Wikstrom Jones, K.M., Wolken, G.J., and Daanen, R.P., 2023, Lidar-derived elevation data for lower Serpentine Glacier and adjacent slopes, southcentral, Alaska, collected October 14, 2022: Alaska Division of Geological & Geophysical Surveys Raw Data File 2023-14, 7 p. https://doi.org/10.14509/31012
Report Information
Geospatial & Analytical Data| Lidar data for lower Serpentine Glacier and adjacent slopes, October 14, 2022 | Data File Format | File Size | Info |
|---|---|---|---|
| Download rdf2023_014_boundaries | Shapefile | 27.7 K | Metadata - Read me |
| Download rdf2023_014_classified_points | LAS files | 1.3 G | Metadata - Read me |
| Download rdf2023_014_dtm | Georeferenced raster files | 2.4 G | Metadata - Read me |
| Download rdf2023_014_lidar_intensity | Georeferenced raster files | 368.6 M | Metadata - Read me |
Aerial; Aerial Geology; Coastal; Coastal and River; DGGS; Debris Avalanche; Digital Elevation Model; Digital Terrain Model; Elevation; Emergency Preparedness; Engineering; Engineering Geology; Environmental; Erosion; Geologic; Geologic Hazards; Geological Process; Geology; Geomorphology; Geotechnical; Glacial; Glacial Deposits; Glacial Geology; Glacial Geomorphology; Glacial Processes; Glaciers; Harriman Fiord; Hazards; Hillshade Image; Landslide; Landslide Susceptibility; LiDAR; LiDAR Intensity Image; LiDAR LAS File Format; Point Cloud Data; Prince William Sound; Raster Image; Remote Sensing; Rock Avalanche; Rockfall; Serpentine Glacier; Slope; Slope Instability; Southcentral Alaska; Surface; Surficial; Surficial Geology; Topography; Unconsolidated Deposits; Water; geoscientificInformation
