Causes of variation in soil carbon simulations from CMIP5 Earth system models and comparison with observations

Todd-Brown, Katherine EO; Randerson, James T.; Post, W. M.; Hoffman, Forrest M.; Tarnocai, C.; Schuur, Edward A. G.; Allison, Steven

doi:10.5194/bg-10-1717-2013

articleBiogeosciencesMar 13, 2013GOLD OA

Causes of variation in soil carbon simulations from CMIP5 Earth system models and comparison with observations

KEKatherine EO Todd-Brown JTJames T. Randerson WMW. M. Post FMForrest M. Hoffman CTC. Tarnocai

University of California, Irvine · Oak Ridge National Laboratory · +2 more institutions

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Abstract

Abstract. Stocks of soil organic carbon represent a large component of the carbon cycle that may participate in climate change feedbacks, particularly on decadal and centennial timescales. For Earth system models (ESMs), the ability to accurately represent the global distribution of existing soil carbon stocks is a prerequisite for accurately predicting future carbon–climate feedbacks. We compared soil carbon simulations from 11 model centers to empirical data from the Harmonized World Soil Database (HWSD) and the Northern Circumpolar Soil Carbon Database (NCSCD). Model estimates of global soil carbon stocks ranged from 510 to 3040 Pg C, compared to an estimate of 1260 Pg C (with a 95% confidence interval of…

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Topics & keywords

Topics

Keywords

Soil carbon
Carbon cycle
Environmental science
Biome
Carbon fibers
Latitude
Atmospheric sciences
Climatology

UN Sustainable Development Goals

Climate action

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