Surface Fuel Dynamics in Mechanically Treated Power Line Corridors in Portugal

fire hazard mitigation fuel breaks fuel hazard fuel management fuel treatment Mediterranean-type ecosystems
["Lopes, Dalila","Fernandes, Paulo M"] 2025-02-01 期刊论文
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Electric power transmission lines both cause and are impacted by wildfires and fuel breaks are crucial to mitigate wildfire hazard along and in conjunction with these infrastructures. Information about fuel dynamics is crucial for planning and maintaining fuel treatments, namely, to define their frequency. We sampled mechanically treated power line corridors representative of wide variation in climate, soil, and plant communities in Portugal and at different times since treatment. Non-destructive methods were used to assess ground cover and height per fuel stratum and the corresponding phytovolumes and fine fuel loads were calculated. Variability in fuel metrics was described by fitting logistic generalized linear models or linearized power functions based on time since disturbance and categorical variables for the effect of regeneration strategy, soil-richness structure, and climate. Time since treatment dominated fuel abundance and recovery was faster in communities of obligate resprouters in comparison with obligate or facultative seeders and in light- versus heavy-textured soils. No apparent effect of local climate was found given the short-lived impact of fuel treatments under the productive regional Mediterranean climate. The results provide a decision-making basis to refine the current treatment periodicity. Mechanical-treatment intervals of 3-5 years or 6-10 years are advised, respectively, for wildfire control and to minimize infrastructure damage.
来源平台:FIRE-SWITZERLAND