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Bibliographic Details
Main Authors: Kennedy, Kiley, Zheng, Vincent, Huynh, Benjamin Q
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2509.08186
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author Kennedy, Kiley
Zheng, Vincent
Huynh, Benjamin Q
author_facet Kennedy, Kiley
Zheng, Vincent
Huynh, Benjamin Q
contents Drinking water contamination, a known determinant of adverse health outcomes, remains widespread and inequitably distributed amidst aging infrastructure. Regulatory oversight is the primary tool to protect drinking water-related public health risks, with maximum contaminant levels established to regulate concentrations for contaminants of concern. However, the extent to which existing concentrations of contaminants at the public water system level directly affect population health remains poorly understood. Here we present a large-scale data analysis of 20 million water samples from 2012-2022 in California to assess the impact of drinking water quality on all-cause mortality. Surfactants were associated with increases in mortality, potentially serving as proxies for wastewater contaminants. We further find evidence of mixture effects that were unidentifiable through single-contaminant analysis, suggesting mixtures of toxic metals as well as salinity constituents are associated with mortality. These results could inform public health efforts to mitigate mortality associated with consumption of contaminated drinking water.
format Preprint
id arxiv_https___arxiv_org_abs_2509_08186
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Drinking water contamination as a population-wide determinant of mortality in California
Kennedy, Kiley
Zheng, Vincent
Huynh, Benjamin Q
Applications
Drinking water contamination, a known determinant of adverse health outcomes, remains widespread and inequitably distributed amidst aging infrastructure. Regulatory oversight is the primary tool to protect drinking water-related public health risks, with maximum contaminant levels established to regulate concentrations for contaminants of concern. However, the extent to which existing concentrations of contaminants at the public water system level directly affect population health remains poorly understood. Here we present a large-scale data analysis of 20 million water samples from 2012-2022 in California to assess the impact of drinking water quality on all-cause mortality. Surfactants were associated with increases in mortality, potentially serving as proxies for wastewater contaminants. We further find evidence of mixture effects that were unidentifiable through single-contaminant analysis, suggesting mixtures of toxic metals as well as salinity constituents are associated with mortality. These results could inform public health efforts to mitigate mortality associated with consumption of contaminated drinking water.
title Drinking water contamination as a population-wide determinant of mortality in California
topic Applications
url https://arxiv.org/abs/2509.08186