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Discriminative signatures of methanotrophic communities according to the chemosynthetic habitats at the active mud volcano of the Canadian Beaufort Sea

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Title
Discriminative signatures of methanotrophic communities according to the chemosynthetic habitats at the active mud volcano of the Canadian Beaufort Sea
Other Titles
캐나다 보포트해 진흙화산에서 화학합성 서식처에 따른 메탄 산화 미생물 군집 구조의 차이
Authors
Lee, Yung Mi
Lee, Dong-Hun
Kim, Jung-Hyun
Jin, Young Keun
Kim, Ji-Hoon
Shin, Kyung-Hoon
Keywords
Canadian Beaufort SeaMethaneMethanotrophMud volcano
Issue Date
2019
Citation
Lee, Yung Mi, et al. 2019. Discriminative signatures of methanotrophic communities according to the chemosynthetic habitats at the active mud volcano of the Canadian Beaufort Sea. 60th Anniversary International Meeting of the Microbiological Society of Korea. 2019.04.17~2019.04.19.
Abstract
To obtain knowledge on the spatial variations of methanotrophic guilds along the methane flux regimes, we performed geochemical and microbiological analyses within a mud volcano (MV420) of the Canadian Beaufort Sea. Sediments were collected from visually discriminative chemosynthetic fields, bare of organisms (BO) with the naked eye, covered with bacterial mats (BM), or siboglinid tubeworms (ST) of MV420 and reference site. The methane flux decreased in the order of the BO, BM and ST sites. With the down core stratification of biogeochemical and microbial profiles within each site of MV420, lpid biomarker and 16S rRNA analyses revealed the spatial difference of aerobic methane oxidation (MOx)- and anaerobic methane oxidation (AOM)-related groups along the sites of MV420, which were distinctly different with the reference site. MOx-related bacteria, Methlyococcales dominated the surface layer of BO site whilst AOM-related archaea, mostly ANME-3 and sulfate reducing bacteria of Desulfobacteraceae and Desulfobulbaceae were predominant in the sediments of BO and ST sites. Accordingly, our results suggest that a niche diversification within this MV system has shaped distinct methanotrophic communities due to the availability of electron acceptors in association with varying degree of methane fluxes and bioirrigation activity.
URI
https://repository.kopri.re.kr/handle/201206/12298
Conference Name
60th Anniversary International Meeting of the Microbiological Society of Korea
Conference Date
2019.04.17~2019.04.19
Type
Poster
Indexed
포스터
Appears in Collections  
2019-2020, Investigation of submarine resource environment and seabed methane release in the Arctic (19-20) / Jin, Young Keun (PM19050)
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