C. Lampin-Maillet scite author profile

Every year, more than 50,000 wildland fires affect about 500,000ha of vegetation in southern European countries, particularly in wildland-urban interfaces (WUI). This paper presents a method to characterize and map WUIs at large scales and over large areas for wildland fire prevention in the South of France. Based on the combination of four types of building configuration and three classes of vegetation structure, 12 interface types were classified. Through spatial analysis, fire ignition density and burned area ratio were linked with the different types of WUI. Among WUI types, isolated WUIs with the lowest housing density represent the highest level of fire risk.

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Spot fires: fuel bed flammability and capability of firebrands to ignite fuel beds

Ganteaume¹,

Lampin-Maillet²,

Guijarro

et al. 2009

Int. J. Wildland Fire

112

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12Brief summary: The capacity of several fuel beds to be ignited by firebrands and to sustain a fire was assessed 13 through the study of their flammability. Then, the capability of different types of firebrands to ignite fuel beds 14 was studied through laboratory tests, in order to know their behaviour when they are involved in spot fires. 29A series of tests were conducted under laboratory conditions to assess, on the one hand, the capacity of several 30 fuel beds to be ignited by firebrands and to sustain a fire and, on the other hand, the capability of different types

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Effects of vegetation type and fire regime on flammability of undisturbed litter in Southeastern France

Ganteaume¹,

Jappiot²,

Lampin-Maillet³

et al. 2011

Forest Ecology and Management

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Land cover analysis in wildland–urban interfaces according to wildfire risk: A case study in the South of France

Lampin-Maillet¹,

Long-Fournel²,

Ganteaume³

et al. 2011

Forest Ecology and Management

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Each year, forest fires destroy about 500,000 ha of vegetation in Europe, predominantly in the Mediterranean region. Many large fires are linked to the land transformations that have taken place in the Mediterranean region in recent decades that have increased the risk of forest fires. On the one hand, agricultural fallows and orchards are slowly being colonized by vegetation, and on the other hand, the forest is not sufficiently used, both of which result in increased accumulation of fuel. In addition, urbanization combined with forest extension results in new spatial configurations called "wildland-urban interfaces" (WUI). WUI are commonly defined as "areas where urban areas meet and interact with rural lands, wildland vegetation and forests. Spatial analyses were performed using a WUI typology based on two intertwined elements, the spatial organization of homes and the structure of fuel vegetation. The organisation of the land cover in terms of representativeness, complexity or road density was evaluated for each type of WUI. Results showed that there were significant differences between the types of WUI in the study area. Three indicators (i) "fire ignition density", derived from the distribution of fire ignition points, (ii) "wildfire density", derived from the distribution of wildfire area and (iii) "burned area ratio", derived from the proportion of the burned area to the total study area were then compared with each type of WUI. Assuming that the three indicators correspond to important aspects of fire risk, we showed that, at least in the south of France, WUI are at high risk of wildfire, and that of the different types of wildland-urban interfaces, isolated and scattered WUI were the most at risk. Their main land cover characteristics, i.e. low housing and road densities but a high density of country roads, and the availability of burnable vegetation such as forested stands and shrubland (garrigue) explain the high fire risk. Improving our knowledge of relationships between WUI environments and fire risk should increase the efficiency of wildfire prevention: to this end, suitable prevention actions and communication campaigns targeting the types of WUI at the highest risk are recommended.

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Laboratory characterization of firebrands involved in spot fires

Ganteaume¹,

Guijarro²,

Jappiot³

et al. 2011

Annals of Forest Science

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& Introduction Wildfires are considered the most important disturbance in the Mediterranean Basin, and some are propagated over long distances due to lift-off and ignition of firebrands. & Objectives To improve our knowledge of firebrands involved in spotting fires, flammability characteristics of eight types of firebrands commonly generated by wildfires in Southern Europe were determined under laboratory conditions. & Results All the firebrands tested showed 100% ignition frequency but with a wide range of time to ignition and flaming duration. Weight loss during combustion was exponentially related to time, and there was a decrease in the ratio of the weight at temperature T to the initial weight with increasing temperatures. In our experimental conditions, there was a significant effect of fuel moisture content on time to ignition, flaming duration, combustion and thermal decomposition. On the basis of the characteristics analysed, three firebrand groups have been identified in relation to spotting: heavy firebrands with ability to sustain flames, efficient for long-distance spotting (pine cones); light firebrands with high surface-to-volume ratio, efficient for short-distance spotting (leaves and thin barks); and light firebrands with low surface-to-volume ratio, efficient for short and, occasionally, long-distance spotting (all the other types of firebands).

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C. Lampin-Maillet

Mapping wildland-urban interfaces at large scales integrating housing density and vegetation aggregation for fire prevention in the South of France

Spot fires: fuel bed flammability and capability of firebrands to ignite fuel beds

Effects of vegetation type and fire regime on flammability of undisturbed litter in Southeastern France

Land cover analysis in wildland–urban interfaces according to wildfire risk: A case study in the South of France

Laboratory characterization of firebrands involved in spot fires

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