Litcius/Paper detail

Active fire-based dating accuracy for Landsat burned area maps is high in boreal and Mediterranean biomes and low in grasslands and savannas

Alana K. Neves, José M. C. Pereira, João M. N. Silva, Sílvia Catarino, Patricia Oliva, Emilio Chuvieco, Manuel L. Campagnolo

2024ISPRS Journal of Photogrammetry and Remote Sensing13 citationsDOIOpen Access PDF

Abstract

The increasing availability of remote sensing imagery led to the emergence of numerous burned area mapping products and methodologies, thus, the necessity of spatial and temporally validating them. The main objective of this paper is to conduct a global analysis and comparison of MODIS and VIIRS active fire dates with dating provided by moderate resolution burned area mapping products. As reference burned area maps, we used the Burned Area Reference Database (BARD) to analyze and compare the performances of MODIS and VIIRS active fires. For 316 path-rows, we calculated the temporal gap between the dates of BARD pixels and those of the five nearest active fires. Olson terrestrial biomes were taken into account in the analysis of results. The agreement rates between the dates of burned areas and of active fires varied based on their geographical distance, fire size and biome. The highest agreement rates were observed for smaller distances (<500 m) and larger fires (>100 ha). Boreal and Mediterranean biomes exhibited the highest values of date percent agreement between burned area pixels and active fires, while the lowest values were found in biomes encompassed by grasslands and savannas.

Topics & Concepts

BiomeTaigaBorealPhysical geographyMediterranean climateEnvironmental scienceFire regimeRemote sensingGrasslandGeographyForestryEcosystemEcologyArchaeologyBiologyFire effects on ecosystemsRemote Sensing in AgricultureRangeland and Wildlife Management