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Environmental justice analysis of wildfire-related PM2.5 exposure using low-cost sensors in California

Amber L. Kramer, Jonathan Liu, Liqiao Li, Rachel Connolly, Michele Barbato, Yifang Zhu

2022The Science of The Total Environment62 citationsDOIOpen Access PDF

Abstract

The increasing number and severity of wildfires is negatively impacting air quality for millions of California residents each year. Community exposure to PM2.5 in two main population centers (San Francisco Bay area and Los Angeles County area) was assessed using the low-cost PurpleAir sensor network for the record-setting 2020 California wildfire season. Estimated PM2.5 concentrations in each study area were compared to census tract-level environmental justice vulnerability indicators, including environmental, health, and demographic data. Higher PM2.5 concentrations were positively correlated with poverty, cardiovascular emergency department visits, and housing inequities. Sensors within 30 km of actively burning wildfires showed statistically significant increases in indoor (~800 %) and outdoor (~540 %) PM2.5 during the fires. Results indicate that wildfire emissions may exacerbate existing health disparities as well as the burden of pollution in disadvantaged communities, suggesting a need to improve monitoring and adaptive capacity among vulnerable populations.

Topics & Concepts

Environmental justiceEnvironmental healthGeographyPovertyVulnerability (computing)Air pollutionBayPopulationEnvironmental scienceMedicineEcologyComputer securityArchaeologyEconomicsEconomic growthBiologyComputer scienceAir Quality and Health ImpactsFire effects on ecosystemsAtmospheric chemistry and aerosols
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