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A global assessment of the carbon cycle and temperature responses to major changes in future fire regime

Jean-Sébastien Landry (), H. Matthews and Navin Ramankutty

Climatic Change, 2015, vol. 133, issue 2, 179-192

Abstract: Changes in the current fire regime would directly affect carbon cycling, land–atmosphere exchanges, and atmospheric composition, and could therefore modulate the ongoing climate warming. We used a coupled climate–carbon model to quantify the effect of major changes in non-deforestation fires on the global carbon cycle and temperature, from 2015 to 2300. When considering only CO 2 fire emissions, the impacts from changes in fire frequency were limited for the global carbon cycle, and almost negligible for the global atmospheric surface temperature. The net fire emissions were only a fraction of the CO 2 directly emitted during combustion due to vegetation regrowth and climate–CO 2 feedbacks, and the albedo increases caused by changes in vegetation cover countered the effect of increased atmospheric CO 2 on global temperature. When employing a simplified approach based on global-mean radiative forcings in order to estimate the impact of non-CO 2 fire emissions, the effect of increased fire frequency on global temperature depended critically on the uncertain net aerosol forcing. Despite this major uncertainty, our results overall do not support the hypothesis of a strong positive climate–fire feedback for the coming centuries. Copyright Springer Science+Business Media Dordrecht 2015

Date: 2015
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DOI: 10.1007/s10584-015-1461-8

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