Abstract
As most of the forest fires in South Korea are related to human activity, socio-economic factors are critical in estimating their probability. To estimate and analyze how human activity is influencing forest fire probability, this study considered not only environmental factors such as precipitation, elevation, topographic wetness index, and forest type, but also socio-economic factors such as population density and distance from urban area. The machine learning Maximum Entropy (Maxent) and Random Forest models were used to predict and analyze the spatial distribution of forest fire probability in South Korea. The model performance was evaluated using the receiver operating characteristic (ROC) curve method, and models’ outputs were compared based on the area under the ROC curve (AUC). In addition, a multi-temporal analysis was conducted to determine the relationships between forest fire probability and socio-economic or environmental changes from the 1980s to the 2000s. The analysis revealed that the spatial distribution was concentrated in or around cities, and the probability had a strong correlation with variables related to human activity and accessibility over the decades. The AUC values for validation were higher in the Random Forest result compared to the Maxent result throughout the decades. Our findings can be useful for developing preventive measures for forest fire risk reduction considering socio-economic development and environmental conditions.
Highlights
Analysis of forest fire probability is important in disaster risk reduction (DRR) because it provides means for preventing and managing forest fires
The analysis revealed that the average forest fire probability decreased during during the the 2000s
The analysis revealed that the average forest fire probability increased until the 1990s and decreased during the 2000s
Summary
Analysis of forest fire probability is important in disaster risk reduction (DRR) because it provides means for preventing and managing forest fires. Korea, where approximately 65% of the land is covered by forest, is human activity [1,2,3]. Most of these forest fires, caused by human negligence, waste incineration, stubble burning, and discarded cigarettes, are considered to be accidental. While human activity directly causes most forest fires in South Korea, climatic, meteorological and environmental conditions cannot be disregarded, as they contribute to the ignition, combustion, and spread of accidental forest fires [4,5]. 1974–2017, and an average of of the forest fires are reported to have resulted from human to have resulted from human negligence, followed by stubble burning (17%), waste incineration negligence, followedcigarettes by stubble burning (17%), waste incineration (14%)
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