In-depth analysis of core methanogenic communities from high elevation permafrost-affected wetlands

The organic carbon of permafrost affected soils is receiving particular attention with respect to its fate and potential feedback to global warming. The structural and activity changes of methanogenic communities in the degrading permafrost-affected wetlands on the Tibetan Plateau can serve as funda...

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Published in:Soil Biology and Biochemistry
Main Authors: Yang, Sizhong, Liebner, Susanne, Winkel, Matthias, Alawi, Mashal, Horn, Fabian, Doerfer, Corina, Ollivier, Julien, He, Jin-Sheng, Jin, Huijun, Kuehn, Peter, Schloter, Michael, Scholten, Thomas, Wagner, Dirk
Format: Article in Journal/Newspaper
Language:English
Published: 2017
Subjects:
Methanogenic Archaea
Wetland
Mcta Gene
Frozen Ground
Tibetan Plateau
Biogeography
Methanoregula
Science & Technology
Life Sciences & Biomedicine
QINGHAI-TIBET PLATEAU
METHANE EMISSIONS
MICROBIAL COMMUNITY
THAWING PERMAFROST
POLYGONAL TUNDRA
ZOIGE WETLAND
LENA DELTA
PEAT BOG
CARBON
ECOSYSTEMS
Agriculture
Soil Science
lena delta
Peat
permafrost
Tundra
Online Access:http://210.75.249.4/handle/363003/7087
https://doi.org/10.1016/j.soilbio.2017.03.007
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spelling ftchinacascnwipb:oai:210.75.249.4:363003/7087 2024-10-06T13:50:28+00:00 In-depth analysis of core methanogenic communities from high elevation permafrost-affected wetlands Yang, Sizhong Liebner, Susanne Winkel, Matthias Alawi, Mashal Horn, Fabian Doerfer, Corina Ollivier, Julien He, Jin-Sheng Jin, Huijun Kuehn, Peter Schloter, Michael Scholten, Thomas Wagner, Dirk 2017-08-01 http://210.75.249.4/handle/363003/7087 https://doi.org/10.1016/j.soilbio.2017.03.007 英语 eng SOIL BIOLOGY & BIOCHEMISTRY http://210.75.249.4/handle/363003/7087 doi:10.1016/j.soilbio.2017.03.007 Methanogenic Archaea Wetland Mcta Gene Frozen Ground Tibetan Plateau Biogeography Methanoregula Science & Technology Life Sciences & Biomedicine QINGHAI-TIBET PLATEAU METHANE EMISSIONS MICROBIAL COMMUNITY THAWING PERMAFROST POLYGONAL TUNDRA ZOIGE WETLAND LENA DELTA PEAT BOG CARBON ECOSYSTEMS Agriculture Soil Science Article 期刊论文 2017 ftchinacascnwipb https://doi.org/10.1016/j.soilbio.2017.03.007 2024-09-12T04:32:43Z The organic carbon of permafrost affected soils is receiving particular attention with respect to its fate and potential feedback to global warming. The structural and activity changes of methanogenic communities in the degrading permafrost-affected wetlands on the Tibetan Plateau can serve as fundamental elements for modelling feedback interaction of ecosystems to climate change. Hence, we aimed at anticipating if and how the rapid environmental changes occurring especially on the high altitude Tibetan platform will affect methanogenic communities. We identified methanogenic community composition, activity and abundance in wetland soils with different hydrological settings, permafrost extent and soil properties and pinpoint the environmental controls. We show that despite a pronounced natural gradient, the Tibetan high elevation wetland soils host a large methanogenic core microbiome. Hydrogenotrophic methanogens, in particular Methanoregula, and H2-dependent methanogenesis were overall dominant although acetoclastic methanogens in addition to hydrogenotrophs were among the dominating taxa in a minerotrophic fen. Tracing the Methanoregula community of the Tibetan Plateau using public databases revealed its global relevance in natural terrestrial habitats. Unlike the composition, the activity and abundance of methanogens varied strongly in the studied soils with higher values in alpine swamps than in alpine meadows. This study indicates that in the course of current wetland and permafrost degradation and the loss in soil moisture, a decrease in the methane production potential is expected on the high Tibetan Plateau but it will not lead to pronounced changes within the methanogenic community structure. (C) 2017 The Authors. Published by Elsevier Ltd. Article in Journal/Newspaper lena delta Peat permafrost Tundra Northwest Institute of Plateau Biology: NWIPB OpenIR (Chinese Academy of Sciences) Soil Biology and Biochemistry 111 66 77
institution Open Polar
collection Northwest Institute of Plateau Biology: NWIPB OpenIR (Chinese Academy of Sciences)
op_collection_id ftchinacascnwipb
language English
topic Methanogenic Archaea
Wetland
Mcta Gene
Frozen Ground
Tibetan Plateau
Biogeography
Methanoregula
Science & Technology
Life Sciences & Biomedicine
QINGHAI-TIBET PLATEAU
METHANE EMISSIONS
MICROBIAL COMMUNITY
THAWING PERMAFROST
POLYGONAL TUNDRA
ZOIGE WETLAND
LENA DELTA
PEAT BOG
CARBON
ECOSYSTEMS
Agriculture
Soil Science
spellingShingle Methanogenic Archaea
Wetland
Mcta Gene
Frozen Ground
Tibetan Plateau
Biogeography
Methanoregula
Science & Technology
Life Sciences & Biomedicine
QINGHAI-TIBET PLATEAU
METHANE EMISSIONS
MICROBIAL COMMUNITY
THAWING PERMAFROST
POLYGONAL TUNDRA
ZOIGE WETLAND
LENA DELTA
PEAT BOG
CARBON
ECOSYSTEMS
Agriculture
Soil Science
Yang, Sizhong
Liebner, Susanne
Winkel, Matthias
Alawi, Mashal
Horn, Fabian
Doerfer, Corina
Ollivier, Julien
He, Jin-Sheng
Jin, Huijun
Kuehn, Peter
Schloter, Michael
Scholten, Thomas
Wagner, Dirk
In-depth analysis of core methanogenic communities from high elevation permafrost-affected wetlands
topic_facet Methanogenic Archaea
Wetland
Mcta Gene
Frozen Ground
Tibetan Plateau
Biogeography
Methanoregula
Science & Technology
Life Sciences & Biomedicine
QINGHAI-TIBET PLATEAU
METHANE EMISSIONS
MICROBIAL COMMUNITY
THAWING PERMAFROST
POLYGONAL TUNDRA
ZOIGE WETLAND
LENA DELTA
PEAT BOG
CARBON
ECOSYSTEMS
Agriculture
Soil Science
description The organic carbon of permafrost affected soils is receiving particular attention with respect to its fate and potential feedback to global warming. The structural and activity changes of methanogenic communities in the degrading permafrost-affected wetlands on the Tibetan Plateau can serve as fundamental elements for modelling feedback interaction of ecosystems to climate change. Hence, we aimed at anticipating if and how the rapid environmental changes occurring especially on the high altitude Tibetan platform will affect methanogenic communities. We identified methanogenic community composition, activity and abundance in wetland soils with different hydrological settings, permafrost extent and soil properties and pinpoint the environmental controls. We show that despite a pronounced natural gradient, the Tibetan high elevation wetland soils host a large methanogenic core microbiome. Hydrogenotrophic methanogens, in particular Methanoregula, and H2-dependent methanogenesis were overall dominant although acetoclastic methanogens in addition to hydrogenotrophs were among the dominating taxa in a minerotrophic fen. Tracing the Methanoregula community of the Tibetan Plateau using public databases revealed its global relevance in natural terrestrial habitats. Unlike the composition, the activity and abundance of methanogens varied strongly in the studied soils with higher values in alpine swamps than in alpine meadows. This study indicates that in the course of current wetland and permafrost degradation and the loss in soil moisture, a decrease in the methane production potential is expected on the high Tibetan Plateau but it will not lead to pronounced changes within the methanogenic community structure. (C) 2017 The Authors. Published by Elsevier Ltd.
format Article in Journal/Newspaper
author Yang, Sizhong
Liebner, Susanne
Winkel, Matthias
Alawi, Mashal
Horn, Fabian
Doerfer, Corina
Ollivier, Julien
He, Jin-Sheng
Jin, Huijun
Kuehn, Peter
Schloter, Michael
Scholten, Thomas
Wagner, Dirk
author_facet Yang, Sizhong
Liebner, Susanne
Winkel, Matthias
Alawi, Mashal
Horn, Fabian
Doerfer, Corina
Ollivier, Julien
He, Jin-Sheng
Jin, Huijun
Kuehn, Peter
Schloter, Michael
Scholten, Thomas
Wagner, Dirk
author_sort Yang, Sizhong
title In-depth analysis of core methanogenic communities from high elevation permafrost-affected wetlands
title_short In-depth analysis of core methanogenic communities from high elevation permafrost-affected wetlands
title_full In-depth analysis of core methanogenic communities from high elevation permafrost-affected wetlands
title_fullStr In-depth analysis of core methanogenic communities from high elevation permafrost-affected wetlands
title_full_unstemmed In-depth analysis of core methanogenic communities from high elevation permafrost-affected wetlands
title_sort in-depth analysis of core methanogenic communities from high elevation permafrost-affected wetlands
publishDate 2017
url http://210.75.249.4/handle/363003/7087
https://doi.org/10.1016/j.soilbio.2017.03.007
genre lena delta
Peat
permafrost
Tundra
genre_facet lena delta
Peat
permafrost
Tundra
op_relation SOIL BIOLOGY & BIOCHEMISTRY
http://210.75.249.4/handle/363003/7087
doi:10.1016/j.soilbio.2017.03.007
op_doi https://doi.org/10.1016/j.soilbio.2017.03.007
container_title Soil Biology and Biochemistry
container_volume 111
container_start_page 66
op_container_end_page 77
_version_ 1812178592497401856

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