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Water Mass Controlled Vertical Stratification of Bacterial and Archaeal Communities in the Western Arctic Ocean During Summer Sea-Ice Melting

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Title
Water Mass Controlled Vertical Stratification of Bacterial and Archaeal Communities in the Western Arctic Ocean During Summer Sea-Ice Melting
Other Titles
서북극해에서 해빙이 녹는 여름철에 박테리아와 알키아에 기여하는 수괴특성연구
Authors
Puthiya Veettil Vipindas
Siddarthan Venkatachalam
Thajudeen Jabir
Yang, Eun Jin
Cho, Kyoung-Ho
Jung, Jinyoung
Lee, Youngju
Kottekkatu Padinchati Krishnan
Keywords
Arctic OceanMarginal ice zoneMelt-pondMicrobial distributionwater mass
Issue Date
2023
Citation
Puthiya Veettil Vipindas, et al. 2023. "Water Mass Controlled Vertical Stratification of Bacterial and Archaeal Communities in the Western Arctic Ocean During Summer Sea-Ice Melting". MICROBIAL ECOLOGY, 85(0): 1150-1163.
Abstract
The environmental variations and their interactions with the biosphere are vital in the Arctic Ocean during the summer sea- ice melting period in the current scenario of climate change. Hence, we analysed the vertical distribution of bacterial and archaeal communities in the western Arctic Ocean from sea surface melt-ponds to deep water up to a 3040 m depth. The distribution of microbial communities showed a clear stratification with significant differences among different water depths, and the water masses in the Arctic Ocean - surface mixed layer, Atlantic water mass and deep Arctic water - appeared as a major factor explaining their distribution in the water column. A total of 34 bacterial phyla were detected in the seawater and 10 bacterial phyla in melt-ponds. Proteobacteria was the dominant phyla in the seawater irrespective of depth, whereas Bacteroidota was the dominant phyla in the melt-ponds. A fast expectation-maximization microbial source tracking analysis revealed that only limited dispersion of the bacterial community was possible across the stratified water column. The surface water mass contributed 21% of the microbial community to the deep chlorophyll maximum (DCM), while the DCM waters contributed only 3% of the microbial communities to the deeper water masses. Atlantic water mass contributed 37% to the microbial community of the deep Arctic water. Oligotrophic heterotrophic bacteria were dominant in the melt-ponds and surface waters, whereas chemoautotrophic and mixotrophic bacterial and archaeal communities were abundant in deeper waters. Chlorophyll and ammonium were the major environmental factors that determined the surface microbial communi- ties, whereas inorganic nutrient concentrations controlled the deep-water communities.
URI
https://repository.kopri.re.kr/handle/201206/14441
DOI
http://dx.doi.org/10.1007/s00248-022-01992-z
Type
Article
Station
Araon
Indexed
SCIE
Appears in Collections  
2022-2022, Korea-Arctic Ocean Warming and Response of Ecosystem (22-22) / Yang, Eun Jin (PM22040)
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