Vulnerability of permafrost carbon to global warming.

Part II: Sensitivity of permafrost carbon stock to global warming

authored by
Dimitry V. Khvorostyanov, P. Ciais, G. Krinner, S. A. Zimov, Ch Corradi, G. Guggenberger
Abstract

In the companion paper (Part I), we presented a model of permafrost carbon cycle to study the sensitivity of frozen carbon stocks to future climate warming. The mobilization of deep carbon stock of the frozen Pleistocene soil in the case of rapid stepwise increase of atmospheric temperature was considered. In this work, we adapted the model to be used also for floodplain tundra sites and to account for the processes in the soil active layer. The new processes taken into account are litter input and decomposition, plant-mediated transport of methane, and leaching of exudates from plant roots. The SRES-A2 transient climate warming scenario of the IPSL CM4 climate model is used to study the carbon fluxes from the carbon-rich Pleistocene soil with seasonal active-layer carbon cycling on top of it. For a point to the southwest from the western branch of Yedoma Ice Complex, where the climate warming is strong enough to trigger self-sustainable decomposition processes, about 256 kgC m-2, or 70% of the initial soil carbon stock under present-day climate conditions, are emitted to the atmosphere in about 120 yr, including 20 kgC m-2 released as methane. The total average flux of CO2 and methane emissions to the atmosphere during this time is of 2.1 kgC m-2 yr-1. Within the Yedoma, whose most part of the territory remains relatively cold, the emissions are much smaller: 0.2 kgC m-2 yr-1 between 2050 and 2100 for Yakutsk area. In a test case with saturated upper-soil meter, when the runoff is insufficient to evacuate the meltwater, 0.05 kgCH4 m-2 yr-1 on average are emitted as methane during 250 yr starting from 2050. The latter can translate to the upper bound of 1 GtC yr-1 in CO2 equivalent from the 1 million km2 area of the Yedoma.

External Organisation(s)
Universita della Tuscia
Martin Luther University Halle-Wittenberg
Laboratoire des sciences du climat et de l'environnement
Russian Academy of Sciences (RAS)
Universite Joseph Fourier (UJF)
Type
Article
Journal
Tellus, Series B: Chemical and Physical Meteorology
Volume
60 B
Pages
265-275
No. of pages
11
ISSN
0280-6509
Publication date
2008
Publication status
Published
Peer reviewed
Yes
ASJC Scopus subject areas
Atmospheric Science
Sustainable Development Goals
SDG 13 - Climate Action
Electronic version(s)
https://doi.org/10.1111/j.1600-0889.2007.00336.x (Access: Open)