01801pab a2200169 454500008004000000100002700040245009000067260000900157300001400166362000800180520127500188650001701463773002001480909001001500999001701510952010401527180718b2002   xxu||||| |||| 00| 0 eng d  aLeblon, Brigitte et al  aFire danger monitoring using ERSW-1 SAR images in the case of Northern Boreal Forests  c2002  ap.231-55.  aNov  aResearch was carried out to assess the potential of imaging radar systems for monitoring forest fire danger.  In Canada, daily forest fire danger ratings are generated by the Canadian Forest Fire Danger Rating system (CFFDRS), based on estimates of fire weather indices (FWI) and measured foliar moisture content (FMC). To evaluate the potential of imaging radar, an experiment was conducted using test sites consisting of jack pine, black spruce and white spruce stands located in the MacKenzie river basin, Northwest Territories, Canada.  Radar image intensity values from ERS-I SAR imagery collected over these stands in 1994 were compared to FWI indices and FMC data.  FWI indices were calculated using data from local weather stations.  Seasonal trends in radar backscatter (Qo) were shown to correlate with temperature and precipitation.  Significant relationships were found between Qo and FWI codes and indices, particularly in the case of the black spruce stands, with slow-drying fuels, like duff moisture code (DMC), drought code (DC), and build-up index (BUI).  Rates of changes in Qo were related to rates of changes in FMC, particularly in the case of the jack pine stands for old FMC and in the case of white spruce stands for composite FMC. - Reproduced.  aForest fires  aNatural Hazards  a54752  c54752d54752  00104070aIIPAbIIPAd2018-07-19hVolume no: 27, Issue no: 3pAR55197r2018-07-19w2018-07-19yAR