-
Vegetation Biomass, Voxel, and Macroplot Geographical Location Data...
Destructive clip plots were sampled in nine burn units to characterize fine-scale variations in vegetation structure, quantify heterogeneity, and capture fuel estimation and... -
Leica BLK360 G1 Terrestrial LiDAR Scans from the 2024 Department of Defense...
To characterize fine-scale variations in vegetation structure, quantify heterogeneity, and capture fuel estimation and consumption, Leica BLK360 G1 terrestrial LiDAR scans were... -
Vegetation Biomass Data from the 2024 Department of Defense Wildland Fire...
To characterize fine-scale variations in vegetation structure, quantify heterogeneity, and capture fuel estimation and consumption, destructive clip plots were sampled across... -
Leica BLK360 G1 Terrestrial LiDAR Scans from the 2022 Department of Defense...
To characterize fine-scale variations in vegetation structure, quantify heterogeneity, and capture fuel estimation and consumption, Leica BLK360 G1 terrestrial LiDAR scans were... -
Vegetation Biomass Data from the 2023 Department of Defense Wildland Fire...
To characterize fine-scale variations in vegetation structure, quantify heterogeneity, and capture fuel estimation and consumption, destructive clip plots were sampled across... -
Vegetation Biomass and Voxel Data from the 2022 Department of Defense...
To characterize fine-scale variations in vegetation structure, quantify heterogeneity, and capture fuel estimation and consumption, destructive 3D clip plots were sampled across... -
Leica BLK360 G1 Terrestrial LiDAR Scans from the 2023 Department of Defense...
To characterize fine-scale variations in vegetation structure, quantify heterogeneity, and capture fuel estimation and consumption, Leica BLK360 G1 terrestrial LiDAR scans were...