4.7 Article

Wide-bound salt tolerance of the inocula from marine sediment and their specific microbial community

期刊

ENVIRONMENTAL RESEARCH
卷 197, 期 -, 页码 -

出版社

ACADEMIC PRESS INC ELSEVIER SCIENCE
DOI: 10.1016/j.envres.2021.111119

关键词

Marine sediment; Saline waste; Salt tolerance; Anaerobic digestion; High-throughput sequencing

资金

  1. National Natural Science Foundation of China [21676279]
  2. National Key Research and Development Program of China [2019YFB1503803]
  3. Key Research Program of Nanjing IPE Institute of Green Manufacturing Industry

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Microorganisms in marine sediments show promising potential for treating saline wastes due to their salt tolerance. The microbial communities in marine sediments have been found to exhibit excellent anaerobic digestion capabilities at various salinities, including high levels. The differences in bacterial taxonomic richness, nitrogen and sulfur cycle-related members, animal parasites, and archaeal compositions between marine sediment and wastewater plant inoculums highlight the unique microbial resources present in marine sediments for waste treatment applications.
The microorganisms in marine sediment are promising candidates for the treatment of the saline wastes due to their property of salt tolerance. However, the knowledge about the microbial community and property of the marine sediments is still limited. In the present study, the salt tolerance of the microorganisms in the marine sediment that was collected from a marine fish farm was investigated by being used as inoculum for anaerobic digestion. The microbial communities were analyzed by high-throughput sequencing. The inoculum from the wastewater plant (IWTP) was taken as a control. The inoculum from the marine sediment (IMS) showed excellent capacity for anaerobic digestion at salinities of 0.3%-6%. Even at a salinity of 9%, the methane yield remained 60% of the highest yield. IMS provides promising microbial resources for the treatment of both fresh-water and saliferous organic wastes. While the IWTP was sensitive to salt, the methane yield decreased to 56% of the highest yield at the salinity of 3%. The bacterial taxonomic richness of IMS was about half of that in IWTP. Eighty-one genera were identified only in IWTP but not in IMS. The IMS possessed fewer bacterial members related to the nitrogen cycle than IWTP, but more members related to the sulfur cycle. The members of animal parasites or symbionts in IMS were significantly fewer than those in IWTP. The archaeal compositions of IMS and IWTP were different. The relative abundance of the unidentified archaea in IMS was much higher than that in IWTP with 12.52% vs 0.06% at phylum level. The findings of this work expand our understanding of the microorganisms in marine sediments and will promote the application of them in waste treatment.

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