Your search keyword '"Abdulaziz M. Al-Suwailem"' showing total 2 results

1. Zonation of Microbial Communities by a Hydrothermal Mound in the Atlantis II Deep (the Red Sea)

Author

Yong Wang, Li-Sheng He, Hui Luo Cao, Zhao-Ming Gao, Abdulaziz M. Al-Suwailem, Bo Yang, Jiangtao Li, Pei-Yuan Qian, and Zenon B. Batang

Subjects

Geologic Sediments, Multidisciplinary, Rift, Bacteria, lcsh:R, Geochemistry, lcsh:Medicine, Crust, Biodiversity, Archaea, Hydrothermal circulation, Seafloor spreading, Cold seep, Guaymas Basin, lcsh:Q, Seawater, lcsh:Science, Indian Ocean, Geology, Ecosystem, Hydrothermal vent, Research Article

Abstract

In deep-sea geothermal rift zones, the dispersal of hydrothermal fluids of moderately-high temperatures typically forms subseafloor mounds. Major mineral components of the crust covering the mound are barite and metal sulfides. As a result of the continental rifting along the Red Sea, metalliferous sediments accumulate on the seafloor of the Atlantis II Deep. In the present study, a barite crust was identified in a sediment core from the Atlantis II Deep, indicating the formation of a hydrothermal mound at the sampling site. Here, we examined how such a dense barite crust could affect the local environment and the distribution of microbial inhabitants. Our results demonstrate distinctive features of mineral components and microbial communities in the sediment layers separated by the barite crust. Within the mound, archaea accounted for 65% of the community. In contrast, the sediments above the barite boundary were overwhelmed by bacteria. The composition of microbial communities under the mound was similar to that in the sediments of the nearby Discovery Deep and marine cold seeps. This work reveals the zonation of microbial communities after the formation of the hydrothermal mound in the subsurface sediments of the rift basin.

Published

2015

2. Bacterial niche-specific genome expansion is coupled with highly frequent gene disruptions in deep-sea sediments

Author

Abdulaziz M. Al-Suwailem, Jiang Ke Yang, Antoine Danchin, Tie Gang Li, On On Lee, Pei-Yuan Qian, and Yong Wang

Subjects

Evolutionary Genetics, Geologic Sediments, Genome evolution, Pseudogene, lcsh:Medicine, Bacterial genome size, Biology, Genome Complexity, Brine pool, Microbiology, Genome, Brining, Evolutionary Modeling, Seawater, lcsh:Science, Genome Evolution, Genome size, Genetics, Evolutionary Biology, Multidisciplinary, Bacteria, lcsh:R, Computational Biology, Genomic Evolution, Genomics, Organismal Evolution, Evolutionary Ecology, Metagenomics, Microbial Evolution, lcsh:Q, Genome, Bacterial, Research Article

Abstract

The complexity and dynamics of microbial metagenomes may be evaluated by genome size, gene duplication and the disruption rate between lineages. In this study, we pyrosequenced the metagenomes of microbes obtained from the brine and sediment of a deep-sea brine pool in the Red Sea to explore the possible genomic adaptations of the microbes in response to environmental changes. The microbes from the brine and sediments (both surface and deep layers) of the Atlantis II Deep brine pool had similar communities whereas the effective genome size varied from 7.4 Mb in the brine to more than 9 Mb in the sediment. This genome expansion in the sediment samples was due to gene duplication as evidenced by enrichment of the homologs. The duplicated genes were highly disrupted, on average by 47.6% and 70% for the surface and deep layers of the Atlantis II Deep sediment samples, respectively. The disruptive effects appeared to be mainly due to point mutations and frameshifts. In contrast, the homologs from the Atlantis II Deep brine sample were highly conserved and they maintained relatively small copy numbers. Likely, the adaptation of the microbes in the sediments was coupled with pseudogenizations and possibly functional diversifications of the paralogs in the expanded genomes. The maintenance of the pseudogenes in the large genomes is discussed.

Published

2011