Affiliation:
1. Ecosystem Ecology Laboratory, College of Resources and Environmental Sciences Nanjing Agricultural University Nanjing China
2. Department of Entomology and Plant Pathology North Carolina State University Raleigh North Carolina USA
Abstract
AbstractGlobal climate warming may induce a positive feedback through increasing soil carbon (C) release to the atmosphere. Although warming can affect both C input to and output from soil, direct and convincing evidence illustrating that warming induces a net change in soil C is still lacking. We synthesized the results from field warming experiments at 165 sites across the globe and found that climate warming had no significant effect on soil C stock. On average, warming significantly increased root biomass and soil respiration, but warming effects on root biomass and soil respiration strongly depended on soil nitrogen (N) availability. Under high N availability (soil C:N ratio < 15), warming had no significant effect on root biomass, but promoted the coupling between effect sizes of root biomass and soil C stock. Under relative N limitation (soil C:N ratio > 15), warming significantly enhanced root biomass. However, the enhancement of root biomass did not induce a corresponding C accumulation in soil, possibly because warming promoted microbial CO2 release that offset the increased root C input. Also, reactive N input alleviated warming‐induced C loss from soil, but elevated atmospheric CO2 or precipitation increase/reduction did not. Together, our findings indicate that the relative availability of soil C to N (i.e., soil C:N ratio) critically mediates warming effects on soil C dynamics, suggesting that its incorporation into C‐climate models may improve the prediction of soil C cycling under future global warming scenarios.
Funder
National Natural Science Foundation of China
Subject
General Environmental Science,Ecology,Environmental Chemistry,Global and Planetary Change
Cited by
12 articles.
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