Inference of Wildfire Causes From Their Physical, Biological, Social and Management Attributes

Effective wildfire prevention includes actions to deliberately target different wildfire causes. However, the cause of an increasing number of wildfires is unknown, hindering targeted prevention efforts. We developed a machine learning model of wildfire ignition cause across the western United State...

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Bibliographic Details
Published in:Earth's future 2025-01, Vol.13 (1), p.n/a
Main Authors: Pourmohamad, Yavar, Abatzoglou, John T., Fleishman, Erica, Short, Karen C., Shuman, Jacquelyn, AghaKouchak, Amir, Williamson, Matthew, Seydi, Seyd Teymoor, Sadegh, Mojtaba
Format: Article
Language:English
Subjects:
Arson
Biological effects
Climate change
Deep learning
Fire prevention
Forest & brush fires
Ignition
Jurisdiction
Machine learning
Prevention
risk mitigation
Social discrimination learning
Topography
Vegetation
wildfire
wildfire attributes
wildfire prevention
Wildfires
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Summary:Effective wildfire prevention includes actions to deliberately target different wildfire causes. However, the cause of an increasing number of wildfires is unknown, hindering targeted prevention efforts. We developed a machine learning model of wildfire ignition cause across the western United States on the basis of physical, biological, social, and management attributes associated with wildfires. Trained on wildfires from 1992 to 2020 with 12 known causes, the overall accuracy of our model exceeded 70% when applied to out‐of‐sample test data. Our model more accurately separated wildfires ignited by natural versus human causes (93% accuracy), and discriminated among the 11 classes of human‐ignited wildfires with 55% accuracy. Our model attributed the greatest percentage of 150,247 wildfires from 1992 to 2020 for which the ignition source was unknown to equipment and vehicle use (21%), lightning (20%), and arson and incendiarism (18%). Plain Language Summary Prevention of human‐caused wildfires, which account for >60% of ignitions across western United States (WUS), is an effective way of reducing wildfire risk. However, the reported cause of an increasing number of wildfires (>50% in recent years) is unknown, challenging the development of targeted prevention strategies. Here, we leverage the spatial and temporal characteristics of wildfires to infer the cause of 150,247 wildfires from 1992 to 2020 in WUS with an unknown cause. Each ignition cause was associated with distinct attributes. For example, lightning‐ignited fires generally start at higher elevations and lower vegetation greenness, whereas wildfires started by power infrastructure mainly ignite during dry, hot, windy weather. Model accuracy in assigning an ignition cause to each wildfire among the 12 available classes was >70% when applied to test data. Across WUS, global human modification index, elevation, discovery day of year, fire year, and temperature on the day of ignition made the greatest contributions to determining the causes of wildfires. The contribution of weather was lower because wildfires start during a subset of weather conditions that are generally common between wildfires. The overall accuracies of models developed for individual states ranged from 60% (California) to 81% (Nevada), and the most influential attributes varied among states. Key Points The spatial and temporal distribution of wildfires is captured by associated biological, physical, social, and management attribut
ISSN:2328-4277
2328-4277
DOI:10.1029/2024EF005187