Distinctive microbial community and genome structure in coastal seawater from a human-made port and nearby offshore island in northern Taiwan facing the Northwestern Pacific Ocean.
Chi-Yu ShihShiow-Yi ChenChun-Ru HsuChing-Hsiang ChinWei-Chih ChiuMei-Hung ChangLee-Kuo KangCing-Han YangTun-Wen PaiChin-Hwa HuPang-Hung HsuWen-Shyong TzouPublished in: PloS one (2023)
Pollution in human-made fishing ports caused by petroleum from boats, dead fish, toxic chemicals, and effluent poses a challenge to the organisms in seawater. To decipher the impact of pollution on the microbiome, we collected surface water from a fishing port and a nearby offshore island in northern Taiwan facing the Northwestern Pacific Ocean. By employing 16S rRNA gene amplicon sequencing and whole-genome shotgun sequencing, we discovered that Rhodobacteraceae, Vibrionaceae, and Oceanospirillaceae emerged as the dominant species in the fishing port, where we found many genes harboring the functions of antibiotic resistance (ansamycin, nitroimidazole, and aminocoumarin), metal tolerance (copper, chromium, iron and multimetal), virulence factors (chemotaxis, flagella, T3SS1), carbohydrate metabolism (biofilm formation and remodeling of bacterial cell walls), nitrogen metabolism (denitrification, N2 fixation, and ammonium assimilation), and ABC transporters (phosphate, lipopolysaccharide, and branched-chain amino acids). The dominant bacteria at the nearby offshore island (Alteromonadaceae, Cryomorphaceae, Flavobacteriaceae, Litoricolaceae, and Rhodobacteraceae) were partly similar to those in the South China Sea and the East China Sea. Furthermore, we inferred that the microbial community network of the cooccurrence of dominant bacteria on the offshore island was connected to dominant bacteria in the fishing port by mutual exclusion. By examining the assembled microbial genomes collected from the coastal seawater of the fishing port, we revealed four genomic islands containing large gene-containing sequences, including phage integrase, DNA invertase, restriction enzyme, DNA gyrase inhibitor, and antitoxin HigA-1. In this study, we provided clues for the possibility of genomic islands as the units of horizontal transfer and as the tools of microbes for facilitating adaptation in a human-made port environment.
Keyphrases
- microbial community
- biofilm formation
- endothelial cells
- heavy metals
- robot assisted
- pseudomonas aeruginosa
- single cell
- antibiotic resistance genes
- laparoscopic surgery
- genome wide
- copy number
- staphylococcus aureus
- risk assessment
- escherichia coli
- human health
- induced pluripotent stem cells
- pluripotent stem cells
- climate change
- molecularly imprinted
- cell free
- bone marrow
- particulate matter
- candida albicans
- stem cells
- immune response
- cell therapy
- single molecule
- wastewater treatment
- amino acid
- circulating tumor
- toll like receptor
- lps induced
- mesenchymal stem cells
- transcription factor
- genome wide analysis