Large uncertainties in the budget of atmospheric methane (CH4) limit the accuracy of climate change projections. Here we describe and quantify an important source of CH4— point-source ebullition (bubbling) from northern lakes—that has not been incorporated in previous regional or global methane budg...
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ftciteseerx:oai:CiteSeerX.psu:10.1.1.512.6687 2023-05-15T16:36:53+02:00 The Pennsylvania State University CiteSeerX Archives application/pdf http://citeseerx.ist.psu.edu/viewdoc/summary?doi=10.1.1.512.6687 http://www.sscnet.ucla.edu/geog/downloads/297/299.pdf en eng http://citeseerx.ist.psu.edu/viewdoc/summary?doi=10.1.1.512.6687 http://www.sscnet.ucla.edu/geog/downloads/297/299.pdf Metadata may be used without restrictions as long as the oai identifier remains attached to it. http://www.sscnet.ucla.edu/geog/downloads/297/299.pdf northern lakes methane emissions permafrost thermokarst Geographical Information System climate change text ftciteseerx 2016-01-08T09:43:29Z Large uncertainties in the budget of atmospheric methane (CH4) limit the accuracy of climate change projections. Here we describe and quantify an important source of CH4— point-source ebullition (bubbling) from northern lakes—that has not been incorporated in previous regional or global methane budgets. Employing a method recently introduced to measure ebullitionmore accurately by taking into account its spatial patchiness in lakes, we estimate point-source ebullition for 16 lakes in Alaska and Siberia that represent several common northern lake types: glacial, alluvial floodplain, peatland and thermokarst (thaw) lakes. Extrapolation of measured fluxes from these 16 sites to all lakes north of 458 N using circumpolardatabases of lake andpermafrost distributions suggests that northern lakes are a globally significant source of atmospheric CH4, emitting approximately 24.2G10.5 Tg CH4 yr K1. Thermokarst lakes have particularly high emissions because they release CH4 produced from organic matter previously sequestered in permafrost. A carbon mass balance calculation of CH4 release from thermokarst lakes on the Siberian yedoma ice complex suggests that these lakes alonewould emit asmuchas approximately 49 000 TgCH4 if this ice complex was to thaw completely. Using a space-for-time substitution based on the current lake distributions in permafrost-dominated and permafrost-free terrains, we estimate that lake emissions would be reduced by approximately 12 % in a more probable transitional permafrost scenario and by approximately 53 % in a ‘permafrost-free ’ NorthernHemisphere. Long-term decline in CH4 ebullition from lakes due to lake area loss and permafrost thaw would occur only after the large release of CH4 associated thermokarst lake development in the zone of continuous permafrost. Text Ice permafrost Thermokarst Alaska Siberia Unknown |
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Open Polar |
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ftciteseerx |
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English |
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northern lakes methane emissions permafrost thermokarst Geographical Information System climate change |
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northern lakes methane emissions permafrost thermokarst Geographical Information System climate change |
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northern lakes methane emissions permafrost thermokarst Geographical Information System climate change |
| description |
Large uncertainties in the budget of atmospheric methane (CH4) limit the accuracy of climate change projections. Here we describe and quantify an important source of CH4— point-source ebullition (bubbling) from northern lakes—that has not been incorporated in previous regional or global methane budgets. Employing a method recently introduced to measure ebullitionmore accurately by taking into account its spatial patchiness in lakes, we estimate point-source ebullition for 16 lakes in Alaska and Siberia that represent several common northern lake types: glacial, alluvial floodplain, peatland and thermokarst (thaw) lakes. Extrapolation of measured fluxes from these 16 sites to all lakes north of 458 N using circumpolardatabases of lake andpermafrost distributions suggests that northern lakes are a globally significant source of atmospheric CH4, emitting approximately 24.2G10.5 Tg CH4 yr K1. Thermokarst lakes have particularly high emissions because they release CH4 produced from organic matter previously sequestered in permafrost. A carbon mass balance calculation of CH4 release from thermokarst lakes on the Siberian yedoma ice complex suggests that these lakes alonewould emit asmuchas approximately 49 000 TgCH4 if this ice complex was to thaw completely. Using a space-for-time substitution based on the current lake distributions in permafrost-dominated and permafrost-free terrains, we estimate that lake emissions would be reduced by approximately 12 % in a more probable transitional permafrost scenario and by approximately 53 % in a ‘permafrost-free ’ NorthernHemisphere. Long-term decline in CH4 ebullition from lakes due to lake area loss and permafrost thaw would occur only after the large release of CH4 associated thermokarst lake development in the zone of continuous permafrost. |
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The Pennsylvania State University CiteSeerX Archives |
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Text |
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http://citeseerx.ist.psu.edu/viewdoc/summary?doi=10.1.1.512.6687 http://www.sscnet.ucla.edu/geog/downloads/297/299.pdf |
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Ice permafrost Thermokarst Alaska Siberia |
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Ice permafrost Thermokarst Alaska Siberia |
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http://www.sscnet.ucla.edu/geog/downloads/297/299.pdf |
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http://citeseerx.ist.psu.edu/viewdoc/summary?doi=10.1.1.512.6687 http://www.sscnet.ucla.edu/geog/downloads/297/299.pdf |
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Metadata may be used without restrictions as long as the oai identifier remains attached to it. |
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1766027199498944512 |