%0 Journal Article
%9 ACL : Articles dans des revues avec comité de lecture répertoriées par l'AERES
%A Majdalani, G.
%A Koutsias, N.
%A Faour, G.
%A Adjizian-Gerard, J.
%A Mouillot, Florent
%T Fire regime analysis in Lebanon (2001-2020) : combining remote sensing data in a scarcely documented area
%D 2022
%L fdi:010086393
%G ENG
%J Fire
%@ 2571-6255
%K fire ; remote sensing ; Landsat ; MODIS ; Mediterranean basin ; Lebanon
%K LIBAN
%M ISI:000872629000001
%N 5
%P 141 [22 ]
%R 10.3390/fire5050141
%U https://www.documentation.ird.fr/hor/fdi:010086393
%> https://horizon.documentation.ird.fr/exl-doc/pleins_textes/2022-12/010086393.pdf
%V 5
%W Horizon (IRD)
%X Fire is a recurrent disturbance in Mediterranean ecosystems. Data assemblage from forest fire services can provide useful information for understanding climate controls on daily fire hazard or long term trends. Located at the driest range of the Mediterranean bioclimate, and with contrasting socio-political systems compared to the European area, the southern Mediterranean ecosystems are subjected to more extreme climate and social events. This could potentially lead to unique fire regimes and trends worth being characterized for prevention plans and ecosystem management. However, the region is far less documented, due to missing or inhomogeneous fire records, leaving local authorities with no management strategies when large fires happen. We filled this knowledge gap for Lebanon by combining high spatial resolution Landsat data with high temporal resolution VIIRS (S-NPP and NOAA-20) and MODIS (MCD14ML) hotspots to characterize the seasonal and interannual fire regime over the 2001-2020 period. Numerous small fires were hardly detected by global remote sensing. We estimated that 2044 ha burn annually, representing 0.58% of the wildland cover, with no significant trend over the period, but with non climate-related fires detected during the year experiencing socio-political troubles. The spatial and temporal resolution of this dataset identified a particular prolonged fire season up to November, and an unusual bimodal fire season peaking in July and November. We related these features to the prolonged autumnal soil drought and high August air humidity in the region. This updated fire regime in Lebanon illustrates the benefits of this combined approach for data-scarce regions and provides new insights on the variability of fire weather types in the Mediterranean basin.
%$ 082 ; 021 ; 126