Modern to millennium-old greenhouse gases emitted from ponds and lakes of the Eastern Canadian Arctic (Bylot Island, Nunavut).

Ponds and lakes are widespread across the rapidly changing permafrost environments. Aquatic systems play an important role in global biogeochemical cycles, especially in greenhouse gas (GHG) exchanges between terrestrial systems and the atmosphere. The source, speciation and emission rate of carbon...

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Bibliographic Details
Main Authors: Bouchard, Frédéric, Laurion, Isabelle, Préskienis, Vilmantas, Fortier, Daniel, Xu, Xiaomei, Whiticar, Michael J.
Format: Article in Journal/Newspaper
Language:English
Published: 2015
Subjects:
age determination
aquatic environment
biogeochemical cycle
carbon emission
dissolved gas
flux measurement
greenhouse gas
lake
methanogenesis
permafrost
pond
Arctic
Nunavut
Bylot Island
Ice
wedge*
Online Access:https://espace.inrs.ca/id/eprint/3809/
https://espace.inrs.ca/id/eprint/3809/1/P2786.pdf
http://www.biogeosciences.net/12/7279/2015/
id ftinrsquebec:oai:espace.inrs.ca:3809
record_format openpolar
spelling ftinrsquebec:oai:espace.inrs.ca:3809 2023-05-15T14:25:45+02:00 Modern to millennium-old greenhouse gases emitted from ponds and lakes of the Eastern Canadian Arctic (Bylot Island, Nunavut). Bouchard, Frédéric Laurion, Isabelle Préskienis, Vilmantas Fortier, Daniel Xu, Xiaomei Whiticar, Michael J. 2015 application/pdf https://espace.inrs.ca/id/eprint/3809/ https://espace.inrs.ca/id/eprint/3809/1/P2786.pdf http://www.biogeosciences.net/12/7279/2015/ en eng https://espace.inrs.ca/id/eprint/3809/1/P2786.pdf Bouchard, Frédéric, Laurion, Isabelle, Préskienis, Vilmantas, Fortier, Daniel, Xu, Xiaomei et Whiticar, Michael J. (2015). Modern to millennium-old greenhouse gases emitted from ponds and lakes of the Eastern Canadian Arctic (Bylot Island, Nunavut). Biogeosciences , vol. 12 , nº 23. p. 7279-7298. age determination aquatic environment biogeochemical cycle carbon emission dissolved gas flux measurement greenhouse gas lake methanogenesis permafrost pond Article Évalué par les pairs 2015 ftinrsquebec 2023-02-10T11:42:39Z Ponds and lakes are widespread across the rapidly changing permafrost environments. Aquatic systems play an important role in global biogeochemical cycles, especially in greenhouse gas (GHG) exchanges between terrestrial systems and the atmosphere. The source, speciation and emission rate of carbon released from permafrost landscapes are strongly influenced by local conditions, hindering pan-Arctic generalizations. This study reports on GHG ages and emission rates from aquatic systems located on Bylot Island, in the continuous permafrost zone of the Eastern Canadian Arctic. Dissolved and ebullition gas samples were collected during the summer season from different types of water bodies located in a highly dynamic periglacial valley: polygonal ponds, collapsed ice-wedge trough ponds, and larger lakes. The results showed strikingly different ages and fluxes depending on aquatic system types. Polygonal ponds were net sinks of dissolved CO2, but variable sources of dissolved CH4. They presented the highest ebullition fluxes, 1 or 2 orders of magnitude higher than from other ponds and lakes. Trough ponds appeared as substantial GHG sources, especially when their edges were actively eroding. Both types of ponds produced modern to hundreds of years old (< 550 yr BP) GHG, even if trough ponds could contain much older carbon (> 2000 yr BP) derived from freshly eroded peat. Lakes had small dissolved and ebullition fluxes, however they released much older GHG, including millennium-old CH4 (up to 3500 yr BP) from lake central areas. Acetoclastic methanogenesis dominated at all study sites and there was minimal, if any, methane oxidation in gas emitted through ebullition. These findings provide new insights on GHG emissions by permafrost aquatic systems and their potential positive feedback effect on climate. Article in Journal/Newspaper Arctic Arctic Bylot Island Ice Nunavut permafrost wedge* Institut national de la recherche scientifique, Québec: Espace INRS Arctic Nunavut Bylot Island
institution Open Polar
collection Institut national de la recherche scientifique, Québec: Espace INRS
op_collection_id ftinrsquebec
language English
topic age determination
aquatic environment
biogeochemical cycle
carbon emission
dissolved gas
flux measurement
greenhouse gas
lake
methanogenesis
permafrost
pond
spellingShingle age determination
aquatic environment
biogeochemical cycle
carbon emission
dissolved gas
flux measurement
greenhouse gas
lake
methanogenesis
permafrost
pond
Bouchard, Frédéric
Laurion, Isabelle
Préskienis, Vilmantas
Fortier, Daniel
Xu, Xiaomei
Whiticar, Michael J.
Modern to millennium-old greenhouse gases emitted from ponds and lakes of the Eastern Canadian Arctic (Bylot Island, Nunavut).
topic_facet age determination
aquatic environment
biogeochemical cycle
carbon emission
dissolved gas
flux measurement
greenhouse gas
lake
methanogenesis
permafrost
pond
description Ponds and lakes are widespread across the rapidly changing permafrost environments. Aquatic systems play an important role in global biogeochemical cycles, especially in greenhouse gas (GHG) exchanges between terrestrial systems and the atmosphere. The source, speciation and emission rate of carbon released from permafrost landscapes are strongly influenced by local conditions, hindering pan-Arctic generalizations. This study reports on GHG ages and emission rates from aquatic systems located on Bylot Island, in the continuous permafrost zone of the Eastern Canadian Arctic. Dissolved and ebullition gas samples were collected during the summer season from different types of water bodies located in a highly dynamic periglacial valley: polygonal ponds, collapsed ice-wedge trough ponds, and larger lakes. The results showed strikingly different ages and fluxes depending on aquatic system types. Polygonal ponds were net sinks of dissolved CO2, but variable sources of dissolved CH4. They presented the highest ebullition fluxes, 1 or 2 orders of magnitude higher than from other ponds and lakes. Trough ponds appeared as substantial GHG sources, especially when their edges were actively eroding. Both types of ponds produced modern to hundreds of years old (< 550 yr BP) GHG, even if trough ponds could contain much older carbon (> 2000 yr BP) derived from freshly eroded peat. Lakes had small dissolved and ebullition fluxes, however they released much older GHG, including millennium-old CH4 (up to 3500 yr BP) from lake central areas. Acetoclastic methanogenesis dominated at all study sites and there was minimal, if any, methane oxidation in gas emitted through ebullition. These findings provide new insights on GHG emissions by permafrost aquatic systems and their potential positive feedback effect on climate.
format Article in Journal/Newspaper
author Bouchard, Frédéric
Laurion, Isabelle
Préskienis, Vilmantas
Fortier, Daniel
Xu, Xiaomei
Whiticar, Michael J.
author_facet Bouchard, Frédéric
Laurion, Isabelle
Préskienis, Vilmantas
Fortier, Daniel
Xu, Xiaomei
Whiticar, Michael J.
author_sort Bouchard, Frédéric
title Modern to millennium-old greenhouse gases emitted from ponds and lakes of the Eastern Canadian Arctic (Bylot Island, Nunavut).
title_short Modern to millennium-old greenhouse gases emitted from ponds and lakes of the Eastern Canadian Arctic (Bylot Island, Nunavut).
title_full Modern to millennium-old greenhouse gases emitted from ponds and lakes of the Eastern Canadian Arctic (Bylot Island, Nunavut).
title_fullStr Modern to millennium-old greenhouse gases emitted from ponds and lakes of the Eastern Canadian Arctic (Bylot Island, Nunavut).
title_full_unstemmed Modern to millennium-old greenhouse gases emitted from ponds and lakes of the Eastern Canadian Arctic (Bylot Island, Nunavut).
title_sort modern to millennium-old greenhouse gases emitted from ponds and lakes of the eastern canadian arctic (bylot island, nunavut).
publishDate 2015
url https://espace.inrs.ca/id/eprint/3809/
https://espace.inrs.ca/id/eprint/3809/1/P2786.pdf
http://www.biogeosciences.net/12/7279/2015/
geographic Arctic
Nunavut
Bylot Island
geographic_facet Arctic
Nunavut
Bylot Island
genre Arctic
Arctic
Bylot Island
Ice
Nunavut
permafrost
wedge*
genre_facet Arctic
Arctic
Bylot Island
Ice
Nunavut
permafrost
wedge*
op_relation https://espace.inrs.ca/id/eprint/3809/1/P2786.pdf
Bouchard, Frédéric, Laurion, Isabelle, Préskienis, Vilmantas, Fortier, Daniel, Xu, Xiaomei et Whiticar, Michael J. (2015). Modern to millennium-old greenhouse gases emitted from ponds and lakes of the Eastern Canadian Arctic (Bylot Island, Nunavut). Biogeosciences , vol. 12 , nº 23. p. 7279-7298.
_version_ 1766298214978289664

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