Litcius/Paper detail

Population exposure to pre-emptive de-energization aimed at averting wildfires in Northern California

John T. Abatzoglou, Craig M. Smith, Daniel L. Swain, Thomas Ptak, Crystal A. Kolden

2020Environmental Research Letters62 citationsDOIOpen Access PDF

Abstract

Abstract Recent extreme fire seasons in California have prompted utilities such as Pacific Gas and Electric to pre-emptively de-energize portions of the electrical grid during periods of extreme fire weather to reduce the risk of powerline-related fire ignitions. The policy was deployed in 2019, resulting in 12 million person-days of power outages and widespread societal disruption. Retrospective weather and vegetation moisture data highlight hotspots of historical risk across northern California. We estimate an average of 1.6 million person-days of de-energization per year, based on recent historical climate conditions and assuming publicly stated utility de-energization thresholds. We further estimate an additional 70% increase in the population affected by de-energization when vegetation remains abnormally dry later into autumn—suggesting that climate change will likely increase population vulnerable to de-energization. Adaptation efforts to curtail fire risk can be beneficial, but efforts to prepare affected populations, modernize the grid, and refine decision-making surrounding such policies have high potential to reduce the magnitude of negative externalities experienced during the 2019 de-energization events.

Topics & Concepts

Climate changeEnvironmental sciencePopulationExtreme weatherVegetation (pathology)GeographyClimatologyDemographyEcologySociologyMedicineBiologyPathologyGeologyFire effects on ecosystemsFire dynamics and safety researchAtmospheric chemistry and aerosols