The potential of the recent SPOT VEGETATION (VGT) sensor for characterizing
boreal forest fires was investigated. Its capability for hotspot detection
and burned area mapping was assessed by analysing a series of VGT, NOAA/AV
HRR, and Landsat TM images over a 1541 km(2) fire that occurred in May 1998
, in Alberta, Canada. VGT's 1.65 mum, short-wave infrared (SWIR) channel wa
s capable of detecting thermal emissions from intense fires, although it wa
s considerably less sensitive to hotspots than the 3.7 mum channel from NOA
A's Advanced Very High Resolution Radiometer (AVHRR). The SWIR also enabled
burned areas to be more easily discriminated compared to the visible and n
ear-infrared (NIR) channels. The SWIR and NIR channels were combined to pro
duce a new index that provides better separation of burned forest with less
sensitivity to smoke aerosol than the commonly used Normalized Difference
Vegetation Index (NDVI).