Contribution of environmental and biological factors to bacterial community structure and stability in a subalpine lake

Ping Guo, Cui Li, Jinxian Liu, Tiehang Wu, Baofeng Chai

Research output: Contribution to journalArticlepeer-review

Abstract

Bacterial community play an essential role in regulating water quality and the global biogeochemical cycle in aquatic ecosystems. However, how trophic interactions (i.e., biotic factors) regulate the diversity and composition of bacterial community in lake ecosystems remains unknown. Here, we employed DNA meta-barcoding of water samples to explore the impact of bacterivorous protozoans on the bacterial community. The results showed significant seasonal variations in the diversity and composition of both bacterial and protist communities. The composition of bacterivorous protozoans was identified as the primary predictor for the bacterial community alpha diversity in spring and summer, and for beta diversity in spring and autumn, indicating that biotic interactions play a greater role in driving the diversity of bacterial community across different seasons. Biological factors were more important than environmental factors for explaining the variations in the relative abundance of several bacterial genera (i.e., Pseudoxanthomonas, hgcI_clade, and Pseudorhodobacter). Network analyses showed that bacterial networks differed among seasons, and the autumn network exhibited the highest stability. Our findings indicated that the bacterial community stability was significantly affected by environmental factors, specifically SO42–and PO43–, rather than bacterivorous protozoans. Overall, our findings provide new perspectives on the role of trophic interactions in maintaining the structure of bacterial community in different seasons, and enhance our understanding of the bacterial community assembly in lake ecosystems.

Original languageEnglish
JournalMarine Life Science and Technology
DOIs
StateAccepted/In press - 2024

Scopus Subject Areas

  • Biotechnology
  • Oceanography
  • Ecology, Evolution, Behavior and Systematics
  • Aquatic Science

Keywords

  • Bacterial community
  • Biological factors
  • Community structure
  • Environmental factors
  • Network stability

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