Predicting the occurrence of wildfires with binary structured additive regression models

Wildfires are one of the main environmental problems facing societies today, and in the case of Galicia (north-west Spain), they are the main cause of forest destruction. This paper used binary structured additive regression (STAR) for modelling the occurrence of wildfires in Galicia. Binary STAR mo...

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Published in:Journal of environmental management 2017-02, Vol.187, p.154-165
Main Authors: Ríos-Pena, Laura, Kneib, Thomas, Cadarso-Suárez, Carmen, Marey-Pérez, Manuel
Format: Article
Language:English
Subjects:
Covariates
Disasters
Fires - prevention & control
Humans
Logistic Models
Markov Chains
Markov random fields
Models, Theoretical
Penalized splines
Probability
Spain
Spatio-Temporal Analysis
Structured additive regression models
Voxel
Wildfires
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cited_by cdi_FETCH-LOGICAL-c412t-ac542de15eeaf2437f26a9a029959a9eca79e9b0b90143f4473075108089b8103
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container_end_page 165
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container_start_page 154
container_title Journal of environmental management
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creator Ríos-Pena, Laura
Kneib, Thomas
Cadarso-Suárez, Carmen
Marey-Pérez, Manuel
description Wildfires are one of the main environmental problems facing societies today, and in the case of Galicia (north-west Spain), they are the main cause of forest destruction. This paper used binary structured additive regression (STAR) for modelling the occurrence of wildfires in Galicia. Binary STAR models are a recent contribution to the classical logistic regression and binary generalized additive models. Their main advantage lies in their flexibility for modelling non-linear effects, while simultaneously incorporating spatial and temporal variables directly, thereby making it possible to reveal possible relationships among the variables considered. The results showed that the occurrence of wildfires depends on many covariates which display variable behaviour across space and time, and which largely determine the likelihood of ignition of a fire. The joint possibility of working on spatial scales with a resolution of 1 × 1 km cells and mapping predictions in a colour range makes STAR models a useful tool for plotting and predicting wildfire occurrence. Lastly, it will facilitate the development of fire behaviour models, which can be invaluable when it comes to drawing up fire-prevention and firefighting plans. •Wildfires are studied with Structured Additive Regression (STAR) models.•Results are compared with GLMs and GAM models.•The main advantage of the STAR models is their flexibility.•The presence of fire depends on certain weather conditions and land use.•STAR models are an important tool for forest managers and statistician.
doi_str_mv 10.1016/j.jenvman.2016.11.044
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subjects Covariates
Disasters
Fires - prevention & control
Humans
Logistic Models
Markov Chains
Markov random fields
Models, Theoretical
Penalized splines
Probability
Spain
Spatio-Temporal Analysis
Structured additive regression models
Voxel
Wildfires
title Predicting the occurrence of wildfires with binary structured additive regression models
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