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Evidence that decomposition rates of organic carbon in mineral soil do not vary with temperature

Christian P. Giardina () and Michael G. Ryan
Additional contact information
Christian P. Giardina: University of Hawaii at Manoa
Michael G. Ryan: Rocky Mountain Research Station

Nature, 2000, vol. 404, issue 6780, 858-861

Abstract: Abstract It has been suggested that increases in temperature can accelerate the decomposition of organic carbon contained in forest mineral soil (Cs), and, therefore, that global warming should increase the release of soil organic carbon to the atmosphere1,2,3,4,5,6. These predictions assume, however, that decay constants can be accurately derived from short-term laboratory incubations of soil or that in situ incubations of fresh litter accurately represent the temperature sensitivity of Cs decomposition. But our limited understanding of the biophysical factors that control Cs decomposition rates, and observations of only minor increases in Cs decomposition rate with temperature in longer-term forest soil heating experiments7,8,9,10,11,12 and in latitudinal comparisons of Cs decomposition rates13,14,15 bring these predictions into question. Here we have compiled Cs decomposition data from 82 sites on five continents. We found that Cs decomposition rates were remarkably constant across a global-scale gradient in mean annual temperature. These data suggest that Cs decomposition rates for forest soils are not controlled by temperature limitations to microbial activity, and that increased temperature alone will not stimulate the decomposition of forest-derived carbon in mineral soil.

Date: 2000
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Citations: View citations in EconPapers (27)

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DOI: 10.1038/35009076

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