Abstract
Shallow-water hydrothermal vent ecosystems are distinctly different from deep-sea vents, as other than geothermal, sunlight is one of their primary sources of energy, so their resulting microbial communities differ to some extent. Yet compared with deep-sea systems, less is known about the active microbial community in shallow-water ecosystems. Thus, we studied the community compositions, their metabolic pathways, and possible coupling of microbially driven biogeochemical cycles in a shallow-water hydrothermal vent system off Kueishantao Islet, Taiwan, using high-throughput 16S rRNA sequences and metatranscriptome analyses. Gammaproteobacteria and Epsilonbacteraeota were the major active bacterial groups in the 16S rRNA libraries and the metatranscriptomes, and involved in the carbon, sulfur, and nitrogen metabolic pathways. As core players, Thiomicrospira, Thiomicrorhabdus, Thiothrix, Sulfurovum, and Arcobacter derived energy from the oxidation of reduced sulfur compounds and fixed dissolved inorganic carbon (DIC) by the Calvin-Benson-Bassham (CBB) or reverse tricarboxylic acid cycles. Sox-dependent and reverse sulfate reduction were the main pathways of energy generation, and probably coupled to denitrification by providing electrons to nitrate and nitrite. Sulfur-reducing Nautiliaceae members, accounting for a small proportion in the community, obtained energy by the oxidation of hydrogen, which also supplies metabolic energy for some sulfur-oxidizing bacteria. In addition, ammonia and nitrite oxidation is another type of energy generation in this hydrothermal system, with marker gene sequences belonging to Thaumarchaeota/Crenarchaeota and Nitrospina, respectively, and ammonia and nitrite oxidation was likely coupled to denitrification by providing substrate for nitrate and nitrite reduction to nitric oxide. Moreover, unlike the deep-sea systems, cyanobacteria may also actively participate in major metabolic pathways. This study helps us to better understand biogeochemical processes mediated by microorganisms and possible coupling of the carbon, sulfur, and nitrogen cycles in these unique ecosystems.
Original language | English |
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Article number | 2718 |
Number of pages | 13 |
Journal | Frontiers in Microbiology |
Volume | 9 |
DOIs | |
Publication status | Published - 13 Nov 2018 |
Austrian Fields of Science 2012
- 106021 Marine biology
Keywords
- 16S rRNA library
- AMMONIFYING BACTERIUM
- ANOXYGENIC PHOTOSYNTHESIS
- AUTOTROPHIC DENITRIFICATION
- DEEP-SEA
- DISSIMILATORY NITRATE REDUCTION
- ENERGY METABOLISMS
- EPSILON-PROTEOBACTERIA
- GEN. NOV.
- Kueishantao Islet
- OXIDIZING BACTERIUM
- SP-NOV.
- biogeochemical cycle
- coupling
- metabolic pathway
- metatranscriptomics
- microbial community
- shallow-water hydrothermal ecosystem
- Metabolic pathway
- Coupling
- Microbial community
- Shallow-water hydrothermal ecosystem
- Metatranscriptomics
- Biogeochemical cycle
- 16s rrna library
- Kueishantao islet