Ice core measurements of 14CH4 show no evidence of methane release from methane hydrates or old permafrost carbon during a large warming event 11,600 years ago

Thawing permafrost and marine methane hydrate destabilization in the Arctic and elsewhere have been proposed as large sources of methane to the atmosphere in the future warming world. To evaluate this hypothesis it is useful to ask whether such methane releases happened during past warming events. T...

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Main Authors: Petrenko, VV, Severinghaus, JP, Smith, AM, Riedel, K, Brook, EJ, Schaefer, H, Battenstos, D, Harth, C, Hua, Q, Buizert, C, Schilt, A, Fain, X, Mitchell, L, Bauska, TK, Orsi, A
Format: Conference Object
Language:English
Published: European Geosciences Union 2017
Subjects:
Carbon
Methane
Permafrost
Arctic regions
Cryosphere
Hydroshpere
Permanfrost
Ice
Arctic
Greenland
Taylor Glacier
Antarc*
Antarctica
glacier
ice core
Methane hydrate
permafrost
Online Access:http://apo.ansto.gov.au/dspace/handle/10238/9154
https://meetingorganizer.copernicus.org/EGU2015/EGU2015-6712.pdf
id ftansto:oai:apo-prod.ansto.gov.au:10238/9154
record_format openpolar
spelling ftansto:oai:apo-prod.ansto.gov.au:10238/9154 2023-05-15T13:36:16+02:00 Ice core measurements of 14CH4 show no evidence of methane release from methane hydrates or old permafrost carbon during a large warming event 11,600 years ago Petrenko, VV Severinghaus, JP Smith, AM Riedel, K Brook, EJ Schaefer, H Battenstos, D Harth, C Hua, Q Buizert, C Schilt, A Fain, X Mitchell, L Bauska, TK Orsi, A 2017-03-28 http://apo.ansto.gov.au/dspace/handle/10238/9154 https://meetingorganizer.copernicus.org/EGU2015/EGU2015-6712.pdf en eng European Geosciences Union Petrenko, V., Severingaus, J., Smith, A., Riedel, K., Brook, E., Schaefer, H., Battenstos, D., Harth, C, Hua, Q., Buizert, C., Schilt, A., Fain, X., Mitchell, L., Bauska, T. & Orsi, A. (2015). Ice core measurements of 14CH4 show no evidence of methane release from methane hydrates or old permafrost carbon during a large warming event 11,600 years ago. Paper presented at the European Geosciences Union General Assembly 2015, held 12-17 April, 2015 in Vienna, Austria. https://meetingorganizer.copernicus.org/EGU2015/EGU2015-6712.pdf http://apo.ansto.gov.au/dspace/handle/10238/9154 Carbon Methane Permafrost Arctic regions Cryosphere Hydroshpere Permanfrost Ice Conference Presentation 2017 ftansto 2020-06-01T22:28:26Z Thawing permafrost and marine methane hydrate destabilization in the Arctic and elsewhere have been proposed as large sources of methane to the atmosphere in the future warming world. To evaluate this hypothesis it is useful to ask whether such methane releases happened during past warming events. The two major abrupt warming events of the last deglaciation, Oldest Dryas - Bølling (OD-B, ≈ 14,500 years ago) and Younger Dryas - Preboreal (YD-PB; ≈11,600 years ago), were associated with large (up to 50%) increases in atmospheric methane (CH4) concentrations. The sources of these large warming-driven CH4 increases remain incompletely understood, with possible contributions from tropical and boreal wetlands, thawing permafrost as well as marine CH4 hydrates. We present new measurements of 14C of paleoatmospheric CH4 over the YD-PB transition from ancient ice outcropping at Taylor Glacier, Antarctica. 14C can unambiguously identify CH4 emissions from "old carbon" sources, such as permafrost and CH4 hydrates. The only prior study of paleoatmospheric 14CH4 (from Greenland ice) suggested that wetlands were the main driver of the YD-PB CH4 increase, but the results were weakened by an unexpected and poorly understood 14CH4 component from in situ cosmogenic production directly in near-surface ice. In this new study, we have been able to accurately characterize and correct for the cosmogenic 14CH4 component. All samples from before, during and after the abrupt warming and associated CH4 increase yielded 14CH4 values that are consistent with 14C of atmospheric CO2 at that time, indicating a purely contemporaneous methane source. These new measurements rule out the possibility of large CH4 releases to the atmosphere from methane hydrates or old permafrost carbon in response to the large and rapid YD-PB warming. To the extent that the characteristics of the YD-PB warming are comparable to those of the current anthropogenic warming, our measurements suggest that large future atmospheric methane increases from old carbon sources in the Arctic are unlikely. Instead, our measurements indicate that global wetlands will likely respond to the warming with increased methane emissions. © European Geosciences Union Yellow Posters session, Y77 Conference Object Antarc* Antarctica Arctic glacier Greenland Ice ice core Methane hydrate permafrost Taylor Glacier Australian Nuclear Science and Technology Organisation: ANSTO Publications Online Arctic Greenland Taylor Glacier ENVELOPE(162.167,162.167,-77.733,-77.733)
institution Open Polar
collection Australian Nuclear Science and Technology Organisation: ANSTO Publications Online
op_collection_id ftansto
language English
topic Carbon
Methane
Permafrost
Arctic regions
Cryosphere
Hydroshpere
Permanfrost
Ice
spellingShingle Carbon
Methane
Permafrost
Arctic regions
Cryosphere
Hydroshpere
Permanfrost
Ice
Petrenko, VV
Severinghaus, JP
Smith, AM
Riedel, K
Brook, EJ
Schaefer, H
Battenstos, D
Harth, C
Hua, Q
Buizert, C
Schilt, A
Fain, X
Mitchell, L
Bauska, TK
Orsi, A
Ice core measurements of 14CH4 show no evidence of methane release from methane hydrates or old permafrost carbon during a large warming event 11,600 years ago
topic_facet Carbon
Methane
Permafrost
Arctic regions
Cryosphere
Hydroshpere
Permanfrost
Ice
description Thawing permafrost and marine methane hydrate destabilization in the Arctic and elsewhere have been proposed as large sources of methane to the atmosphere in the future warming world. To evaluate this hypothesis it is useful to ask whether such methane releases happened during past warming events. The two major abrupt warming events of the last deglaciation, Oldest Dryas - Bølling (OD-B, ≈ 14,500 years ago) and Younger Dryas - Preboreal (YD-PB; ≈11,600 years ago), were associated with large (up to 50%) increases in atmospheric methane (CH4) concentrations. The sources of these large warming-driven CH4 increases remain incompletely understood, with possible contributions from tropical and boreal wetlands, thawing permafrost as well as marine CH4 hydrates. We present new measurements of 14C of paleoatmospheric CH4 over the YD-PB transition from ancient ice outcropping at Taylor Glacier, Antarctica. 14C can unambiguously identify CH4 emissions from "old carbon" sources, such as permafrost and CH4 hydrates. The only prior study of paleoatmospheric 14CH4 (from Greenland ice) suggested that wetlands were the main driver of the YD-PB CH4 increase, but the results were weakened by an unexpected and poorly understood 14CH4 component from in situ cosmogenic production directly in near-surface ice. In this new study, we have been able to accurately characterize and correct for the cosmogenic 14CH4 component. All samples from before, during and after the abrupt warming and associated CH4 increase yielded 14CH4 values that are consistent with 14C of atmospheric CO2 at that time, indicating a purely contemporaneous methane source. These new measurements rule out the possibility of large CH4 releases to the atmosphere from methane hydrates or old permafrost carbon in response to the large and rapid YD-PB warming. To the extent that the characteristics of the YD-PB warming are comparable to those of the current anthropogenic warming, our measurements suggest that large future atmospheric methane increases from old carbon sources in the Arctic are unlikely. Instead, our measurements indicate that global wetlands will likely respond to the warming with increased methane emissions. © European Geosciences Union Yellow Posters session, Y77
format Conference Object
author Petrenko, VV
Severinghaus, JP
Smith, AM
Riedel, K
Brook, EJ
Schaefer, H
Battenstos, D
Harth, C
Hua, Q
Buizert, C
Schilt, A
Fain, X
Mitchell, L
Bauska, TK
Orsi, A
author_facet Petrenko, VV
Severinghaus, JP
Smith, AM
Riedel, K
Brook, EJ
Schaefer, H
Battenstos, D
Harth, C
Hua, Q
Buizert, C
Schilt, A
Fain, X
Mitchell, L
Bauska, TK
Orsi, A
author_sort Petrenko, VV
title Ice core measurements of 14CH4 show no evidence of methane release from methane hydrates or old permafrost carbon during a large warming event 11,600 years ago
title_short Ice core measurements of 14CH4 show no evidence of methane release from methane hydrates or old permafrost carbon during a large warming event 11,600 years ago
title_full Ice core measurements of 14CH4 show no evidence of methane release from methane hydrates or old permafrost carbon during a large warming event 11,600 years ago
title_fullStr Ice core measurements of 14CH4 show no evidence of methane release from methane hydrates or old permafrost carbon during a large warming event 11,600 years ago
title_full_unstemmed Ice core measurements of 14CH4 show no evidence of methane release from methane hydrates or old permafrost carbon during a large warming event 11,600 years ago
title_sort ice core measurements of 14ch4 show no evidence of methane release from methane hydrates or old permafrost carbon during a large warming event 11,600 years ago
publisher European Geosciences Union
publishDate 2017
url http://apo.ansto.gov.au/dspace/handle/10238/9154
https://meetingorganizer.copernicus.org/EGU2015/EGU2015-6712.pdf
long_lat ENVELOPE(162.167,162.167,-77.733,-77.733)
geographic Arctic
Greenland
Taylor Glacier
geographic_facet Arctic
Greenland
Taylor Glacier
genre Antarc*
Antarctica
Arctic
glacier
Greenland
Ice
ice core
Methane hydrate
permafrost
Taylor Glacier
genre_facet Antarc*
Antarctica
Arctic
glacier
Greenland
Ice
ice core
Methane hydrate
permafrost
Taylor Glacier
op_relation Petrenko, V., Severingaus, J., Smith, A., Riedel, K., Brook, E., Schaefer, H., Battenstos, D., Harth, C, Hua, Q., Buizert, C., Schilt, A., Fain, X., Mitchell, L., Bauska, T. & Orsi, A. (2015). Ice core measurements of 14CH4 show no evidence of methane release from methane hydrates or old permafrost carbon during a large warming event 11,600 years ago. Paper presented at the European Geosciences Union General Assembly 2015, held 12-17 April, 2015 in Vienna, Austria.
https://meetingorganizer.copernicus.org/EGU2015/EGU2015-6712.pdf
http://apo.ansto.gov.au/dspace/handle/10238/9154
_version_ 1766076260617814016

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