Climate Change and the Permafrost Carbon Feedback

Approximately twice as much soil carbon is stored in the northern circumpolar permafrost zone than is currently contained in the atmosphere. Permafrost thaw, and the microbial decomposition of previously frozen organic carbon, is considered one of the most likely positive feedbacks from terrestrial...

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Main Authors: Schuur, E. A. G., McGuire, A. D., Grosse, Guido, Harden, Jennifer W., Hayes, D.J., Hugelius, Gustaf, Koven, C. D., Kuhry, P., Lawrence, D. M., Natali, S.M., Olefeldt, D., Romanovskii, V. E., Schädel, C., Schaefer, K., Turetsky, M., Treat, C. C., Vonk, J.
Format: Conference Object
Language:unknown
Published: AGU 2014
Subjects:
permafrost
Online Access:https://epic.awi.de/id/eprint/37991/
http://abstractsearch.agu.org/meetings/2014/FM/B41O-01.html
https://hdl.handle.net/10013/epic.45545
id ftawi:oai:epic.awi.de:37991
record_format openpolar
spelling ftawi:oai:epic.awi.de:37991 2024-09-15T18:29:20+00:00 Climate Change and the Permafrost Carbon Feedback Schuur, E. A. G. McGuire, A. D. Grosse, Guido Harden, Jennifer W. Hayes, D.J. Hugelius, Gustaf Koven, C. D. Kuhry, P. Lawrence, D. M. Natali, S.M. Olefeldt, D. Romanovskii, V. E. Schädel, C. Schaefer, K. Turetsky, M. Treat, C. C. Vonk, J. 2014-12-18 https://epic.awi.de/id/eprint/37991/ http://abstractsearch.agu.org/meetings/2014/FM/B41O-01.html https://hdl.handle.net/10013/epic.45545 unknown AGU Schuur, E. A. G. , McGuire, A. D. , Grosse, G. orcid:0000-0001-5895-2141 , Harden, J. W. , Hayes, D. , Hugelius, G. , Koven, C. D. , Kuhry, P. , Lawrence, D. M. , Natali, S. , Olefeldt, D. , Romanovskii, V. E. , Schädel, C. , Schaefer, K. , Turetsky, M. , Treat, C. C. and Vonk, J. (2014) Climate Change and the Permafrost Carbon Feedback , AGU Fall Meeting, San Francisco, USA, 15 December 2014 - 19 December 2014 . hdl:10013/epic.45545 EPIC3AGU Fall Meeting, San Francisco, USA, 2014-12-15-2014-12-19San Francisco, USA, AGU Conference notRev 2014 ftawi 2024-06-24T04:12:21Z Approximately twice as much soil carbon is stored in the northern circumpolar permafrost zone than is currently contained in the atmosphere. Permafrost thaw, and the microbial decomposition of previously frozen organic carbon, is considered one of the most likely positive feedbacks from terrestrial ecosystems to the atmosphere in a warmer world. Yet, the rate and form of release is highly uncertain but crucial for predicting the strength and timing of this carbon cycle feedback this century and beyond. New insight brought together under a multi-year synthesis effort by the Permafrost Carbon Network helps constrain current understanding of the permafrost carbon feedback to climate, and provides a framework for newly developing research initiatives in this region. A newly enlarged soil carbon database continues to verify the widespread pattern of large quantities of carbon accumulated deep in permafrost soils. The known pool of permafrost carbon is now estimated to be 1330-1580 Pg C, with the potential for ~400 Pg C in deep permafrost sediments that remain largely unquantified. Laboratory incubations of these permafrost soils reveal that a significant fraction of this material can be mineralized by microbes and converted to CO2 and CH4 on time scales of years to decades, with decade-long average losses from aerobic incubations ranging from 6-34% of initial carbon. Variation in loss rates is depended on the carbon to nitrogen ratio, with higher values leading to more proportional loss. Model scenarios show potential C release from the permafrost zone ranging from 37-174 Pg C by 2100 under the current climate warming trajectory (RCP 8.5), with an average across models of 92±17 Pg C. Furthermore, thawing permafrost C is forecasted to impact global climate for centuries, with models, on average, estimating 59% of total C emissions after 2100. Taken together, greenhouse gas emissions from warming permafrost appear likely to occur at a magnitude similar to other historically important biospheric C sources, such as land ... Conference Object permafrost Alfred Wegener Institute for Polar- and Marine Research (AWI): ePIC (electronic Publication Information Center)
institution Open Polar
collection Alfred Wegener Institute for Polar- and Marine Research (AWI): ePIC (electronic Publication Information Center)
op_collection_id ftawi
language unknown
description Approximately twice as much soil carbon is stored in the northern circumpolar permafrost zone than is currently contained in the atmosphere. Permafrost thaw, and the microbial decomposition of previously frozen organic carbon, is considered one of the most likely positive feedbacks from terrestrial ecosystems to the atmosphere in a warmer world. Yet, the rate and form of release is highly uncertain but crucial for predicting the strength and timing of this carbon cycle feedback this century and beyond. New insight brought together under a multi-year synthesis effort by the Permafrost Carbon Network helps constrain current understanding of the permafrost carbon feedback to climate, and provides a framework for newly developing research initiatives in this region. A newly enlarged soil carbon database continues to verify the widespread pattern of large quantities of carbon accumulated deep in permafrost soils. The known pool of permafrost carbon is now estimated to be 1330-1580 Pg C, with the potential for ~400 Pg C in deep permafrost sediments that remain largely unquantified. Laboratory incubations of these permafrost soils reveal that a significant fraction of this material can be mineralized by microbes and converted to CO2 and CH4 on time scales of years to decades, with decade-long average losses from aerobic incubations ranging from 6-34% of initial carbon. Variation in loss rates is depended on the carbon to nitrogen ratio, with higher values leading to more proportional loss. Model scenarios show potential C release from the permafrost zone ranging from 37-174 Pg C by 2100 under the current climate warming trajectory (RCP 8.5), with an average across models of 92±17 Pg C. Furthermore, thawing permafrost C is forecasted to impact global climate for centuries, with models, on average, estimating 59% of total C emissions after 2100. Taken together, greenhouse gas emissions from warming permafrost appear likely to occur at a magnitude similar to other historically important biospheric C sources, such as land ...
format Conference Object
author Schuur, E. A. G.
McGuire, A. D.
Grosse, Guido
Harden, Jennifer W.
Hayes, D.J.
Hugelius, Gustaf
Koven, C. D.
Kuhry, P.
Lawrence, D. M.
Natali, S.M.
Olefeldt, D.
Romanovskii, V. E.
Schädel, C.
Schaefer, K.
Turetsky, M.
Treat, C. C.
Vonk, J.
spellingShingle Schuur, E. A. G.
McGuire, A. D.
Grosse, Guido
Harden, Jennifer W.
Hayes, D.J.
Hugelius, Gustaf
Koven, C. D.
Kuhry, P.
Lawrence, D. M.
Natali, S.M.
Olefeldt, D.
Romanovskii, V. E.
Schädel, C.
Schaefer, K.
Turetsky, M.
Treat, C. C.
Vonk, J.
Climate Change and the Permafrost Carbon Feedback
author_facet Schuur, E. A. G.
McGuire, A. D.
Grosse, Guido
Harden, Jennifer W.
Hayes, D.J.
Hugelius, Gustaf
Koven, C. D.
Kuhry, P.
Lawrence, D. M.
Natali, S.M.
Olefeldt, D.
Romanovskii, V. E.
Schädel, C.
Schaefer, K.
Turetsky, M.
Treat, C. C.
Vonk, J.
author_sort Schuur, E. A. G.
title Climate Change and the Permafrost Carbon Feedback
title_short Climate Change and the Permafrost Carbon Feedback
title_full Climate Change and the Permafrost Carbon Feedback
title_fullStr Climate Change and the Permafrost Carbon Feedback
title_full_unstemmed Climate Change and the Permafrost Carbon Feedback
title_sort climate change and the permafrost carbon feedback
publisher AGU
publishDate 2014
url https://epic.awi.de/id/eprint/37991/
http://abstractsearch.agu.org/meetings/2014/FM/B41O-01.html
https://hdl.handle.net/10013/epic.45545
genre permafrost
genre_facet permafrost
op_source EPIC3AGU Fall Meeting, San Francisco, USA, 2014-12-15-2014-12-19San Francisco, USA, AGU
op_relation Schuur, E. A. G. , McGuire, A. D. , Grosse, G. orcid:0000-0001-5895-2141 , Harden, J. W. , Hayes, D. , Hugelius, G. , Koven, C. D. , Kuhry, P. , Lawrence, D. M. , Natali, S. , Olefeldt, D. , Romanovskii, V. E. , Schädel, C. , Schaefer, K. , Turetsky, M. , Treat, C. C. and Vonk, J. (2014) Climate Change and the Permafrost Carbon Feedback , AGU Fall Meeting, San Francisco, USA, 15 December 2014 - 19 December 2014 . hdl:10013/epic.45545
_version_ 1810470742372909056

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