A climate change risk analysis for world ecosystems
A climate change risk analysis for world ecosystems
We quantify the risks of climate-induced changes in key ecosystem processes during the 21st century by forcing a dynamic global vegetation model with multiple scenarios from 16 climate models and mapping the proportions of model runs showing forest/nonforest shifts or exceedance of natural variability in wildfire frequency and freshwater supply. Our analysis does not assign probabilities to scenarios or weights to models. Instead, we consider distribution of outcomes within three sets of model runs grouped by the amount of global warming they simulate: <2°C (including simulations in which atmospheric composition is held constant, i.e., in which the only climate change is due to greenhouse gases already emitted), 2–3°C, and >3°C. High risk of forest loss is shown for Eurasia, eastern China, Canada, Central America, and Amazonia, with forest extensions into the Arctic and semiarid savannas; more frequent wildfire in Amazonia, the far north, and many semiarid regions; more runoff north of 50°N and in tropical Africa and northwestern South America; and less runoff in West Africa, Central America, southern Europe, and the eastern U.S. Substantially larger areas are affected for global warming >3°C than for <2°C; some features appear only at higher warming levels. A land carbon sink of ?1 Pg of C per yr is simulated for the late 20th century, but for >3°C this sink converts to a carbon source during the 21st century (implying a positive climate feedback) in 44% of cases. The risks continue increasing over the following 200 years, even with atmospheric composition held constant.
13116-13120
Scholze, M.
5b2f6a50-b401-4ffe-b1a0-06708fc2804f
Knorr, W.
985a3a52-6f08-41ad-bd46-7af692fe87b5
Arnell, N.W.
196119de-cdf5-4ba8-a5d5-5e5cf4c88085
Prentice, I.C.
291a68d8-ae2c-4170-900c-480fd8f0b455
2006
Scholze, M.
5b2f6a50-b401-4ffe-b1a0-06708fc2804f
Knorr, W.
985a3a52-6f08-41ad-bd46-7af692fe87b5
Arnell, N.W.
196119de-cdf5-4ba8-a5d5-5e5cf4c88085
Prentice, I.C.
291a68d8-ae2c-4170-900c-480fd8f0b455
Scholze, M., Knorr, W., Arnell, N.W. and Prentice, I.C.
(2006)
A climate change risk analysis for world ecosystems.
Proceedings of the National Academy of Sciences of the United States of America, 103 (35), .
(doi:10.1073/pnas.0601816103).
Abstract
We quantify the risks of climate-induced changes in key ecosystem processes during the 21st century by forcing a dynamic global vegetation model with multiple scenarios from 16 climate models and mapping the proportions of model runs showing forest/nonforest shifts or exceedance of natural variability in wildfire frequency and freshwater supply. Our analysis does not assign probabilities to scenarios or weights to models. Instead, we consider distribution of outcomes within three sets of model runs grouped by the amount of global warming they simulate: <2°C (including simulations in which atmospheric composition is held constant, i.e., in which the only climate change is due to greenhouse gases already emitted), 2–3°C, and >3°C. High risk of forest loss is shown for Eurasia, eastern China, Canada, Central America, and Amazonia, with forest extensions into the Arctic and semiarid savannas; more frequent wildfire in Amazonia, the far north, and many semiarid regions; more runoff north of 50°N and in tropical Africa and northwestern South America; and less runoff in West Africa, Central America, southern Europe, and the eastern U.S. Substantially larger areas are affected for global warming >3°C than for <2°C; some features appear only at higher warming levels. A land carbon sink of ?1 Pg of C per yr is simulated for the late 20th century, but for >3°C this sink converts to a carbon source during the 21st century (implying a positive climate feedback) in 44% of cases. The risks continue increasing over the following 200 years, even with atmospheric composition held constant.
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Published date: 2006
Organisations:
Environmental Processes & Change
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Local EPrints ID: 57697
URI: http://eprints.soton.ac.uk/id/eprint/57697
ISSN: 0027-8424
PURE UUID: 164ac539-f123-42a9-8772-deceb3c0b50a
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Date deposited: 11 Aug 2008
Last modified: 15 Mar 2024 11:08
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Author:
M. Scholze
Author:
W. Knorr
Author:
N.W. Arnell
Author:
I.C. Prentice
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