From climate information to climate impacts on agriculture and food security
Transcript of From climate information to climate impacts on agriculture and food security
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From climate information to to climate impacts on agriculture and
food security
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Evidence-base to support NAP
• Evidence about what have been happening to climate and agriculture in the country: impacts, risks, vulnerabilities (B.1 and B.2)
• Evidence about what is expected to happen in the future: impacts, risks, vulnerabilities (B.1 and B.2)
• Evidence about identification and appraisals of adaptation practices (B.3)
• Evidence about effectiveness of adaptation interventions
--> Different methodologies/approaches/models for strengthening each evidence.
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Evidence about past and future• What are we trying to adapt to?
• Looking at climate from agriculture perspective
• Forms bases for NAP - justify projects / programmes / investments, prioritize areas and sub-sectors for interventions
• Provide counterfactuals/baseline for tracking adaptation
• Adaptation planning – iterative process with periodical review of new evidence, science, and outcomes form adaptation activities
• Country ownership, capacities
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Evidence about past: Dry-spells during Reproduction
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Number of dry-spells during the reproductive period of the 120-day and 90-day growing season
120-day Maize
1965 1970 1975 1980 1985 1990 1995 2000 2005 20100
0.5
1
1.5
2
2.5
3Number of dry spells in reproductive (120) period (trend=0.02, pval=0.01)
90-day Maize
1965 1970 1975 1980 1985 1990 1995 2000 2005 20100
0.5
1
1.5
2
2.5
3Number of dry spells in reproductive (90) period (trend=−0.02, pval=0.02)
Chitedze
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What information do you need?• Parameters to define types of
information/evidence
– Biophysical/geophysical/socioeconomic/economic, etc
– Quantitative/qualitative
– Sub-sectors (crops, pasture, livestock, fisheries, forest, economy, market, water, etc)
– Spatial scale (global, regional, national, sub-national, local)
– Temporal scales (intra-seasonal, seasonal, a few yrs, 10, 30, 50, 100 yrs, centuries)
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Top-down and bottom-up
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MOSAICC
• A capacity development tool
• Integrated modeling system for inter-disciplinary assessments
• National and sub-national scales, medium- to long-term
Downscaled climate projections under
various climate scenarios
Crop yield projections
under climate scenarios
Simulation of the country’s hydrology
and estimation of water resources
Economic impact and analysis of
policy response at national level
Forest productivity
changes under climate scenarios
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Precipitation projections for SE Asia
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A regional agriculture impact example:Average change in rice yield in Asia
Masutomi et al., 2009
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National scale with sub-national disaggregation – rainfall projection
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Rainfed rice yield change 2011-2040 vs 1971-2000
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Peru – corn yield projection
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Conclusion
• Define what evidences/information are necessary to support NAP
• Identify information gaps
• Choose methodology that can fill the gaps
• Data availability and quality – lack of data can be complemented by global dataset (to some extent)
• Other sub-sectors than crops – livestock, fisheries, forestry, and to food security
• Strengthening country capacities
• Addressing uncertainties
• Validation against local knowledge and perception