Crop Selection : Adapting to Climage Change in Africa

Kurukulasuriya, Pradeep; Mendelsohn, Robert

Crop Selection : Adapting to Climage Change in Africa

This paper examines whether the choice of crops is affected by climate in Africa. Using a multinomial logit model, the paper regresses crop choice on climate, soils, and other factors. The model is estimated using a sample of more than 7,000 farmers across 11 countries in Africa. The study finds that crop choice is very climate sensitive. For example, farmers select sorghum and maize-millet in the cooler regions of Africa; maize-beans, maize-groundnut, and maize in moderately warm regions' and cowpea, cowpea-sorghum, and millet-groundnut in hot regions. Further, farmers choose sorghum, and millet-groundnut when conditions are dry; cowpea, cowpea-sorghum, maize-millet, and maize when medium wet; and maize-beans and maize-groundnut when wet. As temperatures warm, farmers will shift toward more heat tolerant crops. Depending on whether precipitation increases or decreases, farmers will also shift toward drought tolerant or water loving crops, respectively. There are several policy relevant conclusions to draw from this study. First, farmers will adapt to climate change by switching crops. Second, global warming impact studies cannot assume crop choice is exogenous. Third, this study only examines choices across current crops. Future farmers may well have more choices. There is an important role for agronomic research in developing new varieties more suited for higher temperatures. Future farmers may have even better adaptation alternatives with an expanded set of crop choices specifically targeted at higher temperatures.

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Bibliographic Details
Main Authors:	Kurukulasuriya, Pradeep, Mendelsohn, Robert
Language:	English
Published:	World Bank, Washington, DC 2007-08
Subjects:	ACCESS TO ELECTRICITY, AGRICULTURE, AGRONOMY, AVAILABILITY OF SEED, BEANS, CHOICE OF CROPS, CLIMATE, CLIMATE CHANGE, CLIMATE CHANGE ADAPTATION, CLIMATE CHANGE RESEARCH, CLIMATE CHANGES, CLIMATE SENSITIVITY, CLIMATE VARIABLES, CLIMATE ZONES, CLOUDS, COTTON, CROP, CROPLAND, DROUGHT, ECOLOGICAL ZONES, ELECTRICITY, FAO, FARM, FARMER, FARMERS, FARMING, FARMLAND, FARMS, FIELD CROPS, FORESTRY, GLOBAL WARMING, GRAINS, GREENHOUSE GASES, GROUNDNUT, HYDROLOGY, IRRIGATION, MAIZE, MILLET, PRECIPITATION, RAINFALL, RICE, RUNOFF, SATELLITES, SINGLE CROP, SOIL, SOIL TYPE, SOIL TYPES, SOILS, SORGHUM, SPRING, SUGARCANE, SUPPORT CROPS, SURFACE TEMPERATURE, TEMPERATURE, TEMPERATURE CHANGES, TEMPERATURE DATA, WATER MANAGEMENT, WEATHER, WHEAT, WORLD FOOD SUPPLY,
Online Access:	http://documents.worldbank.org/curated/en/2007/08/8044309/crop-selection-adapting-climage-change-africa https://hdl.handle.net/10986/7506
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spelling	dig-okr-1098675062024-08-08T16:55:38Z Crop Selection : Adapting to Climage Change in Africa Kurukulasuriya, Pradeep Mendelsohn, Robert ACCESS TO ELECTRICITY AGRICULTURE AGRONOMY AVAILABILITY OF SEED BEANS CHOICE OF CROPS CLIMATE CLIMATE CHANGE CLIMATE CHANGE ADAPTATION CLIMATE CHANGE RESEARCH CLIMATE CHANGES CLIMATE SENSITIVITY CLIMATE VARIABLES CLIMATE ZONES CLOUDS COTTON CROP CROPLAND DROUGHT ECOLOGICAL ZONES ELECTRICITY FAO FARM FARMER FARMERS FARMING FARMLAND FARMS FIELD CROPS FORESTRY GLOBAL WARMING GRAINS GREENHOUSE GASES GROUNDNUT HYDROLOGY IRRIGATION MAIZE MILLET PRECIPITATION RAINFALL RICE RUNOFF SATELLITES SINGLE CROP SOIL SOIL TYPE SOIL TYPES SOILS SORGHUM SPRING SUGARCANE SUPPORT CROPS SURFACE TEMPERATURE TEMPERATURE TEMPERATURE CHANGES TEMPERATURE DATA WATER MANAGEMENT WEATHER WHEAT WORLD FOOD SUPPLY This paper examines whether the choice of crops is affected by climate in Africa. Using a multinomial logit model, the paper regresses crop choice on climate, soils, and other factors. The model is estimated using a sample of more than 7,000 farmers across 11 countries in Africa. The study finds that crop choice is very climate sensitive. For example, farmers select sorghum and maize-millet in the cooler regions of Africa; maize-beans, maize-groundnut, and maize in moderately warm regions' and cowpea, cowpea-sorghum, and millet-groundnut in hot regions. Further, farmers choose sorghum, and millet-groundnut when conditions are dry; cowpea, cowpea-sorghum, maize-millet, and maize when medium wet; and maize-beans and maize-groundnut when wet. As temperatures warm, farmers will shift toward more heat tolerant crops. Depending on whether precipitation increases or decreases, farmers will also shift toward drought tolerant or water loving crops, respectively. There are several policy relevant conclusions to draw from this study. First, farmers will adapt to climate change by switching crops. Second, global warming impact studies cannot assume crop choice is exogenous. Third, this study only examines choices across current crops. Future farmers may well have more choices. There is an important role for agronomic research in developing new varieties more suited for higher temperatures. Future farmers may have even better adaptation alternatives with an expanded set of crop choices specifically targeted at higher temperatures. 2012-06-08T14:25:25Z 2012-06-08T14:25:25Z 2007-08 http://documents.worldbank.org/curated/en/2007/08/8044309/crop-selection-adapting-climage-change-africa https://hdl.handle.net/10986/7506 English Policy Research Working Paper; No. 4307 CC BY 3.0 IGO http://creativecommons.org/licenses/by/3.0/igo/ World Bank application/pdf text/plain World Bank, Washington, DC
institution	Banco Mundial
collection	DSpace
country	Estados Unidos
countrycode	US
component	Bibliográfico
access	En linea
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tag	biblioteca
region	America del Norte
libraryname	Biblioteca del Banco Mundial
language	English
topic	ACCESS TO ELECTRICITY AGRICULTURE AGRONOMY AVAILABILITY OF SEED BEANS CHOICE OF CROPS CLIMATE CLIMATE CHANGE CLIMATE CHANGE ADAPTATION CLIMATE CHANGE RESEARCH CLIMATE CHANGES CLIMATE SENSITIVITY CLIMATE VARIABLES CLIMATE ZONES CLOUDS COTTON CROP CROPLAND DROUGHT ECOLOGICAL ZONES ELECTRICITY FAO FARM FARMER FARMERS FARMING FARMLAND FARMS FIELD CROPS FORESTRY GLOBAL WARMING GRAINS GREENHOUSE GASES GROUNDNUT HYDROLOGY IRRIGATION MAIZE MILLET PRECIPITATION RAINFALL RICE RUNOFF SATELLITES SINGLE CROP SOIL SOIL TYPE SOIL TYPES SOILS SORGHUM SPRING SUGARCANE SUPPORT CROPS SURFACE TEMPERATURE TEMPERATURE TEMPERATURE CHANGES TEMPERATURE DATA WATER MANAGEMENT WEATHER WHEAT WORLD FOOD SUPPLY ACCESS TO ELECTRICITY AGRICULTURE AGRONOMY AVAILABILITY OF SEED BEANS CHOICE OF CROPS CLIMATE CLIMATE CHANGE CLIMATE CHANGE ADAPTATION CLIMATE CHANGE RESEARCH CLIMATE CHANGES CLIMATE SENSITIVITY CLIMATE VARIABLES CLIMATE ZONES CLOUDS COTTON CROP CROPLAND DROUGHT ECOLOGICAL ZONES ELECTRICITY FAO FARM FARMER FARMERS FARMING FARMLAND FARMS FIELD CROPS FORESTRY GLOBAL WARMING GRAINS GREENHOUSE GASES GROUNDNUT HYDROLOGY IRRIGATION MAIZE MILLET PRECIPITATION RAINFALL RICE RUNOFF SATELLITES SINGLE CROP SOIL SOIL TYPE SOIL TYPES SOILS SORGHUM SPRING SUGARCANE SUPPORT CROPS SURFACE TEMPERATURE TEMPERATURE TEMPERATURE CHANGES TEMPERATURE DATA WATER MANAGEMENT WEATHER WHEAT WORLD FOOD SUPPLY
spellingShingle	ACCESS TO ELECTRICITY AGRICULTURE AGRONOMY AVAILABILITY OF SEED BEANS CHOICE OF CROPS CLIMATE CLIMATE CHANGE CLIMATE CHANGE ADAPTATION CLIMATE CHANGE RESEARCH CLIMATE CHANGES CLIMATE SENSITIVITY CLIMATE VARIABLES CLIMATE ZONES CLOUDS COTTON CROP CROPLAND DROUGHT ECOLOGICAL ZONES ELECTRICITY FAO FARM FARMER FARMERS FARMING FARMLAND FARMS FIELD CROPS FORESTRY GLOBAL WARMING GRAINS GREENHOUSE GASES GROUNDNUT HYDROLOGY IRRIGATION MAIZE MILLET PRECIPITATION RAINFALL RICE RUNOFF SATELLITES SINGLE CROP SOIL SOIL TYPE SOIL TYPES SOILS SORGHUM SPRING SUGARCANE SUPPORT CROPS SURFACE TEMPERATURE TEMPERATURE TEMPERATURE CHANGES TEMPERATURE DATA WATER MANAGEMENT WEATHER WHEAT WORLD FOOD SUPPLY ACCESS TO ELECTRICITY AGRICULTURE AGRONOMY AVAILABILITY OF SEED BEANS CHOICE OF CROPS CLIMATE CLIMATE CHANGE CLIMATE CHANGE ADAPTATION CLIMATE CHANGE RESEARCH CLIMATE CHANGES CLIMATE SENSITIVITY CLIMATE VARIABLES CLIMATE ZONES CLOUDS COTTON CROP CROPLAND DROUGHT ECOLOGICAL ZONES ELECTRICITY FAO FARM FARMER FARMERS FARMING FARMLAND FARMS FIELD CROPS FORESTRY GLOBAL WARMING GRAINS GREENHOUSE GASES GROUNDNUT HYDROLOGY IRRIGATION MAIZE MILLET PRECIPITATION RAINFALL RICE RUNOFF SATELLITES SINGLE CROP SOIL SOIL TYPE SOIL TYPES SOILS SORGHUM SPRING SUGARCANE SUPPORT CROPS SURFACE TEMPERATURE TEMPERATURE TEMPERATURE CHANGES TEMPERATURE DATA WATER MANAGEMENT WEATHER WHEAT WORLD FOOD SUPPLY Kurukulasuriya, Pradeep Mendelsohn, Robert Crop Selection : Adapting to Climage Change in Africa
description	This paper examines whether the choice of crops is affected by climate in Africa. Using a multinomial logit model, the paper regresses crop choice on climate, soils, and other factors. The model is estimated using a sample of more than 7,000 farmers across 11 countries in Africa. The study finds that crop choice is very climate sensitive. For example, farmers select sorghum and maize-millet in the cooler regions of Africa; maize-beans, maize-groundnut, and maize in moderately warm regions' and cowpea, cowpea-sorghum, and millet-groundnut in hot regions. Further, farmers choose sorghum, and millet-groundnut when conditions are dry; cowpea, cowpea-sorghum, maize-millet, and maize when medium wet; and maize-beans and maize-groundnut when wet. As temperatures warm, farmers will shift toward more heat tolerant crops. Depending on whether precipitation increases or decreases, farmers will also shift toward drought tolerant or water loving crops, respectively. There are several policy relevant conclusions to draw from this study. First, farmers will adapt to climate change by switching crops. Second, global warming impact studies cannot assume crop choice is exogenous. Third, this study only examines choices across current crops. Future farmers may well have more choices. There is an important role for agronomic research in developing new varieties more suited for higher temperatures. Future farmers may have even better adaptation alternatives with an expanded set of crop choices specifically targeted at higher temperatures.
topic_facet	ACCESS TO ELECTRICITY AGRICULTURE AGRONOMY AVAILABILITY OF SEED BEANS CHOICE OF CROPS CLIMATE CLIMATE CHANGE CLIMATE CHANGE ADAPTATION CLIMATE CHANGE RESEARCH CLIMATE CHANGES CLIMATE SENSITIVITY CLIMATE VARIABLES CLIMATE ZONES CLOUDS COTTON CROP CROPLAND DROUGHT ECOLOGICAL ZONES ELECTRICITY FAO FARM FARMER FARMERS FARMING FARMLAND FARMS FIELD CROPS FORESTRY GLOBAL WARMING GRAINS GREENHOUSE GASES GROUNDNUT HYDROLOGY IRRIGATION MAIZE MILLET PRECIPITATION RAINFALL RICE RUNOFF SATELLITES SINGLE CROP SOIL SOIL TYPE SOIL TYPES SOILS SORGHUM SPRING SUGARCANE SUPPORT CROPS SURFACE TEMPERATURE TEMPERATURE TEMPERATURE CHANGES TEMPERATURE DATA WATER MANAGEMENT WEATHER WHEAT WORLD FOOD SUPPLY
author	Kurukulasuriya, Pradeep Mendelsohn, Robert
author_facet	Kurukulasuriya, Pradeep Mendelsohn, Robert
author_sort	Kurukulasuriya, Pradeep
title	Crop Selection : Adapting to Climage Change in Africa
title_short	Crop Selection : Adapting to Climage Change in Africa
title_full	Crop Selection : Adapting to Climage Change in Africa
title_fullStr	Crop Selection : Adapting to Climage Change in Africa
title_full_unstemmed	Crop Selection : Adapting to Climage Change in Africa
title_sort	crop selection : adapting to climage change in africa
publisher	World Bank, Washington, DC
publishDate	2007-08
url	http://documents.worldbank.org/curated/en/2007/08/8044309/crop-selection-adapting-climage-change-africa https://hdl.handle.net/10986/7506
work_keys_str_mv	AT kurukulasuriyapradeep cropselectionadaptingtoclimagechangeinafrica AT mendelsohnrobert cropselectionadaptingtoclimagechangeinafrica
_version_	1807157151990284288

Crop Selection : Adapting to Climage Change in Africa

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