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Review
. 2024 Sep;67(9):1833-1848.
doi: 10.1007/s11427-023-2601-1. Epub 2024 Jun 26.

Permafrost carbon cycle and its dynamics on the Tibetan Plateau

Leiyi Chen  1   2 Guibiao Yang  1   2 Yuxuan Bai  1   2 Jinfeng Chang  3 Shuqi Qin  1   2 Futing Liu  4 Mei He  1   2 Yutong Song  1   2   5 Fan Zhang  1   2   5 Josep Peñuelas  6   7 Biao Zhu  8 Guoying Zhou  9   10 Yuanhe Yang  11   12   13
Affiliations
Review

Permafrost carbon cycle and its dynamics on the Tibetan Plateau

Leiyi Chen et al. Sci China Life Sci. 2024 Sep.

Abstract

Our knowledge on permafrost carbon (C) cycle is crucial for understanding its feedback to climate warming and developing nature-based solutions for mitigating climate change. To understand the characteristics of permafrost C cycle on the Tibetan Plateau, the largest alpine permafrost region around the world, we summarized recent advances including the stocks and fluxes of permafrost C and their responses to thawing, and depicted permafrost C dynamics within this century. We find that this alpine permafrost region stores approximately 14.1 Pg (1 Pg=1015 g) of soil organic C (SOC) in the top 3 m. Both substantial gaseous emissions and lateral C transport occur across this permafrost region. Moreover, the mobilization of frozen C is expedited by permafrost thaw, especially by the formation of thermokarst landscapes, which could release significant amounts of C into the atmosphere and surrounding water bodies. This alpine permafrost region nevertheless remains an important C sink, and its capacity to sequester C will continue to increase by 2100. For future perspectives, we would suggest developing long-term in situ observation networks of C stocks and fluxes with improved temporal and spatial coverage, and exploring the mechanisms underlying the response of ecosystem C cycle to permafrost thaw. In addition, it is essential to improve the projection of permafrost C dynamics through in-depth model-data fusion on the Tibetan Plateau.

Keywords: carbon release; carbon sink; climate change; permafrost carbon; permafrost thaw; thermokarst formation.

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