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

1. Distinctive Microbial Community Structure in Highly Stratified Deep-Sea Brine Water Columns

Author

Abdulaziz M. Al-Suwailem, Yong Wang, On On Lee, Jiangke Yang, Pei-Yuan Qian, Zenon B. Batang, and Salim Bougouffa

Subjects

Salinity, Molecular Sequence Data, Biodiversity, Temperature salinity diagrams, Cell Count, Applied Microbiology and Biotechnology, Deep sea, Hydrothermal Vents, Water column, Species Specificity, RNA, Ribosomal, 16S, Environmental Microbiology, Cluster Analysis, Indian Ocean, DNA Primers, Bacteria, Base Sequence, Ecology, biology, Sequence Analysis, DNA, biology.organism_classification, Archaea, Oceanography, Microbial population biology, Multivariate Analysis, Metagenome, Water Microbiology, Food Science, Biotechnology, Hydrothermal vent

Abstract

Atlantis II and Discovery are two hydrothermal and hypersaline deep-sea pools in the Red Sea rift that are characterized by strong thermohalo-stratification and temperatures steadily peaking near the bottom. We conducted comprehensive vertical profiling of the microbial populations in both pools and highlighted the influential environmental factors. Pyrosequencing of the 16S rRNA genes revealed shifts in community structures vis-à-vis depth. High diversity and low abundance were features of the deepest convective layers despite the low cell density. Surprisingly, the brine interfaces had significantly higher cell counts than the overlying deep-sea water, yet they were lowest in diversity. Vertical stratification of the bacterial populations was apparent as we moved from the Alphaproteobacteria -dominated deep sea to the Planctomycetaceae - or Deferribacteres -dominated interfaces to the Gammaproteobacteria- dominated brine layers. Archaeal marine group I was dominant in the deep-sea water and interfaces, while several euryarchaeotic groups increased in the brine. Across sites, microbial phylotypes and abundances varied substantially in the brine interface of Discovery compared with Atlantis II, despite the near-identical populations in the overlying deep-sea waters. The lowest convective layers harbored interestingly similar microbial communities, even though temperature and heavy metal concentrations were very different. Multivariate analysis indicated that temperature and salinity were the major influences shaping the communities. The harsh conditions and the low-abundance phylotypes could explain the observed correlation in the brine pools.

Published

2013

2. Spatial and species variations in bacterial communities associated with corals from the Red Sea as revealed by pyrosequencing

Author

On On Lee, Renmao Tian, Yong Wang, Jiangke Yang, Abdulaziz M. Al-Suwailem, Pei-Yuan Qian, Zenon B. Batang, and Salim Bougouffa

Subjects

DNA, Bacterial, Octocorallia, Coral, Molecular Sequence Data, Applied Microbiology and Biotechnology, DNA, Ribosomal, Ribotyping, Microbial Ecology, Abundance (ecology), RNA, Ribosomal, 16S, Gammaproteobacteria, Animals, Cluster Analysis, Bacterial phyla, Indian Ocean, Ecology, biology, Bacteria, Phylum, fungi, technology, industry, and agriculture, Sequence Analysis, DNA, biochemical phenomena, metabolism, and nutrition, biology.organism_classification, Anthozoa, Biota, Vibrio, Phylogeography, Pyrosequencing, population characteristics, geographic locations, Food Science, Biotechnology

Abstract

Microbial associations with corals are common and are most likely symbiotic, although their diversity and relationships with environmental factors and host species remain unclear. In this study, we adopted a 16S rRNA gene tag-pyrosequencing technique to investigate the bacterial communities associated with three stony Scleractinea and two soft Octocorallia corals from three locations in the Red Sea. Our results revealed highly diverse bacterial communities in the Red Sea corals, with more than 600 ribotypes detected and up to 1,000 species estimated from a single coral species. Altogether, 21 bacterial phyla were recovered from the corals, of which Gammaproteobacteria was the most dominant group, and Chloroflexi , Chlamydiae , and the candidate phylum WS3 were reported in corals for the first time. The associated bacterial communities varied greatly with location, where environmental conditions differed significantly. Corals from disturbed areas appeared to share more similar bacterial communities, but larger variations in community structures were observed between different coral species from pristine waters. Ordination methods identified salinity and depth as the most influential parameters affecting the abundance of Vibrio , Pseudoalteromonas , Serratia , Stenotrophomonas , Pseudomonas , and Achromobacter in the corals. On the other hand, bacteria such as Chloracidobacterium and Endozoicomonas were more sensitive to the coral species, suggesting that the host species type may be influential in the associated bacterial community, as well. The combined influences of the coral host and environmental factors on the associated microbial communities are discussed. This study represents the first comparative study using tag-pyrosequencing technology to investigate the bacterial communities in Red Sea corals.

Published

2012