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- Title
Transitions in microbial communities along two sediment cores collected from the landward walls of the New Britain trench.
- Authors
Wang, Li; Liu, Rulong; Wei, Xing; Wang, Zixuan; Shen, Ziyi; Cao, Junwei; Wei, Yuli; Xie, Zhe; Chen, Liangbiao; Fang, Jiasong
- Abstract
The landward wall of the New Britain Trench (NBT) is an active continental margin. Unlike passive margins, it lacks a continental rise and the abyssal plain, and has a steep continental slope ending in an oceanic trench. Although the trench systems are receiving more and more attentions, our understanding of the microbiology of the NBT and its trench walls is limited. In this study, we collected a 70 cm gravity core (4524 m depth) and a 30 cm box core (4130 m depth) from the western and eastern landward walls of the NBT, respectively. Diversity and composition of microbial communities were investigated at high resolution in 2 cm depth intervals. In two cores, obvious vertical transitions from the aerobic to anaerobic but distinct dominant anaerobic microbes were observed. In the eastern trench wall, anaerobic fermenters, such as Anaerolineales and Alphaproteobacteria, were dominant, but the western contained abundant Dehalococcoidia, and Gammaproteobacteria, such as Alteromonadales and Oceanospirillales. Combined with the results of higher bacteria abundance and probable shallower aerobic active zone in the eastern core, such patterns of species composition might be related with richer input of labile allochthonous terrestrial organic matter by mass wasting processes in the steeper eastern wall. Our analysis also revealed highly diversified Dehalococcoidia including some new phylotypes, extending the current understandings on Dehalococcoidia diversity. This study fills the gap of benthic microbial study in the NBT, and highlights the need of multi-point sampling in trench studies for the great geographical variations along the trench wall.
- Subjects
TRENCHES; SUBMARINE trenches; CONTINENTAL slopes; MICROBIAL communities; CONTINENTAL margins; SEDIMENTS; MICROBIAL diversity
- Publication
Marine Biology, 2020, Vol 167, Issue 11, p1
- ISSN
0025-3162
- Publication type
Article
- DOI
10.1007/s00227-020-03788-6