Small thaw ponds: an unaccounted source of methane in the Canadian high Arctic.

Small thaw ponds: an unaccounted source of methane in the Canadian high Arctic.

Thawing permafrost in the Canadian Arctic tundra leads to peat erosion and slumping in narrow and shallow runnel ponds that surround more commonly studied polygonal ponds. Here we compared the methane production between runnel and polygonal ponds using stable isotope ratios, ¹⁴C signatures, and inve...

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Main Authors: Karita Negandhi, Isabelle Laurion, Michael J Whiticar, Pierre E Galand, Xiaomei Xu, Connie Lovejoy
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2013-01-01
Series:PLoS ONE
Online Access:https://www.ncbi.nlm.nih.gov/pmc/articles/pmid/24236014/pdf/?tool=EBI
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spelling doaj-540084efb2cc4e8b884468e86fafbb5c2021-03-03T22:46:58ZengPublic Library of Science (PLoS)PLoS ONE1932-62032013-01-01811e7820410.1371/journal.pone.0078204Small thaw ponds: an unaccounted source of methane in the Canadian high Arctic.Karita NegandhiIsabelle LaurionMichael J WhiticarPierre E GalandXiaomei XuConnie LovejoyThawing permafrost in the Canadian Arctic tundra leads to peat erosion and slumping in narrow and shallow runnel ponds that surround more commonly studied polygonal ponds. Here we compared the methane production between runnel and polygonal ponds using stable isotope ratios, ¹⁴C signatures, and investigated potential methanogenic communities through high-throughput sequencing archaeal 16S rRNA genes. We found that runnel ponds had significantly higher methane and carbon dioxide emissions, produced from a slightly larger fraction of old carbon, compared to polygonal ponds. The methane stable isotopic signature indicated production through acetoclastic methanogenesis, but gene signatures from acetoclastic and hydrogenotrophic methanogenic Archaea were detected in both polygonal and runnel ponds. We conclude that runnel ponds represent a source of methane from potentially older C, and that they contain methanogenic communities able to use diverse sources of carbon, increasing the risk of augmented methane release under a warmer climate.https://www.ncbi.nlm.nih.gov/pmc/articles/pmid/24236014/pdf/?tool=EBI
collection DOAJ
language English
format Article
sources DOAJ
author Karita Negandhi
Isabelle Laurion
Michael J Whiticar
Pierre E Galand
Xiaomei Xu
Connie Lovejoy
spellingShingle Karita Negandhi
Isabelle Laurion
Michael J Whiticar
Pierre E Galand
Xiaomei Xu
Connie Lovejoy
Small thaw ponds: an unaccounted source of methane in the Canadian high Arctic.
PLoS ONE
author_facet Karita Negandhi
Isabelle Laurion
Michael J Whiticar
Pierre E Galand
Xiaomei Xu
Connie Lovejoy
author_sort Karita Negandhi
title Small thaw ponds: an unaccounted source of methane in the Canadian high Arctic.
title_short Small thaw ponds: an unaccounted source of methane in the Canadian high Arctic.
title_full Small thaw ponds: an unaccounted source of methane in the Canadian high Arctic.
title_fullStr Small thaw ponds: an unaccounted source of methane in the Canadian high Arctic.
title_full_unstemmed Small thaw ponds: an unaccounted source of methane in the Canadian high Arctic.
title_sort small thaw ponds: an unaccounted source of methane in the canadian high arctic.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2013-01-01
description Thawing permafrost in the Canadian Arctic tundra leads to peat erosion and slumping in narrow and shallow runnel ponds that surround more commonly studied polygonal ponds. Here we compared the methane production between runnel and polygonal ponds using stable isotope ratios, ¹⁴C signatures, and investigated potential methanogenic communities through high-throughput sequencing archaeal 16S rRNA genes. We found that runnel ponds had significantly higher methane and carbon dioxide emissions, produced from a slightly larger fraction of old carbon, compared to polygonal ponds. The methane stable isotopic signature indicated production through acetoclastic methanogenesis, but gene signatures from acetoclastic and hydrogenotrophic methanogenic Archaea were detected in both polygonal and runnel ponds. We conclude that runnel ponds represent a source of methane from potentially older C, and that they contain methanogenic communities able to use diverse sources of carbon, increasing the risk of augmented methane release under a warmer climate.
url https://www.ncbi.nlm.nih.gov/pmc/articles/pmid/24236014/pdf/?tool=EBI
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AT michaeljwhiticar smallthawpondsanunaccountedsourceofmethaneinthecanadianhigharctic
AT pierreegaland smallthawpondsanunaccountedsourceofmethaneinthecanadianhigharctic
AT xiaomeixu smallthawpondsanunaccountedsourceofmethaneinthecanadianhigharctic
AT connielovejoy smallthawpondsanunaccountedsourceofmethaneinthecanadianhigharctic
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