New methods for mapping canopy bulk density: Modeling sub-boreal forest canopy bulk density in Minnesota, USA, using synthetic aperture radar and optical satellite sensor data | @fireecology READ https://t.co/yC2BMmJr4N @IowaStateU @SuperiorNF @mnforestry
RT @insilicoplants: Remote sensing to improve the accuracy of forest canopy bulk density modeling https://t.co/UuFl3E2EGi via @SpringerPla…
RT @insilicoplants: Remote sensing to improve the accuracy of forest canopy bulk density modeling https://t.co/UuFl3E2EGi via @SpringerPla…
Remote sensing to improve the accuracy of forest canopy bulk density modeling https://t.co/UuFl3E2EGi via @SpringerPlants https://t.co/SZNTCD3oGh
RT @SpringerEcology: #FireEcology: Modeling sub-boreal forest canopy bulk density in Minnesota, USA, using synthetic aperture radar and opt…
RT @SpringerEcology: #FireEcology: Modeling sub-boreal forest canopy bulk density in Minnesota, USA, using synthetic aperture radar and opt…
#FireEcology: Modeling sub-boreal forest canopy bulk density in Minnesota, USA, using synthetic aperture radar and optical satellite sensor data 🔥https://t.co/gQkcdgjtxM🔥 #SNFECO #SpringerOpen #SpringerNature #openaccess #LANDFIRE #fuelcalc @fireecology ht
#FireEcology: Modeling sub-boreal forest canopy bulk density in Minnesota, USA, using synthetic aperture radar and optical satellite sensor data 🔥https://t.co/25qPEPJeC1🔥 #SNFECO #SpringerOpen #SpringerNature #openaccess #LANDFIRE #fuelcalc @fireecology ht
#FireEcology: Modeling sub-boreal forest canopy bulk density in Minnesota, USA, using synthetic aperture radar and optical satellite sensor data 🔥https://t.co/2tkDsQAg7P🔥 #SNFECO #SpringerOpen #SpringerNature #openaccess #LANDFIRE #fuelcalc @fireecology ht
Capturing coniferous fuel structures with a combination of techniques (satellite data, fuelcalc-based est., field estimates...) to calibrate fuel models for evaluating mapping abilities...READ https://t.co/FNHb3e2cOf @IowaStateNREM @SuperiorNF https://t.co