Litcius/Paper detail

Wildfire caused widespread drinking water distribution network contamination

Caitlin R. Proctor, Juneseok Lee, David J. Yu, Amisha D. Shah, Andrew J. Whelton

2020AWWA Water Science122 citationsDOIOpen Access PDF

Abstract

Abstract The Tubbs Fire (2017) and Camp Fire (2018) are the first known wildfires where widespread drinking water chemical contamination was discovered in the water distribution network and not in the source water after the fire. In both disasters, drinking water exceeded state and federal government‐defined exposure limits for several volatile organic compound (VOC) contaminants (e.g., benzene at 40,000 µg/L [Tubbs] and >2,217 µg/L [Camp]). This work outlines factors that influence wildfire‐induced drinking water quality threats based on the findings from these two fires and explores related scientific and policy issues. For example, certain plastics in the network may serve as a primary VOC source through in situ plastic pyrolysis. Depressurization of the distribution network likely transported contaminated water that subsequently contaminated undamaged infrastructure. As wildfires at the wildland–urban interface are likely to occur more frequently, greater scientific evidence is needed to guide agency responses that will better protect public health.

Topics & Concepts

Environmental scienceContaminationWater qualityWork (physics)Water contaminationEnvironmental engineeringEnvironmental protectionEnvironmental chemistryEnvironmental planningEngineeringChemistryEcologyBiologyMechanical engineeringFire dynamics and safety researchToxic Organic Pollutants ImpactEnvironmental Justice and Health Disparities