Agriculture production's sensitivity to changes in climate in South Africa

South Africa in general has been approximately 2% hotter and at least 6% drier over the ten years between 1997 and 2006 compared to the 1970s. The use of water has also increased greatly over this same period. By 2000, 98.6% of that year's surface water yield and 41% of the annual utilisable po...

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Main Authors: James Blignaut, Liza Ueckermann, James Aronson
Format: Article
Language:English
Published: Academy of Science of South Africa 2009-12-01
Series:South African Journal of Science
Online Access:http://192.168.0.108/index.php/sajs/article/view/10071
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spelling doaj-c74b10e20cee4a3ca0a6b5d2061af76c2021-07-05T11:46:12ZengAcademy of Science of South AfricaSouth African Journal of Science1996-74892009-12-011051/2Agriculture production's sensitivity to changes in climate in South AfricaJames BlignautLiza UeckermannJames AronsonSouth Africa in general has been approximately 2% hotter and at least 6% drier over the ten years between 1997 and 2006 compared to the 1970s. The use of water has also increased greatly over this same period. By 2000, 98.6% of that year's surface water yield and 41% of the annual utilisable potential of ground water was allocated to use. Irrigation agriculture, comprising 60% of total consumption, is by far the largest single consumer of water. Given these climatic and water use changes as a backdrop, we employed a panel data econometric model to estimate how sensitive the nation's agriculture may be to changes in rainfall. Net agricultural income in the provinces, contributing 10% or more to total production of both field crops and horticulture, is likely to be negatively affected by a decline in rainfall, especially rain-fed agriculture. For the country as a whole, each 1% decline in rainfall is likely to lead to a 1.1% decline in the production of maize (a summer grain) and a 0.5% decline in winter wheat. These results are discussed with respect to both established and emerging farmers, and the type of agriculture that should be favoured or phased out in different parts of the country, in view of current and projected trends in climate, increasing water use, and declining water availability.http://192.168.0.108/index.php/sajs/article/view/10071
collection DOAJ
language English
format Article
sources DOAJ
author James Blignaut
Liza Ueckermann
James Aronson
spellingShingle James Blignaut
Liza Ueckermann
James Aronson
Agriculture production's sensitivity to changes in climate in South Africa
South African Journal of Science
author_facet James Blignaut
Liza Ueckermann
James Aronson
author_sort James Blignaut
title Agriculture production's sensitivity to changes in climate in South Africa
title_short Agriculture production's sensitivity to changes in climate in South Africa
title_full Agriculture production's sensitivity to changes in climate in South Africa
title_fullStr Agriculture production's sensitivity to changes in climate in South Africa
title_full_unstemmed Agriculture production's sensitivity to changes in climate in South Africa
title_sort agriculture production's sensitivity to changes in climate in south africa
publisher Academy of Science of South Africa
series South African Journal of Science
issn 1996-7489
publishDate 2009-12-01
description South Africa in general has been approximately 2% hotter and at least 6% drier over the ten years between 1997 and 2006 compared to the 1970s. The use of water has also increased greatly over this same period. By 2000, 98.6% of that year's surface water yield and 41% of the annual utilisable potential of ground water was allocated to use. Irrigation agriculture, comprising 60% of total consumption, is by far the largest single consumer of water. Given these climatic and water use changes as a backdrop, we employed a panel data econometric model to estimate how sensitive the nation's agriculture may be to changes in rainfall. Net agricultural income in the provinces, contributing 10% or more to total production of both field crops and horticulture, is likely to be negatively affected by a decline in rainfall, especially rain-fed agriculture. For the country as a whole, each 1% decline in rainfall is likely to lead to a 1.1% decline in the production of maize (a summer grain) and a 0.5% decline in winter wheat. These results are discussed with respect to both established and emerging farmers, and the type of agriculture that should be favoured or phased out in different parts of the country, in view of current and projected trends in climate, increasing water use, and declining water availability.
url http://192.168.0.108/index.php/sajs/article/view/10071
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