4.7 Article

Sediment microbiota in polyculture of shrimp and fish pattern is distinctive from those in monoculture intensive shrimp or fish ponds

期刊

SCIENCE OF THE TOTAL ENVIRONMENT
卷 787, 期 -, 页码 -

出版社

ELSEVIER
DOI: 10.1016/j.scitotenv.2021.147594

关键词

Sediment; Microbial community; Polyculture of shrimp and fish; Monoculture

资金

  1. China Agriculture Research System [CARS-48]
  2. China National Postdoctoral Program for Innovative Talents [BX20200392]
  3. China Postdoctoral Science Foundation [2020M683024]
  4. Guangdong MEPP Fund [GDOE (2019) A21]
  5. Key Research and Development Projects in Guangdong Province [2020B0202010009]
  6. Guangzhou Science Technology and Innovation Commission Project [201510010071]
  7. Guangdong Ocean and Fishery Bureau Project [20164200042090023]

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The sediment microbial communities in aquaculture ponds with polyculture of shrimp and fish (PolySF) were found to be distinctive from those in ponds with intensive shrimp (IS) and fish (IF) monoculture patterns. The microbial alpha diversity was higher in PolySF compared to IF, but lower than IS. Factors like oxidation reduction potential, total phosphate, and total organic carbon were important in shaping the sediment microbiota in different aquaculture patterns.
Sediment microbial community plays a crucial role in aquaculture ecosystem. In aquaculture practice, rather than monoculture intensive shrimp (IS) or intensive fish (IF) patterns, polyculture of shrimp and fish (PolySF) pattern leads to a more reliable production. However, knowledge is still limited about the characteristics of sediment microbiota and its potential functions in the PolySF ponds compared to monoculture patterns (IS and IF). Herein, we collected sediment samples from these three patterns in seven cities to evaluate microbial variations among patterns. The highest oxidation reduction potential (ORP), total phosphate (TP) and total organic carbon (TOC) were detected in the PolySF pattern, representing a relatively less anoxic environment, while the highest iron (Fe) was detected in IS pattern. Proteobacteria was the most abundant phylum among three patterns, followed by Bacteroidetes and Chloroflexi. The microbial alpha diversity in the PolySF was higher than those in the IF, but lower than those in the IS. Microbial communities of these three patterns were significantly distinct from each other, and 23 distinguished taxa for each pattern were further characterized. In additional, the relative abundances of genes involved in nitrogen metabolism, fatty acid biosynthesis and carbon fixation pathways were markedly shifted. Moreover, ORP, TOC and Fe were the shaping factors for sediment microbiota, which significantly varied among three patterns. Collectively, these findings demonstrated that sediment microbial communities in the PolySF were distinctive from those in the IS and IF, which enlarged our understanding for the underlying mechanism of advances in the PolySF pattern from ecological perspective. (c) 2021 Elsevier B.V. All rights reserved.

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