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Functional diversity of microbial communities in inactive seafloor sulfide deposits
by
Song, Weizhi
, Li, Jiangtao
, Zhang, Chuwen
, Dong, Xiyang
, Weng, Shengze
, Wang, Yong
, Li, Wenli
in
Environmental aspects
/ Microbial colonies
/ Ocean bottom
/ Sulfide minerals
2021
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Do you wish to request the book?
Functional diversity of microbial communities in inactive seafloor sulfide deposits
by
Song, Weizhi
, Li, Jiangtao
, Zhang, Chuwen
, Dong, Xiyang
, Weng, Shengze
, Wang, Yong
, Li, Wenli
in
Environmental aspects
/ Microbial colonies
/ Ocean bottom
/ Sulfide minerals
2021
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Functional diversity of microbial communities in inactive seafloor sulfide deposits
Journal Article
Functional diversity of microbial communities in inactive seafloor sulfide deposits
2021
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Overview
ABSTRACT
The seafloor sulfide structures of inactive vents are known to host abundant and diverse microorganisms potentially supported by mineralogy of sulfides. However, little is known about the diversity and distribution of microbial functions. Here, we used genome-resolved metagenomics to predict microbial metabolic functions and the contribution of horizontal gene transfer to the functionality of microorganisms inhabiting several hydrothermally inactive seafloor deposits among globally distributed deep-sea vent fields. Despite of geographically distant vent fields, similar microbial community patterns were observed with the dominance of Gammaproteobacteria, Bacteroidota and previously overlooked Candidatus Patescibacteria. Metabolically flexible Gammaproteobacteria are major potential primary producers utilizing mainly sulfur, iron and hydrogen as electron donors coupled with oxygen and nitrate respiration for chemolithoautotrophic growth. In addition to heterotrophic microorganisms like free-living Bacteroidota, Ca. Patescibacteria potentially perform fermentative recycling of organic carbon. Finally, we provided evidence that many functional genes that are central to energy metabolism have been laterally transferred among members within the community and largely within the same class. Taken together, these findings shed light on microbial ecology and evolution in inactive seafloor sulfide deposits after the cessation of hydrothermal activities.
Inactive seafloor sulfide deposits harbor diverse microbial functional genes with potential contribution of horizontal gene transfer.
Publisher
Oxford University Press
Subject
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