挥发组学揭示了俄勒冈州一个关键淡水湖中微囊藻毒素浓度、微生物组成和氧化应激的情况。

The volatilome reveals microcystin concentration, microbial composition, and oxidative stress in a critical Oregon freshwater lake.

机构信息

Department of Microbiology, Oregon State University , Corvallis, Oregon, USA.

Department of Statistics, Oregon State University , Corvallis, Oregon, USA.

出版信息

mSystems. 2023 Oct 26;8(5):e0037923. doi: 10.1128/msystems.00379-23. Epub 2023 Aug 17.

DOI:10.1128/msystems.00379-23

PMID:37589463

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10654074/

Abstract

Harmful algal blooms are among the most significant threats to drinking water safety. Blooms dominated by cyanobacteria can produce potentially harmful toxins and, despite intensive research, toxin production remains unpredictable. We measured gaseous molecules in Upper Klamath Lake, Oregon, over 2 years and used them to predict the presence and concentration of the cyanotoxin, microcystin, and microbial community composition. Subsets of gaseous compounds were identified that are associated with microcystin production during oxidative stress, pointing to ecosystem-level interactions leading to microcystin contamination. Our approach shows potential for gaseous molecules to be harnessed in monitoring critical waterways.

摘要

有害藻类水华是对饮用水安全的最大威胁之一。以蓝藻为主的水华会产生潜在有害的毒素，尽管进行了深入的研究，但毒素的产生仍然难以预测。我们在俄勒冈州上克拉马斯湖进行了为期两年的气体分子测量，并利用这些数据来预测蓝藻毒素微囊藻毒素的存在和浓度，以及微生物群落的组成。我们确定了一些与氧化应激期间微囊藻毒素产生有关的气态化合物亚群，这表明存在导致微囊藻毒素污染的生态系统级相互作用。我们的方法表明，利用气体分子来监测关键水道具有潜力。

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挥发组学揭示了俄勒冈州一个关键淡水湖中微囊藻毒素浓度、微生物组成和氧化应激的情况。

The volatilome reveals microcystin concentration, microbial composition, and oxidative stress in a critical Oregon freshwater lake.

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