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Environmental Appraisal
Environmental appraisal is the term used to describe the assessment of the environmental consequences of proposed policies, plans, programs, or projects.
The objective of environmental appraisal is to determine and evaluate the environmental implications of development and thus, ensuring sustainable development through the integration of environmental, social and economic objectives into the policy and planning process.
Both Environmental Impact Assessment (EIA) and Strategic Environmental Assessment (SEA) are tools which can assist in the achievement of sustainable development and sustainable use of resources.
Environmental Parameters
Environmental parameters consist of components of environment and can be grouped into major components.
Ecology
Aquatic Terrestrial Fisheries Eutrophication Aquatic Weeds Species Diversity Endangered Species
Forest Wildlife Species Diversity Endangered Species
Physico-Chemical
LandGroundwater
Erosion and Siltation Backwater Effect Bank Stability Drainage Soil characteristics
Regional Hydrology Recharge Water Table Water Pollution
Surface Water Atmosphere
Regional HydrologySilt LoadWater Pollution
Air PollutionDust PollutionNoise Pollution
Human Interest
Aesthetic
Socio-Economic
Diseases Sanitation Nutrition
Land Loss Crop Production Aquaculture Irrigation Navigation Flood Control Transport Re-settlement Employment Agro-Industrial
Health
LandscapeRecreation
Ecological Impact: Road Project
Fisheries: (-) Roads prevent longitudinal and lateral
migration of fishes in the flood plain (-) Obstruct movement of fishes onto natural
feeding and breeding grounds in the flood plain.
Forest: (-) Roads running through forest area and
plantations may be the cause of destruction of trees in the forest and alteration of ecology of the forest
Ecological Impact: Road Project Plantation:
(+) The roadsides may be used for plantation of trees which is favorable impact of road construction.
Wetland and Wetland Habitant: (-) The road may encroach wetlands which may
alter the ecology of wetlands and may cause destruction of wetland habitat.
Nuisance Plant/Eutrophication: (-) The Roads running through forest area and
plantations may be the cause of destruction of trees in the forest and alteration of ecology of the forest.
Physico-Chemical Impact: Road Project
Erosion and Siltation (-) causes erosion during flood and siltation in
the downstream. Drainage Congestion /Water logging
(-) roads interfere with cross drainage and can cause flooding or drainage congestion in adjacent areas during periods of high precipitation.
(-) May cause crop damage, water pollution and breeding of mosquitoes.
Physico-Chemical Impact: Road Project
Regional Hydrology/Flooding (-) Roads constructed across flood plains
perpendicular to the direction of water flow cause back water effect and increase duration, frequency and extent of flooding in the up stream.
Obstruction to Waste water flow (-) Roads may obstruct the drainage of sewage
and industrial waste water loading to serious pollution problem.
Dust /Noise Pollution (-) Dust raised from unpaved rural roads and
blown by the vehicles can pose a health hazard and damage vegetation along the sides of the road.
Impact on Human Interest: Road Project
Loss of Agricultural Lands (-) Construction of any road is associated with
the loss of agricultural lands. Generation of Employment Opportunities
(+) Construction of road generates temporary employment during project implementation and permanent employment during maintenance phase.
Navigation and Boat Communication (-) Roads interference with navigation and boat
communication at least for certain period of the year.
Impact on Human Interest: Road Project
Commercial and Service Facilities (+) The thana roads provide benefit of fast
communication, transport facilities etc. Industrial Activities
(+) Road communication promotes industrial activities.
Irrigation Facilities (+) Borrow-pits by the side of the roads
provide facility for small scale irrigation. Landscape
(-) Scattered borrow pits, unauthorized growth around road , erosion result in marred landscape.
Environmental Event
Action Impact Mitigation Measures
Loss Fish Breeding
Loss of breading, nursery and feeding ground in flood plain.
• Reduction in fish protein consumption.
• Unemployment of fisherman.
• Allow controlled flooding.
• Compensate the loss by fish culture.
Obstruction to Fish
Obstruction to mitigation of fish.
Same Provide adequate opening in roads and embankments along routes of fish migration.
Pesticide Reproduction failure and destruction of fish by uncontrolled use of pesticide.
Same Adopt Integrated Pest Management (IPM) for pest control.
Prevent Drainage from agriculture land from reaching water bodies.
Drying Wetland
Drying up of the wetlands for agriculture purpose and destruction of habitat for fish, birds, amphibians etc.
Reduction in fishery. Elimination of
species of fish, birds, amphibians etc.
Disruption of wetland ecology.
Avoid complete drying up of wetlands and swamp land.
Restore alternative habitat for endangered species.
Environmental Event
Action Impact Mitigation Measures
Cutting Trees
Clearing of forest lands and cutting of trees within the right-of-way of the road.
Reduction if forest cover.
Reduction in forest products.
Disruption of forest ecology.
Find alternative route to avoid forest through planning exercise.
Replace the trees by plantation along road sides.
Nuisance Plants
Spreading of nuisance plants from borrow pit.
Damage crops during flood.
Incorporate destruction of such plants in maintenance program.
Convert the plants into a compost for application as a soil conditioner/manure.
Pollution from Drainage
Discharge nutrient enriched agricultural land drainage in surface water.
Causes eutrophication and surface water pollution.
Makes the water unsuitable for beneficial uses.
Destroys aquatic environment.
Prevent agricultural land drainage from reaching surface water.
Water Pollution
Reaching residues of pesticides in surface and groundwater from agricultural lands.
Cause water pollution.
Contaminates sources of water supply.
Pesticides residues accumulate in bio-mass.
Reduce use of pesticides through IPM.
Prevent agricultural land drainage from reaching surface water.
Environmental Event
Action Impact Mitigation Measures
Erosion and Siltation
Erosion of road and embankment surfaces and sides, road openings, bed and banks of rivers/canals subsequent siltation in downstream.
Cause damage to road and embankment.
Affect stability of road/embankment and their structures.
Increases turbidity of water.
Siltation of canal bed and agricultural lands.
Select appropriate soil for road and embankment construction.
Compact the road materials properly.
Provide proper slope for surface drainage and vegetation cover.
Provide adequate opening for discharge of flood and accumulated rain water.
Drainage Congestions or Water Logging
Drainage congestion and water logging.
Crop Damage and loss of agricultural lands.
Cause water pollution.
Provide ground for mosquito breeding.
Provide adequate opening for drainage.
Provide facilities for pumping of congested water.
Regional Hydrology
Disruption of regional hydrology through obstruction of flood flow.
Back water effects due to constructions across flood plains.
Increase duration, severity and frequency of flood.
Changes flooding pattern and ground water recharge.
Avoid road construction across the flood plain in the direction perpendicular to flood flow.
Provide adequate opening for flood flow.
Environmental Event
Action Impact Mitigation Measures
Backflow Backflow of water through drainage canals.
Causes early flooding. Install regulator to control inflow and outflow through drainage canal.
Obstruction to Waste Water
Obstruction to waste water flow by roads and embankments.
Creates water pollution.
Deteriorates quality of environment.
Provide drainage structure. Install pumping facilities. Install treatment plant for waste
water treatment.
Dust Blowing Dust blowing from unpaved roads during construction and movement of vehicles.
Health hazards due to dust pollution.
Damage to vegetation and trees along the road.
Control moisture content during construction by watering.
Stabilize road surface with a suitable stabilizer.
Increase vegetation cover on road surface and slopes.
Polluted Irrigation Water
Use of irrigation water with high and imbalanced salt content.
Increases soil salinity and alkanity/acidity.
Alteration of soil texture and permeability.
Affects soil fertility.
Use surface water where available.
Conduct chemical analysis of ground water before use and select the aquifer producing good quality water.
Determine salinity of surface water in coastal areas before use as irrigation water.
Contaminated Irrigation Water
Use of irrigation water with high iron content.
Impart reddish color to top soil.
Changes soil texture and permeability.
Look for an alternative water source, the right strata producing water with low iron content.
Detain the aerated water in a reservoir canal before application in the field.
Environmental Event
Action Impact Mitigation Measures
Loss of Land Loss of agricultural land.
Deprives a group of farmers of their means of living.
Increases landlessness in the area.
Reduces employment in agriculture.
Affects agricultural production.
Plan the project to avoid fertile agricultural land.
Rehabilitate the affected people. Generate employment
opportunities in other activities.
Obstruction to Navigation
Obstruction to navigation and plying of boat.
Disruption of cheap mode of transportation.
Adverse effects on communication.
Provides openings at major routes and construct road structures leaving adequate clearance above high flood level for plying of boats.
Land Ownership Pattern
Change in land ownership pattern within project area.
Inequitable distribution of project benefits.
Regulation of land ownership transfer in the project area.
Inadequate Landscape
Inadequate considerations to land use and landscape.
Landscape disfiguration by irregular borrow pits, deep cuts, fills, unplanned growth of shops, and other services.
Replant disfigured surfaces. Use a design to blend with
landscape. Prevent unplanned construction
and unauthorized uses of roads and embankments.
Environmental Impact Assessment
Environmental Impact Assessment (EIA) is defined as the process of evaluating the direct and indirect environmental and social implications of a proposed development project.
The International Association for Impact Assessment (IAIA) defines an environmental impact assessment as "the process of identifying, predicting, evaluating and mitigating the biophysical, social, and other relevant effects of development proposals prior to major decisions being taken and commitments made."
What is an Impact?
In “Environmental Impact Assessment”, the term “Impact” is used instead of “Effect”.
The Impact of an activity is a deviation (a change) from the baseline situation that is caused by the activity.
The “Baseline Situation” is the existing environmental situation or condition in the absence of the activity.
Reasons for using EIA EIA has been developed as a result of the
failure of traditional project appraisal techniques to account for environmental impacts.
Projects designed and constructed in isolation from any consideration of their impacts on the environment have resulted in:• Higher costs,• Failure of projects,• Significant environmental change, and• Negative social effects
Essential Elements
• Identification of possible positive or negative impacts of the project.
• Quantifying impacts with respect to common base.
• Preparation of mitigation plan to offset the negative impacts.
Steps in the EIA Process
1. Screening- • Determination of the nature and
magnitude of the proposed project’s potential environmental and social impacts.
• Classification of EIAs.• Deciding upon the nature and extent of
the EIA to be carried out.
Steps in the EIA Process
2. Scoping-• Identification of key issues and development
of the Terms of Reference (TOR) for the EIA once a project is categorized.
• Defining the project’s area of influence.3. Impact Identification-• Projection of the future state of the valued
environmental and community resources within the vicinity of the proposed project.
• Formulation of a series of environmental design objectives to aid both the EIA and project design process.
Steps in the EIA Process
4. Impact Prediction-• Forecast of the potential effects in terms of-
• Magnitude, • The affected feature/resource/population, • Action causing the effect, • Timescale and duration of the effect, • Level of uncertainty in the forecast, • Proposed mitigation/enhancement measures, • Significance
• The effects must be recorded in terms of-• Short term /Long term• Direct/Indirect/Synergistic• Cumulative/Increase/Reduce with time
Steps in the EIA Process5. Mitigation and Enhancement- Identification of mitigation and enhancement
measures that reduces project costs and community costs.
Measures should be capable of being delivered in a cost effective manner.
6. Reporting- The EIS should report the following-
Environmental objectives and policy context Existing environmental situation A description of the project An assessment of the effects of the project An environmental action plan or management plan A summary of the effects and recommendations
Steps in the EIA ProcessEnvironmental Management Plan (EMP) An Environmental Management Plan (EMP) sets out the
actions for monitoring and evaluation of the project during implementation or construction and operation. Its content will include:
• Mitigation measures to minimize adverse impacts• Measures to enhance environmental benefits• Identified risks and uncertainties• Institutional support required for effective monitoring• Monitoring and auditing program details• Environmental legislations and standards which apply• Resources, funds, contractual and management
arrangements
Steps in the EIA Process
Environmental Audit/ Evaluation An environmental evaluation is increasingly
undertaken to-• confirm that the performance of the project
conforms to the specification and environmental performance standards specified in funding arrangements
• examine the EMP and review the monitoring data in order to reveal scope for improvements
Methods of Assessment Environmental Impact Value
Vi = Relative change of the environmental quality of parameters
Wi= Relative importance or weight or parameter N = total number of environmental parameters
n
iii WVEIV
1
)(
Quantification of Environmental Impact
Changes of environmental parameters Severe (+5 or -5) Higher (+4 or -4) Moderate (+3 or -3) Low (+2 or -2) Very Low (+1 or -1) No change (0)
0 1 2 3 4 5
No change
Very low
Low
Moderate
Higher
Severe
Relative importance of Environmental Parameters
All parameters are not of equal importance or weight.
It varies from country to country In Bangladesh flood, employment,
agriculture, fisheries carry more importance.
In next slide, a summary of relative importance of parameters for a particular Road project is presented.
ENVIRONMENTAL PARAMETERS Relative Importance Value
Degree of Impact
EIV
I. ECOLOGICAL
Fisheries
Forest
Tree Plantation
Wetland/Wetland Habitant
Nuisance Plant/Eutrophication
II. PHYSICO-CHEMICAL
Erosion and Siltation
Regional Hydrology/Flooding
Drainage Congestion/Water logging
Obstruction to Waste Water Flow
Dust Pollution/Noise Pollution
10
5
2
4
1
2
6
5
3
2
-2
0
+1
0
-1
-1
-1
-1
0
0
-19
-13
ENVIRONMENTAL PARAMETERS Relative Importance Value
Degree of Impact
EIV
III. HUMAN INTEREST
Loss of Agricultural Lands
Employment Opportunities
Navigation/Boat Communication
Commercial and Service Facilities
Industrial Activities
Irrigation Facilities
Landscape
Total Environmental Impact Value
8
8
3
6
3
2
2
+3
+4
-3
+3
+2
+3
-1
+27
-5
Potential Impacts on Environment A change in system exerts certain
influence on many different environmental parameters resulting a net positive or negative impact on the environment.
Impact on major Infrastructure development projects such as: Road projectsRoad projects Irrigation schemes Drainage and embankment projects
The Equator Principle The Equator Principles (EPs) are a credit risk
management framework for determining, assessing and managing environmental and social risk in project finance transactions.
The EPs are primarily intended to provide a minimum standard for due diligence to support responsible risk decision-making.
The EPs are based on the International Finance Corporation (IFC) Performance Standards on social and environmental sustainability and on the World Bank Group Environmental, Health, and Safety Guidelines (EHS Guidelines)
Objective
THE EQUATOR PRINCIPLES PROVIDE A FRAMEWORK FOR BANKS TO MANAGE ENVIRONMENTAL AND SOCIAL ISSUES IN PROJECT FINANCE.
Background
IFC asked to convene a meeting of banks to discuss “the problem” (October 2002)
From denial to acceptance in a few hours Working group formed to explore options
(ABN Amro, Barclays, Citigroup, WestLB, IFC)
Proposal presented (February 2003) Consultations with clients and NGOs Agreement to move to adoption and development of timetable
(April 2003) June 4, 2003: 10 banks announce adoption of Equator Principles at
IFC headquarters, Washington, DC First Released in 2003, subsequently revised in 2006 Adopted by over 40 Financing Institutions during a Three Year
Implementation Period.
The New Industry Standard 10 banks from 7 countries:
ABN AMRO, Barclays, Citigroup, Credit Lyonnais, CSFB, HVB Group, Rabobank, Royal Bank of Scotland, West LB, Westpac
10 more banks from 5 more countries have joined: ING, Royal Bank of Canada, MCC of Italy,
Dresdner,HSBC, Dexia, Standard Chartered, Mizuho, KBC
20 Equator banks arranged over 78% of project finance market through October 2003 (Dealogic ProjectWare).
More are coming!
Application
Projects with total capital cost of $50 million or more
All industries Environmental risk categorization &
industry standards apply globally. Safeguard Policies apply to low and middle income countries (as defined by the World Bank).
Capacity: Training Available from IFC for Equator Banks
Executive Briefing: Half day-analysis of E&S risks, understanding of the Equator framework.• Target Audience: Senior management and
those requiring a general awareness.
• Equator Implementation for Project Finance: Two days- program focused on practical implementation-categorization, client analysis, EA design.• Target Audience: Frontline PF staff responsible
for implementation.
Benefits of the Equator Principles A global standard. Easier to navigate than the
multiple requirements currently in place. Save borrowers time and money on sensitive
projects Implementation is, over time, expected to raise
global environmental and social performance Reduce “loan-shopping” based on
environmental and social criteria Better information for banks to make decisions Provide basis for stakeholder engagement Expedite consensus-reaching among banks in
large loan syndications
Criticisms of the Equator Principles
Lack of proper enforcement, accountability and transparency
Prevalence of free-riders and hypocrisy
Policy vacuum amongst banks on vital EP issues
Limited awareness and training
Lack of expertise on social assessment
Lender knowingly permitting pollution
Lack of awareness as to who are the reputable experts in these
areas
Lack of objectivity on the part of sponsors and their
consultants and advisers in carrying out due diligence on
behalf of sponsors and lenders
Criticisms of the Equator Principles
Stabilisation clauses in host country and intergovernmental
agreements
Omission of differences in environmental, social and
governance standards
Circumvention of EP by using other forms of finance or self-
finance followed by general borrowing to meet general debt
or expenditure
Legal challenges in multiple legal forum: Human Rights
Commission, IFC CAO, national courts, US courts
Scope of EP is limited to project finance only
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