Investigation of Indoor and Outdoor Fine Particulate Matter Concentrations in Schools in Salt Lake City, Utah

Daniel L. Mendoza; Tabitha M. Benney; Ryan Bares; Benjamin Fasoli; Corbin Anderson; Shawn A. Gonzales; Erik T. Crosman; Sebastian Hoch

doi:10.3390/pollutants2010009

Investigation of Indoor and Outdoor Fine Particulate Matter Concentrations in Schools in Salt Lake City, Utah

Daniel L. Mendoza, Tabitha M. Benney, Ryan Bares, Benjamin Fasoli, Corbin Anderson, Shawn A. Gonzales, Erik T. Crosman, Sebastian Hoch

Research output: Contribution to journal › Article › peer-review

5 Scopus citations

Abstract

Although there is mounting evidence that suggests that air pollution is impactful to human health and educational outcomes, this is especially problematic in schools with higher air pollution levels. To understand whether all schools in an urban area are exposed to similar outdoor air quality and whether school infrastructure protects children equally indoors, we installed research-grade sensors to observe PM_2.5 concentrations in indoor and outdoor settings to understand how unequal exposure to indoor and outdoor air pollution impacts indoor air quality among high- and low-income schools in Salt Lake City, Utah. These data and resulting analysis show that poor air quality may impact school settings and the potential implications with respect to environmental inequality. Based on this approach, we found that during atmospheric inversions and dust events, there was a lag ranging between 35 and 73 min for the outdoor PM_2.5 concentrations to follow a similar temporal pattern as the indoor PM_2.5. This lag has policy and health implications and may help to explain rising concerns regarding reduced educational outcomes related to air pollution in urban areas.

Original language	English
Pages (from-to)	82-97
Number of pages	16
Journal	Pollutants
Volume	2
Issue number	1
DOIs	https://doi.org/10.3390/pollutants2010009
State	Published - Mar 2022
Externally published	Yes

Keywords

air quality
atmospheric inversions
building ventilation
dust events
environmental inequality
fine particulate matter
high schools
indoor air quality
research-grade sensors
urban

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10.3390/pollutants2010009

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title = "Investigation of Indoor and Outdoor Fine Particulate Matter Concentrations in Schools in Salt Lake City, Utah",

abstract = "Although there is mounting evidence that suggests that air pollution is impactful to human health and educational outcomes, this is especially problematic in schools with higher air pollution levels. To understand whether all schools in an urban area are exposed to similar outdoor air quality and whether school infrastructure protects children equally indoors, we installed research-grade sensors to observe PM2.5 concentrations in indoor and outdoor settings to understand how unequal exposure to indoor and outdoor air pollution impacts indoor air quality among high- and low-income schools in Salt Lake City, Utah. These data and resulting analysis show that poor air quality may impact school settings and the potential implications with respect to environmental inequality. Based on this approach, we found that during atmospheric inversions and dust events, there was a lag ranging between 35 and 73 min for the outdoor PM2.5 concentrations to follow a similar temporal pattern as the indoor PM2.5. This lag has policy and health implications and may help to explain rising concerns regarding reduced educational outcomes related to air pollution in urban areas.",

keywords = "air quality, atmospheric inversions, building ventilation, dust events, environmental inequality, fine particulate matter, high schools, indoor air quality, research-grade sensors, urban",

author = "Mendoza, \{Daniel L.\} and Benney, \{Tabitha M.\} and Ryan Bares and Benjamin Fasoli and Corbin Anderson and Gonzales, \{Shawn A.\} and Crosman, \{Erik T.\} and Sebastian Hoch",

note = "Publisher Copyright: {\textcopyright} 2022 by the authors.",

year = "2022",

month = mar,

doi = "10.3390/pollutants2010009",

language = "English",

volume = "2",

pages = "82--97",

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T1 - Investigation of Indoor and Outdoor Fine Particulate Matter Concentrations in Schools in Salt Lake City, Utah

AU - Mendoza, Daniel L.

AU - Benney, Tabitha M.

AU - Bares, Ryan

AU - Fasoli, Benjamin

AU - Anderson, Corbin

AU - Gonzales, Shawn A.

AU - Crosman, Erik T.

AU - Hoch, Sebastian

PY - 2022/3

Y1 - 2022/3

N2 - Although there is mounting evidence that suggests that air pollution is impactful to human health and educational outcomes, this is especially problematic in schools with higher air pollution levels. To understand whether all schools in an urban area are exposed to similar outdoor air quality and whether school infrastructure protects children equally indoors, we installed research-grade sensors to observe PM2.5 concentrations in indoor and outdoor settings to understand how unequal exposure to indoor and outdoor air pollution impacts indoor air quality among high- and low-income schools in Salt Lake City, Utah. These data and resulting analysis show that poor air quality may impact school settings and the potential implications with respect to environmental inequality. Based on this approach, we found that during atmospheric inversions and dust events, there was a lag ranging between 35 and 73 min for the outdoor PM2.5 concentrations to follow a similar temporal pattern as the indoor PM2.5. This lag has policy and health implications and may help to explain rising concerns regarding reduced educational outcomes related to air pollution in urban areas.

AB - Although there is mounting evidence that suggests that air pollution is impactful to human health and educational outcomes, this is especially problematic in schools with higher air pollution levels. To understand whether all schools in an urban area are exposed to similar outdoor air quality and whether school infrastructure protects children equally indoors, we installed research-grade sensors to observe PM2.5 concentrations in indoor and outdoor settings to understand how unequal exposure to indoor and outdoor air pollution impacts indoor air quality among high- and low-income schools in Salt Lake City, Utah. These data and resulting analysis show that poor air quality may impact school settings and the potential implications with respect to environmental inequality. Based on this approach, we found that during atmospheric inversions and dust events, there was a lag ranging between 35 and 73 min for the outdoor PM2.5 concentrations to follow a similar temporal pattern as the indoor PM2.5. This lag has policy and health implications and may help to explain rising concerns regarding reduced educational outcomes related to air pollution in urban areas.

KW - air quality

KW - atmospheric inversions

KW - building ventilation

KW - dust events

KW - environmental inequality

KW - fine particulate matter

KW - high schools

KW - indoor air quality

KW - research-grade sensors

KW - urban

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U2 - 10.3390/pollutants2010009

DO - 10.3390/pollutants2010009

M3 - Article

AN - SCOPUS:105004351104

SN - 2673-4672

VL - 2

SP - 82

EP - 97

JO - Pollutants

JF - Pollutants

IS - 1

ER -

Investigation of Indoor and Outdoor Fine Particulate Matter Concentrations in Schools in Salt Lake City, Utah

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Keywords

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