优势(遗传学)
生物扩散
生态学
海洋学
环境科学
浮游细菌
群落结构
微生物种群生物学
海水
丰度(生态学)
生物
浮游植物
地质学
营养物
细菌
人口
生物化学
遗传学
人口学
社会学
基因
作者
Jian Jin,Xiujie Liu,Wenbin Zhao,Hao Sun,Siyin Tan,Xiao‐Hua Zhang,Yunhui Zhang
标识
DOI:10.3389/fmicb.2024.1377001
摘要
The Pollution Nagasaki (PN) section of the East China Sea (ECS) is a typical area for studying the complex hydrographic dynamics between Changjiang River discharge and Kuroshio, displaying intense variations of environmental gradients from nearshore to offshore. However, the temporal and spatial changes of microbial communities along the PN section have long been overlooked. In this study, we performed a comprehensive investigation into the abundance, diversity and ecology of free-living (FL) and particle-associated (PA) microbial communities in seawater samples along the PN section during both summer and winter. Distinct hydrological conditions and resulting environmental gradients were observed between summer and winter, with clear features of intrusive Kuroshio subsurface water in summer and strong vertical mixing of seawater in winter. Bacterial abundance along the PN section was higher in summer (1.11 × 10 8 copies·L −1 – 7.37 × 10 8 copies·L −1 ) than in winter (1.83 × 10 6 copies·L −1 – 1.34 × 10 8 copies·L −1 ). Microbial diversity, as indicated by α-diversity indices, remained at relatively stable levels in summer, while a clear decreasing trend was observed in winter along the PN section. Additionally, the winter communities exhibited a more evident spatial shift along the PN section compared to the summer communities. 16S rRNA gene amplicon sequencing showed that microbial community composition varied considerably between different seasons (summer and winter) and lifestyles (FL and PA), with a notable dominance of Ralstonia species. in winter. Regarding the assembly of microbial communities, the stochastic process represented by dispersal limitation was the dominant process in summer, while the deterministic homogeneous selection was the most important process in winter. Correspondingly, distinct topological properties of the microbial co-occurrence networks were shown between different seasons and along the PN section. These results enhance our understanding of how hydrological conditions influence dynamic changes of microbial communities along the PN section, providing new insights for the microbial community assembly and interactions in such a complex environment.
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