The Impact on Structures of the Pedrógão Grande Fire Complex in June 2017 (Portugal)
Open Access
- 29 September 2020
- Vol. 3 (4), 57
- https://doi.org/10.3390/fire3040057
Abstract
On 17 June 2017, one of the most dramatic and destructive wildfires in Portugal’s History started, formed by a complex of at least five wildfires that merged together burning more than 45,000 hectares. In its aftermath, 66 persons lost their lives, most of them trying to run away from the fire, more than 250 were injured, and over 1000 structures (including 263 residential homes) were damaged or destroyed, with direct losses estimated at around 200 million euros. Shortly after the fire was extinguished, and as part of a larger analysis, the authors performed exhaustive field work to assess the fire impact on all manmade structures in the area of the Pedrógão Grande fire. A specific geodatabase was built, accounting for an extensive set of parameters aimed at characterizing: (i) The structure, (ii) the surroundings of the structure, and (iii) the arrival and impact of the fire. A total of 1043 structures were considered for the analysis, mostly support structures, like sheds or storage (38.6%), but also around 25% of dwellings (13.3% primary and 11.9% secondary). Regarding the ignitions, more than 60% of the structures were ignited due to the deposition of firebrands in different weak points. In addition, more than 60% of these ignitions occurred on the roofs, mainly because of the vulnerability associated with the structures and materials supporting them. Despite these results, and from what we observed on the structures that were not destroyed, we still consider that for the Portuguese reality houses are a good refuge, providing that they and their surroundings are managed and kept in good conditions.Keywords
This publication has 36 references indexed in Scilit:
- Housing Arrangement and Location Determine the Likelihood of Housing Loss Due to WildfirePLOS ONE, 2012
- Land Management Practices Associated with House Loss in WildfiresPLOS ONE, 2012
- Ignition of Combustible Fuel Beds by Hot Particles: An Experimental and Theoretical StudyFire Technology, 2010
- A Case Study of a Community Affected by the Witch and Guejito Wildland FiresFire Technology, 2010
- Firebrands and spotting ignition in large-scale firesInternational Journal of Wildland Fire, 2010
- Assessing the exposure of the built environment to potential ignition sources generated from vegetative fuelInternational Journal of Wildland Fire, 2010
- Characterization and mapping of dwelling types for forest fire preventionComputers, Environment and Urban Systems, 2008
- Ignition of mulch and grasses by firebrands in wildland - urban interface firesInternational Journal of Wildland Fire, 2006
- On the ignition of fuel beds by firebrandsFire and Materials, 2005
- Relating flame radiation to home ignition using modeling and experimental crown firesCanadian Journal of Forest Research, 2004