Empirical estimates of regional carbon budgets imply reduced global soil heterotrophic respiration

Philippe Ciais; Yitong Yao; Thomas Gasser; Alessandro Baccini; Yilong Wang; Ronny Lauerwald; Shushi Peng; Ana Bastos; Wei Li; Peter A. Raymond; Josep G. Canadell; Glen P. Peters; Rob J. Andres; Jinfeng Chang; Chao Yue; A. Johannes Dolman; Vanessa Haverd; Jens Hartmann; Goulven Laruelle; Alexandra G. Konings; Anthony W. King; Yi Liu; Sebastiaan Luyssaert; Fabienne Maignan; Prabir K. Patra; Anna Peregon; Pierre Regnier; Julia Pongratz; Benjamin Poulter; Anatoly Shvidenko; Riccardo Valentini; Rong Wang; Grégoire Broquet; Yi Yin; Jakob Zscheischler; Bertrand Guenet; Daniel S. Goll; Ashley P. Ballantyne; Hui Yang; Chunjing Qiu; Dan Zhu

doi:10.1093/nsr/nwaa145

Empirical estimates of regional carbon budgets imply reduced global soil heterotrophic respiration

Philippe Ciais^*
, Yitong Yao
, Thomas Gasser
, Alessandro Baccini
, Yilong Wang
, Ronny Lauerwald
, Shushi Peng
, Ana Bastos
, Wei Li
, Peter A. Raymond
, Josep G. Canadell
, Glen P. Peters
, Rob J. Andres
, Jinfeng Chang
, Chao Yue
, A. Johannes Dolman
, Vanessa Haverd
, Jens Hartmann
, Goulven Laruelle
, Alexandra G. Konings

Anthony W. King, Yi Liu, Sebastiaan Luyssaert, Fabienne Maignan, Prabir K. Patra, Anna Peregon, Pierre Regnier, Julia Pongratz, Benjamin Poulter, Anatoly Shvidenko, Riccardo Valentini, Rong Wang, Grégoire Broquet, Yi Yin, Jakob Zscheischler, Bertrand Guenet, Daniel S. Goll, Ashley P. Ballantyne, Hui Yang, Chunjing Qiu, Dan Zhu

^*此作品的通讯作者

Université Paris-Saclay
Peking University
International Institute for Applied Systems Analysis, Laxenburg
Woods Hole Research Center
CAS - Institute of Geographical Sciences and Natural Resources Research
Université libre de Bruxelles
Ludwig Maximilian University of Munich
Tsinghua University
Yale University
CSIRO
CICERO Center for International Climate Research
Oak Ridge National Laboratory
Northwest Agriculture and Forestry University
Vrije Universiteit Amsterdam
University of Hamburg
Stanford University
Nanjing University of Information Science & Technology
Japan Agency for Marine-Earth Science and Technology
Chiba University
Institute of Soil Science and Agrochemistry of the Siberian Branch of the RAS
Tuva State University
Max Planck Institute for Meteorology
NASA Goddard Space Flight Center
Tuscia University
People's Friendship University of Russia
Fudan University
California Institute of Technology
University of Bern
University of Montana

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107 引用（Scopus）

摘要

Resolving regional carbon budgets is critical for informing land-based mitigation policy. For nine regions covering nearly the whole globe, we collected inventory estimates of carbon-stock changes complemented by satellite estimates of biomass changes where inventory data are missing. The net land-atmospheric carbon exchange (NEE) was calculated by taking the sum of the carbon-stock change and lateral carbon fluxes from crop and wood trade, and riverine-carbon export to the ocean. Summing up NEE from all regions, we obtained a global 'bottom-up' NEE for net land anthropogenic CO2 uptake of -2.2 ± 0.6 PgC yr-1 consistent with the independent top-down NEE from the global atmospheric carbon budget during 2000-2009. This estimate is so far the most comprehensive global bottom-up carbon budget accounting, which set up an important milestone for global carbon-cycle studies. By decomposing NEE into component fluxes, we found that global soil heterotrophic respiration amounts to a source of CO2 of 39 PgC yr-1 with an interquartile of 33-46 PgC yr-1 - a much smaller portion of net primary productivity than previously reported.

源语言	英语
文章编号	nwaa145
期刊	National Science Review
卷	8
期	2
DOI	https://doi.org/10.1093/nsr/nwaa145
出版状态	已出版 - 1 2月 2021
已对外发布	是

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Ciais, P., Yao, Y., Gasser, T., Baccini, A., Wang, Y., Lauerwald, R., Peng, S., Bastos, A., Li, W., Raymond, P. A., Canadell, J. G., Peters, G. P., Andres, R. J., Chang, J., Yue, C., Dolman, A. J., Haverd, V., Hartmann, J., Laruelle, G., ... Zhu, D. (2021). Empirical estimates of regional carbon budgets imply reduced global soil heterotrophic respiration. National Science Review, 8(2), 文章 nwaa145. https://doi.org/10.1093/nsr/nwaa145

@article{9503f2e9f34d40c293c42f123b764a6c,

title = "Empirical estimates of regional carbon budgets imply reduced global soil heterotrophic respiration",

abstract = "Resolving regional carbon budgets is critical for informing land-based mitigation policy. For nine regions covering nearly the whole globe, we collected inventory estimates of carbon-stock changes complemented by satellite estimates of biomass changes where inventory data are missing. The net land-atmospheric carbon exchange (NEE) was calculated by taking the sum of the carbon-stock change and lateral carbon fluxes from crop and wood trade, and riverine-carbon export to the ocean. Summing up NEE from all regions, we obtained a global 'bottom-up' NEE for net land anthropogenic CO2 uptake of -2.2 ± 0.6 PgC yr-1 consistent with the independent top-down NEE from the global atmospheric carbon budget during 2000-2009. This estimate is so far the most comprehensive global bottom-up carbon budget accounting, which set up an important milestone for global carbon-cycle studies. By decomposing NEE into component fluxes, we found that global soil heterotrophic respiration amounts to a source of CO2 of 39 PgC yr-1 with an interquartile of 33-46 PgC yr-1 - a much smaller portion of net primary productivity than previously reported.",

keywords = "Carbon budget, human appropriation of ecosystems, soil carbon",

author = "Philippe Ciais and Yitong Yao and Thomas Gasser and Alessandro Baccini and Yilong Wang and Ronny Lauerwald and Shushi Peng and Ana Bastos and Wei Li and Raymond, \{Peter A.\} and Canadell, \{Josep G.\} and Peters, \{Glen P.\} and Andres, \{Rob J.\} and Jinfeng Chang and Chao Yue and Dolman, \{A. Johannes\} and Vanessa Haverd and Jens Hartmann and Goulven Laruelle and Konings, \{Alexandra G.\} and King, \{Anthony W.\} and Yi Liu and Sebastiaan Luyssaert and Fabienne Maignan and Patra, \{Prabir K.\} and Anna Peregon and Pierre Regnier and Julia Pongratz and Benjamin Poulter and Anatoly Shvidenko and Riccardo Valentini and Rong Wang and Gr{\'e}goire Broquet and Yi Yin and Jakob Zscheischler and Bertrand Guenet and Goll, \{Daniel S.\} and Ballantyne, \{Ashley P.\} and Hui Yang and Chunjing Qiu and Dan Zhu",

note = "Publisher Copyright: {\textcopyright} 2021 The Author(s).",

year = "2021",

month = feb,

day = "1",

doi = "10.1093/nsr/nwaa145",

language = "英语",

volume = "8",

journal = "National Science Review",

issn = "2095-5138",

publisher = "Oxford University Press",

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Ciais, P, Yao, Y, Gasser, T, Baccini, A, Wang, Y, Lauerwald, R, Peng, S, Bastos, A, Li, W, Raymond, PA, Canadell, JG, Peters, GP, Andres, RJ, Chang, J, Yue, C, Dolman, AJ, Haverd, V, Hartmann, J, Laruelle, G, Konings, AG, King, AW, Liu, Y, Luyssaert, S, Maignan, F, Patra, PK, Peregon, A, Regnier, P, Pongratz, J, Poulter, B, Shvidenko, A, Valentini, R, Wang, R, Broquet, G, Yin, Y, Zscheischler, J, Guenet, B, Goll, DS, Ballantyne, AP, Yang, H, Qiu, C & Zhu, D 2021, 'Empirical estimates of regional carbon budgets imply reduced global soil heterotrophic respiration', National Science Review, 卷 8, 号码 2, nwaa145. https://doi.org/10.1093/nsr/nwaa145

TY - JOUR

T1 - Empirical estimates of regional carbon budgets imply reduced global soil heterotrophic respiration

AU - Ciais, Philippe

AU - Yao, Yitong

AU - Gasser, Thomas

AU - Baccini, Alessandro

AU - Wang, Yilong

AU - Lauerwald, Ronny

AU - Peng, Shushi

AU - Bastos, Ana

AU - Li, Wei

AU - Raymond, Peter A.

AU - Canadell, Josep G.

AU - Peters, Glen P.

AU - Andres, Rob J.

AU - Chang, Jinfeng

AU - Yue, Chao

AU - Dolman, A. Johannes

AU - Haverd, Vanessa

AU - Hartmann, Jens

AU - Laruelle, Goulven

AU - Konings, Alexandra G.

AU - King, Anthony W.

AU - Liu, Yi

AU - Luyssaert, Sebastiaan

AU - Maignan, Fabienne

AU - Patra, Prabir K.

AU - Peregon, Anna

AU - Regnier, Pierre

AU - Pongratz, Julia

AU - Poulter, Benjamin

AU - Shvidenko, Anatoly

AU - Valentini, Riccardo

AU - Wang, Rong

AU - Broquet, Grégoire

AU - Yin, Yi

AU - Zscheischler, Jakob

AU - Guenet, Bertrand

AU - Goll, Daniel S.

AU - Ballantyne, Ashley P.

AU - Yang, Hui

AU - Qiu, Chunjing

AU - Zhu, Dan

PY - 2021/2/1

Y1 - 2021/2/1

N2 - Resolving regional carbon budgets is critical for informing land-based mitigation policy. For nine regions covering nearly the whole globe, we collected inventory estimates of carbon-stock changes complemented by satellite estimates of biomass changes where inventory data are missing. The net land-atmospheric carbon exchange (NEE) was calculated by taking the sum of the carbon-stock change and lateral carbon fluxes from crop and wood trade, and riverine-carbon export to the ocean. Summing up NEE from all regions, we obtained a global 'bottom-up' NEE for net land anthropogenic CO2 uptake of -2.2 ± 0.6 PgC yr-1 consistent with the independent top-down NEE from the global atmospheric carbon budget during 2000-2009. This estimate is so far the most comprehensive global bottom-up carbon budget accounting, which set up an important milestone for global carbon-cycle studies. By decomposing NEE into component fluxes, we found that global soil heterotrophic respiration amounts to a source of CO2 of 39 PgC yr-1 with an interquartile of 33-46 PgC yr-1 - a much smaller portion of net primary productivity than previously reported.

AB - Resolving regional carbon budgets is critical for informing land-based mitigation policy. For nine regions covering nearly the whole globe, we collected inventory estimates of carbon-stock changes complemented by satellite estimates of biomass changes where inventory data are missing. The net land-atmospheric carbon exchange (NEE) was calculated by taking the sum of the carbon-stock change and lateral carbon fluxes from crop and wood trade, and riverine-carbon export to the ocean. Summing up NEE from all regions, we obtained a global 'bottom-up' NEE for net land anthropogenic CO2 uptake of -2.2 ± 0.6 PgC yr-1 consistent with the independent top-down NEE from the global atmospheric carbon budget during 2000-2009. This estimate is so far the most comprehensive global bottom-up carbon budget accounting, which set up an important milestone for global carbon-cycle studies. By decomposing NEE into component fluxes, we found that global soil heterotrophic respiration amounts to a source of CO2 of 39 PgC yr-1 with an interquartile of 33-46 PgC yr-1 - a much smaller portion of net primary productivity than previously reported.

KW - Carbon budget

KW - human appropriation of ecosystems

KW - soil carbon

UR - https://www.scopus.com/pages/publications/85106721167

U2 - 10.1093/nsr/nwaa145

DO - 10.1093/nsr/nwaa145

M3 - 文章

AN - SCOPUS:85106721167

SN - 2095-5138

VL - 8

JO - National Science Review

JF - National Science Review

IS - 2

M1 - nwaa145

ER -

Empirical estimates of regional carbon budgets imply reduced global soil heterotrophic respiration

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