DGGS RDF 2023-17

Lidar-derived elevation data for Tuntutuliak, southwest Alaska, collected August 18, 2021

• Authors:

  Zechmann, J.M., Herbst, A.M., and Buzard, R.M.

• Publication Date:

  Dec 2023

• Publisher:

  Alaska Division of Geological & Geophysical Surveys 

• Ordering Info:

  Download below for free or see our publication sales page to order a hard copy.

• Quadrangle(s):

  Baird Inlet

• Related project(s):

  Alaska Coastal Geohazards Program, Alaska Coastal Resilience Partnership

• Citation ID:

  31033

Bibliographic Reference

Zechmann, J.M., Herbst, A.M., and Buzard, R.M., 2023, Lidar-derived elevation data for Tuntutuliak, southwest Alaska, collected August 18, 2021: Alaska Division of Geological & Geophysical Surveys Raw Data File 2023-17, 7 p. https://doi.org/10.14509/31033

Publication Products

• Report Information

  • rdf2023_017.pdf (2.16 M)

• Geospatial & Analytical Data

  Lidar-derived elevation data for Tuntutuliak, August 18, 2021	Data File Format	File Size	Info
  Download rdf2023_017_lidar-tuntutuliak-boundaries	Shapefile	31.3 K	Metadata - Read me
  Download rdf2023_017_lidar-tuntutuliak-classified_points	LAS files	1.5 G	Metadata - Read me
  Download rdf2023_017_lidar-tuntutuliak-dsm	Raster	173.0 M	Metadata - Read me
  Download rdf2023_017_lidar-tuntutuliak-dtm	Georeferenced raster files	227.9 M	Metadata - Read me
  Download rdf2023_017_lidar-tuntutuliak-lidar_intensity	Georeferenced raster files	201.4 M	Metadata - Read me

Keywords

DGGS; Digital Elevation Model; Digital Surface Model (DSM); Digital Terrain Model; Elevation; Emergency Preparedness; Engineering; Engineering Geology; Geologic; Geologic Hazards; Geological Process; Geology; Geomorphology; Geotechnical; Hazards; Kinak River; LiDAR; LiDAR Intensity Image; LiDAR LAS File Format; Point Cloud Data; Raster Image; Remote Sensing; Southwest Alaska; Surface; Surficial; Surficial Geology; Topography; Tuntutuliak; geoscientificInformation

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