The impact of climate change on cropland productivity: evidence from satellite based products at the river basin scale in Africa

Journal Article
The impact of climate change on cropland productivity: evidence from satellite based products at the river basin scale in Africa
Blanc, E., E. Strobl (2013)
Climatic Change, 117(40):873-890

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Abstract/Summary:

We investigate the effect of climate change on crop productivity in Africa using satellite derived data on land use and net primary productivity (NPP) at a small river basin scale, distinguishing between the impact of local and upper-catchment weather. Regression results show that both of these are determining factors of local cropland productivity. These estimates are then combined with climate change predictions obtained from two general circulation models (GCMs) under two greenhouse gas emissions (GHG) assumptions to evaluate the impact of climate change by 2100. For some scenarios significant decreases are predicted over the northern and southern parts of Africa.

© 2012 Springer Science+Business Media Dordrecht

Citation:

Blanc, E., E. Strobl (2013): The impact of climate change on cropland productivity: evidence from satellite based products at the river basin scale in Africa. Climatic Change, 117(40):873-890 (http://dx.doi.org/10.1007/s10584-012-0604-4)
  • Journal Article
The impact of climate change on cropland productivity: evidence from satellite based products at the river basin scale in Africa

Blanc, E., E. Strobl

Climatic Change
117(40):873-890

Abstract/Summary: 

We investigate the effect of climate change on crop productivity in Africa using satellite derived data on land use and net primary productivity (NPP) at a small river basin scale, distinguishing between the impact of local and upper-catchment weather. Regression results show that both of these are determining factors of local cropland productivity. These estimates are then combined with climate change predictions obtained from two general circulation models (GCMs) under two greenhouse gas emissions (GHG) assumptions to evaluate the impact of climate change by 2100. For some scenarios significant decreases are predicted over the northern and southern parts of Africa.

© 2012 Springer Science+Business Media Dordrecht

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