TY - JOUR
T1 - Integrating geospatial information into fire risk assessment
AU - Chuvieco, E.
AU - Aguado, I.
AU - Jurdao, S.
AU - Pettinari, M. L.
AU - Yebra, M.
AU - Salas, J.
AU - Hantson, S.
AU - De La Riva, J.
AU - Ibarra, P.
AU - Rodrigues, M.
AU - Echeverría, M.
AU - Azqueta, D.
AU - Román, M. V.
AU - Bastarrika, A.
AU - Martínez, S.
AU - Recondo, C.
AU - Zapico, E.
AU - Martínez-Vega, F. J.
PY - 2014
Y1 - 2014
N2 - Fire risk assessment should take into account the most relevant components associated to fire occurrence. To estimate when and where the fire will produce undesired effects, we need to model both (a) fire ignition and propagation potential and (b) fire vulnerability. Following these ideas, a comprehensive fire risk assessment system is proposed in this paper, which makes extensive use of geographic information technologies to offer a spatially explicit evaluation of fire risk conditions. The paper first describes the conceptual model, then the methods to generate the different input variables, the approaches to merge those variables into synthetic risk indices and finally the validation of the outputs. The model has been applied at a national level for the whole Spanish Iberian territory at 1-km2 spatial resolution. Fire danger included human factors, lightning probability, fuel moisture content of both dead and live fuels and propagation potential. Fire vulnerability was assessed by analysing values-at-risk and landscape resilience. Each input variable included a particular accuracy assessment, whereas the synthetic indices were validated using the most recent fire statistics available. Significant relations (P<0.001) with fire occurrence were found for the main synthetic danger indices, particularly for those associated to fuel moisture content conditions.
AB - Fire risk assessment should take into account the most relevant components associated to fire occurrence. To estimate when and where the fire will produce undesired effects, we need to model both (a) fire ignition and propagation potential and (b) fire vulnerability. Following these ideas, a comprehensive fire risk assessment system is proposed in this paper, which makes extensive use of geographic information technologies to offer a spatially explicit evaluation of fire risk conditions. The paper first describes the conceptual model, then the methods to generate the different input variables, the approaches to merge those variables into synthetic risk indices and finally the validation of the outputs. The model has been applied at a national level for the whole Spanish Iberian territory at 1-km2 spatial resolution. Fire danger included human factors, lightning probability, fuel moisture content of both dead and live fuels and propagation potential. Fire vulnerability was assessed by analysing values-at-risk and landscape resilience. Each input variable included a particular accuracy assessment, whereas the synthetic indices were validated using the most recent fire statistics available. Significant relations (P<0.001) with fire occurrence were found for the main synthetic danger indices, particularly for those associated to fuel moisture content conditions.
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U2 - 10.1071/WF12052
DO - 10.1071/WF12052
M3 - Article
AN - SCOPUS:84905436867
SN - 1049-8001
VL - 23
SP - 606
EP - 619
JO - International Journal of Wildland Fire
JF - International Journal of Wildland Fire
IS - 5
ER -