中国武汉 COVID-19 封锁后与消毒剂相关的微真核生物多样性和生物条件的时空变化

IF 5.1 Q1 ENVIRONMENTAL SCIENCES Water Biology and Security Pub Date : 2024-07-01 DOI:10.1016/j.watbs.2024.100266
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摘要

在 COVID-19 大流行的推动下,人们怀疑氯基消毒剂的大量使用会对受纳水体的生态系统造成危害,但几乎没有实地证据。我们研究了中国武汉市三个污水处理厂-河流系统关闭一年后地表水中典型消毒剂和微真核生物群落的特征。三卤甲烷(THMs)从 2020 年夏季(0.01-1.82 μg/L)下降到 2021 年夏季(0.01-0.95 μg/L),而季铵盐(QAs)从 2020 年夏季(0.53-6.35 ng/L)上升到 2021 年夏季(8.49-191 ng/L)。利用环境 DNA(eDNA)进行的生物多样性监测显示,微真核细胞群落组成存在显著的时间变化。冗余分析表明,监测的消毒剂与某些真核生物群落相关。例如,QAs 与隐藻相对丰度呈正相关,但与轮虫相对丰度呈负相关。基于微核生物的多指标指数表明,2020 年汉江污水处理厂出口附近的生态环境将受到损害。我们的研究结果表明了大量使用的消毒剂对河流微核生物群落的影响,以及在后 COVID-19 时代评估消毒剂中期生态风险的有用性。
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Spatiotemporal variation of microeukaryotic biodiversity and biotic condition associated with disinfectants after the COVID-19 lockdown in Wuhan, China

Intensive application of chlorine-based disinfectants driven by the COVID-19 pandemic was suspected to be detrimental to receiving water ecosystems, but with little field evidence. We characterized the occurrences of typical disinfectants and microeukaryotic communities in surface waters associated with three wastewater treatment plants (WWTP)-river systems one year after the lockdown in Wuhan, China. Trihalomethanes (THMs) declined from summer 2020 (0.01–1.82 ​μg/L) to summer 2021 (0.01–0.95 ​μg/L), whereas quaternary ammonium salts (QAs) increased from summer 2020 (0.53–6.35 ​ng/L) to summer 2021 (8.49–191 ​ng/L). Biodiversity monitoring with environmental DNA (eDNA) revealed significant temporal variation in microeukaryotic community composition. The monitored disinfectants were correlated with some eukaryotic communities as demonstrated by redundancy analysis. For example, QAs were positively related to Cryptophyta relative abundance, but negatively related to Rotifera relative abundance. A microeukaryote-based multimetric index indicated ecological impairment near the Han River WWTP outlet in 2020. Our findings indicate the influence of heavily used disinfectants on river microeukaryotic communities, and the usefulness of assessing mid-term ecological risks from disinfectants in the post COVID-19 era.

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