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Integrated National and Regional Approaches to
Climate-Smart Agriculture in the Caribbean
Brussels, 27 September 2012
Carlos FullerInternational and Regional Liaison
Officer
The Caribbean Community Climate Change Centre
• Endorsed by the CARICOM Heads of Government in July 2002
• An intergovernmental specialized agency of CARICOM with an independent management that is guided by
The CARICOM Council of Trade and Economic Development (COTED) on policy matters.
A board of directors with responsibility for strategic planning.
A technical secretariat headed by an Executive Director with responsibility for tactical planning.
• The Centre is mandated to coordinate the regional response to climate change and its efforts to manage and adapt to its projected impacts.
• The Centre possesses full juridical personality.
• Financially independent
Development of theDevelopment of the Centre started in Centre started in January 2004January 2004
Centre became fullyCentre became fully operational operational July 2005July 2005
Located in Located in Belmopan, BelizeBelmopan, Belize
Members● Antigua and Barbuda
● Bahamas
● Barbados
● Belize
● Dominica
● Grenada
● Guyana
● Haiti
● Jamaica
● Suriname
● Saint Lucia
● St. Kitts and Nevis
● St. Vincent & the Grenadines
● Trinidad and Tobago
Functional Organogram
INTERNATIONAL COLLABORATING INSTITUTIONS
OTHER CARICOM SUPPORTING INSTITUTIONS
UNIVERSITY OF THE WEST INDIES
CARIBBEAN ENVIRONMENTAL HEALTH INSTITUTE
CARIBBEAN DISASTER EMERGENCY RESPONSE AGENCY
CARIBBEAN AGRICULTURALRESEARCH AND DEVELOPMENT INSTITUTE
CARIBBEAN INSTITUTE OFMETEOROLOGY AND HYDROLOGY
TECHNICAL SECRETARIAT
The Centre coordinates the regionalresponse to climate change and is thekey node on climate change issues andthe Caribbean's efforts to manage and
adapt to climate change
CUBA INSTITUTE OF METEOROLOGY
JAPAN INSTITUTE OF METEOROLOGY
POTSDAM INSTITUTEFOR CLIMATE IMPACT STUDIES
UNIVERSITY OFLOUISVILLE
FLORIDA INTERNATIONAL UNIVERSITY
UK MET SERVICEHADLEY CENTRE
UN INSTITUTE FORTRAINING & RESEARCH
UNIVERSITY OF BELIZE
MACC Project
● 2004 – 2008● GEF Funded● Implemented by the World Bank● Executed by CARICOM Secretariat and CCCCC● Regional and pilot components● Climate Modelling● Vulnerability Assessments and Policy Interventions
Pilot vulnerability assessment in agriculture in Guyana
Rice, sugar & livestock
Modeling Activities
• The GCM’s resolution of 300 km cannot resolve the small islands of the Caribbean.
• The Centre is collaborating with other institutions in the use of downscaling regional models (25 & 50 km resolutions) to look at future climate scenarios.
• Collaborating Institutions include:
– Hadley Centre – University of the West Indies– INSMET in Cuba– CATHALAC in Panama
Belize: Sept 25-29, 2006
Cuba: Dec 4 – 10, 2006
Network of Downscaling Activities
Caribbean Community Climate Change Centre
Cuban Institute of Meteorology (INSMET)
University of the West Indies – Mona (Jamaica)
University of the West Indies – Cave Hill (Barbados)
CATHALC - Panama
University of the West Indies – St. Augustine (Trinidad and Tobago)
(25 km)
No.
Driving conditions
Domain Resolution Period
GHG Scenario
LBCs Data
1 ERA15 Big Caribbean 50 km 1979-1983
2 ERA40 Big Caribbean 50 km 1979-1993
3 HadAM3H Big Caribbean 50 km 1961-
1990
4 SRES A2 HadAM3H Big Caribbean 50 km 2071-
2100
5 SRES B2 HadAM3H Big Caribbean 50 km 2071-
2100
6 SRES A2 ECHAM4 Big Caribbean 50 km 1961-2100
7 SRES B2 ECHAM4 Big Caribbean 50 km 1961-2100
8 SRES A2 ECHAM4 Eastern Caribbean 25 km 1961-
2100
9 SRES B2 ECHAM4 Eastern Caribbean 25 km 1961-
2100
10 SRES A2 ECHAM4 Western Caribbean 25 km 1961-
2100
11 SRES B2 ECHAM4 Western Caribbean 25 km 1961-
2100
Examples of Experiments Completed
Mean changes in the annual surface temperature for 2071-2099 period
ECHAM 4 – B2
ECHAM 4- A2 HADCM3 – A2
HADCM3 – B2
Annual mean changes in precipitation (%) for
2071-2099
ECHAM4 – A2
ECHAM4 – B2
HADCM3 – A2
HADCM3 – B2
● Funded by Commonwealth Secretariat, the sub-regional office of the Food and Agriculture Organization (FAO) in Barbados and UNDP’s Caribbean Risk Management Initiative (CRMI)
Biophysical principles
GCMs
PRECIS/HADCM3
MagicC/Scengen
WOFOST (4.1&7.1.2)
DSSAT
Held at the University of Guyana utilizing a “Hands on Approach”
Approximately 40 participants from 17 countries
Outputs of the Workshop
● Workbook on Climate Change Impact Assessment in Agriculture – Roger E. Rivero Vega, April 2008
● Vulnerability assessment of sugar and citrus sectors for Belize’s Second National Communication to the UNFCCC
● Vulnerability assessment and national adaptation strategy in the agriculture sector for Guyana (MACC Project)
● Prepared by Guysuco
● Methodology developed by NOAA (Pulwarty, 2004)
Vulnerability Studies on Agriculture in Belize
● 2008● PRECIS, DSSAT4 and Cropwat● Sugarcane and Citrus● 2028 & 2050● 1 & 2.5°C rise in temp● ± 12 & 20% change in precipitation● Result: 12-17% decline in yields for sugarcane● Result: 3 – 5% decline in yields for citrus
Workshop on Use of Biophysical Models for Climate Impact Studies in
Agriculture● Objective: Train agricultural professional staff of
CARDI● Funded by UNITAR● Facilitated by staff from INSMET (Cuba)● Approximately 25 staff from 13 Member States
attended● Held in Trinidad and Tobago from 17 – 28 August
2009● Resource material: “Workbook of Climate Change
Impacts Assessments in Agriculture”
Next Regional CCCCC Activity with CARDI: Installation of Automatic Weather Stations in10 CARDI research plots in the Caribbean
Introduction of Irrigation to Milton, Dominica
● Pilot component of SPACC● Objective: Establish a pilot project to inform and encourage
adaptation measures to changing climatic conditions among farmers /producers with a consistent and reliable supply of water through the implementation of an irrigation system
● Area extensively cultivated with citrus intercropped with other cash crops such as yams, pineapples, plantains, dasheen and vegetables
● Introduction of protected agriculture within the area and in other areas in the country has begun to demonstrate the usefulness of this approach in removing the uncertainty associated in predicting production seasons
Milton Irrigation Scheme● Modification of the cropping environment
requires that key inputs such as water, be readily available in sufficient quantities, to be applied to the plant when required. Thus, irrigation system is viewed as being a very important to in maintaining food security within the current changes in climate
● The propose irrigation scheme is intended to serve 20 Ha of agricultural land in the Milton area which presently receives 100% of their crop water requirement from rainfall.
Milton Irrigation Scheme
● If 50% the total acreage to be irrigated is to be cultivated with Bananas then based on an average area yield of 9 tonnes per acre, the provision of irrigation would cause an increase of an additional 2 tonnes per acre i.e. an additional 50 tonnes.
● This would have significant impact on the level of production nationally and the viability of the Fair-trade Banana Industry.
Developments
● July 2009 in Guyana: Regional Heads of Government approved the “Regional Framework for Achieving Development Resilient to Climate Change”
● March 2012 in Suriname: Regional Heads approved the Implementation Plan Strategic approach for coping with climate change
for the period 2011-2021
Implementation Plan● Liliendaal Declaration provides the vision of
transformational change in our response to the challenges of a changing climate
● Drives the Regional Framework’s Five Strategic Elements and 20 nested goals
● Element 4: Promote Actions to Reduce the Vulnerability of Natural and Human Systems to the Impacts of a Changing Climate
● Resource mobilization to meet the challenge through the “Three Ones” Principle One plan, one coordinating mechanism, one M&E system
Sectors Identified in the Regional Framework
Actions to: Limit the effects of climate change on agriculture
and food security ● Develop and identify drought and flood-resistant and salt
and temperature tolerant varieties of staple and commercial crops drawing upon local and indigenous knowledge for commercial use by 2017
● Expand extension and support services for farmers● Research and introduce indigenous and other breeds of
cattle, pigs, goats and poultry that are heat tolerant and more fed efficient for commercial meat, milk and egg production by 2020
● Develop and make available to farmers grass, grain and forage legume species to support the production of meat, milk and eggs
Actions (continued)
● Develop and promote new and alternative food supplies and/or sustainable production systems including sustainable land management
● Implement fiscal and other policies and incentives to allow farmers and the private sector to invest in agriculture and food production in the region, without infringement of international trade regulations
● Regional public education, awareness and outreach on food, nutrition and health in the context of climate change; and create an enabling environment to facilitate behavioral change via fiscal incentives, etc.
Actions (continued)● Develop and implement strategies to secure, store and distribute
food supplies and germplasm, particularly for use during low production periods and at times of natural and other disasters
● Develop and institutionalize infrastructure and logistics to support post-harvest handling, transportation, distribution and marketing of food within and amongst individual countries, based on needs and local conditions
● Regional and emergency preparedness institutions to become an integral part of the climate change adaptation response strategy
● Develop and implement policies and other measures to promote investment in the processing of agricultural products, to add value and variety to output for food and other uses