Impact of drought on de facto reuse and water quality in Lake Mead: Insights from hydrodynamic modeling versus machine learning

IF 4.6 2区环境科学与生态学 Q1 COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS

Environmental Modelling & Software Pub Date : 2025-08-07 DOI:10.1016/j.envsoft.2025.106649

Charlotte van der Nagel , Emily Clements , Carissa Wilkerson , Deena Hannoun , Todd Tietjen

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Abstract

De facto reuse (DFR), where wastewater effluent is present at a drinking water source, can elevate levels of anthropogenic chemicals and pathogens. Wastewater effluent can travel through the water column as a well-defined plume, owing to density differences. This study evaluated the complex effects of drought on plume behavior and water quality in Lake Mead, an arid reservoir in the southwestern United States, using a hydrodynamic model, and compared its performance to a simpler machine learning model. Water quality remained high despite lake elevation declines if in-and outflow rates were maintained. DFR fluctuated seasonally following the plume entrainment depth in the lake thermal structure, with decreased lake elevation shifting peak DFR to occur earlier in the year. Though the hydrodynamic model (relative root mean square error (RRMSE) = 6.7 %) slightly outperformed the machine learning model (RRMSE = 10.8 %), both models can aid treatment and management decisions by predicting DFR at (drinking) water infrastructure.

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干旱对米德湖实际再利用和水质的影响：来自水动力建模与机器学习的见解

事实上的再利用（DFR），即废水在饮用水源中存在，可以提高人为化学物质和病原体的水平。由于密度的差异，废水可以作为一个明确的羽流穿过水柱。本研究使用水动力学模型评估了干旱对美国西南部干旱水库米德湖（Lake Mead）羽流行为和水质的复杂影响，并将其性能与更简单的机器学习模型进行了比较。如果流入和流出速率保持不变，尽管湖泊海拔下降，水质仍然很高。DFR随湖泊热结构中烟羽带深度的变化而呈季节性波动，湖泊高程移动峰值DFR下降的时间越早。虽然水动力模型（相对均方根误差(RRMSE) = 6.7%）略优于机器学习模型（RRMSE = 10.8%），但这两种模型都可以通过预测饮用水基础设施的DFR来帮助治疗和管理决策。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Environmental Modelling & Software 工程技术-工程：环境

CiteScore

9.30

自引率

8.20%

发文量

241

审稿时长

60 days

期刊介绍： Environmental Modelling & Software publishes contributions, in the form of research articles, reviews and short communications, on recent advances in environmental modelling and/or software. The aim is to improve our capacity to represent, understand, predict or manage the behaviour of environmental systems at all practical scales, and to communicate those improvements to a wide scientific and professional audience.