Soil carbon-concentration and carbon-climate feedbacks in CMIP6 Earth system models

被引:0
|
作者
Varney, Rebecca M. [1 ,2 ]
Friedlingstein, Pierre [1 ,3 ]
Chadburn, Sarah E. [1 ]
Burke, Eleanor J. [4 ]
Cox, Peter M. [1 ,2 ]
机构
[1] Univ Exeter, Fac Environm Sci & Econ, Laver Bldg,North Pk Rd, Exeter EX4 4QE, Devon, England
[2] Univ Exeter, Global Syst Inst, Laver Bldg,North Pk Rd, Exeter EX4 4QE, Devon, England
[3] Sorbonne Univ, Univ PSL, Ecole Normale Super, Ecole Polytech,Lab Meteorol Dynam,Inst Pierre Simo, F-75231 Paris, France
[4] Met Off Hadley Ctr, Fitzroy Rd, Exeter EX1 3PB, Devon, England
来源
BIOGEOSCIENCES | 2024年 / 21卷 / 11期
基金
欧盟地平线“2020”;
关键词
CYCLE; SENSITIVITY; PROJECTIONS;
D O I
10.5194/bg-21-2759-2024
中图分类号
Q14 [生态学(生物生态学)];
学科分类号
071012 ; 0713 ;
摘要
Achieving climate targets requires mitigation against climate change but also understanding of the response of land and ocean carbon systems. In this context, global soil carbon stocks and their response to environmental changes are key. This paper quantifies the global soil carbon feedbacks due to changes in atmospheric CO 2 , and the associated climate changes, for Earth system models (ESMs) in CMIP6. A standard approach is used to calculate carbon cycle feedbacks, defined here as soil carbon-concentration ( beta s ) and carbon-climate ( gamma s ) feedback parameters, which are also broken down into processes which drive soil carbon change. The sensitivity to CO 2 is shown to dominate soil carbon changes at least up to a doubling of atmospheric CO 2 . However, the sensitivity of soil carbon to climate change is found to become an increasingly important source of uncertainty under higher atmospheric CO 2 concentrations.
引用
收藏
页码:2759 / 2776
页数:18
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