Response of particle-attached and free-living bacterial communities to Microcystis blooms.

IF 3.9 3区 生物学 Q2 BIOTECHNOLOGY & APPLIED MICROBIOLOGY Applied Microbiology and Biotechnology Pub Date : 2024-12-01 Epub Date: 2024-01-06 DOI:10.1007/s00253-023-12828-2
Ve Van Le, Mingyeong Kang, So-Ra Ko, Chan-Yeong Park, Jay Jung Lee, In-Chan Choi, Hee-Mock Oh, Chi-Yong Ahn
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Abstract

The massive proliferation of Microcystis threatens freshwater ecosystems and degrades water quality globally. Understanding the mechanisms that contribute to Microcystis growth is crucial for managing Microcystis blooms. The lifestyles of bacteria can be classified generally into two groups: particle-attached (PA; > 3 µm) and free-living (FL; 0.2-3.0 µm). However, little is known about the response of PA and FL bacteria to Microcystis blooms. Using 16S rRNA gene high-throughput sequencing, we investigated the stability, assembly process, and co-occurrence patterns of PA and FL bacterial communities during distinct bloom stages. PA bacteria were phylogenetically different from their FL counterparts. Microcystis blooms substantially influenced bacterial communities. The time decay relationship model revealed that Microcystis blooms might increase the stability of both PA and FL bacterial communities. A contrasting community assembly mechanism was observed between the PA and FL bacterial communities. Throughout Microcystis blooms, homogeneous selection was the major assembly process that impacted the PA bacterial community, whereas drift explained much of the turnover of the FL bacterial community. Both PA and FL bacterial communities could be separated into modules related to different phases of Microcystis blooms. Microcystis blooms altered the assembly process of PA and FL bacterial communities. PA bacterial community appeared to be more responsive to Microcystis blooms than FL bacteria. Decomposition of Microcystis blooms may enhance cooperation among bacteria. Our findings highlight the importance of studying bacterial lifestyles to understand their functions in regulating Microcystis blooms. KEY POINTS: • Microcystis blooms alter the assembly process of PA and FL bacterial communities • Microcystis blooms increase the stability of both PA and FL bacterial communities • PA bacteria seem to be more responsive to Microcystis blooms than FL bacteria.

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颗粒附着细菌群落和自由生活细菌群落对微囊藻藻华的反应。
微囊藻的大量繁殖威胁着淡水生态系统,并导致全球水质恶化。了解微囊藻的生长机理对于管理微囊藻的大量繁殖至关重要。细菌的生活方式一般可分为两类:颗粒附着型(PA;> 3 µm)和自由生活型(FL;0.2-3.0 µm)。然而,人们对 PA 和 FL 细菌对微囊藻藻华的反应知之甚少。利用 16S rRNA 基因高通量测序技术,我们研究了 PA 和 FL 细菌群落在不同藻华阶段的稳定性、组装过程和共生模式。PA 细菌与 FL 细菌在系统发育上存在差异。微囊藻藻华对细菌群落有很大影响。时间衰减关系模型显示,微囊藻藻华可能会增加 PA 和 FL 细菌群落的稳定性。PA 和 FL 细菌群落的集结机制截然不同。在整个微囊藻藻华期间,均匀选择是影响 PA 细菌群落的主要组装过程,而漂移则是 FL 细菌群落更替的主要原因。PA 和 FL 细菌群落可分为与微囊藻藻华不同阶段相关的模块。微囊藻藻华改变了 PA 和 FL 细菌群落的组装过程。PA 细菌群落似乎比 FL 细菌群落对微囊藻藻华的反应更敏感。微囊藻藻华的分解可能会加强细菌之间的合作。我们的发现凸显了研究细菌生活方式以了解它们在调节微囊藻藻华方面功能的重要性。主要观点:微囊藻藻华改变了生态系统:- 微囊藻藻华改变了 PA 和 FL 细菌群落的组装过程 - 微囊藻藻华增加了 PA 和 FL 细菌群落的稳定性 - PA 细菌似乎比 FL 细菌对微囊藻藻华的反应更敏感。
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来源期刊
Applied Microbiology and Biotechnology
Applied Microbiology and Biotechnology 工程技术-生物工程与应用微生物
CiteScore
10.00
自引率
4.00%
发文量
535
审稿时长
2 months
期刊介绍: Applied Microbiology and Biotechnology focusses on prokaryotic or eukaryotic cells, relevant enzymes and proteins; applied genetics and molecular biotechnology; genomics and proteomics; applied microbial and cell physiology; environmental biotechnology; process and products and more. The journal welcomes full-length papers and mini-reviews of new and emerging products, processes and technologies.
期刊最新文献
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