英国海水浴场水质预测:重要评论

WIREs Water Pub Date : 2024-02-22 DOI:10.1002/wat2.1718
Karolina Urszula Krupska, Linda Speight, James Stephen Robinson, Adam James Gilbert, Hannah Cloke
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引用次数: 0

摘要

气候变化正在改变降雨模式,导致全球降雨事件的变异性和强度不断增加。短时强降雨(即对流性降雨)的增加将导致农田污水溢流和径流的增加。这些事件会导致粪便和粪便中的微生物,特别是大肠杆菌和肠球菌激增,这些微生物会暂时进入沐浴水域,对沐浴者的健康构成严重威胁。由于预测对流降雨事件的时间、地点和影响具有很大的不确定性,因此与对流降雨相关的沐浴水质预测是一项独特的预测挑战。在这篇文章中,我们回顾了沐浴水质预测实践的实例,重点关注英国夏季沐浴季节的对流降雨,并质疑当前的方法在不断变化的气候中是否稳健。我们讨论了海水浴场预报的升级潜力,并确定了在改进海水浴场预报框架之前必须应对的主要挑战。尽管气象和水文短程预报能力的发展前景广阔,但对流降雨预报仍存在很大的可预测性限制。我们建议充分利用短程预报提供次日常海水浴场预报,重点关注有针对性的海水浴场监测制度,以提高模型的准确性,最终目标是为海滩使用者提供更好的信息和指导:水科学 > 水与环境变化 人类用水 > 水治理 水科学 > 水质
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Forecasting bathing water quality in the UK: A critical review
Climate change is altering rainfall patterns resulting in increasing variability and intensity of rainfall events worldwide. Increases to short duration, intense rainfall (i.e., convective rainfall), will lead to increases in sewage overflow and run‐off from agricultural land. Such events generate spikes in micro‐organisms from feces and manure, especially Escherichia coli and intestinal enterococci, that temporarily end up in bathing waters posing serious health risks to bathers. Forecasting of bathing water quality associated with convective rainfall presents a distinctive forecasting challenge due to high uncertainties associated with predicting the timing, location, and impact of such events. In this article, we review examples of bathing water quality forecasting practices, with a focus on the United Kingdom where convective rainfall in the summer bathing water season is a particular concern, and question whether the current approach is robust in a changing climate. We discuss potential upgrades in bathing water forecasting and identify the main challenges that must be addressed before an improved framework for bathing water forecasting can be achieved. Although developments in meteorological and hydrological short‐range forecasting capabilities are promising, convective rainfall forecasting has significant predictability limits. We suggest taking full advantage of short‐range forecasts to provide sub‐daily bathing water forecasts, focusing on targeted bathing water monitoring regimes to improve model accuracy with the ultimate goal of providing improved information and guidance for beach users.This article is categorized under: Science of Water > Water and Environmental Change Human Water > Water Governance Science of Water > Water Quality
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