Microbial Diversity of Deep-sea Sediments from Three Newly Discovered Hydrothermal Vent Fields in the Central Indian Ridge

Since the discovery of hydrothermal vents in the late 1970s, deep-sea hydrothermal vent fields have attracted great attention as biological hotspots. However, compared with other ocean ridges, the structure and function of microbial communities inhabiting vent fields in the Central Indian ridge (CIR...

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Bibliographic Details
Published in:Ocean science journal 2023-06, Vol.58 (2), Article 11
Main Authors: Namirimu, Teddy, Park, Mi-Jeong, Kim, Yun Jae, Lim, Dhongil, Lee, Jung-Hyun, Shin, Ayoung, Kim, Dongsung, Kwon, Kae Kyoung
Format: Article
Language:English
Subjects:
Aquatic Pollution
Community structure
Deep sea
Deep water
Earth and Environmental Science
Earth Sciences
Fields
Geochemistry
Hydrothermal springs
Marine & Freshwater Sciences
Microbial activity
Multivariate analysis
Nitrification
Oceanography
Oxidation
Ridges
Sediment
Sediment samplers
Sediment samples
Sediments
Sulfur
Sulphur
Sulphur compounds
Trace metals
Waste Water Technology
Water Management
Water Pollution Control
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Summary:Since the discovery of hydrothermal vents in the late 1970s, deep-sea hydrothermal vent fields have attracted great attention as biological hotspots. However, compared with other ocean ridges, the structure and function of microbial communities inhabiting vent fields in the Central Indian ridge (CIR) remain understudied. Here, we provide for the first time 16S rRNA gene-based comparative metagenomic analysis of the sediment-associated microbial communities from three newly discovered vent fields in the CIR. Sediment samples collected in the Invent B, Invent E and Onnuri vent fields varied in geochemical properties, elemental concentrations and associated microbial communities. Proteobacteria ( Gammaproteobacteria ) was the dominant phylum in Invent B and Onnuri vent fields. In contrast, Invent E mainly consisted of Chloroflexi and Euryarchaeota . Predicted functional profiling revealed that the microbial communities in the three vents are dominated by chemoheterotrophic functions. In addition, microbial communities capable of respiration of sulfur compounds, nitrification, nitrite oxidation, methylotrophy, and methanotropy were found to be the main chemolithoautotrophs. Compared to other vent fields, Invent E showed a predominance of archaeal methanogens suggesting it exhibits slightly different geochemistry. Multivariate analysis indicated that the biogeochemical and trace metal differences are reflected in the sediment microbial compositions of the three vent fields. This study expands our current understanding of the microbial community structure and potential ecological functions of the newly discovered hydrothermal vent fields in the CIR.
ISSN:1738-5261
2005-7172
DOI:10.1007/s12601-023-00106-1