1. A meta-analysis reveals that geographical factors drive the bacterial community variation in Chinese lakes.
- Author
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Gao, Pengfei, Wang, Peng, Ding, Mingjun, Zhang, Hua, Huang, Gaoxiang, Nie, Minghua, and Wang, Guangwei
- Subjects
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BACTERIAL communities , *BIOGEOCHEMICAL cycles , *LAKES , *COMMUNITIES , *BACTERIAL diversity , *PHYTOGEOGRAPHY - Abstract
The biogeographical distribution of plants and animals has been extensively studied, however, the biogeographical patterns and the factors that influence bacterial communities in lakes over large scales are yet to be fully understood, even though they play critical roles in biogeochemical cycles. Here, bacterial community compositional data, geographic information, and environmental factors were integrated for 326 Chinese lakes based on previously published studies to determine the underlying factors that shape bacterial diversity among Chinese lakes. The composition of bacterial communities significantly varied among the three primary climatic regions of China (Northern China, NC; Southern China, SC; and the Tibetan Plateau, TIP), and across two different lake habitats (waters and sediments). Sediment bacterial communities exhibited significantly higher alpha-diversity and distance-decay relationships compared to water communities. The results indicate that the "scale-dependent patterns" of controlling factors, primarily influenced by geographical factors, become increasingly pronounced as the spatial scale increases. At a national scale, geographical factors exerted a dominant influence on both the water and sediment communities across all lakes, as geographical barriers restrict the dispersal of individuals. At smaller spatial scales, temperature-driven selection effects played a greater role in shaping water bacterial community variation in the NC, SC, and TIP, while geographical factors had a stronger association with sediment bacterial community variation in the lakes of the three regions. This synthesis offers novel insights into the ecological factors that determine the distribution of bacteria in Chinese lakes. [Display omitted] • Controlling factors of bacterial communities in Chinese lakes were identified. • Bacterial community composition significantly varied across regions and habitats. • Geographical factors drived the variation of water and sediment communities. • Temperature-driven selection effects had significant impacts on water communities. • Distance-decay relationship and α-diversity in sediments were higher than in waters. [ABSTRACT FROM AUTHOR]
- Published
- 2023
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