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俄勒冈州克拉马斯湖上层中鱼腥藻丰度与崩溃和微生物拮抗作用的关系。

Relation between the relative abundance and collapse of Aphanizomenon flos-aquae and microbial antagonism in Upper Klamath Lake, Oregon.

机构信息

U.S. Geological Survey, Water Mission Area, 3215 Marine Street, Boulder, CO 80303, United States.

U.S. Geological Survey, Maryland-Delaware-D.C. Water Science Center, 5522 Research Park Dr, Catonsville, MD 21228, United States.

出版信息

FEMS Microbiol Ecol. 2024 Apr 10;100(5). doi: 10.1093/femsec/fiae043.

DOI:10.1093/femsec/fiae043
PMID:38533659
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11022654/
Abstract

Aphanizomenon flos-aquae (AFA) is the dominant filamentous cyanobacterium that develops into blooms in Upper Klamath Lake, Oregon, each year. During AFA bloom and collapse, ecosystem conditions for endangered Lost River and shortnose suckers deteriorate, thus motivating the need to identify processes that limit AFA abundance and decline. Here, we investigate the relations between AFA and other members of the microbial community (photosynthetic and nonphotosynthetic bacteria and archaea), how those relations impact abundance and collapse of AFA, and the types of microbial conditions that suppress AFA. We found significant spatial variation in AFA relative abundance during the 2016 bloom period using 16S rRNA sequencing. The Pelican Marina site had the lowest AFA relative abundance, and this was coincident with increased relative abundance of Candidatus Sericytochromatia, Flavobacterium, and Rheinheimera, some of which are known AFA antagonists. The AFA collapse coincided with phosphorus limitation relative to nitrogen and the increased relative abundance of Cyanobium and Candidatus Sericytochromatia, which outcompete AFA when dissolved inorganic nitrogen is available. The data collected in this study indicate the importance of dissolved inorganic nitrogen combined with microbial community structure in suppressing AFA abundance.

摘要

微囊藻(Aphanizomenon flos-aquae,AFA)是一种占优势的丝状蓝藻,每年都会在俄勒冈州上克拉马斯湖形成水华。在 AFA 水华和崩溃期间,濒危的内华达多鳍鱼和短鼻吸口鲶鱼的生态条件会恶化,因此需要确定限制 AFA 丰度和减少的过程。在这里,我们研究了 AFA 与微生物群落(光合和非光合细菌和古菌)中其他成员之间的关系,这些关系如何影响 AFA 的丰度和崩溃,以及抑制 AFA 的微生物条件类型。我们使用 16S rRNA 测序发现,在 2016 年水华期间,AFA 的相对丰度存在显著的空间变化。鹈鹕码头(Pelican Marina)站点的 AFA 相对丰度最低,这与 Pelican Marina 站点的 Candidatus Sericytochromatia、Flavobacterium 和 Rheinheimera 的相对丰度增加相一致,其中一些是已知的 AFA 拮抗剂。AFA 的崩溃与磷相对于氮的限制以及 Cyanobium 和 Candidatus Sericytochromatia 的相对丰度增加相一致,当可溶解的无机氮可用时,这些生物会与 AFA 竞争。本研究中收集的数据表明,可溶解的无机氮与微生物群落结构的结合对抑制 AFA 丰度具有重要意义。

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