Soil carbon storage capacity of drylands under altered fire regimes

被引:0
|
作者
Adam F. A. Pellegrini
Peter B. Reich
Sarah E. Hobbie
Corli Coetsee
Benjamin Wigley
Edmund February
Katerina Georgiou
Cesar Terrer
E. N. J. Brookshire
Anders Ahlström
Lars Nieradzik
Stephen Sitch
Joe R. Melton
Matthew Forrest
Fang Li
Stijn Hantson
Chantelle Burton
Chao Yue
Philippe Ciais
Robert B. Jackson
机构
[1] University of Cambridge,Department of Plant Sciences
[2] University of Michigan,Institute for Global Change Biology and School for Environment and Sustainability
[3] University of Minnesota,Department of Forest Resources
[4] Western Sydney University,Hawkesbury Institute for the Environment
[5] University of Minnesota,Department of Ecology, Evolution, and Behavior
[6] Scientific Services,School of Natural Resource Management
[7] South African National Parks,Department Biological Sciences
[8] Kruger National Park,Department of Civil and Environmental Engineering
[9] Nelson Mandela University,Department of Land Resources and Environmental Sciences
[10] George Campus,Department of Physical Geography and Ecosystem Science
[11] University of Cape Town,College of Life and Environmental Sciences
[12] Lawrence Livermore National Lab,Faculty of Natural Science
[13] Massachusetts Institute of Technology,Department of Earth System Science
[14] Montana State University,Woods Institute for the Environment
[15] Lund University,Precourt Institute for Energy
[16] University of Exeter,undefined
[17] Climate Research Division,undefined
[18] Environment and Climate Change Canada,undefined
[19] Senckenberg Biodiversity and Climate Research Institute (BiK-F),undefined
[20] International Center for Climate and Environmental Sciences,undefined
[21] Institute of Atmospheric Physics,undefined
[22] Chinese Academy of Sciences,undefined
[23] Universidad del Rosario,undefined
[24] Met Office Hadley Centre,undefined
[25] State Key Laboratory of Soil Erosion and Dryland Farming on the Loess Plateau,undefined
[26] Northwest A&F University,undefined
[27] Laboratoire des Sciences du Climat et de l’Environnement,undefined
[28] LSCE/IPSL,undefined
[29] CEA-CNRS- UVSQ,undefined
[30] Université Paris-Saclay,undefined
[31] Stanford University,undefined
[32] Stanford University,undefined
[33] Stanford University,undefined
来源
Nature Climate Change | 2023年 / 13卷
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摘要
The determinants of fire-driven changes in soil organic carbon (SOC) across broad environmental gradients remains unclear, especially in global drylands. Here we combined datasets and field sampling of fire-manipulation experiments to evaluate where and why fire changes SOC and compared our statistical model to simulations from ecosystem models. Drier ecosystems experienced larger relative changes in SOC than humid ecosystems—in some cases exceeding losses from plant biomass pools—primarily explained by high fire-driven declines in tree biomass inputs in dry ecosystems. Many ecosystem models underestimated the SOC changes in drier ecosystems. Upscaling our statistical model predicted that soils in savannah–grassland regions may have gained 0.64 PgC due to net-declines in burned area over the past approximately two decades. Consequently, ongoing declines in fire frequencies have probably created an extensive carbon sink in the soils of global drylands that may have been underestimated by ecosystem models.
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页码:1089 / 1094
页数:5
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