Environmental selection of planktonic methanogens in permafrost thaw ponds

The warming and thermal erosion of ice-containing permafrost results in thaw ponds that are strong emitters of methane to the atmosphere. Here we examined methanogens and other Archaea, in two types of thaw ponds that are formed by the collapse of either permafrost peat mounds (palsas) or mineral so...

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Veröffentlicht in:	Scientific reports 2016-08, Vol.6 (1), p.31312-31312, Article 31312
Hauptverfasser:	Crevecoeur, Sophie, Vincent, Warwick F., Lovejoy, Connie
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Sprache:	eng
Schlagworte:	45 45/77 45/91 631/158/670 704/286 Bottom water Community structure Humanities and Social Sciences Hypoxia Ice Methane Methanogenic bacteria Mounds multidisciplinary Next-generation sequencing Peat Permafrost Ponds rRNA 16S Science Science (multidisciplinary) Taxa Water analysis Water sampling
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description	The warming and thermal erosion of ice-containing permafrost results in thaw ponds that are strong emitters of methane to the atmosphere. Here we examined methanogens and other Archaea, in two types of thaw ponds that are formed by the collapse of either permafrost peat mounds (palsas) or mineral soil mounds (lithalsas) in subarctic Quebec, Canada. Using high-throughput sequencing of a hypervariable region of 16S rRNA, we determined the taxonomic structure and diversity of archaeal communities in near-bottom water samples, and analyzed the mcrA gene transcripts from two sites. The ponds at all sites were well stratified, with hypoxic or anoxic bottom waters. Their archaeal communities were dominated by Euryarchaeota, specifically taxa in the methanogenic orders Methanomicrobiales and Methanosarcinales, indicating a potentially active community of planktonic methanogens. The order Methanomicrobiales accounted for most of the mcrA transcripts in the two ponds. The Archaeal communities differed significantly between the lithalsa and palsa ponds, with higher alpha diversity in the organic-rich palsa ponds, and pronounced differences in community structure. These results indicate the widespread occurrence of planktonic, methane-producing Archaea in thaw ponds, with environmental selection of taxa according to permafrost landscape type.
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The Archaeal communities differed significantly between the lithalsa and palsa ponds, with higher alpha diversity in the organic-rich palsa ponds, and pronounced differences in community structure. 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Here we examined methanogens and other Archaea, in two types of thaw ponds that are formed by the collapse of either permafrost peat mounds (palsas) or mineral soil mounds (lithalsas) in subarctic Quebec, Canada. Using high-throughput sequencing of a hypervariable region of 16S rRNA, we determined the taxonomic structure and diversity of archaeal communities in near-bottom water samples, and analyzed the mcrA gene transcripts from two sites. The ponds at all sites were well stratified, with hypoxic or anoxic bottom waters. Their archaeal communities were dominated by Euryarchaeota, specifically taxa in the methanogenic orders Methanomicrobiales and Methanosarcinales, indicating a potentially active community of planktonic methanogens. The order Methanomicrobiales accounted for most of the mcrA transcripts in the two ponds. The Archaeal communities differed significantly between the lithalsa and palsa ponds, with higher alpha diversity in the organic-rich palsa ponds, and pronounced differences in community structure. These results indicate the widespread occurrence of planktonic, methane-producing Archaea in thaw ponds, with environmental selection of taxa according to permafrost landscape type.</abstract><cop>London</cop><pub>Nature Publishing Group UK</pub><pmid>27501855</pmid><doi>10.1038/srep31312</doi><tpages>1</tpages><oa>free_for_read</oa></addata></record>
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subjects	45 45/77 45/91 631/158/670 704/286 Bottom water Community structure Humanities and Social Sciences Hypoxia Ice Methane Methanogenic bacteria Mounds multidisciplinary Next-generation sequencing Peat Permafrost Ponds rRNA 16S Science Science (multidisciplinary) Taxa Water analysis Water sampling
title	Environmental selection of planktonic methanogens in permafrost thaw ponds
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