Defining Crop–climate Departure in West Africa: Improved Understanding of the Timing of Future Changes in Crop Suitability

Defining Crop–climate Departure in West Africa: Improved Understanding of the Timing of Future Changes in Crop Suitability

The future climate is projected to change rapidly with potentially severe consequences for global food security. This study aims to improve the understanding of future changes in the suitability of crop growth conditions. It proposes a definition of crop realization, of the climate departure from re...

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Bibliographic Details
Main Authors: Temitope S. Egbebiyi, Olivier Crespo, Chris Lennard
Format: Article
Language:English
Published: MDPI AG 2019-08-01
Series:Climate
Subjects:
Climate-departure
Crop–climate departure
Crop suitability
Ecocrop
Food security
West Africa
Online Access:https://www.mdpi.com/2225-1154/7/9/101
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spelling doaj-962ff543f59a4ed5bd00197a672f71e12020-11-24T22:13:41ZengMDPI AGClimate2225-11542019-08-017910110.3390/cli7090101cli7090101Defining Crop–climate Departure in West Africa: Improved Understanding of the Timing of Future Changes in Crop SuitabilityTemitope S. Egbebiyi0Olivier Crespo1Chris Lennard2Climate System Analysis Group (CSAG), Department of Environmental and Geographical Science, University of Cape Town, Private Bag X3, Rondebosch, Cape Town 7701, South AfricaClimate System Analysis Group (CSAG), Department of Environmental and Geographical Science, University of Cape Town, Private Bag X3, Rondebosch, Cape Town 7701, South AfricaClimate System Analysis Group (CSAG), Department of Environmental and Geographical Science, University of Cape Town, Private Bag X3, Rondebosch, Cape Town 7701, South AfricaThe future climate is projected to change rapidly with potentially severe consequences for global food security. This study aims to improve the understanding of future changes in the suitability of crop growth conditions. It proposes a definition of crop realization, of the climate departure from recent historical variability, or crop−climate departure. Four statistically downscaled and bias-corrected Global Climate Models (GCMs): CCCMA, CNRM5, NOAA-GFDL, and MIROC5 performed simulations for the period 1960−2100 under the Representative Concentration Pathway RCP8.5 scenario to compute 20 year moving averages at 5-year increments. These were used to drive a crop suitability model, Ecocrop, for eight different crops across the three Food and Agriculture Organizations (FAO) AgroEcological Zones (AEZs) of West Africa (Guinea, Sahel, and Savanna). Simulations using historical climate data found that all crops except maize had a suitability index value (SIV) ≥0.50 outside the Sahel region, equivalent to conditions being suitable or strongly suitable. Simulations of future climate reveal that warming is projected to constrain crop growth suitability for cassava and pineapple in the Guinea zone. A potential for the northward expansion of maize is projected by the end of the century, suggesting a future opportunity for its growth in the southern Sahel zone. Crop growth conditions for mango and pearl millet remain suitable across all three AEZs. In general, crops in the Savanna AEZ are the most sensitive to the projected changes in climate. The changes in the crop−climate relationship suggests a future constraint in crop suitability, which could be detrimental to future food security in West Africa. Further studies to explore associated short- and long-term adaptation options are recommended.https://www.mdpi.com/2225-1154/7/9/101Climate-departureCrop–climate departureCrop suitabilityEcocropFood securityWest Africa
collection DOAJ
language English
format Article
sources DOAJ
author Temitope S. Egbebiyi
Olivier Crespo
Chris Lennard
spellingShingle Temitope S. Egbebiyi
Olivier Crespo
Chris Lennard
Defining Crop–climate Departure in West Africa: Improved Understanding of the Timing of Future Changes in Crop Suitability
Climate
Climate-departure
Crop–climate departure
Crop suitability
Ecocrop
Food security
West Africa
author_facet Temitope S. Egbebiyi
Olivier Crespo
Chris Lennard
author_sort Temitope S. Egbebiyi
title Defining Crop–climate Departure in West Africa: Improved Understanding of the Timing of Future Changes in Crop Suitability
title_short Defining Crop–climate Departure in West Africa: Improved Understanding of the Timing of Future Changes in Crop Suitability
title_full Defining Crop–climate Departure in West Africa: Improved Understanding of the Timing of Future Changes in Crop Suitability
title_fullStr Defining Crop–climate Departure in West Africa: Improved Understanding of the Timing of Future Changes in Crop Suitability
title_full_unstemmed Defining Crop–climate Departure in West Africa: Improved Understanding of the Timing of Future Changes in Crop Suitability
title_sort defining crop–climate departure in west africa: improved understanding of the timing of future changes in crop suitability
publisher MDPI AG
series Climate
issn 2225-1154
publishDate 2019-08-01
description The future climate is projected to change rapidly with potentially severe consequences for global food security. This study aims to improve the understanding of future changes in the suitability of crop growth conditions. It proposes a definition of crop realization, of the climate departure from recent historical variability, or crop−climate departure. Four statistically downscaled and bias-corrected Global Climate Models (GCMs): CCCMA, CNRM5, NOAA-GFDL, and MIROC5 performed simulations for the period 1960−2100 under the Representative Concentration Pathway RCP8.5 scenario to compute 20 year moving averages at 5-year increments. These were used to drive a crop suitability model, Ecocrop, for eight different crops across the three Food and Agriculture Organizations (FAO) AgroEcological Zones (AEZs) of West Africa (Guinea, Sahel, and Savanna). Simulations using historical climate data found that all crops except maize had a suitability index value (SIV) ≥0.50 outside the Sahel region, equivalent to conditions being suitable or strongly suitable. Simulations of future climate reveal that warming is projected to constrain crop growth suitability for cassava and pineapple in the Guinea zone. A potential for the northward expansion of maize is projected by the end of the century, suggesting a future opportunity for its growth in the southern Sahel zone. Crop growth conditions for mango and pearl millet remain suitable across all three AEZs. In general, crops in the Savanna AEZ are the most sensitive to the projected changes in climate. The changes in the crop−climate relationship suggests a future constraint in crop suitability, which could be detrimental to future food security in West Africa. Further studies to explore associated short- and long-term adaptation options are recommended.
topic Climate-departure
Crop–climate departure
Crop suitability
Ecocrop
Food security
West Africa
url https://www.mdpi.com/2225-1154/7/9/101
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AT chrislennard definingcropclimatedepartureinwestafricaimprovedunderstandingofthetimingoffuturechangesincropsuitability
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