Characterization of microbial communities in sediments of the South Yellow Sea

Illumina sequencing and quantitative PCR (qPCR) based on the 16S ribosomal RNA (rRNA) gene were conducted to characterize the vertical distribution of bacterial and archaeal communities in the sediments of two sites from the South Yellow Sea. Both bacterial and archaeal communities showed a clear st...

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Veröffentlicht in:	Journal of oceanology and limnology 2021-05, Vol.39 (3), p.846-864
Hauptverfasser:	Chen, Ye, Li, Siqi, Xu, Xiaoqing, Ma, Manman, Mi, Tiezhu, Zhen, Yu, Yu, Zhigang
Format:	Artikel
Sprache:	eng
Schlagworte:	Ammonia Ammonia-oxidizing bacteria Archaea Bacteria Distribution Earth and Environmental Science Earth Sciences Ecology Metabolism Methane Microbial activity Microbiomes Microorganisms Nucleotide sequence Oceanography Organic carbon Oxidation PCR rRNA 16S Sediment Sediment samplers Sediment samples Sediments Sulfur Sulfur-reducing bacteria Sulphur Total organic carbon Vertical distribution
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container_title	Journal of oceanology and limnology
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creator	Chen, Ye Li, Siqi Xu, Xiaoqing Ma, Manman Mi, Tiezhu Zhen, Yu Yu, Zhigang
description	Illumina sequencing and quantitative PCR (qPCR) based on the 16S ribosomal RNA (rRNA) gene were conducted to characterize the vertical distribution of bacterial and archaeal communities in the sediments of two sites from the South Yellow Sea. Both bacterial and archaeal communities showed a clear stratified distribution with sediment depth. The microbial communities in the upper layers were distinct from those in the deeper layers; the relative abundances of sequences of Thaumarchaeota, Gammaproteobacteria, and Actinobacteria were higher in the upper than in the deeper sediments, whereas the sequences of Bathyarchaeia, Lokiarchaeota, Euryarchaeota, Chloroflexi, and Deltaproteobacteria were relatively more abundant in the deeper sediments. Sediment depth and total organic carbon (TOC) can significantly influence both the bacterial and archaeal communities. Furthermore, bacterial and archaeal groups potentially involved in nitrogen, sulfur, and methane metabolism were detected in both sites. In our study, both ammonia-oxidizing bacteria ( Nitrospira ) and ammonia-oxidizing archaea ( Candidatus Nitrosopumilus ) were responsible for ammonia oxidization. Additionally, sulfur-reducing bacteria SEEP-SRB1 forming consortia with anaerobic methane-oxidizing archaea ANME-2a-2b were capable of anaerobic methane oxidation (AOM) in the 3400-02 sediment samples.
doi_str_mv	10.1007/s00343-020-0106-6
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Ocean. Limnol</addtitle><description>Illumina sequencing and quantitative PCR (qPCR) based on the 16S ribosomal RNA (rRNA) gene were conducted to characterize the vertical distribution of bacterial and archaeal communities in the sediments of two sites from the South Yellow Sea. Both bacterial and archaeal communities showed a clear stratified distribution with sediment depth. The microbial communities in the upper layers were distinct from those in the deeper layers; the relative abundances of sequences of Thaumarchaeota, Gammaproteobacteria, and Actinobacteria were higher in the upper than in the deeper sediments, whereas the sequences of Bathyarchaeia, Lokiarchaeota, Euryarchaeota, Chloroflexi, and Deltaproteobacteria were relatively more abundant in the deeper sediments. Sediment depth and total organic carbon (TOC) can significantly influence both the bacterial and archaeal communities. 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Ocean. Limnol</stitle><date>2021-05-01</date><risdate>2021</risdate><volume>39</volume><issue>3</issue><spage>846</spage><epage>864</epage><pages>846-864</pages><issn>2096-5508</issn><eissn>2523-3521</eissn><abstract>Illumina sequencing and quantitative PCR (qPCR) based on the 16S ribosomal RNA (rRNA) gene were conducted to characterize the vertical distribution of bacterial and archaeal communities in the sediments of two sites from the South Yellow Sea. Both bacterial and archaeal communities showed a clear stratified distribution with sediment depth. The microbial communities in the upper layers were distinct from those in the deeper layers; the relative abundances of sequences of Thaumarchaeota, Gammaproteobacteria, and Actinobacteria were higher in the upper than in the deeper sediments, whereas the sequences of Bathyarchaeia, Lokiarchaeota, Euryarchaeota, Chloroflexi, and Deltaproteobacteria were relatively more abundant in the deeper sediments. Sediment depth and total organic carbon (TOC) can significantly influence both the bacterial and archaeal communities. Furthermore, bacterial and archaeal groups potentially involved in nitrogen, sulfur, and methane metabolism were detected in both sites. In our study, both ammonia-oxidizing bacteria ( Nitrospira ) and ammonia-oxidizing archaea ( Candidatus Nitrosopumilus ) were responsible for ammonia oxidization. Additionally, sulfur-reducing bacteria SEEP-SRB1 forming consortia with anaerobic methane-oxidizing archaea ANME-2a-2b were capable of anaerobic methane oxidation (AOM) in the 3400-02 sediment samples.</abstract><cop>Heidelberg</cop><pub>Science Press</pub><doi>10.1007/s00343-020-0106-6</doi><tpages>19</tpages></addata></record>
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subjects	Ammonia Ammonia-oxidizing bacteria Archaea Bacteria Distribution Earth and Environmental Science Earth Sciences Ecology Metabolism Methane Microbial activity Microbiomes Microorganisms Nucleotide sequence Oceanography Organic carbon Oxidation PCR rRNA 16S Sediment Sediment samplers Sediment samples Sediments Sulfur Sulfur-reducing bacteria Sulphur Total organic carbon Vertical distribution
title	Characterization of microbial communities in sediments of the South Yellow Sea
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