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Indoor and Outdoor Volatile Organic Compound Levels during and after the 2025 Los Angeles Wildfires

Yuan Yao, Diane Garcia-Gonzales, Jing Li, Muchuan Niu, Qiyue Nie, Michael Jerrett, Yifang Zhu

2026Environmental Science & Technology Letters7 citationsDOIOpen Access PDF

Abstract

High Resolution Image Download MS PowerPoint Slide The January 2025 Los Angeles wildfires released large amounts of air pollutants and exposed millions of residents to smoke containing hazardous volatile organic compounds (VOCs). To assess exposure risks, we conducted indoor and outdoor VOCs sampling at 22 households near the Palisades and Eaton Fires across three phases: active burning with less than 50% containment (January 8–15), active burning period with more than 50% containment (January 24–31), and postfire (February 11–18). Outdoor benzene concentrations peaked during Phase 1, with a median (interquartile range) of 0.38 (0.27) ppb, decreased over time, and remained below the California Office of Environmental Health Hazard Assessment health benchmarks. Compared with the active burning period, indoor-to-outdoor ratios of m, p -xylene ( p = 0.004), carbon tetrachloride ( p = 0.002), and heptane ( p = 0.02) were significantly higher in the postfire period. Elevated VOC levels were particularly evident in uninhabited homes within burn zones, suggesting ongoing indoor emissions from smoke-impacted materials. These findings raise concerns about indoor air quality postwildfire and the potential for prolonged exposure, underscoring the need for targeted mitigation and ongoing monitoring to protect public health during recovery.

Topics & Concepts

Environmental scienceHazardous wasteAir quality indexVolatile organic compoundEnvironmental healthAir pollutionSmokeIndoor air qualityEnvironmental chemistryPollutantHealth hazardWaste managementEnvironmental protectionAir pollutantsHazardHazardous air pollutantsEnvironmental engineeringEnvironmental hazardTetrachloroethyleneParticulatesPollutionAir monitoringTotal organic carbonBenzenePublic healthPersistent organic pollutantHealth riskOzoneAtmospheric chemistry and aerosolsFire effects on ecosystemsAir Quality and Health Impacts
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