Active Layer Thickness and Permafrost Area Projections for the 21st Century

Xiaoqing Peng; Tingjun Zhang; Oliver W. Frauenfeld; Cuicui Mu; Kang Wang; Xiaodong Wu; Donglin Guo; Jing Luo; Jan Hjort; Juha Aalto; Olli Karjalainen; Miska Luoto

doi:10.1029/2023EF003573

Earth's Future (Aug 2023)

Active Layer Thickness and Permafrost Area Projections for the 21st Century

Xiaoqing Peng,
Tingjun Zhang,
Oliver W. Frauenfeld,
Cuicui Mu,
Kang Wang,
Xiaodong Wu,
Donglin Guo,
Jing Luo,
Jan Hjort,
Juha Aalto,
Olli Karjalainen,
Miska Luoto

Affiliations

Xiaoqing Peng: Key Laboratory of Western China’s Environmental Systems (Ministry of Education) College of Earth and Environmental Sciences Lanzhou University Lanzhou China
Tingjun Zhang: Key Laboratory of Western China’s Environmental Systems (Ministry of Education) College of Earth and Environmental Sciences Lanzhou University Lanzhou China
Oliver W. Frauenfeld: Department of Geography Texas A&M University College Station TX USA
Cuicui Mu: Key Laboratory of Western China’s Environmental Systems (Ministry of Education) College of Earth and Environmental Sciences Lanzhou University Lanzhou China
Kang Wang: School of Geographic Sciences East China Normal University Shanghai China
Xiaodong Wu: Cryosphere Research Station on the Qinghai‐Tibet Plateau State Key Laboratory of Cryospheric Science Northwest Institute of Eco‐Environment and Resources Chinese Academy of Sciences Lanzhou China
Donglin Guo: Nansen‐Zhu International Research Centre Institute of Atmospheric Physics Chinese Academy of Sciences Beijing China
Jing Luo: State Key Laboratory of Frozen Soil Engineering Northwest Institute of Eco‐Environment and Resources Chinese Academy of Sciences Lanzhou China
Jan Hjort: Geography Research Unit University of Oulu Oulu Finland
Juha Aalto: Department of Geosciences and Geography University of Helsinki Helsinki Finland
Olli Karjalainen: Geography Research Unit University of Oulu Oulu Finland
Miska Luoto: Department of Geosciences and Geography University of Helsinki Helsinki Finland

DOI: https://doi.org/10.1029/2023EF003573
Journal volume & issue: Vol. 11, no. 8
pp. n/a – n/a

Abstract

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Abstract Permafrost warming leads to greenhouse gas release to the atmosphere, resulting in a positive feedback to climate change. Earth system models indicate that more than 80% of the near‐surface permafrost is projected to disappear by the end of this century, but with a high degree of uncertainty. Here, we apply the Stefan solution to estimate permafrost degradation under future emission scenarios. We find that the most severe future scenario is likely to lead to only a 14% decrease in area extent of the near‐surface permafrost at 3.5 m depth, and an area extent decrease of 1.3% at a depth of 6.0 m. Relative to active layer thickness increases from historical simulations, we find a less than 30% deepening for most permafrost regions by the end of this century. These results imply that the Stefan solution provides near‐surface permafrost area extent degradation estimates that are substantially lower than directly projected by models.

Published in Earth's Future

ISSN: 2328-4277 (Online)
Publisher: Wiley
Country of publisher: United States
LCC subjects: Geography. Anthropology. Recreation: Environmental sciences; Science: Biology (General): Ecology
Website: https://agupubs.onlinelibrary.wiley.com/journal/23284277

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