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Microbial diversity and biogeochemical cycling potential in deep-sea sediments associated with seamount, trench, and cold seep ecosystems

Xiaoyong Zhang, Ke-Yue Wu, Zhuang Han, Zihui Chen, Zhiying Liu, Zu-Wang Sun, Liyi Shao, Zelong Zhao, Lei Zhou

2022Frontiers in Microbiology29 citationsDOIOpen Access PDF

Abstract

Due to their extreme water depths and unique physicochemical conditions, deep-sea ecosystems develop uncommon microbial communities, which play a vital role in biogeochemical cycling. However, the differences in the compositions and functions of the microbial communities among these different geographic structures, such as seamounts (SM), marine trenches (MT), and cold seeps (CS), are still not fully understood. In the present study, sediments were collected from SM, MT, and CS in the Southwest Pacific Ocean, and the compositions and functions of the microbial communities were investigated by using amplicon sequencing combined with in-depth metagenomics. The results revealed that significantly higher richness levels and diversities of the microbial communities were found in SM sediments, followed by CS, and the lowest richness levels and diversities were found in MT sediments. Acinetobacter was dominant in the CS sediments and was replaced by Halomonas and Pseudomonas in the SM and MT sediments. We demonstrated that the microbes in deep-sea sediments were diverse and were functionally different (e.g., carbon, nitrogen, and sulfur cycling) from each other in the seamount, trench, and cold seep ecosystems. These results improved our understanding of the compositions, diversities and functions of microbial communities in the deep-sea environment.

Topics & Concepts

SeamountBiogeochemical cycleCold seepDeep seaOceanographyEcosystemSpecies richnessMicrobial population biologyEcologyMarine ecosystemBiogeochemistryMetagenomicsEnvironmental scienceBiologyGeologyPaleontologyMethaneBacteriaGeneBiochemistryMicrobial Community Ecology and PhysiologyMethane Hydrates and Related PhenomenaGenomics and Phylogenetic Studies
Microbial diversity and biogeochemical cycling potential in deep-sea sediments associated with seamount, trench, and cold seep ecosystems | Litcius