Retrospective identification of fire severity can improve our understanding of fire behaviour and ecological responses. However, burnt area records for many ecosystems are non-existent or incomplete, and those that are documented rarely include fire severity data. Retrospective analysis using satellite remote sensing data captured over extended periods can provide better estimates of fire history. This study aimed to assess the relationship between the Landsat differenced normalised burn ratio (dNBR) and field measured geometrically structured composite burn index (GeoCBI) for retrospective analysis of fire severity over a 23 year period in sclerophyll woodland and heath ecosystems. Further, we assessed for reduced dNBR fire severity classi...
Several studies have used satellite data to map different levels of fire severity present within bur...
Regrowth of vegetation is important to maintain ecosystems. With remote sensing technology, regrowth...
Weather patterns have changed globally with increased fire danger weather conditions, along with poo...
Retrospective identification of fire severity can improve our understanding of fire behaviour and ec...
Land management agencies are increasingly using multispectral satellite imagery to monitor post-fire...
We aimed to analyze the relationship between fire regime attributes and the post-fire greenness reco...
Mapping of fire extent and severity across broad landscapes and timeframes using remote sensing appr...
Monitoring post-fire vegetation response using remotely-sensed images is a top priority for post-fir...
International audienceRunoff and erosion rates are known to increase substantially after a major for...
Abstract. Burn severity can be mapped using satellite data to detect changes in forest structure and...
Abstract—Several studies have used satellite data to map different levels of fire severity present w...
Burned forested areas have patterns of varying burn severity as a consequence of various topographic...
Abstract. Fire intensity affects ecological and geophysical processes in fire-prone landscapes. We e...
Three-dimensional point data acquired by Terrestrial Lidar Scanning (TLS) is used as ground observat...
Recent increasing trends in fire extent have been documented, yet little is known about how climate,...
Several studies have used satellite data to map different levels of fire severity present within bur...
Regrowth of vegetation is important to maintain ecosystems. With remote sensing technology, regrowth...
Weather patterns have changed globally with increased fire danger weather conditions, along with poo...
Retrospective identification of fire severity can improve our understanding of fire behaviour and ec...
Land management agencies are increasingly using multispectral satellite imagery to monitor post-fire...
We aimed to analyze the relationship between fire regime attributes and the post-fire greenness reco...
Mapping of fire extent and severity across broad landscapes and timeframes using remote sensing appr...
Monitoring post-fire vegetation response using remotely-sensed images is a top priority for post-fir...
International audienceRunoff and erosion rates are known to increase substantially after a major for...
Abstract. Burn severity can be mapped using satellite data to detect changes in forest structure and...
Abstract—Several studies have used satellite data to map different levels of fire severity present w...
Burned forested areas have patterns of varying burn severity as a consequence of various topographic...
Abstract. Fire intensity affects ecological and geophysical processes in fire-prone landscapes. We e...
Three-dimensional point data acquired by Terrestrial Lidar Scanning (TLS) is used as ground observat...
Recent increasing trends in fire extent have been documented, yet little is known about how climate,...
Several studies have used satellite data to map different levels of fire severity present within bur...
Regrowth of vegetation is important to maintain ecosystems. With remote sensing technology, regrowth...
Weather patterns have changed globally with increased fire danger weather conditions, along with poo...