RRC ID 84650
著者 Nakashima Y, Sonobe T, Hanada M, Kitano G, Sonoyama Y, Iwai K, Kimura T, Kusube M.
タイトル Microbial Detoxification of Sediments Underpins Persistence of Zostera marina Meadows.
ジャーナル Int J Mol Sci
Abstract Eelgrass meadows have attracted much attention not only for their ability to maintain marine ecosystems as feeding grounds for marine organisms but also for their potential to store atmospheric and dissolved CO2 as blue carbon. This study comprehensively evaluated the bacterial and chemical data obtained from eelgrass sediments of different scales along the Japanese coast to investigate the effect on the acclimatization of eelgrass. Regardless of the eelgrass habitat, approximately 1% Anaerolineales, Babeliales, Cytophagales, and Phycisphaerales was present in the bottom sediment. Sulfate-reducing bacteria (SRB) were present at 3.69% in eelgrass sediment compared to 1.70% in bare sediment. Sulfur-oxidizing bacteria (SOB) were present at 2.81% and 1.10% in the eelgrass and bare sediment, respectively. Bacterial composition analysis and linear discriminant analysis revealed that SOB detoxified H2S in the eelgrass meadows and that the larger-scale eelgrass meadows had a higher diversity of SOB. Our result indicated that there were regional differences in the system that detoxifies H2S in eelgrass meadows, either microbial oxidation mediated by SOB or O2 permeation via the physical diffusion of benthos. However, since bacterial flora and phylogenetic analyses cannot show bias and/or causality due to PCR, future kinetic studies on microbial metabolism are expected.
巻・号 25(10)
公開日 2024-5-16
DOI 10.3390/ijms25105442
PII ijms25105442
PMID 38791480
PMC PMC11122150
MeSH Bacteria / classification Bacteria / metabolism Ecosystem Geologic Sediments* / microbiology Hydrogen Sulfide / metabolism Oxidation-Reduction Phylogeny Zosteraceae* / metabolism Zosteraceae* / microbiology
リソース情報
一般微生物 JCM1649 JCM14886