The impact of stagnation on the microbial quality of constructed water systems after COVID-19 shutdowns.

IF 1.8 4区 生物学 Q3 BIOLOGY Biologia futura Pub Date : 2024-09-01 Epub Date: 2024-07-24 DOI:10.1007/s42977-024-00231-5
Anett Lippai, Csaba Ágoston, Lilla Szunyogh
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Abstract

In response to COVID-19 pandemic, governments all over the world limited the movement of people and mandated temporary closure of different institutions. While, these measures helped to reduce the spread of COVID-19, stagnant water can cause water quality deterioration. Stagnation is considered in context with the proliferation of pathogenic and facultatively pathogenic bacteria which pose potential health risks to humans. The objective of this study was to document the hygienic microbiological status of different water systems after the first shutdowns (between 18th March 2020 and 18th May 2020) in Hungary in comparison with a reference period (between 3rd January 2020 to 17th March). During the reference period drinking waters were compliant > 95% of total samples to the parametric values. After the short period shutdowns, the ratio of tnon-compliant drinking water samples was 6.6%: mainly Pseudomonas aeruginosa (7%) and coliform bacteria (5%) resulted poor water quality. The microscopic analysis of drinking waters showed that after low water demand the values of non-compliant samples also increased due to the proliferation of Amoebozoa and other Protozoa species. The compliant pool waters' ratio was also high in the reference period (97-99%), while after the shutdowns more samples were positive in both pool operation type (fill-and-drain pools and pools with recirculation) due to the proliferation of P. aeruginosa (14%) and micrococci (12%). Legionella non-compliant samples in hot tap water did not show significant difference during both studied periods (15%) although after stagnation the Legionella CFU (colony forming unit) values of the samples increased markedly.

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COVID-19 停机后停滞对建造水系统微生物质量的影响。
为应对 COVID-19 大流行,世界各国政府限制人员流动,并规定暂时关闭不同机构。虽然这些措施有助于减少 COVID-19 的传播,但积水会导致水质恶化。积水会导致致病菌和兼性致病菌大量繁殖,对人类健康造成潜在威胁。本研究的目的是记录匈牙利不同供水系统在首次停水(2020 年 3 月 18 日至 2020 年 5 月 18 日)后的微生物卫生状况,并与参照期(2020 年 1 月 3 日至 3 月 17 日)进行比较。在参考期间,饮用水中 95% 以上的样本都符合参数值。短期停水后,不符合标准的饮用水样本比例为 6.6%:主要是铜绿假单胞菌(7%)和大肠菌群(5%)导致水质不佳。饮用水的显微分析表明,在低需水量后,由于阿米巴原虫和其他原生动物的大量繁殖,不达标水样的数值也有所增加。在参照期,符合标准的池水比例也很高(97%-99%),而在停水后,由于铜绿假单胞菌(14%)和微球菌(12%)的大量繁殖,两种池水运行类型(填排水池和再循环池)中都有更多的样本呈阳性。热自来水中不符合要求的退伍军人病菌样本在两个研究期间没有明显差异(15%),但在停滞后,样本中的退伍军人病菌 CFU(菌落形成单位)值明显增加。
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来源期刊
Biologia futura
Biologia futura Agricultural and Biological Sciences-Agricultural and Biological Sciences (all)
CiteScore
3.50
自引率
0.00%
发文量
27
期刊介绍: How can the scientific knowledge we possess now influence that future? That is, the FUTURE of Earth and life − of humankind. Can we make choices in the present to change our future? How can 21st century biological research ask proper scientific questions and find solid answers? Addressing these questions is the main goal of Biologia Futura (formerly Acta Biologica Hungarica). In keeping with the name, the new mission is to focus on areas of biology where major advances are to be expected, areas of biology with strong inter-disciplinary connection and to provide new avenues for future research in biology. Biologia Futura aims to publish articles from all fields of biology.
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