Modeling sub-boreal forest canopy bulk density in Minnesota, USA, using synthetic aperture radar and optical satellite sensor data

Abstract: Background National estimates of canopy bulk density (CBD; kg m−3) for fire behavior modeling are generated and supported by the LANDFIRE program. However, locally derived estimates of CBD at finer scales are preferred over national estimates if they exist, as the absolute accuracy of the LANDFIRE CBD product is low and varies regionally. Active sensors (e.g., lidar or radar) are better suited for this task, as passive sensors are ill equipped to detect differences among key vertical fuel struc… Show more

“…However, without broadleaf forest cover the visibility of extant coniferous forest understory increases, especially at low to moderate canopy closure (30-70%, Stenback and Congalton, 1990), which is common in this region (Wolter et al, 2021).…”

Spatio-temporal characterization of insect defoliation through landsat images

“…However, without broadleaf forest cover the visibility of extant coniferous forest understory increases, especially at low to moderate canopy closure (30-70%, Stenback and Congalton, 1990), which is common in this region (Wolter et al, 2021).…”

Spatio-temporal characterization of insect defoliation through landsat images