Eastern Denali Fault Surface Trace Map, Eastern Alaska and Adjacent Canada
March 31, 2017
This data release provides three geospatical datasets showing the surface trace of the Eastern Denali Fault between the Alaska-Yukon international border and the village of Haines Junction, Yukon, Canada. The datasets are: (1) a photogrammetry-based digital elevation model (DEM; average resolution of 4 m/pixel), (2) 13 digital aerial photo orthomosaics, and (3) a detailed (1:2,000 to 1:10,000) digital vector map of the 385 km long surface trace of the right-lateral strike-slip Denali Fault.
Citation Information
| Publication Year | 2017 |
|---|---|
| Title | Eastern Denali Fault Surface Trace Map, Eastern Alaska and Adjacent Canada |
| DOI | 10.5066/F7T151WC |
| Authors | Adrian M Bender, Peter J Haeussler |
| Product Type | Data Release |
| Record Source | USGS Asset Identifier Service (AIS) |
| USGS Organization | Alaska Science Center |
| Rights | This work is marked with CC0 1.0 Universal |
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Eastern Denali Fault surface trace map, eastern Alaska and Yukon, Canada Eastern Denali Fault surface trace map, eastern Alaska and Yukon, Canada
We map the 385-kilometer (km) long surface trace of the right-lateral, strike-slip Denali Fault between the Totschunda-Denali Fault intersection in Alaska, United States and the village of Haines Junction, Yukon, Canada. In Alaska, digital elevation models based on light detection and ranging and interferometric synthetic aperture radar data enabled our fault mapping at scales of 1:2,000...
Authors
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Related
Eastern Denali Fault surface trace map, eastern Alaska and Yukon, Canada Eastern Denali Fault surface trace map, eastern Alaska and Yukon, Canada
We map the 385-kilometer (km) long surface trace of the right-lateral, strike-slip Denali Fault between the Totschunda-Denali Fault intersection in Alaska, United States and the village of Haines Junction, Yukon, Canada. In Alaska, digital elevation models based on light detection and ranging and interferometric synthetic aperture radar data enabled our fault mapping at scales of 1:2,000...
Authors
Adrian Bender, Peter Haeussler