Heavy precipitation, drinking water source, and acute gastrointestinal illness in Philadelphia, 2015-2017.

Runoff from heavy precipitation events can lead to microbiological contamination of source waters for public drinking water supplies. Philadelphia is a city of interest for a study of waterborne acute gastrointestinal illness (AGI) because of frequent heavy precipitation, extensive impervious landco...

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Main Authors: Anneclaire J De Roos, Michelle C Kondo, Lucy F Robinson, Arjita Rai, Michael Ryan, Charles N Haas, José Lojo, Jerald A Fagliano
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2020-01-01
Series:PLoS ONE
Online Access:https://doi.org/10.1371/journal.pone.0229258
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spelling doaj-c256af8cd3904167b69fa9ba077f06692021-03-03T21:35:40ZengPublic Library of Science (PLoS)PLoS ONE1932-62032020-01-01152e022925810.1371/journal.pone.0229258Heavy precipitation, drinking water source, and acute gastrointestinal illness in Philadelphia, 2015-2017.Anneclaire J De RoosMichelle C KondoLucy F RobinsonArjita RaiMichael RyanCharles N HaasJosé LojoJerald A FaglianoRunoff from heavy precipitation events can lead to microbiological contamination of source waters for public drinking water supplies. Philadelphia is a city of interest for a study of waterborne acute gastrointestinal illness (AGI) because of frequent heavy precipitation, extensive impervious landcover, and combined sewer systems that lead to overflows. We conducted a time-series analysis of the association between heavy precipitation and AGI incidence in Philadelphia, served by drinking water from Delaware River and Schuylkill River source waters. AGI cases on each day during the study period (2015-2017) were captured through syndromic surveillance of patients' chief complaint upon presentation at local emergency departments. Daily precipitation was represented by measurements at the Philadelphia International Airport and by modeled precipitation within the watershed boundaries, and we also evaluated stream flowrate as a proxy of precipitation. We estimated the association using distributed lag nonlinear models, assuming a quasi-Poisson distribution of the outcome variable and with adjustment for potential confounding by seasonal and long-term time trends, ambient temperature, day-of-week, and major holidays. We observed an association between heavy precipitation and AGI incidence in Philadelphia that was primarily limited to the spring season, with significant increases in AGI that peaked from 8 to 16 days following a heavy precipitation event. For example, the increase in AGI incidence related to airport precipitation above the 95th percentile (vs no precipitation) during spring reached statistical significance on lag day 7, peaked on day 16 (102% increase, 95% confidence interval: 16%, 252%), and declined while remaining significantly elevated through day 28. Similar associations were observed in analyses of watershed-specific precipitation in relation to AGI cases within the populations served by drinking water from each river. Our results suggest that heavy precipitation events in Philadelphia result in detectable local increases in waterborne AGI.https://doi.org/10.1371/journal.pone.0229258
collection DOAJ
language English
format Article
sources DOAJ
author Anneclaire J De Roos
Michelle C Kondo
Lucy F Robinson
Arjita Rai
Michael Ryan
Charles N Haas
José Lojo
Jerald A Fagliano
spellingShingle Anneclaire J De Roos
Michelle C Kondo
Lucy F Robinson
Arjita Rai
Michael Ryan
Charles N Haas
José Lojo
Jerald A Fagliano
Heavy precipitation, drinking water source, and acute gastrointestinal illness in Philadelphia, 2015-2017.
PLoS ONE
author_facet Anneclaire J De Roos
Michelle C Kondo
Lucy F Robinson
Arjita Rai
Michael Ryan
Charles N Haas
José Lojo
Jerald A Fagliano
author_sort Anneclaire J De Roos
title Heavy precipitation, drinking water source, and acute gastrointestinal illness in Philadelphia, 2015-2017.
title_short Heavy precipitation, drinking water source, and acute gastrointestinal illness in Philadelphia, 2015-2017.
title_full Heavy precipitation, drinking water source, and acute gastrointestinal illness in Philadelphia, 2015-2017.
title_fullStr Heavy precipitation, drinking water source, and acute gastrointestinal illness in Philadelphia, 2015-2017.
title_full_unstemmed Heavy precipitation, drinking water source, and acute gastrointestinal illness in Philadelphia, 2015-2017.
title_sort heavy precipitation, drinking water source, and acute gastrointestinal illness in philadelphia, 2015-2017.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2020-01-01
description Runoff from heavy precipitation events can lead to microbiological contamination of source waters for public drinking water supplies. Philadelphia is a city of interest for a study of waterborne acute gastrointestinal illness (AGI) because of frequent heavy precipitation, extensive impervious landcover, and combined sewer systems that lead to overflows. We conducted a time-series analysis of the association between heavy precipitation and AGI incidence in Philadelphia, served by drinking water from Delaware River and Schuylkill River source waters. AGI cases on each day during the study period (2015-2017) were captured through syndromic surveillance of patients' chief complaint upon presentation at local emergency departments. Daily precipitation was represented by measurements at the Philadelphia International Airport and by modeled precipitation within the watershed boundaries, and we also evaluated stream flowrate as a proxy of precipitation. We estimated the association using distributed lag nonlinear models, assuming a quasi-Poisson distribution of the outcome variable and with adjustment for potential confounding by seasonal and long-term time trends, ambient temperature, day-of-week, and major holidays. We observed an association between heavy precipitation and AGI incidence in Philadelphia that was primarily limited to the spring season, with significant increases in AGI that peaked from 8 to 16 days following a heavy precipitation event. For example, the increase in AGI incidence related to airport precipitation above the 95th percentile (vs no precipitation) during spring reached statistical significance on lag day 7, peaked on day 16 (102% increase, 95% confidence interval: 16%, 252%), and declined while remaining significantly elevated through day 28. Similar associations were observed in analyses of watershed-specific precipitation in relation to AGI cases within the populations served by drinking water from each river. Our results suggest that heavy precipitation events in Philadelphia result in detectable local increases in waterborne AGI.
url https://doi.org/10.1371/journal.pone.0229258
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