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