Khairoun A., Mouillot Florent, Chen Wentao, Ciais P., Chuvieco E.
Source
Science of the Total Environment, 2024,
920, 170599 [20 p.] ISSN 0048-9697
Global coarse -resolution (>= 250 m) burned area (BA) products have been used to estimate fire related forest loss, but we hypothesised that a significant part of fire impacts might be undetected because of the underestimation of small fires (<100 ha), especially in the tropics. In this paper, we analysed fire -related forest cover loss in subSaharan Africa (SSA) for 2016 and 2019 based on a BA product generated from Sentinel -2 data (20 m), which was observed to have significantly lower omission errors than the coarse -resolution BA products. Using these higher resolution BA datasets, we found that fires contribute to >46 % of total forest losses over SSA, more than twice the estimates from coarse -resolution BA products. In addition, burned forest areas showed more than twofold likelihood of subsequent loss compared to unburned ones. In moist tropical forests, the most firevulnerable biome, burning had even six times more chance to precede forest loss than unburned areas. We also found that fire -related characteristics, such as fire size and season, and forest fragmentation play a major role in the determination of tree cover fate. Our results reveal that medium -resolution BA detects more fires in late fire season, which tend to have higher impact on forests than early season ones. On the other hand, small fires represented the major driver of forest loss after fires and the vast majority of these losses occur in fragmented landscapes near forest edge (<260 m). Therefore medium -resolution BA products are required to obtain a more accurate evaluation of fire impacts in tropical ecosystems.
Plan de classement
Etudes, transformation, conservation du milieu naturel [082]
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Télédétection [126]
