effective international environmental law is attributed to “piecemeal
approach” (Malanczuk, 1997). Rather than a system, international environmental law is to a
greater degree an “aggregate of multiple environmental regimes”. The simplest reason for the
bit to bit increments is the difficulty of bringing the widely fractured political world, states as
well as large number of non-state organizations with their respective agendas, to consensus.
Equally important is the phenomenon termed 'tragedy of the commons’, exploitation of
global environmental assets according to one's capability in disregard to others’ needs and
resource replenishment to ensure sustainable production (Shimko, 2010). The injudicious
overuse and exploitation of the common resources result in disparity of the costs shared by
all and benefits accrued by few. The destruction of the resources, an eventual outcome, is a
loss to everyone.
Rio and Stockholm declarations with their human centric approach are characteristically
different from Convention on Biological Diversity, 1992 and World Charter for Nature, 1982,
for they value all forms of life irrespective to their relationship with humans (Handl, 2012).
Assigning instrumental value to environment, intrinsic worth of other species was
undermined and humans were placed at the center of sustainable development (Drexhage &
Murphy, 2010). Man’s right to a healthy environment is underlined in Rio Declaration and
conditioned to be in consonance and in “harmony” with nature (Handl, 2012).
Modern era of international environmental law initiates its course with Stockholm
Declaration, 1972 and Rio Declaration, 1992, resulting in policy and legal instruments like
Action Plan for the Human Environment and Agenda 21 at Stockholm and Rio respectively
(Handl,2012). These declarations sow seeds for developing an effective framework for future
environmental protection (Malanczuk, 1997; Henderson, 2010). The Stockholm Declaration,
1972, underlining human impact on global environment, emphasizes environmental growth
and preservation, advocates involvement of transnational actors in environmental decision
making and incorporates environment and development (Handl, 2012). This declaration as a
stepping stone paved the way for existing 900 to 1000 bilateral and multilateral
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environmental agreements (Henderson, 2010). At the heart of all these environmental
agreements, there are certain vital principle and concepts that are contested, agreed, or agreed
to left ambiguous among international actors for their potential political profundity. The
preceding pages list some of those principles, for their evaluation is vital to the understanding
of international climate regime.
4.6.1 Sustainable Development
Prior to Rio conference, 1992, World Commission on Environment and Development, 1987
(WCED) remarkably links environment and development by coining the concept of
sustainable development, primarily signifying two related understandings: needs and
limitations (Malanczuk, 1997). Despite inherent ambiguity, the concept of sustainable
development emphasizes meeting needs of the present and future generations, especially of
the world's poor in presence of human and environmental limitations of resources. The Rio
Declaration, 1992 provides a legal foundation and political orientation to the concept of
sustainable development with its systematic approach to the much highlighted normative
standards in Stockholm, 1972. The concept of sustainable development with its multi-layered
interpretations has still not attained “actual operationalization” as stated by UN Secretary
General Ban Ki-Moon in 2012(Handl,2012). However, it broadly signifies fulfilling needs of
present without compromising those of future generations. Actualizing sustainable
development is an understanding of the man’s relationship with nature, of the social progress
and development in the North and South, and of the present and future (Baker, 2006).
Promoting sustainable development is quintessentially a global task, challenging the
prevalent conventional form of development. Distinguishing the two, Baker (2006)
characterizes the modernization driven western development centered on market forces of
production and consumption, transformation of nature to enhance energy and agricultural
productivity, and achieving high mass consumption to actualize a welfare society. Sustainable
development idealizes an ecological society that reconciles broad and divergent social,
economic and ecological dimensions of development into one. It is termed a continued
promotion of measures that would bring an end to injudicious exploitation of nature, advance
individual of present as well as future generations, and bring production and consumption in
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conformity to nature’s ability to provide for the needs of the present and future generations.
Malanczuk (1997) highlights its equal emphasis upon meeting needs especially of the poor in
view of the existing technical and economic limitations and social awareness.
4.6.2 State Responsibility
States have different understandings of individual’s right to satisfactory environment, and
their responsibility to each other regarding environmental protection (Handl, 2012). Despite
acknowledging State’s sovereign right to exploit its resources in view of its “environmental”,
(Stockholm Declaration), and “environmental and developmental” (Rio Declaration)
objectives, currently an establish principle of general international law, the two declarations
advocate against harming environmental soundness in other states or beyond its national
jurisdiction(Henderson,2010; Handl,2012; Malanczuk,1997). Principle 21 and 22 of the
Stockholm declaration state this responsibility of the states towards their own subjects and
other state, and seeks judicious exploitation of resources in their possession without
compromising environmental health. Moreover, states are asked to legislate, concur and
evolve measures for realization of these ideals. Providing prior information to safeguard
against hazardous environmental impacts is termed essential among states (Handl, 2012).
Responsibility of a state to others regarding harmful environmental effects has not been
signified in Stockholm declaration, 1972. General Assembly asked for cooperation among
states in environmental matters. However, Rio declaration was more explicit and
“mandatory” in its language demanding assessment, information and consultation among
states having risk of adverse environmental effects. Principles 17, 18 and 19, signifying
assessment of environmental impact, emergency notification, and regular notification and
consultation among states respectively, are the most important aspects of Rio declaration.
Presently, these principles with consistent support from other international agreements and
practices have become an understood part of international customary legal obligations.
4.6.3 Right To Development
Both Stockholm and Rio Declarations accept right to development essential, for both natural
and man’s made environment for sustained economic and social existence and welfare are
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equally needed for sustaining and improving human life (Handl, 2012). Rio Declaration
emphatically terms right to development indispensable to meet needs of our current and
future generations. Evolved since 1986 as a result of UN Declaration on the Right to
Development, it is considered a relatively new concept that tries to bridge economic disparity
of the developed North and developing South with integration of human rights and
development (Orellana, 2010). Formally declaring right to development as an inalienable
right of every individual, the declaration declares state responsible for providing an enabling
environment, nationally as well as internationally (Salama, 2005, Saeed,n.d.). The right to
development signifies “ a comprehensive economic, social and political process, which aims
at the constant improvement of the well-being of the entire population and of all individuals
on the basis of their active, free and meaningful participation in development and in the fair
distribution of benefits resulting there from”(Orellan,2010; Saeed(n.d.); Salama,2005).
Rather than limiting to particular characteristics and definite lines, independent scholars like
Professor Sengupta, as cited in Salama(2005), terms it right to “ a particular process of
development” centered on limiting economic disparities between the rich and poor, wealth
concentration with few, and ameliorating human conditions through measures like better
health, education and improved environmental conditions. Salama (2005) and Saeed (n.d.)
limit the functional definition of the right to development as a process that tries to eliminate
“structural obstacles” to development. Saeed (n.d.) terms it the “fusion of all human rights
and fundamental freedom”. Presently, this concept envisions interdependence of social,
economic and environmental development, and is also invoked to offset stringent
environmental regulation that could limit development.
Despite wide international usage and considered by some a missing link between trade,
development and human rights and thus a “father of all rights” (Salama,2005) , the defining
and practical aspects of the right to development are still a controversial debate(Saeed,n.d;
Feyter, 2013). Some critics considering it unattainable by states term it “meaningless,
dangerous, and catastrophic and total failure”. This criticism finds appeal with the developed
world especially when it comes to the mandatory international cooperation this declaration
places on them for facilitating developing states in achieving the desired development
(Orellan, 2010; Saeed,n.d.; Handl,2012). The interpretation and reaction is not uniform
among the developed states. Germany denies mandatory international cooperation; whereas,
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US outrightly rejects national right to development and its international binding legal nature
(Saeed,n.d.). The controversial dynamics of the right to development envelops global
environmental politics (Handl, 2012). The right to development in relation to environment
became controversial between North (developed) and South (developing) states. The former
with ecologically centered approach denounce such right considering it unfriendly to
environment, while the latter upholds it to actualize their development.
4.6.4 Precautionary Principle
Precautionary principle is a concept based on an inherent moral right of a person to protect
himself against “potential” threats (Deloso, 2005). It has played a vital role in shaping
climate change regime with its essential soft character convincing world leaders to its vital
crux. The principle received legal attention when incorporated into Rio Declaration (Handl,
2012; Goldstein, 2009; Houghton, 2009). The principle 15 elaborating the precautionary
principle distinguishes Rio Declaration from the Stockholm Declaration (Handl, 2012), and
generally recommend precautionary approach as the right course for states for the protection
of environment in presence of threats and damages despite absence of absolute scientific
certainty. It states that “in order to protect the environment, the precautionary approach shall
be widely applied by states according to their capabilities. Where there are threats of serious
or irreversible damage, lack of full scientific certainty shall not be used as a reason for
postponing cost-effective measures to prevent environmental degradation.”(Deloso, 2005;
Ellis, 2006; Pittock, 2009). The simplified essence of the principle is same despite variations
in expressions and contents (Deloso, 2005; Myres, 2000). The core of the principle seeks
precautions to be taken against any risk or threat of consequential nature to human health and
environment despite lack of concrete and conclusive scientific evidences. Lack of certainty
should not hinder the essential protective measures. Myres(2000) mentions that the recent
explanation of the principle has questioned overweening influence of technological industry
on its production with focus on safe technology.
The principle is echoed with much emphasis in addressing problem of climate change in UN
Framework Convention on Climate Change (UNFCCC) in its principle 3. Article 3 of the
UNFCCC seeks that “parties should take precautionary measures to anticipate, prevent or
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minimize the causes of climate change and mitigate against its adverse effects”, for absence
of absolute certainty is not a reason for inaction, specifically when relying on cost-effective
measures to realize global good at a minimum possible cost (Pittock, 2009; Goldstein, 2009).
The precautionary principle facilitated progress in climate debate and policy-making in
presence of the complexity and uncertainty of its science. As Pittock (2009) aptly puts it,
“uncertainty is inevitable, but risk is certain”. With an understanding that absolute certainty
could not be assured and uncertainty is inherent to the issue, the precautionary principle
adheres to the sequential and gradual approach towards solution of the problem (Deloso,
2005). Rather than opting for wait-and-see approach till the concrete certainty, the
precautionary principle prioritizes 'no regret' policy with an understanding that it’s better to
be safe than sorry. The no regret option advocates following policies of adaptation and
mitigation. Ellis (2006) cites Christopher Stone in elaborating the facilitative role of the
precautionary principle in actualizing climate change regime. Primarily, without placing any
positive obligations and restricting actions, it asks not to wait for “proof of a cause-effect...
between a given substance, process, or activity and environmental harm”. This has
significantly transformed process of decision making regarding environmental protection
among the key stakeholders.
Deleso (2005), Ellis (2006), and Mandel and Gathii (2006) analyze legal status of the
precautionary principle. The principle is widely in use and incorporated as a vital element of
29 international agreements and 7 declarations (Deleso, 2005). Deleso (2005) and Mandel
and Gathii (2006) concur and consider precautionary principle to be part of the international
customary law based on extensive state practice and presence of opinion jurrissive.
Ellis(2006) after dilating on each different stance concludes that precautionary principle
shares attributes of customary international law likes its “ambiguity and vagueness” and its
extensive application in international regulations. Similarly, Seabed Chamber of the
International Tribunal of the Law of the Sea in its advisory opinion, 2011 underlines
precautionary approach as an international legal principle if not a rule(Handl, 2012).
However, Handl maintains that despite this wide appeal and application, though not well
defined, US rejected this principle as an accepted principle of international law.
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4.6.5 Common but Differentiated Responsibility (CBDR)
The principle of common but differentiated responsibility (CBDR) owes its evolution to
related notions of ‘common heritage of mankind’ and equity (Khalfan, 2002). Espousing
common responsibility for environmental protection, this principle equally acknowledges
different circumstances and limitations, level of contribution to climate change problem and
degree of capacity for solution. Distinguishing shared resources form those under state
jurisdiction, CBDR places them under common responsibility but with different obligations
from states. One of the distinctive features of Rio declaration, 1992 is principal 7 that urges
states for cooperation “in a spirit of global partnership to conserve, protect and restore the
health and integrity of the Earth's ecosystem”. The same principle underlines developed
states’ responsibility to “international pursuit of sustainable development” in light of
historically overburdening global environment and their technological and financial
capacities to address environmental issues (Handl, 2012; Hillier, 1998; “Common, but
differentiated responsibilities” debate takes a turn, 2012).
UN Framework Convention on Climate Change (UNFCCC) establishes its ultimate objective
of not exceeding the greenhouse concentration resulting in “dangerous anthropogenic
interference with the climate system” (Mabey, Hall, Smith & Gupta, 1997; Handl, 2012). The
preamble of the convention states "that the global nature of climate change calls for the
widest possible cooperation by all countries and their participation in an effective and
appropriate international response, in accordance with their common but differentiated
responsibilities and respective capabilities and their social and economic conditions"(United
Nations Framework Convention on Climate Change, 1992).It equally underscores the largest
ratio of emissions contribution, historical and current, from the developed states; while,
signifying relatively low level per capita emissions of the developing states with an
understanding that it would grow corresponding to their social and economic developmental
requirements. Taking into account the unsatisfactory economic and widespread poverty
conditions, the convention seeks an “integrated” approach for resolution of climate problems
considering social and economic developmental priorities of the developing states to assist
them alleviating their poverty and actualize sustainable growth (Kageson, 2011). The CBDR
principle finds its support in 1972 Stockholm Declaration principle 12, principle 6 and 7 of
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the Rio convention, Article 3.1 of the UNFCCC, article 5 of the Montreal Protocol, article 3.1
of the Kyoto Protocol, article 20.4 of the convention on Biological diversity, and article 21of
Convention on Biological Diversity (Hey, n.d).
However, Principle 7 as phrased does not indicate that the developing countries should not
contribute (Kageson, 2011). On the contrary, the very essence and strength of the CBDR is
that all states must participate in common efforts with a sense of common and shared
responsibility to protect environment (The principle of common but differentiated
responsibilities, 2002). Principle 7 divides the world into developed and developing countries
without defining the border- line of each. Where that line should be drawn is an obstacle to
an international treaty or protocol that limits the operationalization of the CBDR principle
(Kageson, 2011). Some industrial countries have contributed more to the degradation of
common environmental resources than others. Moreover, all developed states are not equally
capable of financing or implementing solutions. In view of the economic and technological
deprivations, subjecting and demanding same environmental standards from the developed
and developing states could highly constrain them economically and socially as mentioned in
the 1972 Stockholm declaration (The principle of common but differentiated responsibilities,
2002).
As an elemental instrument, the Kyoto protocol upholds the CBDR principle and assigns
emission control targets within prescribed time for the 38 developed Annex B countries,
whereas excluding developing states from emission reduction, protocol provides them catch
up time for enhancing their capacity through flexibility measures of Joint Implementation,
Emission Trading and Clean Development Mechanisms(Kageson, 2011; Schreuder, 2009).
Entrusting the Global Environmental Facility (GEF) with tasks of managing financial
assistance and technology transfer to developing states, the Kyoto protocol tries to
operationalize the CBDR principle (Kageson, 2011). However, with no emission restriction
for developing states and no covering mechanism of the developed Annex 1 states’ emission,
Kageson terms Kyoto protocol limited in its effectiveness. The preferential treatment of the
developing states embedded in the CBDR principle demands developed states to significantly
shoulder responsibility for solution of climate change in view of their historical and
continued higher ratio of carbon emissions. On the other hand, it professes developing states
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right to sustainable development with the help of financial assistance and technology transfer
from the developed states in light of their specific needs and circumstances.
In order to understand significance of the CBDR principle, it is important to highlight
rational for the differentiation among states. A report titled, “The legal principles relating to
climate change”, compiled by Japan Branch Committee on Climate Change in July 2009,
states that the word, responsibility’ in the CBDR principle connotes moral duty and not legal
obligation. The report characterizes four underlying theories for the reason of differentiation
among states: historical contribution, entitlement theory, capacities theory and promotion
theory. Historical contribution theory signifies emission contribution of the earlier industrial
states, entitlement theory acknowledges development priorities of the developing states as
victim to colonial exploitation, the capacities theory considers developed states financially
and technologically much equipped to deal with this crises, and finally promotion theory
seeks inclusion and participation of all the states by taking into consideration their respective
situations.
Although understood and acknowledged as a vital principle of sustainable development,
CBDR is contentious and lacks operational clarity in terms of application and implications.
Handl (2012), Mumma(n.d.), Bortscheller(2010), and Kageson(2011) highlight limitations of
the CBDR and seek its revision to materialize an effective climate change regime. The
complexity of climate change demands meaningful cooperation from all international actors
(Bortsheller, 2010). To Bortsheller, the CBDR principle hinders materializing this desired
outcome owing to its preferential treatment of the rising economies like China. Grouped with
the rest of the developing states, these emerging economies despite their high emission ratio
are exempted of binding limitations. Fundamentally distinguishing between developed and
developing states based on historical and current emissions and financial and technological
capacity of each to control climate changes, CBDR is termed “primarily backward looking”
(Bortscheller, 2010). There is no further demarcation within these two divisions. To end the
“invidious inertia” in actualizing an effective international climate change regime,
Bortscheller(2010) and Mumma(n.d.) advocate reinterpretation of the CBDR principle and
evolution of a new category to incorporate the evolving economies. The politically contended
interpretations of the principle and its underlying motivation are grounded in various
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theories. The overemphasis of a state or a non-state entity on a particular theory is
fundamentally a struggle to actualize the respective norms and values it advocates (The legal
principles relating to climate change, 2009) along with the associated material
considerations.
Legitimizing asymmetrical responsibility and contribution, the CBDR principle is the
linchpin for ensuring support of the developing states. However, actors are trying to bring the
contested understanding of the principle to their favorable mould. The G77 states asked for
more “stringent formulation” of the CBDR by attributing the problem to the prevalent
unsustainable pattern of production and consumption in developed countries(Kageson,2011);
whereas US refuses to accept any “diminution of responsibilities” for developing states under
the rubric of this principle(Handl,2012).
The principle CBDR, with respect to it differentiation among states, is found in conflict with
the principles of states' responsibility of not harming environment of another state actions
taken within territorial jurisdiction and precautionary principle(Kageson, 2011;
Bortscheller,2010). Article 3.3 of the convention, as mentioned earlier, describes
precautionary principle addressing and seeking support of all parties in taking precautionary
measures for anticipating, preventing and mitigating repercussions of climate change.
Kageson (2011) and Bortscheller(2010) consider that the demarcating line, in terms of
contribution and responsibility for the problem, drawn between developed and developing
states in the CBDR principle, seems blurred in presence of the precautionary principle and
each state’s responsibility for controlling environmental and territorial damage across its
borders. As these two principles seem restrict every state's right, irrespective of its economic
and social impoverishment, for unlimited emissions of greenhouse gases. With their all-
inclusive application, these two principles question the preferential dimension of CBDR and,
in turn, its locus standi. Therefore, Kageson (2011) cautiously terms it a guideline rather than
a legal principle.
4.6.6 Cooperation and Participation
Environmental regulations need effective participation and cooperation of all entities, state
and non-state including individuals, at all levels. Rio declaration in its principle 27 urges
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state and people to cooperate in good faith for the realization of the stated objectives and
attaining of sustainable development (Qc Sand, 2003; Maguire, 2013). Similar provision is
upheld in the principle 24 of the Stockholm declaration, 1972(Qc Sand, 2003; Declaration of
the United Nations conference on the human environment, 1972). Principles of good faith
and good neighborlinesses, as general principles of international law, regard trust and
confidence essential for international cooperation (Voigt, 2008; Qc Sand, 2003). Despite
being unspecific in nature, the principle of good faith bridles unquestioned state's sovereignty
(Bederman, 2002). Similarly good neighborliness, as a universal concept in international
relations, is embodied in UN charter with emphasis on tolerance and peace among nations as
good neighbours (Uilenreef, 2009). This desired cooperation mentioned in UN, Article 74 for
amicable resolution of disputes is extended to encompass environmental protection in
principle 24 of the Stockholm declaration, 1972 and principle 27 of the Rio declaration (Qc
Sand, 2003). International environmental law holds state and non-state entities responsible
for environmental preservation and seeks developing domestic as well as international law
for this purpose as stated in principle 22 of the Stockholm declaration and principle 13 of the
Rio declaration respectively (Handl, 2012). While Stockholm declaration in its principle 22
relies on international law (Declaration of the United Nations conference on the human
environment, 1972), Rio declaration in principle 13 includes international and national law
(Rio declaration on environment and development, 1992).
Apart from cooperation of state and non-state actors, participation of them in the process of
environmental protection is much required. Participation, termed a mantra in environmental
governance, ensures credibility by 'creating ownership and substantially improves the quality
of decisions by empowering marginalized sections of the society (Wesselink, Paavola, Fritsch
& Renn, n.d.). Defined in terms of context, participation signifying principle, policy or an
end is considered indispensable for sustainable development (Understanding community
participation, 2009). Rio declaration in principle 10 stresses that participation on behalf of
citizens require access to information, involvement in decision making and justice in all
environmental matters(Handl, 2012; Fitzmaurice,n.d.;.Nishima-F, 2013; B.S, 2013).
Information and awareness regarding environmental threats and counter measures against
them, involvement in policy making and implementation, and properly guaranteed judicial
and administrative remedial measures ensure participation (Nishima-F, 2013). The concept of
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participation is derived from an understanding as Kimani (2010) argues, “engaged citizenry
is better than a passive one”. Role of civil society with its eclectic composition, including
persons and organizations and common demands on governments is important for bringing
environmental awareness and agreements for its protection.(Gemmil & Bamidele-lzu,n.d)
Civil society's required participation and contribution is further emphasized in the UN
Economic Convention on Europe, 1998, also termed Aarhus Convention that link
environment with human rights (Fitzmaurice, n.d; Convention of access to information,
public participation in decision-making and access to justice in environmental matters, 1998).
The parameters of participation was further broadened under agenda 21 by including other
stakeholders like women, indigenous people and farmers to have better understanding of the
things from multiple angles(Eden, 1996). Role of the indigenous people with their traditional
wisdom and culture is declared crucially significant in environmental protection and realizing
sustainable development in Principle 22 of Rio declaration (Rio declaration on environment
and development, 1992). In order to ensure their participation, states are asked to
acknowledge and facilitate their respective identity, culture and interests for actualizing
sustainable development. In a word, preservation and development of their respective
cultural and its development affirm environmental preservation and growth. This much
advocated indispensable relation of environment with cultural distinctiveness of the local
population has found recognition in other multilateral international agreement, most
importantly in United Nations Declaration on the Rights of Indigenous Peoples, resolution
61/295(Handl, 2012). Similarly, Women’s empowerment and participation has been
established as a major underpinning of sustainable development in Rio Declaration. The
declaration in principle 20 unequivocally and explicitly acknowledges role of women in
protection and enhancement of environment (Rio declaration on environment and
development, 1992). Women’s livelihood is significantly dependent on their immediate
environment in environmentally vulnerable communities especially in developing states.
Environmental degradation could disrupt and constrain their lives and further undermine
their participation and contribution to sustainable development. This understanding and
association between women empowerment and environmental growth received renewed
support and strength at Rio+20 by incorporating concepts of sustainability, equality and
gender equality (Handl, 2012). However, concerted efforts on multilateral basis are essential
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to bridge the gap between the aspired objectives and dispiriting realities of the relationship
between women and environment.
Participation ensures compliance, credibility of the decision-making process, effective
utilization of the available resources and empowerment to the marginalized section of the
society (Wesselink, Paavola, Fritsch & Renn, n.d.; B.S, 2013; Kimani, 2010). Hong (2009)
regards public participation essential for development in developing states. Despite termed a
procedural human right since Aarhus Convention, 1998(Fitzmaurice, n.d.), public
participation is systemically limited in environmental issues because of the latter dependence
on scientists' expertise in the field (Eden, 1996). Eden considers public lay ideas, unscientific
and counter-scientific approaches vital for comprehensive understanding of the
environmental problems and their solutions. The principle 10 of Rio declaration receive
support from multiple other international agreement and provisions that to a greater degree
place it among the deemed legally binding rules of international environmental regulations
(Handl, 2012). Handl states that after receiving due recognition at Rio+20, public access to
information, participation in decision making and justice in environmental matters are
considered established part of human rights.
Interests or perception of them shape the principles and concepts at the heart of climate
change negotiations. With an understanding that an international climate regime would not be
possible without sound cooperation from the key stakeholders of the international system, it
is essential that their interests are accommodated in a fashion that could evolve into a
collective response against climate change. The developed and developing states driven by
their consideration of political and economic implications of the climate actions are required
to comprehend the world as a collective unit. This process of what moulded and shaped these
divergent interests into one unified policy frame in the form of Paris agreement will be
evaluated in the succeeding chapter.
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CHAPTER 5
INTERNATIONAL CLIMATE CHANGE REGIME: HISTORICAL
EVOLUTION OF PARIS AGREEMENT
The complexity of global climate change politics is more intricate than its science. Bringing
sovereign states with divergent interests voicing preferred interpretation of the contested
principles to a unified policy frame is difficult—if not impossible. This chapter traces history
of these difficulties and highlight role of international actors making use of their powerful
position, influence of technological innovations and environmental institutions in shaping
ideas, identities and outcomes; and international institutions in bringing these diverse
interests to one collective will. After acknowledging the disastrous impacts of global climate
change, the solution was contended: emission reduction should be internationally determined
and mandatory or nationally determined in light of the state’s resources, limitations and
development ideals. Equally significant as mentioned earlier has been the issue of financial
and technological assistance to the developing states to actualize their clean development.
United Nations Framework Convention (1992), Kyoto Protocol 1997 and the most recent one
Paris Agreement 2015 evidently signify efforts for bringing harmony on international forum
for forming a collective response to address global climate change.
5.1 HISTORICAL EVOLUTION
Historical evaluation of any phenomenon is a process of understanding the reasons and
values that led to its emergence and further evolution of the rules, norms and procedures
termed regime for addressing the impending issue. Modern world is fundamentally altered by
technological revolution and emergence of international organizations. Technological
development made it possible to enhance awareness regarding environmental problems and
significantly intensify international collaboration of states and non-states actors. Refined
scientific assessment and sharing of such information regarding environmental problems and
their impacts on human civilizations reformed international consciousness. Equally
remarkable, along advancement of science and technology, was a revolutionary
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understanding of the inevitable, indispensable need of international organization to overcome
or limit potential disorder in the anarchic structure of the international system. The
underpinning philosophy of international organization was to provide the much required
platform for finding amicable solutions to global problems and disputes among states, to
replace measures like balance of power with collective security for maintaining international
order (Best, Hanhimaki, Maiolo, & Schulze,2004; Shah, 2003). Moreover, international
organization like United Nations Organization (UNO)—initially created to peacefully resolve
grave issues of war and peace, high politics—evolved into a platform for international actors
to discuss global economics, widespread poverty, environmental and health concerns—issues
earlier termed low politics (Genest, 1996). International Meteorological Organization (IMO)
involved in weather assessment across states since 1787 became more effective after UNO
creation in 1945 (Paterson, 1996). Refined technology and inter-governmental coordination
matured IMO to today’s World Meteorological Organization (WMO) with extended global
reach and enhanced capabilities.
Technological development also enriched and refined man as well as states’ power to
overpower others. Weapons of mass destruction (WMD), like nuclear weapons, and an ability
to make them reach across continents changed dynamics of international politics (Rourke,
2003). Earlier observed direct confrontation of the bipolar world turned into cold war
between two superpowers, United States and Soviet Union, at the end of the Second World
War. The two nuclear powers resort to war of attrition that least involved direct
confrontation, for fear of unleashing inadvertently a catastrophic nuclear war. (Calvocrasi,
2009). The intricate process of making, improving and experimentation of these weapons
takes its toll on the environment. The adverse environmental changes and disruptive
problems intensely increased followed by enhanced consciousness, awareness and
international interaction among states and non-state actors for environmental protection
(McNeil & Unger, 2010). Realization of dire consequence of nuclearization on environment
initiated a global consensus building process that culminated in organizing International
Geophysical Year (IGY) from July 1st 1957 to December 31st 1958 with participation of
30,000 scientists from sixty six (66) states (Paterson, 1996). This enormous gathering of
scientists voiced their concern regarding rising CO2 and consequent creation of Muana Loa
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laboratory for monitoring its concentration in atmosphere. The importance of this laboratory
and climate evaluation process is highlighted in previous chapter.
Another two significant technological innovations, satellite monitoring and computer
quantification, revolutionize human civilization and environmental understanding. The
significance of satellite monitoring could be learned from the fact that Michael Hart (1993)
places US President John F. Kennedy among the 100 most influential persons of history
because of his decision to explore opportunities in space involving huge expense. Monitoring
and assessment of environmental issues were further refined with the launch of first US
meteorology satellite on 1st April, 1969 (Bolin, 2007). Kennedy termed this new method for
weather assessment across globe ‘politically significant’ for its peaceful use in midst of cold
war. Electronic computer, another worthy technological innovation, enables quantitative
analysis of weather variations and data sharing resulting in institutional bodies like World
Weather Watch (Bolin, 2007; Paterson, 1996). Technological development enabled gathering
and assessment of data globally and facilitated unanimity of purpose and action among
scientific community regarding climate change.
Technological development corresponded with effective exchange of environmental
information and rising awareness and paved the way for institutional development, devising
effective mechanism for assessment of environmental changes. Committee on atmospheric
sciences (CAS), an international research body, under parent organization of International
Union of Geodesy and Geophysics (IUGG) and assistance from International Council of
Scientific Union (ICSU), was created for effective peaceful use of satellite technology to
understand atmospheric circulation (Bolin, 2007). CAS evolved into Global Atmospheric
Research Programme (GARP) under auspices of WMO and ICSU with UN assistance.
The intellectual foundation of 1972 Stockholm Conference on Human Environment that
resulted in United Nations Environmental Protection (UNEP) (Soltau, 2009) is attributed to
two scientific studies: “The Study of Critical Environmental Problems (SCEP)” and the
“Study on Man’s Impact on Climate (SMIC)” in 1970 and 1971 respectively. These two
papers highlight impacts of the rising concentration of atmospheric CO2 (Bolin, 2007;
Paterson, 1996). The Stockholm conference primarily addressed environmental pollution,
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however, not without a conclusion that well-coordinated efforts are needed to overview and
understand climate changes. By 1973, GARP goals were enlarged from understanding
atmospheric circulation to explore reasons for human induced climate changes (Bolin, 2007).
Scientific Committee on Problems of the Environment (SCOPE), under the aegis of ICSU,
gathered ecologists and geologists, alarmed because of rising atmospheric concentration of
carbon. SCOPE initiated comprehensive evaluation of atmospheric circulation in light of bio-
geochemical cycles like carbon, nitrogen and phosphorous. Need for a joint international
coordinated effort resulted in various world conferences on water, food, desertification, and
finally on climate in June 1979 that established World Climate Program (WCP) (Paterson,
1996). WCP shifted focus from every day weather variation to long term climate changes.
Despite concerted scientific efforts to further exploring causes and impacts of climate
change, politicians and statesmen were more focused on learning about much apprehended
negative implication of climate change like weather severity, drought, and floods. In other
words, their concern was assessment of impending threats. Entrenched security paranoia of
the characteristically anarchic international system could be cited as a major reason for this
mindset. However, environmental and geographical constraints, vulnerabilities and benefits
are not historically insignificant in global realpolitik and thus constitute a quintessential part
of international relations. Etymologically understood as surroundings, natural milieu
constitutes a significant part of the environment in which decision makers have to evaluate
their options (Vogler, 1996). Geopolitical scientists like Alfred Thayer Mahan and Halford
Mackinder have considered natural geographical location, specifically superior command at
sea, as a pivotal power determinant (Chapman, 2011; Dalby, 2001). Geographical dynamics,
with its inherent rigidity were earlier assumed to have a deterministic character; however,
climatic changes over the years were soon learned to have vital impacts. The “tides of
climate changes” as revealed in their studies by Huntington (1919) and Wheeler (1946) as
cited in Vogler (1996) could lead to the rise and fall of nations and empires.
Bolin (2007) highlights US government's response to the much voiced adverse implication of
climate change was reverberated in the US administration. Assuming a fundamental
responsibility of a leading industrial state to limit repercussions of climate changes, US
facilitated research in climate variations and predictions. Council of Environmental Quality,
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pioneering in impact assessment, warned of certain continued warming. It asked US as the
largest consumer of fossil fuels to play its leading role in controlling emissions. Villach
conference, 1985, didn’t seek mitigation of climate changes; however, it demanded enhanced
government assistance for effective assessment of climate change and its impacts, and
proposed mechanisms and measures for effective research (Paterson, 1996; Bolin, 2007;
Chazornes,n.d). After evaluating Villach conference proposals at ICSU General Assembly, it
was concluded that a body that brings scientific research and political community to one
forum on climate change is needed. The conference deliberation matured into World
Commission on Environment and Development (WCED) submitting its report on 27 April,
1987 termed “our future” or “Brundtland Report”, named after the Norwegian Prime minister
(Paterson, 1996). This report was a key factor in drawing UN General Assembly attention to
the issue of climate change and bringing the matter to international limelight (Bolin, 2007).
The report analyzed the much rapidly transforming world developing at the expense of
natural resource and habitat. With promising food production, rising literacy and reduced
infant mortality, it highlighted growing disparity between rich and poor and rapid
environmental deterioration leading to rising atmospheric concentration of greenhouse gases
and sea level. Unpredictable and unsettling volatile climate changes are understood to
adversely affect national economies and their socio-political integrity. Despite these ominous
predictions, Bolin (2007) drawing an optimistic conclusion states that the report initiated
debate and a process for sustained economic growth that would expand natural resource base.
Based on experts’ analysis, report was welcomed by UN General Assembly where vulnerable
states to floods and droughts, like Maldives and Botswana respectively, sought international
measures against climate change (Bolin, 2007).
Similarly, unfavorable weather pattern throughout 1980s and depletion of ozone layer, a
related impact of rising greenhouse gases, alarmed world governments and after Vienna
convention in 1985, Montreal Protocol was adopted in 1987(Paterson,1996, Soltau,2009).
With success of the Montreal Protocol, an understanding for a similar measure against
climate change was emerged. However, a consensus policy on climate change was obstructed
owing to less concrete threat perception and more economic implications in case of following
adaptation and mitigation policies than were involved in Ozone layer protection. Paterson
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(1996), Bolin (2007) and Soltau (2009) give detail of various conferences held to evolve
divergent stances into one policy framework. Concrete measures were suggested in the
Toronto Conference on “The Changing Atmosphere: Implication for global Security” in 1988
with participation from scientists, state and non-state representatives. Serious implications of
climate change was signified and measures for reducing atmospheric concentration of CO2
and ‘World Atmospheric Fund’ for developing states was proposed. The onus of
responsibility was placed on developed states in New Delhi conference in 1989, and
developing states sought resolution of the issue in light of North-South context. I989 marks a
year in which global warming and its repercussions are highlighted on different forums by
different actors like ‘Green summit, July 1989’; Non-Aligned Countries, September, 1989;
Noordwijk Conference, November, 1989; and a meeting of the Alliance of Small Island
States in the same month (AOSIS). These conferences underlined developed states'
responsibility to vulnerable developing states that was specifically emphasized by small
island states. They equally signified importance of an international framework to enhance
cooperation among different actors for controlling an issue as complex as climate change.
The remarkable development of the 1980s is the foundation of the Intergovernmental Panel
on Climate Change (IPCC). The IPCC was formed in 1988 with efforts from UNEP and
WMO to secure effective scientific assessment and design dependable measures for
controlling climate change (Bolin, 2007). IPCC, an “interface of science and politics”,
provides an exhaustive understanding of the issue thorough assessment and review of the
existing research at multiple dimensions, different levels and from different quarters (Otto &
Brown,2009).Three working groups with tasks of assessing scientific knowledge (Working
Group, WG-1), impacts (Working Group, WG-11) and devise responses (Working Group,
WG- 111) were established. IPCC credibility is highlighted by Peterson (1996) for ensuring
scientific objectivity of WG-1 by including only scientists despite political pressure of state
and non-state actors to interfere and influence its findings. With its broad representation base
under auspices of John Houghton, WG-1 successfully evolves a consensus that enhanced
greenhouse could be attributed to greenhouse gas emissions resulting in global warming.
Most importantly, the adverse impacts of warming demand effective political will to
formulate policies and adopt effective measures to reduce sources of emissions and increase
its sinks.
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However, despite alarming conclusion of scientific body WG-1, no uniformity was observed
with respect to response strategies as mentioned in Gidden (2009), Soltau (2009), Paterson
(1996), and Schreuder (2009). US sought national strategies rather than target focused by
other states and non-states bodies. These divergent understandings necessitated fostering an
international convention. UN General Assembly (UNGA) adopted a resolution 45/212,
asking for protection and preservation of climate and established an International Negotiation
Committee (INC) on 21st December, 1990 for realizing International Framework Convention
on Climate Change(Paterson,1996; Soltau,2009). States as well as specialized agencies after
almost seventeen months negotiations and five tight sessions of the committee (Soltau,
2009), the committee came up with the proposed climate regime (Boisson de chazournes,
n.d). The Rio DE Janeiro UN conference on Environment and Development (UNCED)
materialized United Nations Framework Convention on Climate Change (UNFCC) with
reliance on developed states to reduce emissions of all greenhouse gases other than included
in Montreal protocol to their 1990s level, and assist developing states in enhancing their
adaptation capacity (Paterson, 1996; Boisson de chazournes, n.d).
The undercurrents of the international climate change regime gradually evolved from the
conception of climate change as a growing threat to the need for presence of a global climate
convention. Bodansky (2001) lists outcomes of various conferences since the Villach
Conference in 1985 highlighting probability of changing climate and the need for a global
climate convention. Toronto Conference in 1988 aggressively sought 20% reduction in the
CO2 emission when the same year UN General Assembly terms climate change “a common
concern”. Similarly, the Noordwijk greenhouse conference asks industrialized countries for
stabilizing greenhouse gas emissions, and the first IPCC in 1990 register its concern for the
likely increase of 0.3°C of temperature rise per decade (Bodansky, 2001). The details of the
various events till realization of the Framework Convention on Climate Change (1992),
organizers and outcomes of these events are tabled by Bodansky and is made part of the
Annexure.
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5.2 UNITED NATIONS FRAMEWORK CONVENTION ON CLIMATE CHANGE
(UNFCCC)
UNFCCC in its article 2 advocates preventing ‘dangerous anthropogenic interference’ to
climate system through stabilization of greenhouse gases and attributes climate changes to
human activities, apart from the natural variations, that are changing atmospheric
composition of the greenhouse gases (Soltau, 2009; Boisson de Chazournes,2008; Baker,
2006 ). Quoting article 2 is essential as it highlights essence of the framework. Article 2
objectifies,
“stabilization of greenhouse gas concentrations in the atmosphere
at a level that would prevent dangerous anthropogenic (man made)
interference with the climate system. Such a level should be
achieved within a time-frame sufficient to allow ecosystems to
adapt naturally to climate change, to ensure that food production is
not threatened and to enable economic development to proceed in a
sustainable manner (Jaggard, 2007. pp.39).
Apart from consensus goal of stabilizing greenhouse emission to a favorable level to climate
system, UNFCCC is also focused on equally sublime goals of sustained food production and
economic development. Sustainable development is at the root of this approach, highlighting
sustained economic growth in balance with environmental sustainability and eradication of
poverty. However, absence of concrete defining standards for the objectives and measures for
achieving them result in ambiguity and controversy. Yamin (2005) considers the ultimate
objective of preventing “dangerous anthropogenic interference” is primarily focused on
mitigation measures without undermining significance of essential adaptation. The inherent
ambiguity of the term “dangerous” makes the convention limited, prone to multiple
interpretations and a reason for lacking policy specification (Mabey, Hall, Smith, & Gupta,
1997; Barnett & Campbell, 2010). This makes international climate change policy making a
“continuous discourse” (Jaggard, 2007).
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UNFCCC successfully supplanted the notion of wait and see till concrete irrefutable
scientific evidences are manifest with the understanding of taking precautionary measures for
countering climate changes (Pittock, 2009). Soltau (2009) argues that a detailed discussion
led to a “dedicated” framework by taking into account specific concerns and needs of
developing states. In accordance to principle of equity and sustainable development, states’
unequal contribution to climate change was acknowledged. Principle of CBDR, by taking
into account respective specific vulnerabilities and needs of the concerned parties, paved the
way for cooperation and implementation of the climate regime (Pittock, 2009; Yamin, 2005).
Onerous responsibilities for climate protection are assigned to developed states in view of
their historical and current contribution to the problem, and their technical and financial
eminence for thwarting it (Yamin, 2005; Pittock, 2009; Jaggard, 2007). Thus, convention
takes into account the special circumstances, geographic and economic vulnerabilities and
transitional market economies in assigning responsibilities. States vulnerable to adverse
climate changes like small islands, low lying states, semi-arid areas, and those that could
suffer because of adopted regime and countermeasures like one with fossils fuel dependent
economies, are to be favorably considered in view of their emission limitations (Paterson,
1996; Boisson de Chazournes, 2008).
Based on the principles of equity and CBDR, all commitments are differentiated. Convention
is broadly divided in general and specific commitment with former applicable to all, whereas
latter involves rules for developed states in Annex1 and a further small set it in Annex
11(Yamin, 2005; Boisson de Chazournes, 2008.). Annex 1 states include Organization of
Economic Cooperation and Development (OECD) and Economies in Transition (EITs),
Annex 11 include only OECD states, while non-Annex 1, are mostly developing states
(Eliasch, 2008). Yamin (2005) elaborates these detailed commitments. Including a total of 41
developed states in Annex 1, the convention seeks reducing their greenhouse emission to
1990s level, either individually or jointly. Annex 1 states submit annual progress report,
termed national communication, regarding emission limitation every three years that is
reviewed by experts. The more prosperous developed states of the Annex 1 are placed in
Annex 11 and assigned with additional responsibility of providing developing sates with
required financial and technological resources that would facilitate preparing their national
communication report, meeting their commitments, and enhancing their capacity against
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adverse implications of climate change. The non-Annex 1 states are those developing states
that negotiated their stance en bloc as G-77 with no assigned emission limitations. The table
below after reformulating gathered data given by Voigt (2012), Yamin and Depledge (2004),
Depledge (2005) and Soltu (2009) further elaborates differentiated nature of commitments in
the UNFCCC.
Table 5 States and Differentiated Responsibilities
ALL PARTIES national inventories
national and regional programmes to mitigate climate change
Reporting obligations: Detailed description of the policies and measures taken for mitigation, apart from the national inventory
promote sustainable development
promote conservation of sinks, adaptation, education etc.
ANNEX I PARTIES
(OECD countries and economies in transition – EITs)
develop national policies and measures for mitigation
Taking the lead with a specific ‘aim’ to return emissions to 1990 levels by 2000
Report their progress
ANNEX II PARTIES (OECD )
provide financial resources to developing countries
assist developing countries in meeting adaptation costs
Promote technology transfer, including to EITs.
NON-ANNEX 1 PARTIES (mostly developing states)
They are subjected to general commitments
However, regarding reporting commitments, Soltau (2009) points out developing states are to submit their reporting obligations after three years, the least developing states characterized with lowest GDP could submit it at their own preference.
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States’ approach to issue of targets was three fold. The schism was evident as intra-North and
North-South (Boisson de Chazournes, 2008b; Paterson, 1996.). EU asks for strong
commitments; however, Japan, US, Canada, Australia, and New Zealand (JUSCANZ),
though acknowledging inadequacy of the targets, were unwilling to strengthen it (Verheyen,
2005). They demanded commitment from developing states, especially from the well-off
(Boisson de Chazournes, 2008b). Specifically, US resisted “hard line industrially restrictive
agreements by questioning the wisdom of precautionary principle in absence of concrete
scientific certainties (Jaggard, 2007). On the other hand, developing states successfully
barred binding emission limitations and sought fulfillment and implementation of the
existing commitments, except Alliance of Small Island States (AOSIS) that sought binding
commitments for all in view of existential threat as a result of rising sea level (Boisson de
Chazournes, 2008b.). UNFCCC, despite unsuccessful in actualizing emission limitations
targets for all, has its “symbolic significance” that would induce developing states for
international cooperation if the developed states earnestly execute their commitments (Mabey
et al., 1997).
5.2.1 Institutional Mechanisms and Related Controversy
Convention also outlines institutional and financial mechanism with Conference of Parties
(COP) as supreme body and four other related institutions to monitor implementation of the
existing policy and enable effective coordination of the actors (Yamin, 2005). COP, along its
two subsidiaries advisory bodies—Subsidiary Body for Implementation (SBI) and Subsidiary
Body for Scientific and Technological Advice (SBTA)—implements decisions and also
regularly review effectiveness of the policies (Barnett & Campbell, 2010).
A financial mechanism, though criticized, to facilitate developing states technically and
financially was temporarily arranged under Global Environmental Facility (GEF) of the
World Bank, UNEP and the UN Development Program (Paterson, 1996). Streck (2013) and
Lattanzio (2013) point out that management of financial mechanism through independent
GEF or as a subsidiary body of conference of parties (COP) became a matter of dispute
between developed and developing states respectively. Developing states wanted GEF as a
subsidiary body of COP because of one-member-one-vote system; while independent GEF
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under influence of World Bank would be exclusively dominated by developed states. GEF is
later restructured and acknowledged by decision 3/CP.4 (1998) as an independent financial
mechanism of the convention (Boisson de Chazournes, 2008; Review of the financial
mechanism, 1998; Streck, 2013). However, it does not mean that it is currently less
dependent on the donor states, most importantly US (Lattanzio, 2013). Apart from the
financial mandate, developing states, especially small island states, questioned GEF's
mitigation focused funding that does not take much into account their adaptation needs
(Barnett & Campbell, 2010).GEF has attained an independent status with balanced
representation from developing and developed states, and vibrant participation of NGOs;
however, the need for further restructuring is acknowledged to make it more effective and
acceptable to developing states (Streck, 2013).
5.2.2 Evaluation
Despite result of fifteen years of strenuous negotiations, Barnett and Campbell (2010)
consider UNFCCC and Kyoto “complex institutions”. Convention was found disappointing
because of its lacking firm commitment to stabilization, insurance fund, mechanism for
technology transfer, and no firm commitments from developing states (Soltau, 2009).
Divergent interest of states is the major reason for lacking consensus on these complex and
contentious issues. The Environmental NGOs pointed out flaws in actors and process that
hindered effectiveness of the climate change policy making (Boisson de Chazournes, 2008).
They criticized conference for de-emphasizing main issue and focus on procedural matters
like controversies over chairing committees, and dispute especially between US and other
states on favorable language and terms in the text. US singled out as a main obstacle in
actualizing quantified targets; however, it substantially changed its rigid stance by accepting
and limiting CO2 as a major greenhouse gas, apart from those covered by Montreal Protocol,
and also agreed to include target dates in the convention. However, UNFCC apart from
limitations have much contributed in developing an understanding and a medium of
interaction for the development of future policy framework. Differences of states’ interests
and goals shape policy negotiations for the convention. Multidimensional nature of the policy
controversy could be understood in terms of a choice between a general framework with
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specific protocols or an exclusively assigned one thoroughly committed to climate change
(Soltau, 2009).
5.3 KYOTO PROTOCOL
The limitations of the convention pushed for the realization of the Kyoto protocol.
Insufficient commitments of Annex I countries (developed states with historical
responsibility to climate change and high emission ratio) at UNFCC were duly realized
(Boisson de Chazourness, 2011; Depledge, 2005). The nature of the commitments and
compliance mechanisms UNFCCC provide were highlighted as soft, significantly focused on
'multilateral consultative process' ( Stokke, Hovi & Ulfstein, 2005). Schreuder (2008) argues
that the absence of legally binding emission targets turns the climate convention ineffective.
Moreover, the inability of meeting climate convention “implicit deadlines” of emission
reduction till 2000 were understood unrealizable in presence of expected rise in emission and
absence of binding targets(Davenport,2008). Disarming of this complex and enormous
problem is understood to require stringent and effective measures. However, the UNFCCC
sets the foundations, parameters and pattern for the future climate regime that facilitated
further evolution of the international climate regime. The need for comprehensive binding
emission targets were highlighted in Berlin mandate, 1995, that sought a comprehensive
policy and obligatory measures for emission reduction (Depledge, 2005; Davenport, 2008).
However, the major hindrance to the effective policy has been the disputes among states’
constituting groups of North and South, intra-North and intra-South based on their respective
concerns and interests. Negotiation process was primarily and significantly driven by
respective preferred agendas of the stakeholders than in consideration of the environmentally
dictated global concerns. US, focused on emission stabilization rather reduction, did not
concede to EU stringent emission limitations (Baker, 2006). Similarly, geographic and
economic consideration and vulnerabilities shaped divergent approaches of developing states
to emission reduction. States having fossil fuels based economies, low lying and small island
states equally sought poles apart measures for seeking no limitation to almost 20% reduced
emission to 1990 level respectively (Davenport,2008). After strenuous negotiation process,
the individual emission targets ranging from 8% to 10% for among Annex-1 states have a
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total reduction ratio of 5% below 1990 level in next five years from 2008 to 2012 (Depledge,
2005). It was a success with respect to emission reduction by 1990s level at UNFCC.
Kyoto protocol is distinguished for its pioneering market based mechanisms for emissions
limitation. Streck (2011) terms flexibility mechanisms as the most “innovative” feature of
the climate regime. The objective of these flexibility mechanisms is to provide a global
cooperative interaction and assist developed countries in achieving their emission targets.
These mechanisms evolve a multi-layered governance structure by bringing together states
with different agendas and potentials in collaboration with private non-state actors focused
on effective underlining of the existing shortcomings (Streck, 2011). The various aspects of
these flexibility mechanisms including Joint Implementation (JI), Clean Development
Mechanism (CDM), and Emission Trading (ET) are significantly rendered by Yamin(2005),
Maguire(2013), Yamin and Depledge(2004), Baker (2006) and Boissen de
Chazournes(2011). Regarded as a prototype of carbon market, the indistinct specification of
implementation provisions and nuances and subtleties of the flexibility mechanisms were
reasons of dispute among states. These concerns were addressed to a degree in Marrakesh
Accords, November, 2001 in the 7th session of COP that eventually actualized protocol on 16
February, 2005. Emission limitation of six greenhouse gases, carbon dioxide, methane,
nitrous oxide, hydrofluorocarbons, perfluorocarbons and sulphur hexafloride, counted
together as a basket (Depeledge, 2005) and measured in equation with CO2 ratio, would be
carried out through flexibility mechanisms. Each state allocated an Assigned Amount Units
(AAU) of emission could trade it through ET to another state in Annex-1 group if the latter
utilizes its own (Eliasch, 2008). Apart from the AAU, the states could earn emission credits,
Removal Units (RMUs), through carbon sequestration and removal with judicious use of
land, land-use change and forestry (LULUCF) (Eliasch, 2008; Baker, 2006). JI involves
transfer of Emission Reduction Units (ERU) within Annex I states that are purchased by a
state from another state in which projects for emission reduction or enhancement of sinks are
practiced. Baker cites replacement of an old energy constraining power plants in a country
with a new more energy efficient one as an example of JI.
While ET and JI are practiced among Annex 1 states, CDM involves projects for sustainable
development and technological assistance from Annex I to non-Annex I states in order to
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fulfill emission reduction commitment by the former, and develop adaptive capacity of the
latter. These investments earn Annex-1 states Certified Emission Reduction (CER) that
would contribute to their overall 'quantified emission limitation and reductions commitments'
(QELRC) (Boisson de Chazournes, 2011).
The implementation measures in Article 2 and 3 for Annex I states signify QELRC process,
highlighting evaluation of national policies and their enforcement (Boisson de Chazournes,
2008a). This demands continued cooperation and interaction among Annex-1 states to
actualize the assigned goals with minimum negative impacts for other states. The Protocol
seeks exhaustive assessment and review procedure for Annex-1 states and to address matters
of non-compliance (Yamin & Depledge, 2004; Depledge, 2005). Compliance and dispute
settlement mechanism in article 18 authorize CoP to amplify rules and procedures in view of
the essence provided in Marrakesh Accord. CoP assesses compliance level and requirements
of a state in terms of fulfilling its commitments. Two branches, the facilitative branch and
enforcement branch are established to provide financial and technical assistance in fulfilling
states’ commitments and resort to punitive measures in case of non-compliance respectively
(Boisson de Chazournes, 2008; Stokke, Hovi & Ulfstein, 2005). Disputes are settled in
traditional amicable ways through negotiation, conciliation, arbitration and appeal to
international court of justice. The detail of compliance measures and their effectiveness are
given in the edited work of Stokke, Hovi and Ulfstein (2005) titled, “Implementing the
climate regime: International compliance”.
5.3.1 Evaluation
Kyoto protocol could not secure US support despite presence of the demanded flexibility
mechanisms (Davenport, 2008). However, Baker (2006) contends that US withdrawal
somehow galvanizes others especially EU states to materialize the climate regime. Protocol
is understood more favorable and promising than the Convention; however, it is not without
limitations and requires further improvement for effective reduction of global emission.
Boisson de Chazournes (2008a) considers Kyoto's “legal reach” compromised. Subscribing
to this view, Davenport (2006) terms the prescribed commitment for Annex-1 states
inadequate in presence of scientific requirement. Lack of a unanimous standard and
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procedure for QELRC allows states to choose its own preferred standard. The loopholes in
the market based mechanisms are highlighted by Baker (2006) and evaluated with extensive
detail by Yamin (2005).
Boisson de Chazourness (2008a) states that with an understanding that some of the
developing states are undergoing rapid industrialization, not asking them to commit to
emission reduction based on common but differentiated responsibility principle has made
Kyoto Protocol a less effective instrument. This realization resulted in initiation of a two
track process: establishing an ad-hoc working group to realize further commitments on
Annex-I states, and continued discussion to enhance cooperative action.
5.4 PARIS AGREEMENT
Paris agreement, an outcome of decade’s efforts, pooled resources of state, non-state and
renowned individuals. However, the lukewarm pace of progress towards this remarkable
achievement, Paris agreement, is understandable in light of involved hurdles in the process.
Ramady and Mahdi (2015) draw a post-Kyoto scenario and highlight reasons for the
unsuccessful implementation of the Kyoto Protocol. However, understanding limitations of
the Kyoto and efforts for overcoming them broaden prospects of a favorable international
environment for a universally accepted global climate deal. The North-South discord, with
latter attributing 75% of accumulated emissions from 1860 to 1999 to the former, stood a
major contentious issue. Equally significant is the intra-North contention with Europe
seeking more stringent emission target which US resisted. A realization that compliance with
Kyoto (2012) will cost Canada $14 billion resulted in its withdrawing from the treaty
(Ramady & Mahdi, 2015). Kyoto Protocol was also found limited, for its legally binding
targets exclude growing large economies like China and India whose cumulative emissions
were growing exponentially (Norton, 2015; Huber, 2015).
Ramady and Mahdi highlight significant outcomes of various monumental measures from
Rio Conference, 1992 to the result of Lima, 2014, giving us an insight into the limitations
and consequent reevaluation at each stage that paved way at the end for a global climate deal
in Paris, 2015. The post-Kyoto period was much volatile and the efforts for the formation of
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international climate change regime embraced many vicissitudes, its peaks and valleys. The
outcome of the Paris Climate Agreement is a result of much contended debates and
disappointment. The agreed measures of the Paris agreement evolved in various stages that
are tabled by Ramadi and Mahdi (2015) and summarized here in light of their major dispute
and outcomes. The Kyoto Protocol though signed by the US President Clinton was not
ratified by the Congress, and was rejected by the next President Bush in 2001. However, it
was promising that Russia and Canada ratified Kyoto in 2002, bringing it into effect. Kyoto
widened the long lingering intra-North dispute of the US and Europe regarding emission
reduction and nature of the commitments. The Copenhagen conference (2009) is largely a
failure in terms of any concrete agreement; however, the prime goal of keeping the earth
temperature below 2°C was settled. Similarly, the Cancun 2010 came up with a viable
targeted amount of $100 billion per annum—though not agreed upon—to assist developing
states for their adaptation, technologically and financially. The Doha Conference (2012)
results in concurrence among the parties to arrive at a Post-Kyoto treaty in 2015 in Paris. The
most remarkable step towards the Paris Climate Agreement is taken in Lima Conference
(2014). The long-standing dispute of choosing a preferred course between an internationally
binding emission reductions and nationally determined targets in light of a state’s limitations
and potential is found resolved with the introduction of Intended Nationally Determined
Contributions (INDCs). Moreover, states agreed to a long term goal of achieving a net-zero
emission by 2015 (Ramadi and Mahdi, 2015). The major events and their outcomes are
tabled by Ramadi and Mahdi and reproduced in the Annexure for easy reference.
Despite hindrances, the continued climate negotiations—specifically among the world top
greenhouse gas emitters—gradually brightened prospects of a global climate deal (Cherian,
2015). However, Ramady and Mahdi (2015) and Victor (2015) signify certain major factors
that paved the way for a global climate deal. China growing climate threats at home and
potential repercussion to international trade abroad are the major reasons for bringing change
in its climate stance. Droughts, floods, erratic weather patterns, reduced crop yields and
water availability raised China’s concerns for inaction about climate change. The Sino-US
agreement to curb emissions further manifest that business as usual approach is growing
unfavorable, and paved the way for others to follow suit. Likewise, India and US major
cooperation on clean energy enhanced India’s potential to base its economic structure on
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clean energy. International environmental organizations serve as vigilante and medium to
promote global awareness for environmental health (Ramady & Mahdi, 2015). Like
democracy became honorific at the end of the World War First as a result of the victory of
democratic allied powers, the green ecological movements and their message moved from
the “fringe to the mainstream” after an extended ordeal of creating public consciousness
about sustainable development and accountability towards global environment (Ramady &
Mahdi, 2015).
Paris agreement signed by 195 states on December 12, 2015 is an accomplished objective of
bringing all these states with unanimous commitments regarding the issue of climate change.
Achieving global agreement on climate change in Paris is understood “triumph of reason”
and “triumph of realism” (Schellnhuber, Rahmstorf & Winkelmann, 2016). Setting out a 2°C
target for the earth surface temperature and realizing it through the “controlled implosion of
fossil industry instigated by a technological explosion related to renewable energy system
and other innovation” are the most significant aspects of Paris agreement. The words of US
Secretary of State, John Kerry’s worth quoting to highlight importance of the agreement,
“This is a tremendous victory for all of our citizens — not for any one country or any one
bloc, but for everybody here who has worked so hard to bring us across the finish line. It’s a
victory for all of the planet and for future generations.” (Igoe, 2015). The agreement is seen
as a unanimous initiative that would gradually further and strengthen countermeasures
against negative impacts of climate change without compromising goals of development.
The Copenhagen conference sets the goal of keeping the earth’s temperature below 2°C;
while, the Lima, COP20 removes barriers to evolution of a consensus global climate deal
(Cherian, 2015). The vital distinguished feature of the Lima conference is the “invitation to
each Party to communicate to the secretariat its intended nationally determined contribution
towards achieving the objective of the Convention as set out in its Article 2”. Intended
Nationally Determined Contributions (INDC) is countries’ plan to curb greenhouse emissions
(Ramady & Mahdi, 2015), outlining their post-2020 efforts that help determine whether the
long-term goals of the Paris agreement of keeping the world temperature below 2°C, limit it
to 1.5°C and realize net zero emissions by 2050 will be actualized (What is an INDC, n.d.).
In essence, INDC creates “a constructive feedback loop between national and international
decision-making on climate change”. Relying on a bottom-up approach with each country
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designing its own plans and setting its own realistic and achievable targets, the INDC is
different to Kyoto that was having binding targets for the Annex-1 states (Cherian, 2015).
The realistic and achievable standards demand that the country establish it’s INDC after
assessment of its resources, limitations and development requirements (Mercer, 2015). This
brings a marked difference between INDCs of the states: some focused on mitigation—
conditioned to foreign assistance or without; others largely adaptation; and, some on both.
Mercer contends that the “beauty of the INDC…is that this will instill ownership over the
goals”. The goals are to be pursued as prescribed in Article 2 in the “context of sustainable
development and efforts to eradicate poverty”.
INDCs are required to be progressively reformed and strengthened with more strong
emission and adaptation measures after every five years, and then a collective stock-stake
termed an ambitious mechanism by Norton (2015) is taken into account to determine
progress towards the larger and long term ideal of avoiding a 2.0°C—preferably limiting it to
1.5°C—warming. This legally mandated reporting of the progress in terms of mitigation and
adaptation to the UN is at the core of Paris agreement, for its leads to the required ratcheting
up of states emission and adaptation commitment and ambition overtime (Igoe, 2015; Huber,
2015). INDC is that “foundation stone” of a legally binding global climate deal that seems
not possible in the highly polarized world with distinctively divergent conception and
framing of the issues (Norton, 2015). The self-determined commitments conveniently
termed contributions based on a comprehensive evaluation of a state’s potential with
continued improvement upon them will evolve itself gradually into a legally binding regime.
Victor (2015) cite example of World Trade Organization an outcome of the likewise
flexibility that result into a legal entity. The flexibility that allows for willingly subjecting
oneself to a code of conduct prescribe by Paris agreement, a climate regime, inherently
discards continued business as usual approach that undermines human life and existence for
majority of the earth inhabitants, mostly poor and disempowered.
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Table 6 Main provisions of the Paris agreement
ISSUE PRESCRIBED PROVISIONS
Earth Temperature/ Long-term goal
Keep it below 2.0°C, preferably limit it to 1.5°C
Mitigation:
Bottom-Up Approach & Binding in Nature
All states, developed and developing, are to submit INDCs
All states should achieve the peak emissions level as soon as possible; however, it is realized that developing states will take long in this regard.
Regularly report their progress on NDCs, open to international review
Submit new INDCs after five years. It will be published, and should have an evident progress to the previously submitted INDCs.
The agreement seeks states to monitor, verify and report their greenhouse emission.
Take global “stocktake” after every five years starting in 2023 in light of progress towards the long term goal
Make the world carbon neutral by 2050—level of emissions that can be naturally absorbed: “A balance between anthropogenic emissions by sources and removals by sinks of GHG”
Adaptation Reaffirm developed states binding commitment to assist developing states in their adaptation
Encourage voluntary contribution from the developing states
Extend a mechanism to address, avert and minimize loss and damage resulting from climate change, but not “involve or provide a basis for any liability or compensation”.
Finance Goal of mobilizing the present $100 billion a year till 2020 through 2025, with a new higher goal to establish after 2025
However, Melissa Eddy, the New York Times correspondent for Berlin, contends that this prescribed commitment is mentioned in the preamble and thus not binding in character (Davenport et al, 2015).
Compliance Mechanism
“Non-adversarial and non-punitive”
The 2°C warming is categorized catastrophic and keeping earth temperature below it is
though found ambitious would thwart much of the devastating impacts of climate change
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(Davenport et al., 2015; Monbiot, 2015). Paris agreement in its article 2 sets out goal of
keeping temperature well below 2°C with emphasis on continued efforts to keep it 1.5°C.
However, it is understood impossible in light of the INDCs submitted at the Paris conference
that would lead to more warming than the prescribed target (Stephenson, 2015; Chan, 2015).
The achievement of this mentioned long term goal is subjected to universal mitigation
measures with gradual increase in making more robust progress in this regard. Lawson
(2016) contends, however, that the added provision with article 2 that subject implementation
of the agreement to “equity and the principle of common but differentiated responsibilities
and respective capabilities, in the light of different national circumstances” allows
developing states room to disregard the required mitigation. Believing that developing states
would concede to any regime that would disregard principal of differentiation is expecting
much from them. The agreement, however, seeks that states “should” rely on long term low
GHG development policies, thus discouraging developing states’ resort to the use of fossil
fuel for development. Apart from the impossibility of the desired goal of well below 2°C
warming, states and forces of market would understandably transform much to the ambitious
but unanimously acknowledged long-term target with a net zero emissions by mid of this
century. This would encourage a profound reduced use of fossil fuels and extended reliance
on renewable sources of energy. The wheel of progress in line with the ideal has started
rolling on towards its destination.
The Center for Climate and Energy Solution in its assessment of the Paris agreement titled,
“Outcomes of the U.N. Climate Change Conference in Paris” lauded efforts of the state and
non-state actors in materializing the historic climate agreement. Evaluation of the Paris
agreement draws us to a far nuanced form of differentiation than the established rigid
“binary” distinction of the developed (Annex 1) and developing (non-Annex 1) states of the
Kyoto Protocol that subject the former to binding mitigation commitment (Outcomes of the
U.N. Climate Change Conference in Paris, 2015). The bottom up approach of the Paris
agreement is characteristically having flexible essence with binding procedural rigidity: it
allows states to formulate their INDCs—effective achievable mitigation and adaptation
targets and measures for their achievement—in light of their national resources and
limitations, subject them to international review to assess progress towards the intended goals
without demanding strict implementation. It seeks, however, to improve with “highest
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possible ambition” on their earlier submitted goals after every five years after 2023. This
“hybrid” dynamics of the Paris agreement has brought 195 states in accord with the Paris
agreement (Outcomes of the U.N. Climate Change Conference in Paris, 2015). However,
despite flexible nature of INDCs, the Paris agreement designs to evolve an effective effort as
Lawson (2015) argues, “in a surprisingly robust language, Article 3 then goes on to state that
Parties have an obligation to produce an NDC covering mitigation (Art 4), adaptation (Art 7),
finance (Art 9), technology development and transfer (Art 10), capacity building (Art 11),
and transparency (Art 13), and to make “ambitious efforts” under each of those headings.” In
fact, the agreement draws an extended parameter and emphasizes a gradual approach towards
higher standards of requirements that states’ INDCs have to encompass for its effectiveness.
The Paris agreement is not without limitations. It may be cited as scientifically invalid, for
the ambition to keep earth surface temperature to prescribed goal of 2°C, preferably 1.5°C, is
much impractical in light of the submitted INDCs of states. Paris agreement is also criticized
for making professed ideals of “climate justice and sustainable development” part of the
preamble and not operationalized part of the agreement. Likewise, specific measures to
operationalize principles of “equity” and “Common but Differentiated responsibility” are
absent (India lost chance to exert right to development in Paris, 2016). These limitations
including specifics regarding mechanism for transparency and Monitoring, Reporting and
Verification will settle in the future Conference of Parties meetings (N. Helme, Executive
Director Center for Environmental Public Policy, personal communication, September 29,
2016). Despite all its current limitations, the Paris agreement is a phenomenal success in
political domain. Earlier drifted apart by self-centered national behavior, the states in Paris
Agreement concur on producing a determined collective effort in light of national
considerations, subjected to public transparency and continued gradual improvement upon
the committed contribution. Like a soft regime in its rudimentary stage, the Paris agreement
is relying on naming and shaming policy and consensual binding for compliance. However,
growing impending negative impacts of climate change, rising growth and power of
environmental bodies, and technological breakthrough in the production and availability of
renewable sources of energy are some major factors that would reshape the fossil based
economic societies. This transformation could gradually evolve this soft regime into an
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internationally binding legal framework. The prospects for success of the Paris agreement if
followed and adhered to in letter and spirit will grow in future.
Regime theory exploring reasons for cooperation among states on an issue area highlights
three variables: power, interest and knowledge. The former two, termed rationalists, prioritize
material forces and are distinguished from the interpretive or ideational underpinnings of
regime formation (Viotti & Kauppi, 2012). Rowlands (2001) summarizes neoliberal
institutionalist or interest based understanding of the regime that conceive institutions to have
a significant role in shaping interests of the states. Institutions facilitate states in avoiding
individualistic actions and promote joint interests, for they shape identities and define
interests—a formative effect—to materialize productive relationship. Neoliberal interest
based theorists of the regime formation condition cooperation under anarchy to the existence
of mutual interests, shadow of the future [continued interaction] and small number of
participants(Rowlands, 2001). Based on such consideration, global climate change is a
common concern—“tragedy of the commons”—as “continued emission is a suboptimal
outcome”. However, Rowlands cautiously highlights diverse costs and impacts of climate
change for different states. The shadow of the future exists as climate change is a vital issue
on international agenda and will be a major reason for interaction among states. The
prospects of cooperation, however, is understandably reduced as solution of the problem
depends on multiple actors—a problem of everyone. Negotiating blocs created to bring
divisiveness in harmony under unanimity of concerns have enhanced prospects of
cooperation (Rowlands, 2001).
Moreover, international institutions have enhanced public awareness, drawn government
attention towards the issue and intensified interactions among stakeholders to combat global
climate change (Paterson, 1996). Assiduous efforts of WMO and UNEP shaped IPCC that
with keen interest from states lead to INC and CoP, assuring current “state of the art”
scientific knowledge regarding climate change (Rowlands, 2001). Rowlands argues that
institutions vitally promote “contracting environment” through increased national and
international accountability, monitoring, and working as a bargaining forum to ensure
reduced transaction costs and continued “iterated decision making” process. In view of the
involved contested political dynamics of climate change among developed and developing
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states, these institutions are working as a facilitator of resource, skill and information transfer
from the former to the latter.
Evaluating climate change policy making or regime formation in light of power based theory
signifies power distribution among actors and assessment or measuring of power in terms of
the nature of impacts and contribution to global climate change. Without undermining
military, political and economic power as leverage in bringing the desired outcome,
Rowlands (2001) emphasizes that an actor’s power in term of its impact on the issue—
changing of the global climate—an equally important determinant. States are powerful agent
of action on an issue like climate change for their contribution to the problem or their ability
to counter it. While China is racing ahead of US in its emissions, US despite being the
second has still the largest per capita emissions (China CO2 emissions outpace EU and US,
45% above global average, 2014). Rowlands terms United States as the sole hegemon in
terms of its military capabilities; however, he concurs with Nye and Welch (2014) that United
States currently shares economic hegemony of the world with Japan, China, and EU. With its
political and military grandeur, US paved the climate convention and Kyoto protocol in
accordance to its preferred goals (Rowlands, 2001). The outcome of the Paris agreement is
not without US influence. US resisted a rigid timetable for emission reduction in Convention
while included favorable flexibility mechanism—joint implementation, tradable permission
permits, clean development mechanism—in the protocol. Power configuration is indeed a
vital role player in agenda setting and influencing outcomes of the climate negotiations.
However, Rowlands (2001) overrules US complete sway over the regime formation. Paris
Agreement would not have been a reality without US and China agreeing that US would
reduce emission 26-28% below 2005 level, and China would peak its emissions by 2030
(Deese, 2017). This outcome is line with consideration of each other’s relative interest.
Cognitivism with the focus on agent-structure relationship argues that agents like state,
international organizations as well as structure in which they are embedded are susceptible to
change as their identities and interest are not given. It highlights the role of epistemic
communities and learning process shaped by discourse and arguments and in turn framing
interests and identities. Rowlands (2001) states that IPCC as an epistemic community—“the
supreme court of science”—has rendered vital services in garnering international support and
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cooperation among the states. It has ensured gathering reliable scientific evidences to
overcome uncertainties and generate sound unanimous policy. Global climate change as
predominantly complex scientific matter in its essence demands opinions of acknowledged
experts. Since 1991, national governments have tried to manage output of the scientific
bodies like UNEP and WMO by relieving them of their lead responsibilities; yet, IPCC holds
its grounds (Rowlands, 2001). Apart from the role of IPCC and its impact as an epistemic
community that has created the current body of knowledge, the social construction of climate
change is addressed in a volume, The social construction of climate change: Power,
knowledge, norms, discourses (2007) edited by Mary E. Pettenger. How knowledge, norms
and discourse shaped policy making and rules formation and how they are in turn shaped by
power holders is one major field of research in assessing policy making significantly
regarding environmental issues like climate change.
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CHAPTER 6
CLIMATE CHANGE REDEFINING PAKISTAN’S SECURITY
Pakistan is a developing state with primary reliance on agriculture as its economic backbone.
With huge debt deficit, weak infrastructure, poor governance, widespread corruption,
rampant poverty and substantial defense expenditure: it shares not only problems but also
concerns of Southern countries. Global climate change, acting as a threat and a threat
multiplier, portends new threats and could aggravate existing ones. Pakistan has witnessed
disastrous floods in 2010 and then in 2011 that almost paralyzed its infrastructure and
exposed its vulnerabilities. Pakistan requires adapting to multi-layered challenges as a result
of climate changes. Glacier melting at an unprecedented rate reduces freshwater sources and
is also a reason of flash floods. Rising sea level could constrain livelihood in its most
productive coastal city of Karachi, an economic hub, which could further aggravate the
existing ethnic conflicts and criminal activities. Reduced agriculture yields because of
unpredictable monsoon rains and river flow could lead to mass migration. Most significantly,
water is vitally a shared resource and could become a major reason for intra and intra-state
dispute in case of the much feared less than required water availability because of disruption
in the hydrological cycle. Climate changes are not only environmental disasters. They also
entail decline of economic growth and development, compromised cohesion of the society
and endangered governance structure of the state. The complexity and enormity of climate
change in light of challenges it portends demands extending parameters of the traditional
conception of the national security.
Current global climate change signifies all those phenomenal rapid transformations in Earth
climate system that started as a result of human induced enhanced greenhouse effect or
global warming. Accelerated climate change, providing least time for adaptation, would
primarily disrupt water cycle and unleash unpredictable socio-economic and political impacts
like reduced agriculture yields, biodiversity loss, energy crises, environmental refugees,
various diseases and chaos of governance in major parts of the world (Desonie, 2006; Silver,
2008; Dessler, 2012). Developing states termed South would specially bear the brunt
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because of their weak economy, inadequate technology, insufficient and inefficient
institutional capacity, and social disharmony despite least contribution to the problem
(Paterson, 1996). Paterson highlights this North/South disparity with the example of
Bangladesh and Netherland. Despite equally vulnerable to sea level rise, Netherland’s
“techno-economic” superiority reduces impacts of climate change by enhancing its adaptive
capability compared to Bangladesh. Reuveny and Thompson (2008) state that developing
states are less prepared to “adjust to repeated shocks of nature”. Climate change could
generate or exacerbate their existing crises, endangering their very existence.
In order to understand Pakistan’s climate change policy response, it is essential to understand
the importance of climate change as a threat. In this chapter, climate change as a security
threat is evaluated in light of ‘security’ as an evolving phenomenon in the theoretical
paradigms of international relations. Moreover, climate change as a security threat to a
developing state like Pakistan will be evaluated in light of impending threats.
6.1 SECURITY: THEORETICAL UNDERSTANDING, NATIONAL SECURITY
AND HUMAN SECURITY
Understanding security as a concept requires comprehending international system in view of
the dominant theoretical paradigms of international relations: Realism, liberalism and critical
perspectives to the two mainstreams. International relations, based on Max Weber definition
of state as an entity with a monopoly on the legitimate use of violence (Sachs, 2003), gives
pivotal significance to states because of their accepted legal and sovereign right to the use of
force (Shaw, 2003). Traditional realist paradigm in international relations considers that
states enhance their national power to maximize their influence and shape global decision
making process to their benefit (Weber, 2005). Classical realist attributes this state egoism to
self-seeking human nature, while neo-realists blame systemic anarchy, lack of central
authority, driving this non-rational appetite of overpowering others to protect one’s own
security. Threat resides in another state and countered through self-help and balance of
power, making them norms in a characteristically anarchic world for preservation of order
(Sutch & Elias, 2007; Mingst, 2003). Interestingly, efforts to increase power by a state are
always assumed threat by another, leading to a complex dynamics of interrelationship
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termed, security dilemma (Jervis, 2003). This makes conflict and resort to means of leverage
like violence and war inevitable and understandable. Realists focus on high politics of
security, survival and military strength is prioritized for achieving a desired order at the
expense of another’s loss. To them world politics is a zero-sum game (Heywood, 2011).
Liberalism, based on human morality and rationality, considers man capable of governing his
instincts (Genest, 1996). It optimistically advocates harmony of interests, and emphasized
common shared values to enhance cooperation, and secure as well as promote everyone’s
interests in presence of multiple actors along states like International governmental
organizations, Non-governmental organizations and multinational corporations (Mingst,
2003; Rourke, 2003). Though acknowledging realist systemic anarchy, it esteems value of
freedom in political process through democracy, in economics through laissez-faire and free
trade among states, and advocate providing centrality to international system through strong
international law and organizations (Rourke, 2003). Liberals consider international politics as
struggle for consensus and not for power (Kegley, 2008). Rather than limiting themselves to
realist’s short-term rationality of immediate gains they uphold long-term rationality of
mutual gains based on continued reciprocity (Heywood, 2011). They advocate ‘collective
security’ where an act of aggression is jointly countered from a central forum to secure
international security. However, collective security, its definition and application, is
witnessed subjected to the designs of powerful states in system—Japan’s invasion of
Manchuria in 1931 and Italy’s attack of Ethopia in 1935 (D’Anieri, 2012). Realists’ drawn
conclusion from the inter-war period, as expounded by E.H.Carr in his book, “Twenty Years
Crises”, discredits liberalism intellectual soundness and disqualifies ‘collective security’ as a
successful option against powerful states (Sutch & Elias, 2007). Beginning of World War 2nd
in a matter of twenty years and inability of the League of Nations to stop it transform much
of traditional liberalism.
The consequent evolved neoliberalism acknowledges states as primarily significant actors,
despite presence of multiple non-state actors, rationally pursuing their self-interests and
retaining their monopoly on defining the threat and required response to thwart it (Jackson &
Sorensen, 2007). These dominant actors, states, act rationally in light of their strategic
consideration (Dunne et.al, 2007). However, neoliberals broaden national security debate by
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incorporating earlier believed low politics like economics especially since 1970s oil crises,
declaring the world economically interdependent (Genest, 1996). In economically
interdependent world natural resources, especially non-renewable like oil, gas and coal, are
treated as strategic assets that enhance relative power of a state. Its significance is well
highlighted by Rogers (2000) who nullifies possibility of Gulf war first if Kuwait has been
growing carrots rather than possessing oil. However, liberals are starkly different from
realists in their belief of peace and cooperation as Goldstein (2003) puts it, neoliberals do not
follow “pessimistic conclusions” of the realists as they define rationality in terms of long-
terms goals and objectives. They see continued reciprocal relations through established
institutions and regime formation outgrowing and replacing short term self-seeking realist
rationality with long term mutual benefits and security.
Realism advocates value of order, liberalism favors freedom; whereas, critical perspectives to
the two most importantly highlight ideal of justice. Critical perspectives in international
relations like Marxism with all its variations, Feminism, and social constructivism, question
mainstream international relations paradigms: realism and liberalism. They consider these
two schools of thought responsible for maintaining structural factors to perpetuate global
inequality and injustice (Heywood, 2011). Moreover, to them every concept, whether
‘genocide’ or ‘collateral damage’, is socially constructed by dominant class, group or state to
secure its interests at the cost of others. Language is used as a weapon, commanded by
powerful, to influence, manipulate and most importantly legitimize authority and power
(Heywood, 2004). Therefore, they advocate radical transformations in the system to
ameliorate conditions of the deprived (Heywood, 2011).
Consideration of inequality evolves into understanding of human security based on human
development centered on justice and equality. Concept of human security is attributed to
liberals because of their traditional emphasis on individual freedom (Mansbach & Rafferty,
2008); however, all factors undermining human life are well emphasized by critical
perspectives in international relations, especially Marxism. Signifying human rights,
Marxism declares a man free only if he is in ‘control of the conditions of his existence’
(Hirszowicz, 1996). Human security derives its intellectual vigor both from liberalism as well
as Marxism. Signifying this mixed strand of liberalism and Marxism, Sutch and Elias (2007)
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coin the term ‘cosmopolitanism’ centered on ‘questions of global justice’. It not only
advocates rights of individual but also his duties to respect and ensure such rights by
qualifying every individual to conducive judicious social and international order as declared
in article 28 of the human rights declaration. Therefore, human security is centered on
enlarging individuals’ opportunities and choices, and securing him from want, fear and
structural exploitation or violence (Heywood, 2011; Liotta & Owen, nd). UN Secretary
General Kofi Annan added concept of intergenerational equity to human security by
accepting the right of future generations to ‘inherit a natural healthy environment’ (Mansbach
& Rafferty, 2008).
Evaluation of state centric national security and human security underscores the
characteristic difference in their definition of ‘threat’. Understanding of threat in traditional
security is something that undermines state’s unquestioned legitimacy or control of the use of
force, and assumed to reside outside in the form of military attack from another state or
internal insurgency (Sachs, 2003). This threat is effectively countered through military
response. Human security broadens the definition of threat and its parameters. Threat to
human life and human dignity could be internal and non-military in nature enhancing
insecurities like ‘social vulnerabilities’ and undermining ‘ecological resiliency’ (Najam,
2004). It relies on Richard Ullman’s redefinition of threat to national security as something
capable of “degrading quality of human life” in a limited time that equally “limit policy
options” of response (Floyd, 2010). Ullman considers exclusive orientation of national
security upon outside military threats to ‘abstract entity’ of state unfairly grounded
(MacFarlane & Khong, 2006). His study is evaluating security threats to individuals from
non-military means. Human security is thus a more extended version of national security
considering anything a threat that could undermine life quality of a state’s inhabitants in a
quick manner (Barnett et al, 2010). This would adversely affect preferred ideal of securing
individuals and communities from fear of want, violence and exploitation.
National security as a state centric approach and human security focused on securing people
are considered complimenting each other in some respects as defense against invading state
is also a protection of state nationals. However, the former specifically undermines the latter
because of huge expenditure involved in military build-up than on poverty reduction, health
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or education specifically in developing states (Abad, 2000). UN Human development report
1994 signifies this comprehensive understanding of security by incorporating food,
economic, health, personal, community, political, and environmental aspects into it
(Heywood, 2011). All of them are related and contribute together to ‘human life and dignity’
(Barnett et al, 2010). A mutual chord between national security and human security was
struck by UNDP 1994 report terming security people centric, and demanding global efforts to
reduce poverty and enhance human development without compromising on existing primacy
of the nation states (Buzan & Hansen, 2009).
6.2 ENVIRONMENTAL SECURITY OR CLIMATE SECURITY
Environmental security is a vital aspect of human security because of poverty-environment
nexus from local to global level. Adeel and Piracha (2004) consider exclusive reliance of
poor on environment for living detrimentally leading to environmental and resource
degradation that further compromise quality of life. This makes poverty and environment
interrelated and mutually contributing with an understanding that environmental degradation
“hurts poor more than the rich” (Ullah, 2006). The same thesis is propounded by
Chossudovsky (2003) while explaining issues of poverty and dependence among states at
global level that how the “new world order feeds on human poverty and destruction of the
natural environment”. Environmental security brings interdependent relationship of poverty,
environment and security under one concept of sustainable development (Najam, 2004;
Adeel & Piracha, 2004). This concept incorporates human development or human security
into parameters of economic development as both complement each other. Undermining one
would adversely affect the other. Environmental security underlines that unsustainable
human activities have resulted in environmental problems threatening life on Earth in
multiple ways. These unsustainable activities have endangered availability of crucial
resources, renewable as well as non-renewable ones; a phenomenon termed scarcity.
Scarcity is attributed to three undesirable outcomes: population exceeding available
resources, low yields owing to environmental upheavals, and finally structural flaws of
uneven access or distribution of resources, and its concentration with privileged few of
population (Swatuk, 2006). Swatuk states these three often coexist and interact with vital
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impact on socio-economic infrastructure and political institutions. This resource scarcity
could possibly culminate into three scenarios as mentioned by Viotti and Kauppi (2007) and
Swatuk (2006). It could lead to war for the control of meager resources called as resource
wars. Scarcity would results in ‘resource capture’ by few at the expense of “ecological
marginalization” of many (Gizewski & Homer-Dixon, 1996). Secondly, it could induce mass
migration because of environmental hardships. Environmental refugees’ adaptation in their
new favorable habitat become very challenging, specifically in case of resistance from host
communities culminating in identity or ethnic crises. And finally, it could weaken socio-
political institutions with overburden resulting in crises of authority or civil disobedience.
However, Gizewski and Homer-Dixon (1996) and Najam (2004) make this scarcity induced
conflict contextualized, dependent on other multiple factors like state’s character, its
capabilities, interaction with society, and level of poverty. The poverty-environment nexus
and related socio-economic disruption, despite accepted, is interpreted differently with onus
of responsibility shifted from one to other. While Najam (2004) attributes environmental
stress and related insecurities to poverty; Jessica Mathew as mentioned by Sachs (2003)
considers poverty, associated problems and conflicts, results of environmental constraints on
human life. Environmental security could be more appropriately termed climate security
because of the enormous repercussions of global climate change. Acute threat of existence to
small island states and low lying states like Bangladesh and Maldives make the term climate
security more pertinent.
Climate variations like glacier and permafrost melting and rising sea level would undermine
state security with losses in infrastructure, reduced fertility and crop yields that lead to forced
population displacement and unemployment specifically in coastal regions(Dessler &
Parson, 2006; Tomecek, 2012; Houghton,2009). Because of its scenic beauty, soil fertility,
and trade and economic opportunities: coastal regions are home to large population, huge
built infrastructure and are hub of massive economic activities (Houghton, 2009). Similarly,
glaciers feeding rivers, a major source of agricultural system in many states, with reduced
water capacity along unfavorable variations in temperature and precipitation could have
serious socio-economic consequences in agriculture dependent economies like Pakistan.
Apart from negatively affecting food availability, water scarcity results in inadequate and
insufficient energy by reducing water in reservoirs. These environmental pressures could
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arrest socio-economic life with potential to create or exacerbate existing crises of authority
by aggravating problem of governance, most importantly in developing states (Viotti &
Kauppi, 2007). Water borne conflicts are not only confined within state’s borders among
various estranged communities, but also among states where water is a shared asset. Climate
change poses serious threat to Pakistan as a river fed agricultural country with reduced water
availability, aggravating existing energy crises, and endangered coast line because of rising
sea level.
However, environmental stress leading to conflicts is conditioned by multiple disruptive
factors in the overall system. Similarly, co-operation among the contending actors like states
is dependent upon presence of democratic system (Swain, 2004). Swain’s understanding of
cooperation between two democratic states despite environment generated life constraining
scenario is based on idea of ‘democratic peace’. It signifies that two democracies do not go to
war with each other (Griffiths et al, 2000). Ganges treaty between India and Bangladesh
resulted in cooperation in multiple areas, whereas despite presence of decades old Indus
water treaty, coordination seems lacking in water sharing and other areas between India and
Pakistan. There is no simple explanation for this failure; however, Swain (2004) considers
Pakistan’s authoritarian state structure responsible for not capitalizing on available
opportunity, duly availed by Bangladesh. In a word, climate security is emerging as a vital
disrupting factor with a potential to seriously undermine Pakistan’s security, but it also
depends on other destabilizing factors within the state. Therefore, we need to evaluate
Pakistan existing internal dynamics that shape its understanding of security.
6.3 PAKISTAN’S SECURITY: TRADITIONAL AND NEW REALITIES
Pakistan, located in a hostile environment since inception, is primarily focused on its national
security with maximum allocation of its annual budget to defense. Uneasy relationship with
India and unsettled neighbouring Afghanistan shaped its security understanding. Pakistan’s
conflict with India termed an enduring and protracted one by Paul (2005) is primarily
responsible for its security perceptions and most of its reactive foreign policy. Fear of much
larger hostile India termed “Indian factor” (Swain,2004) though assumed exaggerated but is
not irrational (Lieven, 2011) in consideration of three major and one limited wars, an
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intractable territorial dispute of Kashmir and a peace, better termed order, maintained much
because of Mutually Assured Destruction doctrine between the two nuclear states. Similarly,
Pakistan’s fear of independent “Pashtunistan” (Johnson, 2005), pursuit of strategic depth
against its prime threat India (Nasr, 2005); and a thorny unsettled border issue of Durand line
(Rais, 2008) vitally explain its embittered relations and continued engagement in the
undecided politics of Afghanistan. Like fate of a house under attack is ceded to its security
guards; similarly, process of decision making in Pakistan is assumed by army as the most
organized institution with an ability to effectively counter these threats. This took its heavy
toll on democratic process and civic values in the country. However, military adventurism
may be the major reason, but it is not the only one to explain disruptive political process in
the country.
External security concerns seem less ominous to internal havoc wreaked by vested interests.
Nurtured by a fragile and dependent national economy, Pakistani state and society is rifted
with ideological, ethnic and class schisms. Rampant corruption is systemically enhancing
relative poverty and gulf between elites and masses, making the former empowered to
manipulate decision making process in their favor. Most significantly, a political culture is
cultivated characterized with traditional power pillars with personalized rule of institutions
by elites, disempowerment of the masses and least accountability for the authority. Dr. Ishrat
Hussain, a former governor to State Bank of Pakistan, considers state controlled by a fraction
of elite through corruption and patronage as the main problem of Pakistan (Hussain, 1999).
Political system lacking governance and accountability, and productive participation of
masses in decision making process result in crises of authority. Viotti and Kauppi (2007)
define crises of authority as an individual or group’s loss of trust in state’s institutions.
Disenchanted masses are withdrawn from political life or place their allegiance to an entity
larger or smaller to state. Presence of Islamic militant extremists idealizing their version of
‘shariah’ rule and denigrating democracy on one side, and disgruntled ethnic communities
vying for separation on the other, explain Pakistan’s crises of authority. Despite these
internal and external challenges, Lieven (2011) believes that Pakistan is a hard country with
immense resilience; however, more vulnerable to ‘ecological changes’ than internal
insurgency or external enemies.
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6.4 CLIMATE SECURITY AND PAKISTAN: PROJECTED CLIMATE WOES AND
IMPLICATIONS
Severe environmental problems in Pakistan are due to air, water and soil pollution, lack of
proper mechanism and political will to control them. Moreover, lavish unwise use of natural
resources has resulted in deforestation, desertification, energy and water shortages, which
made this country further vulnerable to ecological changes. Pakistan as part of Asian region
is found susceptible to climate variation in Monsoon, El Nino Southern oscillations and
cyclones culminating in unfavorable impacts like floods, drought, and sea level rise (Farooqi
et.al, 2005). Current abrupt global climate change could have various adverse impacts like
affecting its water availability, low agriculture yields, undermine its livestock and
biodiversity, new diseases, and endanger its coastal areas that could induce massive
population displacement contributing to overall environmental, economic degradation and
socio-political atrophy. Devastating 2010 floods and again in 2011 is also attributed to
climate change (Rasul et al, 2012). Projected impact of rising temperature would result in
loss of 1/5th of the existing glaciers by the year 2030 (Markey, 2011). This enormous and
rapid decline of glaciers, leading to profuse river flow in the beginning, is understood turning
regional rivers into seasonal ones in the long run. Markey (2011) draws our attention to
fundamental implications of climate change in the form of limited freshwater supply and
damaged coastlines along other adverse implications.
National Sustainable Development Strategy (NSDS, 2012) of Pakistan acknowledges
Pakistan not different from the rest of the developing states in terms of choosing between the
conventional growth-centered development and the integrated socio-economic environmental
sustainable development. The former prioritized economic growth and gives nature an
“instrumental value”; the later promotes an integrated approach that accepts intrinsic worth
of the nature (Baker, 2006). Focused on economic growth, the conventional development
model relegates environmental “cleaning up” and prevention and mitigation of environmental
damage (NSDS, 2012). Equally significant is NSDS realization that climate change driven
hazards and other natural calamities like earthquakes pose “unique and unprecedented”
challenges to the sustainable economic growth and development in Pakistan.
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Pakistan ranked at the top of the most vulnerable states to climate driven disasters and risks is
the prime example of climate injustice, for it contributes mere 0.8% of greenhouse gases to
the global emissions (NSDS, 2012; Naeem, 2012). Various climate risk assessment bodies
including the Maple Croft index, the Columbia University vulnerability index and the
recently launched “German Watch” climate risk index have drawn the same conclusion
regarding its extreme vulnerable position.
Table 7 Pakistan’s ranking in the German-Watch Climate Index.
Ran
k
Country CRI
Score
Deat
h Toll
Deaths per
100000
inhabitants
Absolute
Losses
(M $ PPP)
Losses per unit
GDP in %
HDI
1 Pakistan 3.5 1891 1.1 25316 5.42 145
2 Guatemala 6.33 229 1.59 1969 2.80 131
3 Colombia 8.0 320 0.70 7544 1.73 87
4 Russia 11.0 56165 39.3 5537 0.25 66
5 Honduras 14.67 139 1.73 220 0.65 121
6 Oman 17 24 0.81 1314 1.73 89
7 Poland 17.83 151 0.40 4745 0.66 39
8 Portugal 19.67 47 0.44 1749 0.71 41
9 China 23.50 2889 0.22 33395 0.33 101
10 Tajikistan 24.17 27 0.35 262 1.77 127
(Source: NSDS, 2012)
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Reasons for Pakistan’s vulnerability to climate change as mentioned in NSDS (2012)
include:
“Its geographical location, elevation as well as demographics.
Pakistan lies on a steep incline, dropping sharply from
almost 8500 meters down to sea level within a distance of
less than 3000 km. This situation is augmented by the
presence of huge glacial reserves in the north of the country,
which melt and flow through the country, supplying more
than 70% of the river flows. This frozen “blue gold” is the
country’s most precious reserve and sustains the agro based
economy aided by the unpredictable monsoon rains of the
summer. The glacial melt and the monsoons overlap in a
three-month summer period providing the irrigation water
needed for the arid country but, ironically, also dangerously
raising the risk of flash floods in the rivers. The dense
population base, of more than 176 million, that resides along
these flood plains is, subsequently, directly impacted and
reinforces the country’s vulnerability”.
The National Climate Change Policy (2012) highlights impacts of the climate change,
terming its vulnerability in terms of water, food and energy security raising its “survival
concerns”. These projected impacts are reproduced for their significance to be part of the
National Climate Change Policy (2012) and tabled below by the researcher.
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Table 8 Projected Impacts of Climate Change (NCCP, 2012)
NO PROJECTED IMPACTS
1 Considerable increase in the frequency and intensity of extreme weather
events, coupled with erratic monsoon rains causing frequent and intense
floods and droughts
2 Projected recession of the Hindu Kush-Karakoram-Himalayan (HKH) glaciers
due to global warming and carbon soot deposits from trans-boundary
pollution sources, threatening water inflows into the Indus River System (IRS);
3 Increased siltation of major dams caused by more frequent and intense
floods;
4 Rising temperatures resulting in enhanced heat and water-stressed
conditions, particularly in arid and semi-arid regions, leading to reduced
agricultural productivity;
5 Further decrease in the already scanty forest cover, from too rapid change in
climatic conditions to allow natural migration of adversely affected plant
species;
6 Increased intrusion of saline water in the Indus delta, adversely affecting
coastal agriculture, mangroves and the breeding grounds of fish;
7 Threat to coastal areas due to projected sea level rise and increased cyclonic
activity due to higher sea surface temperatures;
8 Increased stress between upper riparian and lower riparian regions in relation
to sharing of water resources;
9 Increased health risks and climate change induced migration.
Source: NCCP (2012)
NSDS (2012) acknowledges all the impending threats working as a threat maximizer with its
calamitous social, economic and political impacts. The “most serious and viable” of these
disastrous effects are the rising events of extreme events: floods, droughts, cyclones and heat
waves. Pakistan bearing brunt of these effects is found to experience nine of ten climate
triggered disasters in the last 40 years (NSDS, 2012). These impacts are witnessed in the
form of extreme events in Pakistan in the twenty-first century. These extreme erratic weather
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patterns and their disastrous impacts have placed Pakistan among the three highest ranked
countries in the risk index 2015 ((Kreft, Eckstein, Junghans, Keresten & Hagen, 2014).
Pakistan frequently witnessed intense and unpredictable weather patterns ranging from
droughts in 1998-2001, mighty rains in 2001, forceful heat wave of 52°C, heavy rains and
floods with losses in human life and infrastructure in 2003, flash floods because of glacier
melting and heavy rains in 2005 and again in 2006, leaving 185 people dead (M.A. Khan,
2015). The frequency and intensity of the unpredictable weather continued in the form of
cyclones in Makran Coast and a record heat wave in 2007, heaviest rainfall in Karachi in
2009, and the unprecedented historical floods from extended heavy rainfall in 2010 that
inundated 20% of the land. Floods in 2012 and 2013 also resulted in huge damages,
destroying crops and leaving many homeless (M.A.Khan, 2015). These catastrophic climate
variations are listed in a table with details of their impacts in a table by M.A. Khan (2015)
that is reproduce in the Annexure.
Based on a research study, National Economic and Environmental Development Study
(NEEDS, 2011), NSDS (2012) declares climate threat posing huge economic costs and a
threat to sustainable development. A most recent report formulated by United Nations
Development Program in assistance with government of Pakistan reaffirms the same
findings. The report titled, “Pakistan – climate public expenditure and institutional review
(CPEIR)” (2015) reiterates Pakistan’s vulnerability to extreme weather conditions in the
following words:
“Pakistan’s extreme vulnerability from CC is understandable
owing to its geographic, demographic and diverse climatic
conditions. Of particular concern are the CC threats to water,
energy and food security due to the inherent arid climate
coupled with the high degree of reliance on water from
glacial snowmelt. Its impacts are being felt through
increasing intensity and frequency of extreme climatic
disastrous events”.
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CPEIR (2015) further mentions that “Pakistan was ranked number three in the 2012
assessment of the Global Climate Risk Index 2014 with over 6 billion USD-PPP losses due
to CC[climate change]” (CPEIR, 2015). Gifted with a rich reservoir of frozen glaciers that
serves as blood to its vital single-based agricultural economic structure—“one river
economy”—Pakistan is evidently vulnerable to the erratic unpredictable changes of its
indispensable water cycle because of climate change. Rapid melting of these glaciers owing
to global warming combined with capricious monsoon rains is understood a reason for flash
floods that are taking its toll on its huge population and unplanned urbanization. The detailed
description of the climate vulnerability signifies multiple correlated factors.
However, focused assessment of impacts and proposed countering strategies can be seen in
Pakistan National Climate Change Policy, 2012 (Chaudhry,n.d). It declares climate change as
a “complex and interdependent” problem, dangerous and difficult; however, pragmatically
and optimistically considering it controllable with comprehensive collaboration of
individuals, firms and governments. Enhancing Pakistan’s adaptive capability and countering
climate change implications without compromising on its economic development is the main
objective of the policy (Yusuf, 2011). Projecting 30% reduced crop yields and 12-20%
freshwater availability by 2050 in South Asia to climate change, Pakistan existing climate
variations are stressed, considering its vulnerabilities, in the state’s policy. Current observed
climate variations like rise in mean temperature by 0.6-1.0°C, 10-15% rainfall decrease in
coastal belt and arid plains while 18-32 of its increase in monsoon zone, 5% decrease in
relative humidity, and 0.5-0.7% increase in solar radiation in half of the South in the country
are reported. This erratic intensity of climate could further aggravate increasing frequency
and intensity of extreme weather events, floods and drought, and glacial recession limiting
water ratio in Indus river system. Dr. Qamar uz Zaman Chaudary, key author of the policy,
states that rising extreme weather events in the last two decades of Pakistan like floods and
droughts are adverse effects and evident signs of climate change. Floods in 2010, leaving
2,000 dead and 20 million populations displaced, left us with almost paralyzed state’s
machinery (Yusuf, 2011). Based on such evidences, National climate change policy terms
climate change possessing ominous potential to compromise Pakistan’s national, water, food
and energy security.
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Insensitivity to environment termed “failure of conscience” is considered main reason for
2010 floods in Pakistan by Cedar (2010). According to UN report 2000 as mentioned by
Adeel and Piracha (2004), Pakistan loses 55,000 hectors to deforestation every year and is
declared having low water availability. Country’s forests occupy paramount position among
various bulwarks against impacts of climate change like floods. However, ‘timber mafia’
aggressively corroded this defence cover from 14% to its current 5.2 % (Cedar, 2010). The
Intergovernmental Panel on Climate Change (IPCC) in its 2001 and 2007 reports has clearly
mentioned that Himalayan region and Pakistan would see extreme weather events due to
climate change (Habib & Nawaz, 2010). Attributing nine out of ten natural disasters of the
last 40 years to climate variations, Malik Amin Aslam, former Minister of State for
Environment, warns that climate change could annually cost Pakistan’s economy
$14billion(R.S.Khan,2013). This is far greater in amount to the $01 billion annual cost
associated with terrorism (M.S.Khan, 2016). In presence of these vulnerabilities mentioned
in the national climate change policy, climate change potential of redefining national security
of Pakistan will be further explored.
6.4.1 Water Scarcity, Food Insecurity and Forced Migration
Water is lifeline for states whose economy is based on hydro power. Pakistan’s economy is
disproportionately based on agriculture constituting 25% of its GDP, 2/3rd of its
employment, 80% of its export, and also consuming major share of its water resources
(Markey, 2011). Negative impacts of much feared water insufficiency as climate changes
worsen would further aggravate the related availability of food and energy. With 240mm of
annual rainfall, and mere 24% of arable land, excessively populated Pakistan would become
mostly arid without its irrigation system that is precariously dependent on Indus water
(Lieven, 2011). By 2030 a projected 30% shortfall in water demands would be a catastrophic
blow to Pakistan’s economy reducing its agriculture yields, leading to unemployment, energy
crises, forced migration and increased urbanization in presence of its massive population of
240 million (Markey, 2011). In consequence of this huge population ratio, Lieven (2011)
mentions a projected water scarcity of 338 billion cubic meters (bcm) demand, which would
be a 100 bcm shortfall in presence of current 236bcm, unless revolutionary measures are
taken for water conservation and regulation.
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Water, in a critical romantic binding with food and energy, is Pakistan’s lifeline and major
concern. Pakistan’s insecurity of food and energy would become more intense in case of
limited water availability. Pakistan divided into three hydrological units—the Indus basin,
the Kahran basin and Makran coastal basin—however, the last two are closed and arid basin
respectively (Salik, Ishfaq, Saeed, Noel, & Syed, 2015). This makes the Indus River
dominating Pakistan’s surface water hydrology. Reduced water would undermine Indus river
system (IRS), the backbone to Pakistan’s irrigation, affecting yields and revenue from crops
like wheat, cotton and sugar (Raza, n.d). Production of rice would embrace the same dismal
fate as the crop demands for huge quantity of water could not be actualized. In addition,
rising temperature would not only lessen duration of wheat growing season but also make
arid and semi-arid areas with 90% of its current cultivation less favorable for its growth
(Sayed,n.d). Sayed equally underlines dismal energy insecurity in presence of acute demand
of 162,000 megawatts by the year 2030. Environmental stresses like food scarcity would
predominantly force migration and sporadic riots as witnessed in Ethiopia, Indonesia,
Mexico, Philippines, and Senegal while leading to government overthrow in Haiti (Brown,
2011). Food riots, road blocks and torching public properties due to unavailability and higher
prices of food and energy shortfall have become characteristic features of Pakistan’s agitation
politics.
Environmental refugees, forces dislocation because of food and energy crises, could become
a source of conflict (Martin, 2005). Internal Displacement Monitoring Centre (IDMC) in its
2012 report on Pakistan’s displaced people declares that 14 million people were rooted out of
their habitat as a result of 2010 and 2011 floods. Similarly water scarcity could turn
flourished cities like Quetta, capital of Baluchistan, uninhabitable and dead triggering
massive refugees (Brown, 2011). These desperate environmental refugees in their new
environment would seek political control and social recognition, resulting in new alignment,
ethnic configuration, and most significantly prove economic strain with fresh demands of
infrastructure and employment in urban communities (Viotti & Kauppi, 2007).
Migration is not easily accepted in situations where host community considers migrants a
threat to resources or to their social and political leverage. Recent influx of flood affected
Sindhi population from rural Sindh to Muhajir (Urdu speaking) dominated metropolitan
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Karachi was objected by the later (Wright, 2010).Similarly, earlier interstate migrations for
their economic and political influences have erupted into war in the region. India justifies
1971 war with Pakistan because of massive influx of refugees from the East Pakistan (Viotti
& Kauppi, 2007). In sum, water insecurity leading to energy and food insecurity or other
environmental constraints like floods and droughts could frustrate living conditions and
result in forced migration, further complicating socio-political and economic conditions.
6.4.2 Limited Water: Intensification of Interstate and Intrastate Conflicts
Resort to war and violence is often observed among states and within a state for non-
renewable resources like oil and minerals; however, shared freshwater resources, unlike other
renewable sources, are a major reason of conflict (Viotti & Kauppi, 2007). Gleick (1993)
considers water use and water-systems as weapon pursued to empower state and used as
instruments of war. Freshwater resources, fundamental to existence, are irreplaceable and
inequitably distributed, making them strategic objectives for a state. States lying upstream
could pollute, divert and limit water share or overflow it through the use of dam, turning
water into a weapon (Viotti & Kauppi, 2007). Water use and water system are a source of
conflict among various states (Gleick, 1993). North Korea’s effort to build kumgansam dam
on Hans River, upstream South Koreas’ capital, was resisted and responded by various dams
and levees. Syrian Al-Thawra dam was threatened with destruction by Iraq because of the
latter’s concern for limited water supply of Euphrates River. Turkey’s Ataturk dam is a
contentious dispute among Syria, Iraq and Turkey. These examples explain how water use
and water system can lead to conflict among states (Gleick, 1993).
Water, it’s sharing and resources, is a major source of internal rifts and regional disputes in
South Asia. Water sharing is an unresolved problem of India-Pakistan as well as India and
Bangladesh; the three largest and most populous countries of the region. Water sharing
occupies major part of Pakistan’s inveterate Kashmir dispute as Kashmir possesses important
water resources, crucial to Pakistan’s agriculture (Diehl et.al, 2005). There is a mutual fear of
each other’s water system. Pakistan has strong reservation on India’s Tulbal navigation
project called Wular Barrage in Pakistan, Kishenganga dam and Baglihar dam (Swain, 2004).
Similarly, India has objected to Pakistan’s Diamar-Bhasha dam (Ray, 2008). Water systems
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lacking mutual consensus and accord of the contending states, if not leading to war, could
certainly result in an exacting and troubled peace with huge drain on economies of both
states. Water sharing is not just an interstate problem; it is also an intra-state issue between
Sind and Punjab in Pakistan, and Haryana, Punjab and Rajasthan in India (Swain, 2004).
Punjab as the largest province of Pakistan is termed usurper when it comes to allocation of
water among the four provinces. This trust deficit is thwarting all concrete efforts for
indispensably needed large dams for water storage and energy needs. Climate change
affecting future water availability could make water sharing and its systems a conflict that
could culminate into limited war between states or serious crises of authority with in a state,
specifically in absence of democratic representative government as mentioned by Swain
(2004). In conclusion, South Asian states seem heading towards politics of water grabbing
rather than sharing, and Pakistan is perilously limited in its choices.
6.4.3 Threatened Coastlines and Volcanic Karachi
Another destabilizing climate effect, attributed to rising sea level, is Pakistan’s endangered
coastline. Pakistan’s coastal city Karachi with 20% of the total GDP ratio, largest stock
exchange, and conduit to 95% of the international trade, is highly significant (Markey, 2011).
As the largest city of Pakistan and home to 17million multiethnic population, Karachi is
extremely volatile and violence ridden with an estimated loss of 5,549 lives from the year
2003 to 2011, because of turf war among various ethno-religious groups with viable political
support (Nafees, 2012). Because of a systemic ethnic and sectarian violence, it is declared by
Fair (2004) as one of the most significant urban battlefield of South Asia. Karachi at unrest
tantamount to destabilized Pakistan is an axiom self-evident from the one day financial loss
of $161.8million as a result of riots in wake of Benazir Bhutto’s death (Markey, 2011).
Markey highlights climate change implications for Karachi as rising sea level with increased
salinity, reduced arable lands, and enhanced number of storms and cyclones. This would
significantly undermine Karachi resources, limit opportunities for its inhabitants and lead to
intense and violent struggle, specifically in terms of real estate control. Lieven (2011)
dismally concludes that rising sea level in Karachi on one hand and water scarce “thirsty
Sind” on the other could make life impossible in Sind in the long run.
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Climate variations could change ethnic composition and political map of Karachi because of
forced migrants coupled with constrained living standards in the city. Power dynamics in
relationship with ethnic configuration of Pakistan’s largest city is evident from the almost
turned ratio of Muhajirs from 6% in comparison to 60% Sindihi in 1941(Nafees, 2012). This
resulted in making Mutahida Qaumi Movement (MQM) with Muhajir support base as the
leading political party of the city. Political leverage deriving its legitimacy from ethnic fault
lines is guarded, and influx of refugees for fear of upsetting power distribution is not
welcomed. As Wright (2010) points out MQM’s reservation regarding flood refugees from
rural Sind, Pashtun migrants as a result of military operation in Swat and South Waziristan
was also questioned by it. Climate change induced migration, either because of resource
scarcity or environmental hazards, is feared to upset existing socio-political landscape,
enhancing ethnic rifts and organized crime in the city. Karachi occupies pivotal position
because of its economic and strategic significance and metropolitan character.
Destabilization in Karachi could seriously undermine social, economic and political fabric of
Pakistan.
6.4.4 Weak State, Strong Societies and Geostrategic Implications
Weak states having ineffective writ are considered liability for world’s peace in today’s
world. Brown (2011) highlights characteristics of failing states as inability to maintain law
and order and provide personal security, burgeoning population, food insecurity, and
deteriorated economic infrastructure that preys upon natural environmental resources.
Pakistan, despite nuclear power, is placed at 10th position in the list of failing states. Failed if
not, then external threats coupled with multiple internal maladies like weak institutions
fraught with corruption, inefficiency, reactive political culture and corroding legitimacy have
made Pakistan what Lambrecht (n.d.) termed ‘weak state’. Weak states lack capability to
comprehensively counter challenges as complex as climate change. A state requires proactive
and effective strategy and mechanisms to control adverse impacts of climate change.
Weakness and incapability of effective response of state institutions is observed and
underlined in all natural disasters and accidents like Earthquake, floods and recent airline
crashes. Lembrecht observes emergence of strong societies to fill the void where weak states
are unable to secure people’s needs and interests. These strong societies, often inimical, in
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the form of secessionist movements, radical militant organizations, or strong criminal groups
as existing in Pakistan are extreme forms of what Viotti and Kauppi (2007) term crises of
authority.
The contending struggle of state and societies for control of authority seems more favorable
to the latter in presence of wide economic and power disparities in a state corroding state’s
legitimacy and authority. Rising relative poverty in the country is underlined by Sustainable
Development Policy Institute (SDPI) in its report on ‘Food insecurity in Pakistan, 2009’.
Glaring difference of ‘have’ and ‘have-nots’ with 22 % of elites owning 85% while rest of
the 78% people possessing 15% of farmland shows prevalent dismal economic exploitation
in Pakistan. Pakistan’s government substantial engagement in what Almond et al (2004) term
‘rent seeking’, benefits obtained for oneself through the use of government, has been
exploited by contending strong societies. Elites’ manipulation of state and market, as Hussain
(1999) mentions, give rise to disillusionment and detachment capitalized on by actors
unfriendly to state and its policies. Extremist radical organizations with their successful
access to affected areas and people have turned disasters into opportunity for recruitment in
the past (Vaughan et al, 2010). They seem successfully filling the void of authority,
legitimacy and effective response created by weak state. Climate changes with projected
extreme events, natural disasters and observed ineffective responding of state’s institutions
could provide ample opportunities to extremists unfriendly non-state actors for spreading
their influence and enhancing their capacity to destabilize international peace.
Climate change would have geostrategic implications for the whole region. Vaughan et al
(2010) draws attention to the fact that the eroding authority and legitimacy of Pakistan would
accelerate in the wake of climate change acting as a ‘threat multiplier’ with rising number of
‘ungoverned areas’. These inaccessible areas, not subject to state’s writ, are believed to breed
and promote anti-western targeted terrorism with serious implications to US security.
Similarly, improper handling of the water sharing dispute, aggravated because of climate
induced water scarcity, could possibly result in low-intensity war upsetting the US desired
power balance in the region. India’s apprehensions are voiced by Pai (2008). Fear of
Pakistan’s implosion because of climate change limiting living conditions and heightened
water conflict among provinces is underlined. India is warned of environmental refugees,
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effects of unrest in resource scarce Baluchistan, and Pakistan’s aggressive efforts to gain a
strategic edge to secure a desired settlement of water dispute. Climate change restraining life,
limiting opportunities and wrecking institutions are having serious security implications,
significantly for developing states, even beyond their borders. As Mostapha Zaher,
Afghanistan Minster of Environment, states that climate change could lead to such
desperation that people could refuse to be confined by any political and administrative
boundaries (Climate change and vulnerability challenges in Pakistan,n.d).
In sum, Climate change has much potential of compromising Pakistan’s security. Water
scarcity would result in food and energy insecurity that could further disrupt social cohesion
and weaken state institutions. A weak Pakistan at war with strong societies is understood to
become a regional and international liability. Lieven (2011) believes in Pakistan’s resilience
and survival. However, if Markey (2011) thinks of climate change becoming that “proverbial
straw” that could break Pakistan’s back; Lieven (2011) singles it out as the only potent
glaring menace to its existence in presence of all external and internal threats. Climate
change, if taken as a security threat or a threat multiplier, amounts to its handling on priority
basis, considering it an imminent threat to existence. This response level is seriously lacking
in Pakistan. With least public awareness, conspicuous absence in manifesto of political
parties and lacking comprehensive action plan, despite presence of a policy, evidently reveals
that climate change is not prioritized as a threat.
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CHAPTER 7
PAKISTAN’S POLICY RESPONSE: CLIMATE RESILIENT
DEVELOPMENT, A SUSTAIANABLE DEVELOPMENT
In the previous chapter, a conclusion is drawn that climate change is a security threat
multiplier that would further aggravate the existing socio-economic and political problems in
the fragile states. Lt Gen Tariq Waseem Ghazi of the Global Military Advisory Council on
Climate Change (GMACC), a global network of serving and retired military officers to
highlight potential security implications of a changing climate, contends that 70% of the
world states acknowledge climate change as a security threat (R.S. Khan, 2015).It is worth
bearing in mind that climate change with its negative life constraining impacts could
undermine Pakistan’s existence or to the minimum critically compromise its governance
system—aggravating its socio-political problems with its inadequate adaptive capacity
(Lieven, 2011; Nazar, 2016). It ranks 10th among the most fragile states in light of the 2014’s
global index of such states (R.S. Khan, 2015). Climate change occupies a significant place
among Pakistan’s problems and is recognized a “core component” of Pakistan’s economic
growth model, growth with reduced poverty and improved human conditions (Pakistan
public climate expenditure and institutional review, CPEIR, 2015). Climate change is, hence,
understandably incorporated in all major national economic policies: Framework for
Economic Growth (FEG), 2011, Vision 2025 and the related Medium-Term Development
Plan (2010-2015). Presence of climate change in different policy frames evinces enormity of
the issue and emphasizes an inclusive cross-sectorial response with stakeholders from the
federal to local and public to private. However, despite growing understanding that climate
change is an issue of national security, the urgency and commitment that requires handling a
securitized issue is still largely missing for climate change in Pakistan’s decision making
structures. Translating policy directives into clear specific measurable actions is lukewarm
and has become more constrained because of the incongruity among the concerned
departments since 18th amendment to the constitution.
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Pakistan ratified the Paris agreement on November 10, 2016, committing to its end goal of
keeping the earth temperature below 2°C (Pakistan ratifies Paris climate agreement, 2016).
This chapter, therefore, explores Pakistan’s policy response for sustainable development in
the context of climate change, relying on notable policy documents like National Climate
Change Policy (NCCP, 2012), Framework for Implementation of Climate Change (2013),
Pakistan’s National Sustainable Development Strategy (NSDS, 2012) and the INDC
submitted on 6th November, 2016. INDC is a mirror to state’s limitations, challenges and
prospective policy objectives that are transformed to Nationally Determined Contributions.
The submitted INDC is largely deriving its subject matter from the mentioned policy
documents. However, the INDC is more direct and clear in Pakistan policy line. Pakistan
aims to be among the top 25 economies by 2025 as envisioned in the Vision, 2025. Economic
growth is a priority; however, it seeks international support in achieving a climate friendly
sustainable development. The NCCP (2012) termed an “overarching framework” (CPEIR,
2015) highlights adverse impacts of climate change and required measures for addressing. It
is a fundamental policy document with a focused goal and specified objectives. The
Framework for Implementation (2013) further delineates impacts of climate change on
different sectors and proposes respective measures regarding adaptation and mitigation. From
these two documents, the issue of climate change outreach and is incorporated into various
national policy documents. However, despite presence of existing imperative policies and
structures like climate change ministry, climate change policy, an implementation
framework, climate change requires a “proactive” approach in presence of the impending
threats (Why Pakistan Needs a Climate Change Financing Framework? n.d.). Climate change
with its far-reaching impacts essentially demands its mainstreaming in sectorial policy
making, primarily in the energy, water and agriculture sector—the most vulnerable ones.
The NCCP (2012) and the Implementation Framework (2013) provide measures regarding
how to counter climate change impacts; while, the National Sustainable Development
Strategy (2012) in terms of climate change is essentially focused on maintaining consistent
economic growth in the climate driven age of consequences. The NSDS (2012) is outlined
with an objective to “evolve a just and harmonious society in the country through promotion
of a vibrant and equitable economic growth without overexploitation of natural resources
with fair distribution of development dividends to all; in particular to the marginalized, poor
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and vulnerable in the society and to future generations”. The highlighted objective of the
NSDS (2012) combines in itself both inter-generational and intra-generational equity. Inter-
generational equity emphasizes considering needs of future generations by present one in
exploiting natural resources; while, intra-generational equity signifies bridging gulf of
resource scarcity between rich and poor of the present generation (Baker, 2006). The NSDS,
2012 encompasses various areas that contribute to economic growth or could arrest growth if
left unattended along with prospective promising measures for higher achievements. The
ambit of the NSDS (2012) involves economic, social and environmental concerns with a
separate chapter on climate change terming it an “emerging issue”.
National Climate Change Policy (NCCP) is the significant milestone for actualizing
Pakistan’s sound environmental health and development goals (NCCP, 2012). Its goal is “To
ensure that climate change is mainstreamed in the economically and socially vulnerable
sectors of the economy and to steer Pakistan towards climate resilient development”. Apart
from this ideal, NCCP lays out ten objectives that are reproduced below in the form of a
table:
Table 9 Ten Objectives of the NCCP (2012)
1 To pursue sustained economic growth by appropriately addressing the challenges of climate change
2 To integrate climate change policy with other inter-related national policies;3 To focus on pro-poor gender sensitive adaptation while also promoting mitigation to the
extent possible in a cost-effective manner;
4 To ensure water security, food security and energy security of the country in the face of the challenges posed by climate change;
5 To minimize the risks arising from the expected increase in frequency and intensity of extreme weather events such as floods, droughts and tropical storms;
6 To strengthen inter-ministerial decision making and coordination mechanisms on climate change;
7 To facilitate effective use of the opportunities, particularly financial, available both nationally and internationally;
8 To foster the development of appropriate economic incentives to encourage public and private sector investment in adaptation measures;
9 To enhance the awareness, skill and institutional capacity of relevant stakeholders;
10 To promote conservation of natural resources and long term sustainability.
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Source: NCCP (2012).
Understanding Pakistan’s response for sustainable development in the climate change context
requires assessing essence of climate resilient development, the vital goal of NCCP (2012) in
relationship with sustainable development. The insight derived from the understanding of
these two and their relationship will help us evaluate efforts for sustainable development in
light of the mentioned policy provisions.
7.1 SUSTAINABLE DEVELOPMENT THROUGH CLIMATE RESILIENT
DEVELOPMENT: GOAL OF NATIONAL CLIMATE CHANGE POLICY
Sustainable development as defined earlier signifies realizing prosperous social, economic
and ecological systems, for the three are inextricably linked. Ecosystem provides services
like clean air and water, food and fuel that secures man’s survival and prosperity. Man’s
excessive unwise exploitation of natural resources undermine availability of these ecosystem
services with adverse implications for human life. Such negative consequences, scarcity or
unavailability of sound ecosystem services represent “loss of resilience” (Folke et al., 2002).
Resilience, thus, is used as a frame here to delimit the extended parameters of the sustainable
development that encompasses seventeen (17) development goals with climate action as one
of them (Sustainable development goals 2015-2030, 2016). Ensuring continued supply of
ecosystem services in the impending climate threats without compromising on economic
development is climate resilient development—Pakistan’s National Climate Change Policy
goal. This makes resilience a bedrock of sustainable development.
The concept of sustainable development was evolved to accommodate developing states’
concern to resist any attempt of inhibiting their right to development on the grounds of sound
global environment (Schoenbaum, 2006). Sustainable development, a conceptual effort to
bring right to development in symbiotic relationship with environmental concerns, is
acknowledged in all key international environmental understandings: Climate change
convention and Kyoto Protocol—Clean Development Mechanism (CDM) (Rogers, Jalal, &
Boyd, 2008). Climate resilient development, likewise, characterizes development pathways
that combine adaptation and mitigation with effective institutions to materialize sustainable
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development (Denton et al., 2014). It involves strategies and actions to reduce climate
changes and its impacts, effective adaptation and risk management against climate disasters.
Brown (2016) contends resilience to be of “fundamental importance to conceptualizing and
effecting sustainable development”. Termed new approach to sustainable development—
characteristically “iterative continually evolving processes for managing change”—resilience
takes in to account the complex interaction between climate, social and ecological
development (Denton et al., 2014). The link of sustainable development and resilience is
further strengthened in a high level panel report titled, ‘Resilient People, Resilient Planet: A
Future worth Choosing’ (2012). It defines sustainable development in terms of resilience—
for resilience is “at the very heart of sustainability”. Brown (2016) relates resilience and
sustainable development chiefly for both are contested ideas, malleable, relying on technical
solutions while downplaying the social and political ones, and foster “business as usual”
frames.
Climate change, a “super wicked problem” because of its intricate multilayered complexity
and adverse impacts, evaluation through the novel concept of resilience enables an inclusive
understanding of the issue from local to the global (Vasseur & Jones, 2015). Ranging from a
response to address disruptions from risk and shock to transformative measures that enhance
adaptive capacity, resilience is quintessentially centered on maintaining capacity to withstand
disturbance. The adaptive capacity that resilience seeks vitally demands ability to change or
transform in order to adjust to the impending risks. Resilience in its essence is equated with
adaptation against adverse climate impacts, for it seeks maintaining equanimity against risk,
shock and disruptions. In terms of risk reduction, climate resilient pathways are focused on
one defining variable: vulnerability (Denton et al., 2014). In this regards, it involves actions
to reduce vulnerability in the context of development needs and resources; build capacity for
vulnerability reduction and coping with unexpected threats; monitor vulnerability reduction
efforts; and consistent revision of such responses based on learned experiences for further
improvement. The concept of resilience is having a much wider socio-ecological frame as it
incorporates the process of mitigation as mentioned by Brown (2016) and Denton et al.,
2014).
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The concept of resilience, Brown (2016) highlights, has three main dimensions: capacity to
“bounce back” after disaster, adaptation to variability and uncertainty and the required
positive structural transformation. This concept, however, to Brown, is not without social
differentiation and dispute. Assessing climate resilient development, with sustainable
development at its root, relies on multiple complex concepts: mitigation to keep climate
change moderate; adaptation, a response strategy to anticipate and cope with climate change
impacts unavoidable or not avoided for some reasons; and capacity for effective measures to
materialize risk management. The same relationship is drawn in the context of climate
change between climate change and sustainable development (Rogers, Jalal, & Boyd, 2008).
In a word, Denton et al (2014) and Brown (2016) largely concur and categorize climate
resilient development into two major actions frames:
“• Actions to reduce human-induced climate change and its
impacts, including both mitigation and adaptation toward
achieving sustainable development
• Actions to ensure that effective institutions, strategies, and
choices for risk management will be identified,
implemented, and sustained as an integrated part of
achieving sustainable development.”
At its core, the concept resilience is centered on three characteristics: resilience as capacity,
as a process and an outcome. The Rockefeller Foundation (2013) extended elaboration duly
cited by Brown (2016) worth quoting, for it comprehensively encompasses the mentioned
dimensions of the resilience:
“We define resilience as the capacity of individuals, communities, and systems to survive, adapt, and grow in the face of stress and shocks, and even transform when conditions require it. Building resilience is about making people, communities, and systems better prepared to withstand catastrophic events – both natural and manmade – and able to bounce back more
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quickly and emerge stronger from these shocks and stresses.”
This comprehensive definition extends the parameters of involved stakeholders in actualizing effective resilience. From a larger system like state to local communities and individuals, it is required to enhance capacity against disasters and crises at each level. Apart from the capacity to cope with shocks and stresses, the threatened system should reinvent itself on a more sound and established footings. Brown (2016) like Denton et al (2014) signifies the three key components of the Rockefeller Foundation definition: ability to cope with disasters, capacity to recover from them, and equally important but vitally neglected third factor is the capacity of transformation—“radically change in order to take advantage of the new opportunities and new possibilities”. The Rockefeller
Foundation definition with its inclusive character signifies, mentioned by Martin-Breen and
Anderies (2011) in their evaluation of literature on resilience, the inherent demands of
resilience which “requires a multi-faceted, interdisciplinary strategy”. Brown (2016)
simplifies that resilience constitute not only a response to change or shocks but effective
“proactive adaptation and anticipatory action”—“building capacity to deal with and to shape
change”. A noteworthy conclusion drawn from Denton et al., (2014) study is that climate
changes measures—adaptation and mitigation—and sustainable development actions require
to compliment and contribute successfully to each other as each has the potential to
counteract the other.
Climate resilient pathways “generally” demand transformation—innovative systemic
responses to materialize sustainable development—that would “challenge some of the
assumptions that underlie business-as-usual approaches” or incremental approaches (Denton
et al., 2014). The two are distinguished: transformational adaptation require changing the
nature, composition or location of the threatened system; while, incremental or business as
usual adaptation approach address immediate and anticipated threats based on existing
practices, approaches and technologies. Climate change is an acknowledged threat to
sustainable development in absence of a comprehensive climate resilience measures:
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mitigation to moderate extreme climate condition and adaptation, building capacity to reduce
impacts of the remaining abrupt climate changes (Denton et al., 2014). Transformation of the
means, measures, and attitudes that undermine sound climate conditions and social security is
pivotal. The essence of climate resilient development is a two-fold objective: resilience and
sustainable development. Resilient, according to IPCC (2012) as mentioned in Denton et al
(2014), is “a system’s ability to anticipate, reduce, accommodate, and recover from
disruptions in a timely, efficient, and fair manner”. Sustainable development, simplified, is
“development that meets the needs of the present without compromising the ability of future
generations to meet their own needs”. These two interrelated and interdependent concepts
require synchronizing their proposed policies and measures for the desired goal of climate
resilient development. Seeking human well-being and its sustainable relationship with
constrained physical environment demands “reconciling trade-offs among economic,
environmental, and other social goals through institutional approaches that are equitable and
participative” (Denton et al., 2014). These characteristics highlight that for realizing climate
resilient development, a coordinated comprehensive approach is required that could bring
different dimensions of development in coherence and involve different stakeholders on an
equal footing. Participation on equal footing incentivizes development process. Most
significantly, climate resilient development is an evolutionary process that would grow its
potential to thwart disruptions and promote sustainable development with continued learning
experience.
Carbon intensive development, or as Baker (2006) puts it traditional western development
model, is not only aggressively contributing to adverse climate changes but largely
“inconsistent” with the aims of sustainable development like poverty reduction, food and
livelihood security and improved human health. Bringing sustainable development and
climate resilient requires adopting consumption patterns that enrich socio-economic
development with reduced use of natural resources and continued ecosystem services—thus,
possibly less emission and retained sound environmental adaptive capacity. Pursuing
consumption dynamics that would materialize socio-economic development without
compromising sustainability of natural resources and ecological services would require a
differentiation between human well-being and material consumption. The latter not
necessarily results in the former.
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Development policy and climate change resilience measures are interlinked in multiple ways.
Repercussion of climate changes if not evaluated and incorporated in the development policy
would undermine development measures. Christiana Figueres, executive secretary of the
U.N. Framework Convention on Climate Change, drawing a link between climate change,
sustainable development, and disaster relief emphasizes that the three are “all one and the
same” (UNFCCC Interview, 2015). Sustained development and effective poverty alleviation
are impossible to materialize in presence of catastrophic natural disasters that could wipe out
entire provinces and dislocates millions, she emphatically highlights. Equally significant,
climate change mitigation reduces extreme climate; whereas, adaptation enhances potential
to adjust to the remaining changes—actualizing a sound development. Another factor that
establishes cross-cutting link of development policies with climate mitigation or adaptation is
a reinforcing understanding that vulnerability determinants to adverse and abrupt climate
changes and developing an effective response strategy for them are shaped by development
processes. People and states with limited resources and financial constraints and political
disruptions could witness aggravation of these problems as unaddressed climate changes will
serve as threat multiplier. Climate change as a threat multiplier is discussed in detail the
previous chapter. Therefore, development policy requires framing socio-economic
constraints of the vulnerable areas as determinants of vulnerability in addition to abrupt often
negative climate changes. Another notable reason to bind climate resilience with sustainable
development is the fact that many climate drivers—significantly energy production and
consumption—and measure to mitigate them almost grow of the same roots. In light of this
reciprocal beneficial relationship, Denton et al (2014) contend that prioritizing sustainable
development in policy framing would better serve climate change mitigation and adaptation.
Moreover, integrated approach towards climate change mitigation and adaptation,
contributing purposefully towards each other desired goals would ensure realizing
sustainable development.
For climate resilient development to materialize, it is quintessential to address developmental
structural deficits that enhance vulnerability and limit adaptation capacity of the marginalized
sections of society in general (Denton et al., 2014). Understanding structural inequalities and
its solutions have broadened the conception of poverty, including its relational aspects with
socio-political determinants like political empowerment, participation and dignity of the
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individual (Olsson et al., 2014). Equally important is the concept of livelihood. “Understood
as the ensemble or opportunity set of capabilities, assets, and activities that are required to
make a living”, livelihoods “depends on access to natural, human, physical, financial, social,
and cultural capital (assets); the social relations people draw on to combine, transform, and
expand their assets; and the ways people deploy and enhance their capabilities to act and
make lives meaningful” (Olsson et al., 2014). Potentially evolving to changing environment,
a successful livelihood is characterized as one that “transforms assets into income, dignity,
and agency, to improve living conditions, a prerequisite for poverty alleviation”. With the
realization that climate changes are more detrimental to the less privileged of human
population, successful realization of climate resilient development requires broadening
decision making process with extended participation—“deliberative democracy”. Involving
different stakeholders, their values, concerns and perception would raise “ethical impacts”
essential for generating consensus and urgent climate actions.
7.1.1 A Resilience Lens and Climate Change Sustainable Adaptation
“Resilience perspective provides new insights for knowledge and policy, and supports more
transformative responses to environmental change (Brown, 2016).”It has not only become a
core to sustainable development, but a lens that has shifted focus of climate change
adaptation from removing vulnerability to enhancing adaptive capacity. Vulnerability in light
of the resilience frame is always part of the system (Nelson et al., 2007), and the objective of
adaptation should be to remove sources of vulnerability, determine its acceptable standard,
and build effective response against risks and shocks. Three factors determine essence of
these responses, whether short term coping or long term sustainability (Brown, 2016). In the
first place, it is important to understand how the problem is framed, then assess institutional
structure of response mechanism and finally the feedback and their incorporation into
actions. The last one is understood significant, for feedbacks result in further specification
and enhanced comprehensive social learning of the issue (Brown, 2016). Comprehensive and
inclusive approach towards a multi-layered issue of climate change yield prospectively
efficient and productive outcomes in contrast to narrowly framed problems.
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Brown (2016) contends that climate change adaptation has become the “core issue” of
international development. Development agencies from world financial institutions to NGOs
recognize its significance in a world threatened with disasters. Creation of Climate Change
Adaptation Fund, a worthy evidence of the world growing understanding and awareness for
combined efforts for adaptation against the adverse impacts of climate change. This effort
galvanizes initiative to operationalize and mainstream climate change adaptation into
development frames (Brown, 2016).
Paradoxically, international climate change regime for addressing adaptation concerns of
vulnerable population primarily relies on transferring improved technological skills and
financial assistance to governments; while, the underprivileged self-relying threatened
sections of the communities continue lurching and largely relying on self-help (Brown,
2016). This incongruity of international funding, governments’ development practices and
vulnerable communities lead experts like Jessica Ayers (2010) question the expected
inclusive character of prevalent adaptation measures. Distinguishing it into three categories,
Ayers argues that climate change policy agendas and actors pursue adaptation focused on
“interventions” to address impacts of climate shocks for the most vulnerable people. The
second approach to adaptation seeks changing development patterns for the sake of making it
resilient. In contrast, the third approach advocated by development organizations considers
adaptation as development (Ayers, 2010).
The sustainable adaptation approach comprehensively links climate change with other social
and environmental issues, requires an integrated response and “attempts” framing adaptation
into a broader frame of sustainable development (Brown, 2016). The concept of sustainable
adaptation is coined to take a comprehensive definition of vulnerability by placing poverty
and inequality at its roots. This understanding of sustainable adaptation comprehends climate
change not an exclusively environmental issue resolved through mitigation of the greenhouse
gases, but a “systemic and fundamental problem” of unsustainable development patterns and
demands a radical transformation of them (Eriksen et al., 2011) Poverty, marginalization and
climate impacts are closely intertwined, though having definite defining lines; for poor
everywhere are not subject alike to climate changes. The impossible inseparability of
poverty, vulnerability and climate change impacts leads Tanner and Mitchell (2008) advocate
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a pro poor climate adaptation, a proactive process that would incorporate apart from targeting
climate impacts measures like social protection, conflict prevention and delivery of services.
The pro-poor adaptation understood to drive people out of chronic poverty and requires a
holistic approach towards the interrelationship of poverty, vulnerability and adaptation.
7.2 PAKISTAN TOWARDS CLIMATE RESILIENT DEVELOPMENT: CORE TO
SUSTAINABLE DEVELOPMENT
The detailed evaluation of climate resilient development in light of resilience as a concept in
its relationship with sustainable development draws us to certain vital understandings.
Mitigation and adaptation measures successfully institutionalize with the help of effective
institutions to counter adverse climate impacts and enhance adaptive capacity of the
vulnerable sections of the society is at the core of sustainable development. As discussed in
previous chapter, climate change poses serious threats and has resulted in huge losses of life,
infrastructure and massive population dislocation. Development is unsustainable in absence
of climate resilience. Realizing climate resilient development that would ensure sustained
growth in presence of climate risks demands comprehensive strategy, multi-sectorial
approach and wider involvement of stakeholders, from individual to larger community.
Another crucial essential is to overcome structural developmental deficits that limit adaptive
capacity and enhance vulnerability especially of the less privileged that are more exposed to
climate impacts. In order to understand Pakistan’s policy goal to actualize climate resilient
development, it is important to keep these vital essentials for having climate resilient
development.
7.3 REVIEW OF POLICY FRAME
In light of the calamitous impacts of climate change, National Sustainable Development
Strategy (NSDS), (2012) describes Pakistan’s response to climate changes as characterized
with an appropriate policy having a legal and institutional support and is streamlined into
workable, implementing strategies and programs. However, the policy for more
comprehensiveness requires to abreast and adapts itself to the changed technological
advancement and social and economic imperatives. As mentioned earlier, the NCCP (2012)
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and its Implementation Framework for Climate Change (2013) provide an overarching policy
frames that underline Pakistan vulnerable sections especially water, food and energy and
propose required measures. A brief evaluation of the NCCP in relevance to other policy
instruments is provided here to prove that the national policy on climate change with its 120
proposed measures seemingly incorporates a comprehensive mitigation and adaptation
guideline. The NCCP (2012), a comprehensive policy document, is an outcome of extensive
deliberations of the 09 working group comprising 40 experts constituted by Climate Change
Task Force (Task force on climate change, 2010; Shabbir, n.d.). In order to actualize climate
resilient development, NCCP (2012) sets out objectives, highlights impending threats to
various vulnerable sections particularly emphasizing looming risk of energy, food and water
scarcity, and suggests a number of mitigation and adaptation measures. This exhaustive
policy document is significantly focused on two pronged approach of reducing disastrous
impacts and improving adaptive capacity of the vulnerable community emphasizing
disastrous preparedness and socioeconomic stability and growth. The adaptation
recommendations include, apart from preparedness against disaster and addressing socio-
economic vulnerability to enhance adaptive capacity, measures related to water resources,
forestry, human health, biodiversity, agriculture and livestock and vulnerable ecosystem.
7.4 ADAPTATION
7.4.1 Water Crises
Rising temperature with enhanced evapotranspiration and increased glaciers melting leading
to initial gusts of flow but eventual ebbing will undermine water availability (M.A. Khan,
2015). Dealing with uncertain water flow and adequately responding to it with “storage
facility and efficient management” is a “major challenge” (Salik, Ishfaq, Saeed, Noel, &
Syed, 2015). Water security a vital life sustaining asset and established among Sustainable
Development Goals (SDGs), Goal 6, clean water and sanitation. To ensure water security and
its required availability, NCCP (2012) proposes various measures broadly divided into main
four goals: improve water storage and infrastructure, water conservation, having a lot of
emphasis upon an integrated water management system, and enhance capacity. However,
these four goals directly concerned with efficient use, distribution and conservation of water
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is understood to require legislative framework and public awareness. From recycling of
waste water and improvement of the existing water distribution infrastructure to construction
of water reservoir, the NCCP (2012) envelopes various measures for ensuring efficient and
productive water management system in Pakistan. However, the policy frame is missing the
concept of water pricing that is understood to effectively contribute in water conservation by
promoting efficient use of irrigation water and cultivation of water efficient crops (Burki,
2015).
7.4.2 Agriculture and Livestock
Similarly, the NCCP (2012) signifies adverse impacts of climate changes on agriculture and
livestock after highlighting the vital role of agriculture in Pakistan’s economy. Ensured
agriculture productivity is a sine quo non SDG—no hunger. Rising temperature with
disruptive impacts on hydrological cycle and changed precipitation pattern in Pakistan has
resulted in a 5% increase in net irrigation requirement (Salik et al., 2015). The crucial
significance of agriculture in Pakistan socio-economic development is highlighted in the
previous chapter. NCCP (2012) equally underlines Pakistan as primarily agriculture based
economy with agriculture accounting for “45% of the labor force, 21% of GDP and 70% of
total export earnings”. Apart from influencing water availability, rising temperature would
influence crop growth cycle (NCCP, 2012). The suggested policy measures for adaptation
against adverse climate impacts on agriculture are broadly divided into four sections. The
vital needs of research regarding impending impacts on crop yields, new crops that are more
adaptable to such adverse impacts and finding pattern to erratic availability of water are the
vital research areas to be explored. The second dimension of policy regarding agriculture
adaptation signifies procuring requisite technology to materialize efficient use of water and
cultivable land for enhanced production. From extended research regarding enhanced
agricultural output and improved livestock to financial support to farmers for better yield,
various adaptation measures are suggested under the caption general management (NCCP,
2012). The need for improving technological bases of the agriculture is crucial to arrest
growing low yield (Burki, 2015).
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Policy discourse analysis (2013) highlights absence of agriculture policy despite agriculture
being backbone to Pakistan’s economy and existence, providing livelihood to 68% of its
population. Relying on multiple documents—Vision 2013, the Medium Term Development
Framework (MTDF), the Framework of Economic Growth and Climate Change Policy— the
Policy discourse analysis (2013) evaluates how climate change impacts are understood
influencing agriculture growth and proposes respective countermeasures against these
negative impacts. Policy discourse analysis signifies that government documents largely
underline food security; however, no comprehensive policy has been formulated to
encompass multi-dimensional nature of the issue.
Climate centered efforts for improved and efficient agriculture output, mentioned in Vision
2030, include policy measures like investment in research for improved technological means,
efficient mechanism of production and irrigation and water use and diversification of rural
agriculture. National Climate Chang Policy equally highlights such measures along with
integrating various sectors to ensure a coordinated output. Policy discourse analysis (2013),
however, contends that government policies as well as programs are largely focused on
“productivity effects” of climate change, having much less on enhancing farmers’
“innovation and adaptation”. In other words, problems are underlined; solutions are paid less
attention. Since 18th Amendment, agriculture becomes a provincial domain in terms of
management and policy making with few functions entrusted to the Planning Commission,
Pakistan.
7.4.3 Health and Forestry
Health and forestry, their vulnerability to climate changes and proposed solutions are made
part of NCCP (2012). It mentions Pakistan growing health risks to rising temperature,
changed precipitation and extreme weather events resulting in life losses, injuries and vector
borne diseases. As a SDG 3, good health needs to prioritize. Deaths and diseases apart, the
extreme events incapacitate vital infrastructure: floods in Sindh and Khyber Pakhtunkhwa
destroyed partially or completely almost 515 health units, 5 percent health facilities of the
afflicted areas (Salik et al., 2015). NCCP (2012) emphasizes building adaptive capacity
against assessed vulnerabilities, enhance general awareness regarding them and incorporate
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them in national health policy. Climate changes would negatively affect Pakistan’s depleting
forest cover—another endangered asset. Ensuring robust forest cover is an essential aspect of
life on land, SDG, 15. Receding forests results in less agriculture output, changed species’
composition, more flood, and enhanced vulnerability to biodiversity. NCCP (2012)
underlines need of research, raising and spreading awareness, improved governance structure
and management of the forests, arresting soil erosion and various damages to forests. The
essence of these measures is focused on improving forest cover, enrich their potential
benefits and facilitate communities dependent on them with alternative resources.
7.4.4 Biodiversity and Vulnerable Ecosystem
Protecting biodiversity and vulnerable ecosystem lie within the ambit of SDG, 15-life on
land. NCCP (2012) equally highlight impending threats to biodiversity and other vulnerable
ecosystems: mountain areas, rangeland and pastures, arid and hyper-arid areas, coastal and
marine and wetlands. The rich but neglected natural ecosystem of Pakistan offers much for
growth and development and poverty alleviation (Public discourse analysis, 2013). The rising
deterioration of natural resources—alarming deforestation, air, water and soil pollution—are
further prone to adverse climate changes. This fact is acknowledged by various studies like
National Forest and Range Resources Assessment Study, 2004 and the Stocktaking Report
Rio, 2012 (Public discourse analysis, 2013). However, despite presence of policies and
institutional structures, the continued deterioration of the natural ecosystem is not
satisfactorily curbed (Kakakhel, 2012). Climate change and ecosystem and resource
management is intertwined, for the effective symbiotic relationship of the two results in
sustainable development. The growing threat of climate change would further undermine
existing decay of the Pakistan’s natural ecosystem, constraining options for growth and
development. With this understanding, climate change and natural ecosystem preservation
discourse is shifting from “impact driven” to green economy “whereby climate change
effects are addressed through climate proofing economic sectors and the resources they
depend upon and providing a policy and regulatory framework for low emissions innovation
and green growth” (Policy discourse analysis, 2013). However, such an understanding is not
effectively been incorporated in the mainstream development framework. With growing
understanding of the nexus between poverty and environmental changes, it is highlighted to
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protect ecosystem specifically the one vulnerable people are dependent upon. This requires
assessing “effectiveness of ecosystem and natural resource management in terms of their
contri*bution to the climate resilience of the poor” (Public discourse analysis, 2013).
7.4.5 Disaster Management
Disaster preparedness, the most important aspect, for actualizing climate resilient
development is detailed in NCCP (2012). Expected rise in the frequency and intensity of
extreme weather events is acknowledged as such climate change repercussions are already
witnessed. Un-avertable disasters, however, could be controlled in their impact with effective
adaptation. SDG-13, Climate action underscores disaster preparedness. The NCCP proposes
a “holistic approach” and suggests various adaptation measures like allocation of funds and
resources to National Disaster Management Authority (NDMA), well defined lines of
responsibility and coordination, early warning system in case of calamities, communities’
evacuation, and prepared response against glacial lake outbursts and other untoward
disasters. NDMA is established as an institution with provincial and local supportive bodies
and clearly defined laid out principles mentioned in NSDS (2012). These principles are
reproduced in a table below for their significance:
Table 10 Principles of NDMA
Promoting multi-stakeholder, multi-sectorial and multi-disciplinary approaches,
Reducing vulnerability of most vulnerable social groups,
Strengthening community and local level risk reduction capacities,
Combining scientific and people’s knowledge,
Developing culturally, socially, economically and environmentally relevant
technologies,
Strengthening sustainable livelihood practices,
Acquiring specific capacities in view of the hazard-risk profile of the area and
country, and
Working with other countries, and the international community to promote disaster
risk reduction.
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Evaluation of these principles underlines a comprehensive inclusive approach to achieve the
desired sustainable growth and development. As climate change impacts are understood to
severely influence the underprivileged and deprived sections of the society, NSDS
principally highlights reducing vulnerability or in other words enhancing resilience of the
vulnerable areas. The required capacities for reducing vulnerability and enhancing resilience
depend upon helpful knowledge and technologies corresponding with indigenous wisdom
and relevant social, cultural, economic and environmental milieu. Above all, climate change
is a complex global problem and a comprehensive effort towards sustainable development
and disaster risk reduction requires collaboration among various stakeholders at domestic and
international level.
7.4.6 Human Development
Sound human development is viably an effective bulwark that thwarts transforming natural
hazards into disasters. The devastating floods in Pakistan evidently amplifies that
communities having “widespread malnutrition, deep levels of poverty, inadequate access to
education, landlessness, discrimination against women and minorities” are more at risk and
more difficult to bounce back (Public discourse analysis, 2013). With rising likelihood of
climate driven disasters, the inadequate adaptation system of Pakistan stands an ignored
eyesore. The need to systematically integrate Disaster Risk Reduction and climate adaptation
principles in all public development policies are essentially required (Public discourse
analysis, 2013). Oxfam report (2011) emphasizes development policies in Pakistan to focus
on reducing disasters, enhancing adaptation capacity and prioritizing needs of the vulnerable
communities in the reconstruction and development plans to achieve the desired sustainable
development.
NCCP (2012) highlights the growing plight of the poor and women—social classes that seem
largely underprivileged, disempowered and dependent on natural resources for their survival
—because of the negative effects of climate change. Poverty alleviation, an understandable
outcome of economic development, will become impossible in presence of impending
climate threats. Similarly, large section of Pakistan’s rural women rely on Agriculture for
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subsistence and reduced agricultural output will further constrain their development
opportunities. NCCP (2012) proposes adaptation measures like an inclusive approach
involving these underprivileged sections of the community, their access to technology,
evolving a poverty-climate nexus, highlighting adverse impacts of the rising population and
develop a wide-scale decision making process involving these vulnerable classes.
The nexus of poverty and environmental changes is acknowledged in light of the Millennium
Development Goals, No-7—about the sustainability of the environment—and became a
focused attention of Poverty Reduction Strategy Papers (PRSP-1), 2004 in Pakistan. The
PRSP-2 in 2009 was a step forward when government constituted a commission for an
exhaustive analysis of the nexus between poverty and environment, measure it and assess its
impact on national economy (Policy discourse analysis, 2013). These documents highlight
environment as a cross-cutting issue and significantly maintain the important role of
agriculture, livestock and fisheries in reducing poverty in the rural areas of Pakistan.
Similarly, the Climate Change Task Force also advocates incorporating social protection
programs for climate change vulnerable people. Various institutionalized social protection
programs largely termed “social safety net”—defined as “a source upon which one can rely
in times of need, regardless of the help-seeker’s ability to repay” (Ashraf, 2014)—is another
notable measure of the government. It has become more efficient since adoption of the
National Social Protection Strategy, 2007 to reduce poverty or in other words enhance
individual adaptive capacity. Public programs significantly focused on assisting vulnerable
and socially and economically humble people are broadly distinguished in terms of direct and
indirect intervention on the part of government. However, climate change resilience is not a
major consideration in social protection programs. The following table based on the detail
mentioned in Public discourse analysis (2013) lists these social protection programs and the
vital institutions responsible for them and are tabled below by the researcher.
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Table 11 Various Social Protection Programs
SOCIAL PROTECTION PROGRAMS IN PAKISTAN
Direct Assistance
Employment Old Age Benefit Institute (EOBI), Workers’ Welfare Fund, Provincial Security benefits (employment guarantee based);
• Benazir Income Support Programme, Zakat, Bait-ul-Mal, Pakistan Poverty Alleviation fund (PPAF) (transfers), National Rural Support Programme;
• Micro financing and micro credit, Benazir Income Support Programme, Pakistan Poverty Alleviation Fund (PPAF), Khushal Pakistan Programme and Fund
Indirect Assistance
• Subsidy on food items through utility stores
• Minimum wage rate
• Life line tariff on electricity.
Vital Institutions
PRSP Secretariat, the PPAF, the Ministry of Local Government and Rural Development and the Benazir Income Support.
7.5 MITIGATION: CHALLENGES AND OPPORTUNITIES
The NCCP (2012) after a largely elaborate adaptation measures focuses on mitigation.
Pakistan’s least contribution to greenhouse emission but enormous adverse impacts and
challenges of adaptation makes NCCP (2012) primarily centered on adaptation. With its
0.8% contribution to global emissions, Pakistan ranked 135th based on per capita emission
(Pakistan’s intended nationally determined contributions, 2016). However, CO2 emission per
unit of energy consumption is relatively high (NSDS, 2012). This reveals that energy, the
vital factor to economic growth and national development, needs to be refined in terms of its
efficiency, use and nature. High emission sectors of Pakistan are transport and agriculture
and livestock with reported 51% and 39% emission respectively (NCCP, 2012; NSDS, 2012;
Pakistan’s intended nationally determined contributions, 2016). NCCP (2012)—after listing
energy sector with the highest emission ratio 51% followed by agriculture sector (39%),
industrial processes (6%), land use, land use change and forestry (LULUCF) (3%) and waste
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(1%)—advocates integration of energy policy and climate change. Concern is not only
emissions but also the low 4.8% forest cover and growing deforestation ratio of 0.2 to 0.4 %
which means that carbon assets are also declining in Pakistan (NSDS, 2012). Significantly
relying on the depleting resources of furnace and natural gas, Pakistan will resort to avail its
rich coal reservoirs, estimated 185 billion tons (NCCP, 2012). The national policy demands a
creative and sustainable energy policy focus on “development of renewable energy resources
and the increased share of nuclear and hydroelectric power provide an opportunity to reduce
carbon emissions in Pakistan’s energy sector”. Apart from the use of renewable resources,
nuclear and clean coal technologies, NCCP (2012) advocates measures like generating power
from municipal waste, developing local technologies like carbon capture and storage (CCS),
imposing carbon tax to promote efficient use energy, and import of natural gas. Energy
production is not the only concern; NCCP (2012) mentions crucial importance of energy
efficiency and conservation and proposes various measures in this regard.
NSDS (2012) contends that an “emission space” is fruitful keeping in view the expected
future economic growth. Pakistan aims to achieve 7% growth rate till 2025 (Pakistan’s
intended nationally determined contributions, 2016). Actualizing this target understandably
means more emissions, assumed to reach 1603 MT CO2-equivalent (Pakistan’s intended
nationally determined contribution, 2016). The viable strategy for realizing economic
development without compromising on environmental soundness is to integrate carbon
mitigation options into future development plans. NSDS argues that economic growth having
“lower carbon trajectory” is possible “by integrating a host of carbon mitigation options and
measures into its future development plans – for which a large latent potential exists if aided
by adequate finance and appropriate technology” (NSDS, 2012). The recently submitted
INDC highlights this point with an added fact that without financial and technological
assistance, the desired level of mitigation or clean energy goals will be unrealizable.
Following business as usual (BAU) approach, economic growth centered policies that
involve availing tapped coal resources in disregard to mitigation measures would raise
carbon emissions 15 times to its current level in Pakistan in the next 40 years (NSDS, 2012).
Clean development pathway, an alternate lower carbon trajectory, demands an additional
estimated expense of 8 to 17 billion US dollars to 2050 if cleaner coal and renewable energy
technologies are employed. However, carbon reductions actualized through this clean
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development pathway would value 27.3 billion dollars, “if priced at a reasonable future value
of carbon”—making it positively cost effective. However, the availability of climate finance
and appropriate technology is at the root of materializing such a transition (NSDS, 2012).
Similarly, the need for controlling emissions from different means of transport: road,
railways, aviation, and proper town planning to fortify our urban areas against climate
disasters and actualize efficient energy consumption are rightly incorporated in the NCCP
(2012).Despite highest emission growth rate of all sectors and crucially required mitigation,
controlling emissions from different means of transport is difficult. NCCP (2012), however,
proposes measures like proper maintenance of vehicles, efficient public transport, resorting
to bio-fuels and availing CDM projects, promoting non-motorized means of travelling and
efficient aircraft and railway system. Proposed measures to curb emissions from industries
and agriculture and livestock have also been incorporated in the national climate change
policy (2012). Resorting to clean and efficient energy resources and incentivize voluntary
corporate social responsibility, have periodic “energy efficiency audits” are the various
suggested measures to reduce emission from the industrial sectors (NCCP, 2012). Likewise,
emissions from livestock and agriculture, constituting 39% of the Pakistan’s total greenhouse
emissions with 3% rising rate per annum, are crucially required to be reduced. NCCP
signifies importance of measures like integrating indigenous knowledge with latest
technology, efficient control of the release of nitrous oxide and methane and avail CDM
facility in this regard, and develop and adapt more productive breed of cattle to meet
mitigation standard as well as more productive agriculture and livestock system. With
minimal 3% contribution to the global emissions, NCCP (2012) acknowledges Pakistan’s
untapped potential in forest sector. To materialize progress in this regard, NCCP maintains
setting and meeting annual targets of afforestation and reforestation, stop illegal and corrupt
abuse of forest resource, provide alternative resources to forest-dependent communities for
livelihood, seek financial assistance from the world financial bodies for devising national
forest conservation and restoration strategy. A successful policy of mitigation equally relies
on renewable and efficient sources of energy and increasing capacity of carbon sinks.
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7.6 INSTITUTIONAL STRUCTURE AND GENERAL AWARENESS
The most important aspect of national climate change policy is a realization that insufficient
human resources and institutional capacity constrain Pakistan’s ability to effectively pursue
its desired interests in international climate negotiations. It needs to comprehensively assess
impending threats and evolve an effective response. NCCP (2012) underlines an integrated
and coordinated framework through presence of climate cells at different sectors at federal
and provincial level, a coordination commission, ensuring climate change ideals and
socioeconomic development goals to further each other and incorporate climate change
concerns into Environmental Impact Assessment (EIA), and a systemic regular assessment of
emission reduction and changes in land use. Along with institutional build-up, the policy
recommends actualizing capacity building through measures like talented experts, foster
climate research and research-based institution like GCISC, and educate about adaptation
against negative effects through curriculum development. Moreover, it seeks providing
required training and knowledge to develop institutional capacity and expertise in specialized
knowledge regarding monitoring, assessing impacts and suggesting required adaptation
measures.
For the successful realization of climate change policy goals, NCCP (2012) promotes general
public awareness against impending climate threats to garner support for adaptation. It is
understood that instead of highlighting limitations of our response and capacities and
plugging them, the complacency of calling climate borne disasters as “will of God” or
“punishment” (Cheema & Hussain, 2014) further compromises productive outcomes.
Cultivating such an attitude on behalf of the influential public sectors not only relives and
absolves them of their responsibility to address the issue, it undermines comprehensive and
collective response. Involving key stakeholders regarding issues like water and energy
conservation, forest and biodiversity protection, and opportunities offered by CDM are the
various areas that require an inclusive approach, which, in turn, is dependent on large scale
involvement. In the same vein, international and regional cooperation is required, for it is not
possible for a single state to cope with the challenges of climate change. NCCP (2012)
concedes to this realization that cooperation from the global community and fostering a
collective approach of the South Asian states is essential, for the region is much vulnerable to
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adverse climate changes. For this purpose, continued data exchange, active response and
links with international environmental institutions, joint assessment of the climate impacts
and devising sustainable approach to climate change among the mountainous states, establish
a research body and exchange expertise and students to promote understanding regarding the
issue of climate change (NCCP, 2012).
Pakistan is among those developing states acknowledged to be immensely affected by
negative climate changes. As signatory to the UNFCCC and member to World Bank, it
qualifies for the promised international Green Climate Fund. However, securing share of this
fund depends on an “enabling environment” (NCCP, 2012). For creating this enabling
environment, NCCP advocates measures like establishing a Pakistan Climate Change Fund,
joint efforts of public-corporate-civil society for financing and implementing mitigation and
adaptation projects, and provide carbon market opportunities with a proper investment frame.
NCCP rightly acknowledges presence of competition among developing states for availing
climate change fund opportunities offered by Green Climate Fund (GCF), Clean
Development Mechanism (CDM), Adaptation Fund (AF), Global Environmental Facility
(GEF), World Bank’s Forest Carbon Partnership Facility(FCPF) and Carbon credit trading.
Another crucial adaptation requirement of developing states is their limitation in terms of
adequate technology. Transfer of technologies from developed to developing states
constitutes a vital requisite of the international climate regime—UNFCCC. In order to
actualize this essential, NCCP (2012) proposes measures like nationally determined
technological needs regarding mitigation and adaptation, incorporate local technology and
seek technological breakthrough in areas of coal, bio-fuels, clean coal technologies;
technology transfer for designing electric/hybrid vehicles and exploring viable productive
sites for generating wind and solar energy.
The burgeoning carbon market that is predicted to reach 1 trillion $/ year in near future
understandably provides Pakistan an opportunity to seek the required financial assistance and
successfully shift to low carbon future and adapt to climate changes (NSDS, 2012). Low
carbon future materialized through international financial assistance is inseparably linked to
building capacity or adaptation to climate changes. NSDS particularly highlights two sectors
with high potential to avail climate finance: clean energy development projects (renewable,
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waste to energy, transport) and sustainable forestry. The new market in carbon commodity is
termed an “effective financing vehicle” that would actualize sustainable development
through “nationally appropriate climate mitigation activities” (NSDS, 2012).
Clean Development Mechanism (CDM) is mentioned as a leverage to secure required
financial assistance for low carbon development specifically in clean energy products
(NSDS, 2012). CDM as mentioned earlier is a market based mechanism termed flexibility
mechanism, an interactive process of the developed and developing states, which reduce
emissions on part of the highly developed states on one hand and enrich sustainable
development and adaptive capacity through technological assistance and investment in the
developing states (Boisson de Chazournes, 2011). Pakistan has devised a CDM operational
strategy and institutionalised the CDM host country capacity; however, NSDS (2012)
highlights certain limitations: securing CDM projects is not without competition from other
vying developing states; CDM as not supporting clean coal technologies, hence, offers little,
for Pakistan primary reliance is on coal deployment for future energy expansion; and because
of long maturity period and associated transaction costs, CDM projects are underutilized. Dr.
Shahqat Kakakhel and Dr. Qamar Zaman Chaudhry underline importance of climate finance
and concrete measures to secure notch in the international financial capital (Saeed, 2013;
Khan, R.S., 2013). Securing share in the “Green Climate Fund” requires developing
“saleable projects”, according to Dr. Chaudhry (Saeed, 2013). The potential for developing
such saleable projects is still largely missing.
Climate financing would also incentivize sustainable development through arresting forest
decline and thus serve purpose of carbon sequestration and removal (NSDS, 2012). Financial
assistance program like Reduction of Emission from Deforestation and Degradation (REDD)
could not only secure but also improve Pakistan’s dismal forest sector of low and declining
area. This would realize the desired outcome of low carbon economy and sustainable
development in the forest sector. Realizing such ambitions, however, would require the forest
cover to be evaluated as a carbon asset, financially identifying and quantifying its present as
well as future value in “preparation for an international REDD regime (NSDS,2012). NSDS
emphasizes availing available forum and means for financial assistance, other than those
mentioned, to ensure and expedite sustainable development in Pakistan. Despite such
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promised ideals, Pakistan lags behind than India and Bangladesh in allocating enough budget
to climate change issue or for securing international financial assistance, Dr. Pervaiz Amir
contends (Saeed, 2013). “India is spending over 2.6 percent of its GDP to cope with such
challenges and is one of the biggest recipients of climate change aid. Pakistan’s allocation for
climate change, meanwhile, is stuck at just 0.02 percent of the total Rs295.5 billion of
development funds”, Dr. Pervaiz mentions (Saeed, 2013). He terms it government’s
“apathy”, that could further enhance estrangement between Pakistan and international
community. To remove these loopholes, formation of climate sections in the Planning
Commission and all provinces including Azad Kashmir is recommended with a federal
ministry to forward plans of the provincial governments to the GCF (Pakistan pushes to put
stalled climate policy into action, 2015). Apart from the missing coordination, provinces are
also lacking required expertise to form projects fulfilling GCF standards (Anwar, 2015).
7.6.1 Institutional Mechanism
The realization that policy needs to be supported by an action plan is signified in the NCCP
(2012). However, action plan for its materialization requires an institutional mechanism
systematically integrated across different sectors in the national policy and decision making
structure. NCCP proposes establishing “Climate Change Policy Implementation
Committees” at the federal and provincial levels for regular monitoring and upgrading of the
national climate change policy. For effective outcomes, a broad based composition of the
committees are proposed involving respective minister of climate change as chair, secretaries
of the related ministries, and members from corporate sectors, civil society, and specialized
persons. Pakistan’s National Climate Change Policy provides provisions and commitment
regarding its professed goal of actualizing sustainable development and address the global
menace of climate change like a responsible state in the global comity of nations. This policy
is augmented with institutional arrangements tabled below based on the information derived
from Salik et al. (2015) and Iqbal et al. (2014) for ready reference.
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Table 12 Chronological Order of Climate Change Institutional and Policy Responses,
Pakistan
Year Institution/ policy Purpose/achievements/outcomes
2002 Global Change Impact Studies Centre
A research institute; main areas: agriculture, water and glaciers; provided planning and assistance regarding climate change policy making; produce effective corps of scientists
2003 First national communication report submitted to UNFCCC
2005 Prime Minister’s Committee on Climate Change (PMCCC) established
An overarching body for guidance
2006 Policy for Development of Renewable Energy for Power Generation
AEDB is tasked with:
Implementing government policies and plans,
Developing projects,
Promoting local manufacturing, creating awareness and facilitating technology transfer,
Channeling international assistance,
And coordinating all associated activities as the national facilitating agency for the development of renewable energy in the country.
Alternative Energy
Development Board(AEDB)
Pakistan National Operational Strategy
To implement CDM to generate carbon credits
2007 National Disaster Risk Management Framework
Climate Changes established as a cross-cutting issue
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National Disaster Management Authority (NDMA)
This apex federal body deals with:
The entire spectrum of disaster risk management—prevention, mitigation, preparedness, recovery and reconstruction. Climate change, as per the Framework on Disaster Risk Management (DRM), also falls within the purview of NDMA.
NDMA was also member of the Task Force on Climate Change.
Technical Advisory Panel (TAP) on Climate
Change
The TAP functioned from the end of 2007 up to the end of 2008, at which point meetings of the panel were discontinued.
Provide technical advisory services to the Ministry of Environment (MoE) on issues related to climate change including national position briefs for international negotiations (COPs, MOPs) under UNFCCC and the Kyoto Protocol;
• Identify, prioritize and recommend areas for conducting research, the results of which may be presented to and by the TAP, and assist in incorporating the research findings into policies;
• Review and carry out a technical screening of climate change project proposals prepared by MoE as and when requested;
• Work with other ministries and departments (e.g. Petroleum & Natural Resources, Forestry, Energy, Irrigation, Agriculture, Finance, Water & Power etc.) for cross-sectoral integration of climate change aspects in national policies, plans and programs;
• Build linkages with regional organizations working on climate change to benefit from regional experiences and knowledge.
Vision 2030 conceptualize and chalk out a strategy for sustainable development in Pakistan
explicitly mentions climate change both in relevant sectors and separately
Suggests investing in environment friendly technologies and production and
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consumption systems.
Stresses the need to conduct studies to better understand and to downscale climate change projections of impacts on Pakistan.
Specifically recognizes the need for new research on agriculture and for institutional arrangements, especially in rural areas, to cater for climate change challenges.
2008 Planning Commission Task Force on Climate
Change (PC-TFCC)
Take stock of the national situation and make recommendations for a national climate change strategy.
The PC-TFCC released its final report in February 2010 and then dismantled.
MoE replaced this Task Force by Core Group on Climate Change
2010 Draft of National Climate Change Policy
(NCCP) finalized
NEEDS (2010)
Looked into potential threats of climate change to Pakistan and suggested different ways of addressing these.
Tried to monetize the cost of impacts to the national economy and to people’s livelihoods.
National Economic and Environment Development Study (NEEDS)
2011 18th Constitutional Amendment
Devolution of Ministry of Environment (MoE) to provinces;
However, the climate change related functions of the MoE and GCISC were transferred to the Pakistan Planning Commission like Core Group on Climate Change.
2012 National Climate Change Policy (2012)
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7.6.2 18TH Amendment and Climate Change
The Pakistan Environmental Act, 1997, outcome of the earlier concurrent list, with its
centralized mechanism and provincial protection agencies witnesses its transformation when
environmental issues were largely entrusted to the district government after the Local
Government Act, 2001 (Alam, 2010). However, the need of provincial governments to play a
vitally significant role is heightened in absence of a proper environmental regulatory
structure at the provincial and local level. Unanimously passed by the Pakistan’s parliament,
the 18th Amendment changes 36 per cent of the 1973 constitution making it a “predominantly
decentratilsed federation” from an over centralized state (Bhatti, 2015). Alam (2010)
envisions 18th Amendment as an opportunity for the provincial governments to enact and
foster the required measures against the calamitous impacts of climate change. Since 18 th
Amendment with environment becoming a provincial domain, it was required to have
delegated powers of the federal EPA to the provincial EPA and further down to the district
level. However, delegation of powers from provinces to the local government was left at the
disposal of the provinces. Alam signifies that successful implementation of the environmental
polices require not only a sound implementation bodies at the provincial and local levels, but
also financial independence of these bodies. Financial independence is highlighted as major
factor for the weakening of federal EPA (Alam, 2010).
The reduced budget to climate change—an issue that stands as existential threat as
acknowledged in the NCCP (2012) for its ominous implications to food and water security—
is to a degree attributed to post 18th Amendment that devolves environment to the provinces.
Another limitation or a dilemma with Pakistan like all the other popular democracy is a
preference for public expenditure on projects with visible short term gains to lure electorates
rather than long term but required financial expenditure on climate adaptation or energy
efficiency. Cheema and Hussain (2014) signifies importance of investing in climate resilient
development like developing extreme weather tolerant varieties of crops, land use planning,
adopting climate resilient housing and preparation against climate disasters. The proposed
measures for mitigation and adaptation will reduce the annual environmental degradation
cost, “according to the 2006 Pakistan Strategic Country Environmental Assessment Report,
Rs365 billion ($4.2 billion) that is currently understood to have reached around Rs450 billion
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($5.2 billion). Inadequate water supply, sanitation and hygiene account for Rs112 billion
($1.3 billion), agriculture soil degradation for Rs70 billion ($807 million) and range land
degradation and deforestation Rs6 billion ($69 million)” (Saeed, 2013). A cost-effective
analysis of this expenditure in comparison with all the expense required for mitigation and
adaptation in Pakistan —according to the NEED (2011)—Pakistan needs around $6 billion to
$14 billion for climate change adaptation measures while mitigation efforts will cost around
$7 billion to $18 billion dollars from now to 2050—would help us realize that timely and
satisfactory allocation of funds and resources against climate change are far productive.
Understanding implications of 18th Amendment is at the root of comprehending the
lukewarm and broadly missing of a well-coordinated collective response towards climate
change. Shah (2012) draws a detailed sketch of 18th amendment. Dilating upon its merits and
demerits, Shah terms the amendment a landmark achievement that must be understood as a
step towards a broader agenda to reform the multi-order public governance system. The 18 th
amendment of the constitution reasserted institutions of federation: Council of Common
Interests (CCI) and the National Economic Council, and entrusted provinces with a renewed
strengthened position in policy making at the national level in the true spirit of original 1973
constitution (Masood, 2011). The revival of these vital intergovernmental institutions would
not have been effective in absence of constitutional rearrangements in accordance with the
18th amendment that largely devolved federal/provincial concurrent list of responsibilities—
including environment—to provinces (Shah, 2012).
Lauding importance of the 18th Amendment, Dr. Saeed Shafqat termed it a “positive step” a
“paradigm shift” in governance, demanding a more participatory and consultative decision
making process (Masood, 2011). The CCI, with an established secretariat, in the same light is
mandated to meet once every 90 days. Carried out for the desired “efficiency, effectiveness
and accountability” in the governance structure, this amendment, however, unearthed the
much trumpeted incapacity of the provinces to handle complex and demanding issues like
climate change. Dr. Shafqat contends that such capacity of the provinces can be built and
require restructuring power equation between center, provinces and local governing bodies.
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Climate change poses serious challenges to developing states like Pakistan in terms of
governance and development, according to Dr. Najam, Dean of the Pardee School of Global
Studies at Boston University (Zahid, 2015). In light of the impending threats and the need for
effective response to these challenges, it is required to develop a proper governance structure
at each tier of the new governance edifice, from federal to local. Specifically sound
adaptation measures requires coordinated efforts at the local level and is found effective even
in developed states like US where Miami in the state of Florida is facing brunt of rising sea
level (Moser, 2011). However, apart from improving governance structure and sound
response mechanism at the local level, climate change requires to be streamlined into the
main development model. If environmental considerations are not driving economic growth
model, a symbiotic and not hostile relationship of the two should be materialized. Dr. Najam,
however, laments missing mainstreaming of climate change into development or as he puts it
“climate decisions at the heart of development decisions, of economic decisions” (Zahid,
2015).
The impending risks termed potential opportunities for realigning roles and responsibilities in
the multi-layered governance structure evolved after 18th amendment is also highlighted in
the World Bank paper titled, “Making Federalism Work — the Eighteenth Constitutional
Amendment” (18th amendment poses challenges to good governance: WB, 2012). The report
mentions weakening of the federal government control on law and order, taxation, and
possibility of protectionist policies among provinces, for decision making in these areas are
now entrusted to the provincial government. However, effective resolution of these
challenges offers prospective opportunities for adapting to the new defined roles of the
provinces and much required delegation of decision making to the local governments (18th
amendment poses challenges to good governance: WB, 2012). Ahmad (2015) equally
emphasizes that the present three tier government structure—federal, provincial, local—has
power delegated from the federal to the provincial government; however, for the effective
service delivery, the much required further devolution to the local government is left at the
disposal of the provincial government.
The devolution process if exposes limited capacity of the provincial governments to handle
complex demanding areas, it is also termed incomplete for not entrusting control of the
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resources to provincial governments (Ghori, 2016; Raza, 2015). Federal government has not
completely relinquished its control on assets like natural resources—oil, gas and minerals,
and has also retained its right to revenue collection in certain delegated areas. Environment
became a provincial legislative domain after 18th Amendment; however, federal government
with it exclusive jurisdiction in areas like “international treaties and obligations, national
planning, interprovincial matters and coordination, and matters falling within the legislative
competence of the Parliament or matter incidental or ancillary to any matter enumerated in
the federal legislative list” has given it significant decision making in the provincial domain
of environment (Hamid, 2012).
The enormity of the climate change and its negative repercussions are realized and a need of
coordination across different level of governance structure (Coordination can tackle climate
change, 2013) and concrete measurable and immediate actions are highlighted by the
international actors and experts like Mr. Timo Pakkala, United Nations Resident Coordinator
and UNDP Resident Representative in Pakistan (Experts call for concrete actions on climate
change in Pakistan, 2014). The complexity of the governance structure and the required
coordination among the federal government and its units are acknowledged and emphasized
by the Ex-minister Climate Change, Mushahid Ullah Khan, stating that “Compliance with the
international environmental protocols, conventions and agreements is difficult without
cooperation of the provincial governments, particularly in the aftermath of the 18th
amendment under which the environment subject was devolved to the provinces” (Govt to
engage top experts to tackle environmental issues, 2015). Since 18th Amendment, the power
equation between the provinces and center in the sector of climate change is disputed (Saeed,
2014). Provinces refused to share their newly acquired legislative domain on environment
with the federal government despite the fact that the estimated exponential adaptation cost of
US$ 6-14 billion and mitigation cost $7 billion to $18 billion respectively are unaffordable
for the provinces alone (Saeed, 2014).
The unanimously passed resolution is not without dispute on vital issues like control and
exploitation of the natural resources, regulatory authorities and mechanism for joint
management “of electricity, ports, national planning supervision and public debt; and
defining standards in higher education” (Bhatti, 2015). The interpretation of the article 172
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(3) that entitles provinces for 50% ownership and control on oil, gas and mineral resources of
their respective regions is contested between the federal and provincial governments. While
Baluchistan questions continued existence of the Federal Ministry of Petroleum and Natural
Resources (MPNR), Sind seeks exclusive right in the extension of exploration licenses to oil
and gas companies. Former Chief Minister Baluchistan, Dr Abdul Malik Baloch, contends
that center is encroaching upon provincial subjects (M.H. Khan, 2016). The overlapping
intricacies of post 18th amendment governance structure have highlighted the need of new
legislation. Prime Minister Nawaz Sharif termed not bridging the created “legal vacuum” a
“criminal negligence” on part of the former government (Wasim, 2013). However, the legal
vacuum, still unabridged, is feared growing into misgivings where center is feared taking
back the delegated power, as Dr Kaiser Bengali puts it. He proposes that each province
requires to have its own planning commission (Provinces must defend their domain after 18 th
amendment, 2014). The incumbent chairman of the Senate, Mr. Rabbani, expressed the same
concerns (Rabbani spells out perils of undoing 18th Amendment, 2016).
Pakistan’s dilemma is lacking will and sound mechanism of implementation despite presence
of policies (Rafiq, 2011). Pakistan’s lackluster response in availing CDM projects is
mentioned as evidence despite it being the “one of the best opportunities offered” to develop
“and cash strapped countries like Pakistan by the international climate regime” (Rafiq, 2011).
Rafiq highlights limitations of the NCCP, 2012 as lacking broad public perspective that could
have been procured through extended systemic survey. Moreover, the policy for the fact that
environment had become a provincial domain since 18th Amendment requires re-visiting to
accommodate the newly gained say of the provincial government in light of their limitations.
Similarly, the NCCP is criticized for its incomprehensively addressing threats to the socio-
economic security of Pakistan, according to Shakil Ahmad Ramay, scientist at the
Sustainable Development Policy Institute (SDPI). Rafiq (2011) attributes it to over-emphasis
upon the traditional military oriented conception of the national security that comprehends
threat from the man driven state and non-state actors rather than devastating forces of nature.
With rising threat to the coastal areas because of the rising sea level and intense urban heat
effect, it is essential to properly to protect our present vulnerable habit and also make it
comfortable for the present generation.
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In a word, the Post18th Amendment Pakistan further exposes ill-prepared provincial
governments with low financial and institutional arrangements. It equally reveals the partial
nature of delegation of power and authority from the Center to the Provinces. Most
importantly, from Provinces to the local level, the tier of governance from where an effective
response springs against climate disasters is yet is unwelcomed. Federal government still has
much sway on determining outcomes because of largely controlling key natural resources
like oil, gas and minerals and significant decision making power on matters entrusted to the
Provinces after 18th Amendment. As mentioned, voices are raised against this situation, and a
need was felt for a more inclusive structure with constitutional sanction. The Climate Change
Act (2017) is designed to address the legal and governance vacuum created in addressing
issues as complex and extended as climate change.
7.6.3 Pakistan Climate Change Act (2017)
In light of the impending problems of administrative responsibility and accountability, the
Pakistan’s parliament approves Pakistan Climate Change Act, 2017 on March 17 th, 2017
(Ebrahim, 2017). The ten pages document highlights objects and reasons after recognizing
“that climate change represents an urgent and potentially irreversible threat to human
societies and the planet and thus is a global challenge, requiring the widest possible
cooperation by all countries.” Most importantly, in accordance to the international
environmental agreements, Pakistan comprehensive mitigation and adaptation process is
acknowledged to be a “multi-disciplinary, inter-provincial and inter-ministerial nature” that
requires a “national level” response. For actualizing an effective national response, the Act
delineates an institutional structure: an “independent” Climate Change Authority—addressed
subsequently as Authority in the document—guided by a high powered council under the
leadership of the Prime Minister. The rest of the council constitutes an impressive list that
would make comprehensive deliberation and coordination much convenient. Along the Prime
Minister, the members of the council include:
(i) Federal Ministers for Climate Change, Finance, Food Security and Research, Planning
and Development, Petroleum and Natural Resources, Science and Technology and Water and
Power;
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(ii) Chief Ministers of the Provinces;
(iii) Ministers incharge of the subject of Environment in the Provinces;
(iv) Chief Secretaries of Azad Jammu & Kashmir and Gilgit Baltistan;
(v) Such other persons not exceeding thirty as the Federal Government may appoint, of
which at least twenty shall be non-officials, including representatives of the Chambers of
Commerce and Industry, non-governmental organizations concerned with climate change,
the environment and development, and scientists, researchers, technical experts and
educationists;
(vi) Chairman, NDMA;
(vii) Chairman, Pakistan Climate Change Authority;
(viii) Secretary, Ministry of Climate Change, who shall also be the Secretary of the Council.
With a mandatory meeting of twice a year, the Council is entrusted with functions to
“coordinate and supervise” enforcement of the provisions of this act. Approve and monitor
implementation of policies regarding adaptation, mitigation and efficient and clean sources of
energy production.
While the composition of the council seems intended to overcome issues of governance and
bring all the stakeholders on a forum to streamline and mainstream climate change into all
the vulnerable social and economic sectors, the composition of the authority fills the gap on
the side of expertise and skill. The composition of the authority include “Chairperson,
Member (Adaptation), Member (Mitigation), Member (Climate Finance), Member
(Coordination) and one Member from each province to be nominated by the respective
Provincial Government.” The standard for their selection is their academic and professional
excellence in their respective disciplines and domain as “scientists, academicians,
professionals, serving or retired government servants, industrialists, agriculturists or other
technocrats with at least fifteen years of experience in fields related to climate change and the
environment, with a distinguished service record.”
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Projects that would fulfill international standards to secure financial share from the GCF is a
Gordian knot for Pakistan. The Authority as independent body comprising of skillful and
professional expertise is entrusted with the task of cutting this Gordian knot. Formulation,
implementation and monitoring of projects, policies and institutional support that would
bring emission reduction without compromising economic growth is the fundamental
assignment of Pakistan Climate Change Authority. Similarly, Authority has to assist and
advise the Council and Ministry of Climate Change in all their efforts regarding proclaimed
goals and objectives of the NCCP (2012) like disaster-preparedness and management, public
awareness and institutional capacity building, maintaining an emission inventory, fulfilling
Pakistan’s international obligations of the Multi-lateral environmental agreements. In a word,
the Authority has to accomplish the broad policy and principles of the NCCP (2012) and core
actions laid out in Framework of Implementation (2013) in light of future aspirations of
Vision 2025. Another significant measure of the Pakistan Climate Change Act (2017) is the
establishment of a Climate Change Fund to secure finance for the smooth working of the
Authority, maintenance and operation of the Fund, support projects and measures for
adaptation, mitigation, sustainable resource management and required research. The Fund
will be managed, monitored in terms of projects expenses, invest for further profit, and
prepare annual evaluation report. However, no money from the government exchequer is
allocated to the Fund like one witnessed in the case of Brazil (Flynn, n.d.). However, the
high-powered council has not held any meeting of the two mandatory meetings a year and
the expert-based Authority is not yet constituted, GM, Irfan Tariq reveals (Personal
communication, December 13, 2017).
Owing to complexity and enormity of the problem, climate change policy needs continued
evaluation. Moreover, it requires to be supported by indispensably essential action plan.
Broadly agreeing to the policy, experts consider transforming policy goals into ‘specific
targets and timetable’ a challenge (Yusuf, 2011) that would require including experts in
planning commission and decision making and entrusting them with the task of translating
policy into actions with concrete needed projects (R.S.Khan, 2013). Global climate change is
an enormously complex problem that requires unanimous efforts at international level to
develop capacity of the vulnerable states. Pakistan needs to secure international support and
assistance to enhance its capability of adaptation to climate change. In order to transform its
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energy sector and overall required technological development, Pakistan needs availing global
climate fund through extensive CDM projects (Naeem, 2012). Sophisticated technology to
monitor climate variability and awareness about climate hazards is quintessential. Highly
prioritized initiative must be to secure water resources, improve efficient use of water and
stop its wastage for its continued essential supply to agriculture.
Climate resilient development signifies effective adaptation and mitigation policies with
sound institutional support that would materialize sustainable development. Adaptation as
mentioned is at the core of the sustainable development in presence of growing threat of
climate disasters. Similarly, mitigation polices supported with concrete measures of ensuring
efficient production and consumption of energy and enhanced reliance on clean and
renewable energy resources help achieve states with economic growth without compromising
environmental health. Moreover, climate resilient development at its roots requires sound
economic measures to address issues of poverty and amelioration of the conditions of the
underprivileged to enhance their adaptive capacity. Pakistan is a developing state struggling
against negative impacts of climate changes. It requires achieving all the laid out objectives
in its National Climate Change Policy (2012). With serious negative repercussions in terms
of water, food and energy security, Pakistan rightly needed a comprehensive and inclusive
policy that demands to be mainstreamed in to the main development model and translated
into specific targets. Most importantly, these policies need an effective institutional structure
from the central to the local with a proper system of monitoring from the top and verifiable
accountability from the bottom. Pakistan aims to achieve a high middle income status, for it
has “integrated the objectives and targets of Sustainable Development Goals (SDGs) 2030 in
its national economic and development planning” according to Sartaj Aziz, Advisor to Prime
Minister on Foreign Affairs (Rehman, 2016). Economic growth and development in a
balance equation with principles of equity, natural conservation, and resilience against
climate disasters with a proper coordinated institutionalized support would help Pakistan
achieve the professed goals.
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CONCLUSION
Reducing impacts of global climate change essentially requires understanding scientific
processes involved in the phenomenon. Most importantly, these scientific processes underpin
assessing human factor in the creation and solution of the problem. Climate is
comprehensively understood as extended variable interaction of oceans, atmosphere,
biosphere and Polar Regions over a prolonged time frame. This definition amplifies systemic
character of the climate as perturbation of one element because of its dependence on another
leads to disruption and imbalance of the entire system. The current human induced global
climate change, different to natural process of climate variations, is characterized as a sudden
unintentional push to climate, resulting in destabilization of the Earth energy balance. This
destabilization revealed itself in the form of rising earth surface temperature called global
warming that, in turn, unleashed a series of multiple unpredictable and largely drastic
changes in the global climate system.
The congenial life sustaining earth’s climate is attributed to natural greenhouse effect:
process of atmospheric heat trapping greenhouse gases storing sun’s energy leaving from
earth. The balanced concentration of the greenhouse gases in atmosphere is one important
determinants in shaping earth’s favorable climate. However, increase of these heat trapping
gases understandably means more warming, and their decrease results more cooling of the
earth. Global warming, therefore, is also termed enhanced greenhouse effect, attributed to
increased concentration of heat trapping greenhouse gases in the atmosphere. This increase is
associated with fossil fuel run industrialization, prevalent system of energy production and
consumption, and modern technological civilization. Production and consumption of fossil
fuel has pumped huge amount of CO2 in the atmosphere, a vital greenhouse gas; while, the
modern civilization has changed the use of land reducing earth’s natural sources of carbon
sinks and removal and its emissivity—ability of a particular object to retain or emit heat.
However, the argument that anthropogenic interference with the earth’s energy balance is the
culprit of the current climate changes would not stand ground unless influence of all the other
natural forces responsible for shaping earth energy budget is assessed to comprehend global
warming phenomenon.
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The scientists conclude after assessment of the natural climate forcings like fluctuations in
the Earth’s orbit, changes in oceanic circulation, volcanic eruptions, and variation in the
Sun’s radiation that the alarming temperature difference of 1°C between the present and last
century is incomprehensible without taking into account the increased concentration of heat
trapping greenhouse gases in the atmosphere. CO2 is a greenhouse gas whose rising
concentration in the atmosphere results in the increase of earth’s surface temperature—global
warming—is an undeniable fact in present day climate science. It constitutes 80% of the
injected greenhouse gases since industrial civilization. This draws us to concur with IPCC
that human influence on climate system is undeniably evident.
The rising earth’s surface temperature has unleashed melting of glaciers, leading to sea level
rise and eventually to water scarcity. Disruptions of the hydrological cycle, oceanic
circulation, along with intensity and unpredictability of weather pattern have seriously
undermined existence of life. For modern civilization is incapable of adapting to such rapid
transformation of the climate. Impacts of global climate change, however, are not universally
negative. Vulnerability depends on technological advancement and financial resources. This
makes developing states with meagre resources and inadequate technological infrastructure
more vulnerable to climate repercussions, and dependent on rich states for their adaptation.
Scientific solution to arrest negative implications of climate change involves negative
forcing, feared to be counterproductive. On the other hand, emission reduction through
mitigation measures seeks less reliance on fossils are unfavorable to high consumption
societies and oil producing countries, for their dependence on them for their economic and
social life. This fairly concludes that science assessment of climate change may help us
understand core of the issue, but involved political process at large determine its resolution.
Climate change, as understood from the involved scientific processes, is a complex global
issue that requires collective efforts for its effective management. The fissures created
because of this issue in the international society have made international relations much
polarized: Victims are least responsible for the creation and least resourceful in addressing
the climate change problem. On the other hand, its solution demands economic and social
transformation from the fossil fuel dependent economies and financial commitments from the
developed states—perpetrators of the problem. Before assessing contentious dimensions of
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global climate change politics, it is important to find a theoretical frame, comprehensive
enough to be essentially driven by the idea of cooperation. International regime, an extended
conception of international organization, is distinguished for including implicit or explicit
principles, norms, rules, and decision-making procedures around which actors' expectations
converge in a given area of international relations. Unlike international organization,
international regime is not characterized by legal character, related to many issues, and
physical existence with offices and staff. Evolution of international regime, a form of
collective response, is attributed to the need of overcoming rising incongruity between
formal international organization and complex contentious global issues like climate change.
This widening gulf of the two is associated to the failure of international formal organization
in establishing foundation of an institutionalized response—rule based recurrent behaviour in
its broad sense. Not constrained by rigid obligations, international regime offers itself as a
soft entity seeking evolution and promotion of shared understandings that grow into legally
binding frames and rules if found productive. The purpose of a regime to facilitate interaction
and seek cooperation among wide range of actors driven by diverse interests of power,
interest and knowledge defines its essence.
Formation, continued existence and degree of regime’s independence to influence collective
outcomes are assessed in light of three variables: power, interest and knowledge. These three
fairly correspond to three schools of thought in international relations—neorealism,
neoliberalism and constructivism or cognitivism. These three determinants, interest, power
and knowledge, are not exclusively unrelated; rather they overlap in certain aspects while
conceptualizing what shape cooperation among actors at the global level. Cooperation is
defined as mutually agreed policy coordination among actors to accommodate and facilitate
each other’s preferences in actualizing collective goals. Interest based regime theorists derive
intellectual essence from the theory of complex interdependence with an underlying
assumption that international system despite anarchic has securely knitted it units, states, in
an interdependent relationship. This secured existence of state resolves concerns for relative
gains, a major dynamic of power configuration and a threat to trust building in interaction
among states in an anarchic system. While power based regime theorists, neorealists,
expound reliance on self-help in the anarchic system, neoliberals or interest based regime
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theorists contend that presence of regime and international organizations materialize
cooperation by upgrading common interests among the actors.
Interest based theorists subscribe to the important role of power configuration in the system
and powerful actor, hegemon, in the creation and agenda setting of the regime. However, it
disputes with power based theorist in the continued support or presence of hegemon for the
existence of regime. A regime once established exists for its continued validity as a
communication forum to overcome trust deficit and facilitate agreements. A hegemon,
though, could shape agenda and structure of a regime in accordance with its interest, an
established regime in turn can shape interests of the hegemon. Similarly, regime secures
compliance through reputational effects, name and shame policy. Moreover, as state is a non-
unitary entity to neoliberalis, a constellation of interest emerges among international actors
regarding an issue area with functionalist—technical experts—playing a vital role in the
actualizing cooperation. Power based understanding of the regime takes issues with this
understanding, for it considers international organizations and regimes epiphenomenal—
created for promoting interests of the powerful states. In this regard, hegemonic stability
theory of the power based understanding of the regime considers hegemon’s willingness to
take responsibility of providing public good as the main reasons for the existence of regime.
Hegemon is the stabilizer.
Constructivists or cognitivists consider ideas, new information, and international norms and
shared understanding—in a word, knowledge formation elements—at the root of
understanding cooperation. These are the undercurrents of social consciousness in which
interests and power politics are enmeshed. Focused on the origin of interests, knowledge
based theorists argue that states’ perception of themselves and their environment shape their
interests. Therefore, understanding normative and causal beliefs that motivates decision
makers would help assess their preferred options. As perception is shaped by the existing
body of knowledge on an issue, the epistemic communities—network of recognized experts
in a field—gain distinction for their creation and dissemination of knowledge serving as basis
for decision making. Cognitivists elevate established rules and norms to the status of
institution, capable of shaping policies and command willing obligation if considered
legitimate. Apart from epistemic communities that create and disseminate shared knowledge,
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legitimacy that derive willing obedience, knowledge based theorists signify role of dialogue
—a continued interactive process of persuasion and evolution of convincing shared reasons
—in actualizing rule based cooperation. The idea that a rule-based cooperation regime would
evolve into a whole new identity of the participant actors is what distinguishes cognitivists
from the interest based neoliberals and power based neorealists. However, cognitivists realize
that epistemic communities in the position of power and leadership or a hegemon convinced
of the new learning play a far effective role in regime formation. Regime theory with all its
nuances helps the researcher in comprehending complexity of various interactive actors and
processes in the evolution of climate change regime.
Evolution of the international climate change regime, however, would be incomprehensible if
the contentious politics and contested principles of climate change regime formation are not
understood. Global climate change as a problem is historically contextualized with respect to
responsibility. The global South, a collective identity of the developing states, holds the early
industrialized global North to have exhausted their share of atmosphere with their excessive
emissions in pursuit of economic growth and modern civilization. The proposed solution, it
offers, is binding emission targets for the developed North and their financial and
technological assistance to the global South in leapfrogging inefficiencies of the North
development model. Moreover, the global South resists any attempt of binding emissions on
them, terming it a denial of their right to development and unjustified in light of the principle
of CBDR—to its worst, eco-colonialism. The global North, on the other hand, principally
acknowledges CBDR and the global South’s right to development. However, it regards
binding emissions on its part a comprehensive failure to address global climate change
problem without emissions reduction from the rising economies of the global South. North
considers South’s design to hinge their support for a climate regime to their economic
development or market and trade concession an attempt to revise the global economic order
in their favor.
Another consistent resistance to climate actions comes from the fossil fuel export economies.
Exclusively relying on rents for revenue from the energy markets, these states unwisely
spend much on man-made artificial world. They provide luxurious life style to their people
to secure their silent support for the elitist regime instead of improving their development
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infrastructure. Climate actions with the objective of emissions reduction would
understandably slow down fossil fuel market, consequently undermining these single
commodity economies. Economic vulnerability is more feared than growing impending
climate threats like threatened scarcity of fresh water resources. Dependence of these
governments and their subjects on rents from fossil fuel is one major hurdle to an effective
climate change regime. In the same vein, rich industrialized states like US, having cheap and
rich energy resource base, has cultivated a highly consumptive society with the highest per
capita emission. Considerable political and economic forces vehemently resist compromising
this rich American way of life in the U.S. Equally significant is U.S reservations regarding
success of any climate regime that would not involve emission reduction for the rapidly
growing economies of the South like China and India. These rapidly growing economies with
the available rich fossil resource base justify their emissions ratio on the grounds of having
less per capita emissions to US and principles of CBDR and Right to development. Apart
from the international actors that resist climate mitigation measures for economic or political
reasons, small and low lying states with grave threats from the rising sea level vociferously
seek climate mitigation and adaptation measures. The schism between the two sides, those
resisting and supporting climate actions is much wide, for one is motivated by powering his
machines; the other, by the survival of his existence.
These specific interests shape principles and concepts at the core of climate change
negotiations. The interpretation and character of these principles are contested among actors
in light of their preferred interests. Principle of CBDR and right to development is invoked
by the developing South and rapidly growing economies to justify growth of their emissions
in pursuit of development and avoid binding targets. The developed North countered their
justification with the same zeal on ground of principles of state’s responsibility and
precautionary principle. It contends that with no emission reduction from the South,
especially the rapidly growing economies, an effective international climate regime will not
be materialized. Even the pivotal concept of sustainable development is contested when it
comes to its operational structure and essential purpose. The developing states seek stringent
measures for climate protection on part of the developed North with an obligation to support
them with financial and technological needs to adapt to climate impacts and achieve
sustainable development. The global North rejects any binding and mandatory character of
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climate actions in terms of emissions reduction or financial and technology transfer. These
divergent orientations and objectives draw us to a conclusion that formation of international
climate change regime is much complex and without participation of all the actors in the
process, success would be a forlorn hope.
The advent of technological revolution, international organizations, and widespread
strengthening of the environmental organizations are the vital factors for overcoming hurdles
to evolution of an international climate change regime. The concern raised at the
International Geophysical Year, 1957 regarding the rising concentration of atmospheric CO2
with consequent implications for human life has been the major linchpin of global climate
change negotiations. In lieu of the success of Montreal Protocol, 1987, efforts for similar
climate deal was much aspired. The formation of the Intergovernmental Panel on Climate
Change (IPCC), an interface of science and politics, in 1988 became a major forum for
bringing the various contending actors with diverse political and economic interests.
United Nations Framework Convention on Climate Change (1992) is a landmark
achievement that acknowledged human induced climate change, attributed to the growing
concentration of atmospheric greenhouse, a serious threat. Terming it “dangerous
anthropogenic interference”, UNFCCC sought stabilization of the greenhouse gases.
However, the world “dangerous” was not specified and neither concrete measures were
suggested for stabilization. The proposed solution was based on the principle of CBDR with
onus of responsibility lying with the developed states in light of their historic responsibility
for the problem and financial and technological superiority and capability to address the
issue. Developed states were asked to aim for 1990s emission level by 2000; however, these
implicit deadlines were not met. UNFCCC was termed ineffective for absence of binding
commitment form the developed states in terms of emissions reduction and technological and
financial assistance to the developing states. The Kyoto Protocol (1997) evolves in light of
this understanding to addresses this gap. With binding emissions for the developed states
facilitated through flexibility mechanisms of Joint Implementation, Emission Trading and
Clean Development Mechanism, the Kyoto Protocol was an attempt to provide the essential
push that climate convention was understood to have missing. The binding emissions of the
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developed states expected to reduce 5% emissions below 1990 level by 2012 was not
materialized because of the non-compliance.
After much deliberation and taking into account all the hurdles and their prospective
solutions, the Paris Agreement 2015 essentially brings uniformity among the divergent
stances. At the heart of the Paris agreement is the Intended Nationally Determined
Contributions (INDC)—the nationally determined measures of mitigation and adaptation.
The INDCs are nationally formulated with a realistic but ambitious assessment of the state’s
limitations and resources and development needs. These achievable targets of emissions
reduction and adaptation needs synchronized with the specific needs of state’s development
are owned and believed to be realized with all required efforts. However, these INDCs are
subjected to certain international regulations, a binding process. Every state’s INDC is
publicized and is open to international review. Every submitted INDC should be a
progressive improvement with “highest possible ambition” in terms of mitigation and
adaptation measures upon the one submitted last time. After every five years, a collective
stockpile is taken into account in light of the progress towards the ideal of keeping the earth
surface temperature below 2°C, preferably 1.5°C with a net-zero emission by mid of the
century. This agreement for realization of this objective seeks states’ relying on low emission
technology or preferably replacing them with renewables. Another contentious issue of
technology and financial assistance from the developed states are also addressed in the Paris
Agreement. An amount of $100 billion a year is to be mobilized from 2020 that will be
revised with a higher goal in 2025 for assisting developing states in achieving their
adaptation and mitigation needs.
Paris agreement is not without limitations and there is much to streamline among the
international actors in terms of making it effectively operational. However, it is a
unanimously accepted document that stands as international law for being ratified by 116
parties to convention. The gradualist approach of enhancing capacity of clean efficient
energy and discourage fossil fuels for achieving the desired net-zero emissions by mid of the
century is a shift in our development paradigm. In fact, without undermining the need of
development and modernization, Paris agreement has conditioned them to protection
environment—a sustainable development.
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Every policy is understood as an outcome of the needs to address current requirements and
achieve prospective goals keeping in view challenges to the state. Negative repercussions of
global climate change on Pakistan are highlighted to understand Pakistan’s policy response
with respect to gravity of the issue. Pakistan is a developing state with insufficient and
inadequate financial and technological resources to combat the severe negative climate
impacts because of its location. It has witnessed devastating floods in 2010, 2011, 2012 and
2013, and intense heat waves and rainfall in the last decade. Pakistan is ranked number three
in the 2012 assessment of the Global Climate Risk Index 2014 with over 6 billion USD-PPP
losses due to climate change. The floods in 2010 left 20,000 dead, 20 million displaced and
paralyzed state’s machinery. Climate change impacts is understood to cost $14billion
annually to Pakistan’s economy—much higher to the annual losses from the terrorism.
Pakistan’s multi-layered complex problems like hostile neighbourhood, its weak economy
and institutions, widespread corruption and menace of terrorism are further compounded in
presence of the current climate driven disasters and environmental stresses that would
constrain human life. Located in a hostile environment since inception, Pakistan internal
havoc wrecked by vested interests evolving into an elitist control of governance is more
ominous than external threats. National security with its traditional understanding of a threat
from the outside actor in the form of state or some violent non-state actors from within needs
revision. For climate disasters and environmental stresses are exacerbating existing limitation
to growth, development and security, placing Pakistan among fragile if not failed state. The
repercussions of global climate change are aggravating Pakistan’s existing threats and
problems and thus inevitably extending the national security domain to encompass the human
security: enhanced social vulnerability and threatened ecological resilience.
Pakistan’s economy is disproportionately based on agriculture constituting 25% of its GDP,
2/3rd of its employment, 80% of its export, and consuming major share of its water
resources. Huge glacial reserves in the north of the country, a frozen blue gold, melt and
flow through the country—supplying more than 70% of the river flow. This precious reserve
sustains Pakistan’s agro based economy with contribution from the unpredictable monsoon
rains. The two overlapping in a three-month summer period provide irrigation to the arid
country; however, ironically and dangerously raising the risk of flash floods in the rivers. Of
232
the three hydrological units of Pakistan: the Indus, Kahran and Makran, the last two are
closed, making the Indus river largely commanding Pakistan’s surface water—making
Pakistan a one river agro based economy. Critically related to energy and food security, the
reduced water would undermine crucial essentials of Pakistan’s development. Earth rising
surface temperature is projected to result in enormous and rapid loss of 1/5th of the
Pakistan’s existing glaciers by the year 2030. In the beginning it would be a profuse water
flow, but eventually turning the regional river into seasonal ones. Implications of the rising
temperature are understood to be drastic: limited freshwater supply, damaged coastlines
because of the rising sea level, erratic monsoon rains causing intense floods and droughts,
receding glaciers, siltation of the major dams, enhanced heat and water stressed conditions.
This resource scarcity could lead to war and ecological marginalization of majority for the
possession of the resources by few, mass migration because of environmental constraints,
and weak socio-political institutions. Disruption in the hydrological cycle for Pakistan would
destroy infrastructure in case of floods and sea level rise while limited freshwater availability
will reduced crop yields and energy production. By 2030 a projected 30% shortfall in water
demands would be a catastrophic blow to Pakistan’s economy reducing its agriculture yields,
leading to unemployment, energy crises, forced migration and increased urbanization in
presence of its massive population of 240 million. Similarly, the economic powerhouse of
Pakistan, the coastal city of Karachi, with 20% of the total GDP ratio, largest stock exchange,
and a conduit to 95% of the international trade, is highly vulnerable to rising sea level,
increased salinity, reduced arable land and more intense weather pattern. It would largely
reduce economic output and opportunities in Karachi and further intensify violent struggle
for real state control.
Socio-political and economic implications of climate change for Pakistan are tentatively
worrisome. Mass migration of environmental refugees is feared to create identity crises.
Reduced water would further rift intra and interstate water related conflict, for water is at its
essence a shared asset. These environmental pressures could arrest socio-economic life with
potential to create or exacerbate existing crises of authority—disenchanted masses withdrawn
from political life or placing their allegiance to an entity larger or smaller to state. This
233
aggravated problem of governance will bring the weak state in conflict with the strong
societies. Climate change in light of these factors is redefining Pakistan’s security.
Pakistan as a responsible nation of the world community has signed the Paris climate
agreement (2016), committing itself to its ideal of keeping the earth surface temperature
below 2°C, preferably 1.5°C. Ratification of the Paris agreement also entitles it to avail the
financial and technological assistance to improve its adaptive capacity against adverse
implications of climate change. It equally sanctions its pursuit of economic growth and
struggle to eradicate poverty and ambitiously pursue goals of the Paris Agreement as
prescribed in Article 2 of the Agreement. Pakistan envisions to be among 25 economies by
2025. Sustainable development and eradication of poverty is prioritized with a promising
understanding that international assistance will help avoid reliance on dirty sources of
energy. Despite least responsible for climate change with its negligible contribution of 0.8%
emissions, Pakistan is among the top ten most vulnerable states to climate change. Climate
disasters and adverse impacts is understood to result in annual financial loss of $14billion,
much higher to the $1 billion from terrorism. Pakistan international obligations as a
responsible nation under the Paris agreement and huge national losses in terms of finance,
infrastructure and human life require its response towards climate change to be mainstreamed
into the main development frame. Pakistan National Climate Change Policy (2012) focused
on low carbon growth seeks climate change to be mainstreamed in the economically and
socially vulnerable sectors of the economy to actualize climate resilient development.
Termed another approach to sustainable development, climate resilient development
incorporates strategies and practices to reduce negative effects of climate changes by
enhancing adaptive capacity against climate disasters. Resilience and sustainable
development are the two sides to the coin of climate resilient development. Resilience is an
ability of a system to anticipate, reduce, accommodate and recover from disruptions in a
timely, efficient and fair manner; while, sustainable development highlights bridging
intergenerational and intra-generational equity gaps by judicially taking into account
economic, social and environmental needs. Realizing sustainable development would be a
farce dream if climate change threatens life sustaining services of the ecosystem. Therefore,
resilience, building adaptive capacity of the threatened ecosystem at the heart of sustainable
development. Climate resilient development combines adaptation and mitigation policies
234
with sound institutional support. Adaptation in order to effectively counter climate risks and
changes, and mitigation for materializing efficient production and consumption of energy,
relying much on clean and renewable energy resources. Climate resilient development with
adaptation at its core could not materialize sustainable development without addressing
structural deficits of development through alleviation of poverty, making it a very
comprehensive approach.
Pakistan is a developing state struggling against negative impacts of climate changes. For
actualizing climate resilient development it requires achieving the laid out objectives in its
National Climate Change Policy (2012). With serious negative repercussions in terms of
water, food and energy security, Pakistan rightly needed a comprehensive and inclusive
policy that demands to be mainstreamed in to the main development model. However,
realizing climate resilient development as mentioned needs policy goals and principles to be
translated into concrete achievable target. Most of the critics in their critiques question
presence of specific measures that can be quantified and assessed in light of the state’s march
towards the ideal of sustainable development. Equally significant is the issue of governance.
Environment was not placed at the rightful pedestal prior to the globalization of climate
change issue, domestic climate driven disasters and constraints, and challenges to
development. With centralized machinery, PEPA and its related sub-bodies were least
effective in mainstreaming environmental concerns in the policy and development frames.
Post 18th Amendment Pakistan is adjusting administratively in terms of responsibility and
accountability to issues like environment. Environment, a largely federal domain is now
exclusively placed under the provincial jurisdiction. How to support provincial governments
without fear of federal government encroaching on their jurisdiction; or, how to make them
accountable or mildly putting responsible for fulfilling the multilayer international
environmental agreements that the federal government has committed to are the looming
questions before the government. In view of these concerns, Pakistan’s parliament approved
Pakistan Climate Change Act, 2017. The act stipulates that climate change requires a national
level response and therefore proposes a strong Council headed by the Prime Minister
including key figures and ministers of the relevant departments, provincial Chief Ministers
and relevant ministers of the provinces. While the high-level composition of the council
would harmonize policy discourse and create the much required political and executive
235
support, the composition of the Authority, the second tier of the structure, consists of experts
providing the equally significant technical skill and professional insight. The presence of a
Climate Change Fund will keep the Authority independent of political interference and
strengthen its foundation. The presence of refined institutional structure is understood to
overcome issue of governance. However, the riddle still seems much complex. It is yet to be
seen how the council decision accommodate concerns of the provincial units, specifically of
the small ones. It is yet to be seen how decisions of the experts in the Authority would
prevail in case of conflict with the politically preferred policies and projects of the vested
interest at the cost of sound environment. It is yet to be assessed, how climate change Fund
earn credibility of the foreign and domestic donors.
As highlighted, global climate changes is a complex issue with much political storm and
stress. Pakistan’s sound policy would demand continued evaluation and revision in light of
the encountered exigencies and requirements at domestic and international fronts. As
signatory to Paris Climate Agreement, 2015, Pakistan aims to pursue climate resilient
development to contribute actualizing ambitious goal of keeping earth surface temperature
below 2°C. Sustainable development for its realization requires economic growth without
compromising ecological services provided by sound natural environment. Therefore,
resilience against climate extremes, enhancing adaptive capacity of the marginalized sections
of society and emissions reduction through clean energy options are at the root of Pakistan’s
climate policy. The goals, however, could be achieved with sound institutionalized approach.
The Pakistan Climate Change Act (2017) as mentioned attempts to streamline the
institutional incongruity created since 18th Amendment by providing a centralized inclusive
decision making based on sound expertise through its two bodies: Council and Authority.
However, effective adaptation needs strengthening local community by enriching their
understanding and their potential to counter negative impacts of climate change. The Federal
Ministry of Climate Change coordinates with the Provincial Ministry of Climate Change, but
the district/local bodies as postulated in the NCCP (2012) is not yet actualized. The
delegation of authority and resources form the center to the Provincial and the District/Local
level is much disputed. The enabling capacity, the response is required at the vulnerable local
sector. Pakistan needs to develop a sound INDC to highlight its limitations, its potential and
236
its prospective mitigation and adaptation goals in measurable specific targets to earn respect
of the international community for which climate change has become a mantra for
conscientiousness. Productive and efficient mitigation policy would not rely only on efficient
production and consumption of energy with more reliance on renewables, but also on
assessment and pricing of the existing carbon sinks in the form of forests. National Climate
Change Policy requires resolute, service oriented mature political leadership to materialize
itself into productive actions. From timber mafia to sporadic created sugar and flour crises,
the element of exploitation in Pakistan’s political economy seems undeniable. As policy aims
to transform various economic sectors and traditional methods of using natural resources, it
may encounter resistance from vested national and international interests groups. Therefore,
a visionary political leadership with an understanding of climate change as a security threat
multiplier could take firm stance against such systemic limitations.
237
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ANNEXURENOTABLE EVENTS OF THE INTERNATIONAL CLIMATE CHANGE REGIME
CONFERENCE DAT
E
ORGANIZER CONCLUSIONS AND PRINCIPAL
RECOMMENDATIONS
Villach Conference 1985 WMO &
UNEP
• Significant climate change highly
probable
• States should initiate considerations of
developing a global climate convention
Toronto Conference 1988 Canada • Global CO2 emissions should be cut by
20% by 2005
• States should develop comprehensive
framework convention on the law of the
atmosphere
UN General Assembly 1988 UN • Climate change a “common concern of
mankind”
Hague Summit 1989 Netherlands • Signatories will promote new
institutional authority to combat global
warming, involving non unanimous
decision making
Noordwijk greenhouse
Conference
1989 Netherlands • Industrialized countries should stabilize
gas emissions as soon as possible
• “Many” countries support stabilization of
emissions by 2000
282
IPCC First Assessment
Report
1990 WMO &
UNEP
• Global mean temperature likely to
increase by about 0.3°C per decade, under
business-as-usual emissions scenario
Second World Climate
Conference
1990 WMO &
UNEP
• Countries need to stabilize greenhouse
gas emissions
Developed states should establish
emission targets
UN General Assembly 1990 UN • Establishment of INC
UNCED Conference 1992 UNCED FCCC opened for signature
First Conference of
strengthen the Parties
1995 FCCC Berlin Mandate authorizing negotiations to
FCCC commitments
Second Conference 1996 FCCC • Geneva Ministerial Declaration of the
Parties
Third Conference of the
Parties
1997 FCCC • Kyoto Protocol
Fourth Conference of
the Parties
1998 FCCC Buenos Aires Plan of Action
Source: Bodansky (2001).
283
YEAR CLIMATE CHANGE
AGREEMENT/NAME
MAIN OBJECTIVES AND OUTSTANDING ISSUES
1992 Rio De Janeiro,
Argentina
First UN Conference on the Environment and Development
—Earth
Summit
Outcome : Framework Convention on Climate Change
( FCCC )
committing parties to reduce greenhouse emissions
1995 Berlin, Germany Parties to the UNFCCC outline specific targets on emissions
1997 Kyoto, Japan Kyoto Protocol adopted, December 11, 1997
Protocol started 2008
Agreed to the broad outlines of emission targets. Legally
binding commitments to Annex I parties
Pitted Europe against the USA
US Congress did not ratify the treaty after President Bill
Clinton signed it
The US Bush Administration explicitly rejected the Protocol
in 2001
2002: Russia and Canada ratify Kyoto Protocol, bringing
treaty into effect on February 16, 2005 , to contain emissions
from greenhouse gases in ways that reflect national
differences in emissions, wealth, and the capacity to make
reductions
2011 Canada became first signatory to withdraw
December 13, 2012, Kyoto Protocol expired (but on
December 8, 2012, at the end of the UN Climate Change
Conference agreement was reached to extend protocol to
2020 and set date of 2015 for the development of a successor
document). To be held in Paris in 2015
2009 Copenhagen, 18th Conference of the UNFCCC
284
Denmark Broke up without agreement on post-Kyoto Climate treaty
due to
conflict among major powers
Developing and developed countries would adopt parallel
nonbinding pledges to reduce emissions
Prime objective preventing global temperature rising more
than 2 °C
2010 Cancun, Mexico Adoption of specific pledges by countries for emission
reductions
Called for a $100 billion per annum Green Climate Fund and
a Climate Technology Centre and network, but the Green
Climate Fund not agreed upon
Established a process of monitoring and verifications and
that
mitigation efforts undertaken with domestic resources would
be
monitored domestically, while those undertaken with
international
resources would be monitored internationally
Reconfirmation to keeping to the 2 °C global temperature
rise
2012 Doha, Qatar UNFCCC met and the European Union pledged to extend
Kyoto binding on the 27 EU states up to 2020 pending an
internal ratification procedure
No global consensus on emissions reached
Language on loss and damage formalized for the first time in
conference documents
Little progress made to funding the Green Climate Fund
Final communiqué committed to finalizing post-Kyoto treaty
to be held in Paris in 2015, with the new treaty to take effect
in 2020
285
As of May 2013, 191 countries have ratified Kyoto
agreement
2014 Lima, Peru UN Climate Change Conference
All countries asked to submit plans for curbing greenhouse
emissions known as Intended Nationally Determined
Contributions (INDCs) to the United Nations by March 31,
2015, as a core document for the Paris 2015 deal
No review to compare each nation’s pledges after China
refused
Donation to Green Climate Fund reached $10 billion
Cutting greenhouse gas emissions to net zero by 2050
Source: Ramady & Mahdi, 2015
286
NEGATIVE CLIMATE IMPACTS WITNESSED IN PAKISTAN
YEAR WITNESSED IMPACTS
2013 Flash floods affected nearly 1.5 million people, almost 80,000 houses, and
1.5 million acres of crops. 234 people were killed. More than 4,100 people
were housed in 408 relief camps
2012 Floods affected 5 million people, 14,270 villages and 1.1 million acres of
crops. Almost 270,000 people were housed in 478 relief camps. More than
465,000 houses were damaged
2011 Floods in Pakistan’s southern province of Sind affected 22 out of 23 districts
claiming 500 lives. Nearly 2.2 million ha cropland was damaged and 72 % of
crops were lost in the worst affected areas. 1.6 million homes were destroyed
2010 Monsoon rainfall of 300 mm over a 36-h period resulted in swelling of rivers
and caused the history’s worst flood in Pakistan. The unprecedented flood
submerged 20 % of the country’s area
2009 Karachi received 205 mm of rain at Masroor Airbase and 143 mm at Airport
on 18th and 19th July. The previous heaviest rainfall recorded at Karachi
Airport was 207 mm on 1st July 1977. Normal rainfall at Karachi Airport for
the periods 1961–1990 and 1971–2000 was 85.5 mm and 66.2 mm
respectively
2007 A record heat wave gripped Pakistan during June 2007. The temperature
reached 48 °C on 9th June at Lahore, repeating the record of 78 years earlier
on 8th June 1929
2007 Two super cyclones Gonu (02A) of Cat-5 and Yemyin (03B) of Cat-1
developed in the Arabian Sea during June 2007 and hit Makran coast of
Pakistan and adjoining countries. Not ever before two such events occurred
in the same month in the Arabian Sea
2006 Monsoon-related flooding in Pakistan resulted in more than 185 deaths
287
between late July and mid-August 2006. In neighbouring eastern
Afghanistan, heavy rainfall generated flooding that claimed at least 35 lives
2005 Heavy rain caused flooding in parts of Balochistan, Khyber Pakhtunkhwa and
Afghanistan during March. There were more than 30 fatalities in south-
western Pakistan
2005 During June, unusually warm temperatures in the mountainous areas of
northern Pakistan occurred, accelerating snowmelt and causing extensive
flooding along the Kabul, Swat, Kunar and Chitral rivers
2003 Heavy rain and snow produced flooding during February (around 17th) and
was responsible for more than 60 deaths in Balochistan province. Flash
floods washed away parts of roads and highways
2003 Seasonal monsoon rains affected at least one million people in southern
Pakistan. Heavy rains caused 162 deaths, 153 in the Sind province
2003 During early June, a heat wave caused maximum temperatures to reach 52°C
at Jacobabad on the 5th of June; normal highs in early June are around 44 °C
2001 621 mm rainfall in Islamabad during 10 h period on 23rd July; it caused
flooding in Lai Nullah (rivulet)
1998-2001 History’s worst drought gripped southern parts of Pakistan and parts of
surrounding countries
Source: M.A. Khan, 2015
288