Whole-soil warming leads to substantial soil carbon emission in an alpine grassland

Ying Chen; Wenkuan Qin; Qiufang Zhang; Xudong Wang; Jiguang Feng; Mengguang Han; Yanhui Hou; Hongyang Zhao; Zhenhua Zhang; Jin Sheng He; Margaret S. Torn; Biao Zhu

doi:10.1038/s41467-024-48736-w

Whole-soil warming leads to substantial soil carbon emission in an alpine grassland

Ying Chen
, Wenkuan Qin
, Qiufang Zhang
, Xudong Wang
, Jiguang Feng
, Mengguang Han
, Yanhui Hou
, Hongyang Zhao
, Zhenhua Zhang
, Jin Sheng He
, Margaret S. Torn
, Biao Zhu^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

39 Scopus citations

Abstract

The sensitivity of soil organic carbon (SOC) decomposition in seasonally frozen soils, such as alpine ecosystems, to climate warming is a major uncertainty in global carbon cycling. Here we measure soil CO₂ emission during four years (2018–2021) from the whole-soil warming experiment (4 °C for the top 1 m) in an alpine grassland ecosystem. We find that whole-soil warming stimulates total and SOC-derived CO₂ efflux by 26% and 37%, respectively, but has a minor effect on root-derived CO₂ efflux. Moreover, experimental warming only promotes total soil CO₂ efflux by 7-8% on average in the meta-analysis across all grasslands or alpine grasslands globally (none of these experiments were whole-soil warming). We show that whole-soil warming has a much stronger effect on soil carbon emission in the alpine grassland ecosystem than what was reported in previous warming experiments, most of which only heat surface soils.

Original language	English
Article number	4489
Journal	Nature Communications
Volume	15
Issue number	1
DOIs	https://doi.org/10.1038/s41467-024-48736-w
State	Published - Dec 2024
Externally published	Yes

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10.1038/s41467-024-48736-w

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@article{56bee7588d824739812ca6352781a99d,

title = "Whole-soil warming leads to substantial soil carbon emission in an alpine grassland",

abstract = "The sensitivity of soil organic carbon (SOC) decomposition in seasonally frozen soils, such as alpine ecosystems, to climate warming is a major uncertainty in global carbon cycling. Here we measure soil CO2 emission during four years (2018–2021) from the whole-soil warming experiment (4 °C for the top 1 m) in an alpine grassland ecosystem. We find that whole-soil warming stimulates total and SOC-derived CO2 efflux by 26\% and 37\%, respectively, but has a minor effect on root-derived CO2 efflux. Moreover, experimental warming only promotes total soil CO2 efflux by 7-8\% on average in the meta-analysis across all grasslands or alpine grasslands globally (none of these experiments were whole-soil warming). We show that whole-soil warming has a much stronger effect on soil carbon emission in the alpine grassland ecosystem than what was reported in previous warming experiments, most of which only heat surface soils.",

author = "Ying Chen and Wenkuan Qin and Qiufang Zhang and Xudong Wang and Jiguang Feng and Mengguang Han and Yanhui Hou and Hongyang Zhao and Zhenhua Zhang and He, \{Jin Sheng\} and Torn, \{Margaret S.\} and Biao Zhu",

note = "Publisher Copyright: {\textcopyright} The Author(s) 2024.",

year = "2024",

month = dec,

doi = "10.1038/s41467-024-48736-w",

language = "英语",

volume = "15",

journal = "Nature Communications",

issn = "2041-1723",

publisher = "Nature Research",

number = "1",

}

TY - JOUR

T1 - Whole-soil warming leads to substantial soil carbon emission in an alpine grassland

AU - Chen, Ying

AU - Qin, Wenkuan

AU - Zhang, Qiufang

AU - Wang, Xudong

AU - Feng, Jiguang

AU - Han, Mengguang

AU - Hou, Yanhui

AU - Zhao, Hongyang

AU - Zhang, Zhenhua

AU - He, Jin Sheng

AU - Torn, Margaret S.

AU - Zhu, Biao

PY - 2024/12

Y1 - 2024/12

N2 - The sensitivity of soil organic carbon (SOC) decomposition in seasonally frozen soils, such as alpine ecosystems, to climate warming is a major uncertainty in global carbon cycling. Here we measure soil CO2 emission during four years (2018–2021) from the whole-soil warming experiment (4 °C for the top 1 m) in an alpine grassland ecosystem. We find that whole-soil warming stimulates total and SOC-derived CO2 efflux by 26% and 37%, respectively, but has a minor effect on root-derived CO2 efflux. Moreover, experimental warming only promotes total soil CO2 efflux by 7-8% on average in the meta-analysis across all grasslands or alpine grasslands globally (none of these experiments were whole-soil warming). We show that whole-soil warming has a much stronger effect on soil carbon emission in the alpine grassland ecosystem than what was reported in previous warming experiments, most of which only heat surface soils.

AB - The sensitivity of soil organic carbon (SOC) decomposition in seasonally frozen soils, such as alpine ecosystems, to climate warming is a major uncertainty in global carbon cycling. Here we measure soil CO2 emission during four years (2018–2021) from the whole-soil warming experiment (4 °C for the top 1 m) in an alpine grassland ecosystem. We find that whole-soil warming stimulates total and SOC-derived CO2 efflux by 26% and 37%, respectively, but has a minor effect on root-derived CO2 efflux. Moreover, experimental warming only promotes total soil CO2 efflux by 7-8% on average in the meta-analysis across all grasslands or alpine grasslands globally (none of these experiments were whole-soil warming). We show that whole-soil warming has a much stronger effect on soil carbon emission in the alpine grassland ecosystem than what was reported in previous warming experiments, most of which only heat surface soils.

UR - https://www.scopus.com/pages/publications/85194885082

U2 - 10.1038/s41467-024-48736-w

DO - 10.1038/s41467-024-48736-w

M3 - 文章

C2 - 38802385

AN - SCOPUS:85194885082

SN - 2041-1723

VL - 15

JO - Nature Communications

JF - Nature Communications

IS - 1

M1 - 4489

ER -

Whole-soil warming leads to substantial soil carbon emission in an alpine grassland

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