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Great Basin Montane Watersheds - Furthest Head (Feature Layer)
Multiple research and management partners collaboratively developed a multiscale approach for assessing the geomorphic sensitivity of streams and ecological resilience of... -
Great Basin Montane Watersheds - Valley Bottoms (Feature Layer)
Multiple research and management partners collaboratively developed a multiscale approach for assessing the geomorphic sensitivity of streams and ecological resilience of... -
Great Basin Montane Watersheds - Regions (Feature Layer)
Multiple research and management partners collaboratively developed a multiscale approach for assessing the geomorphic sensitivity of streams and ecological resilience of... -
Great Basin Montane Watersheds - Mountain Ranges (Feature Layer)
Multiple research and management partners collaboratively developed a multiscale approach for assessing the geomorphic sensitivity of streams and ecological resilience of... -
Great Basin Montane Watersheds - Heads (Feature Layer)
Multiple research and management partners collaboratively developed a multiscale approach for assessing the geomorphic sensitivity of streams and ecological resilience of... -
Great Basin Montane Watersheds - Watersheds (Feature Layer)
Multiple research and management partners collaboratively developed a multiscale approach for assessing the geomorphic sensitivity of streams and ecological resilience of... -
Great Basin Montane Watersheds - Streams (Feature Layer)
Multiple research and management partners collaboratively developed a multiscale approach for assessing the geomorphic sensitivity of streams and ecological resilience of... -
Great Basin Montane Watersheds - Pour Points (Feature Layer)
Multiple research and management partners collaboratively developed a multiscale approach for assessing the geomorphic sensitivity of streams and ecological resilience of... -
Great Basin Montane Watersheds - Longest Stream (Feature Layer)
Multiple research and management partners collaboratively developed a multiscale approach for assessing the geomorphic sensitivity of streams and ecological resilience of... -
Puget Sound Feeder Bluffs and Coastal Landforms
These maps delineate the entire Puget Sound shoreline by geomorphic type. The primary purpose of the mapping was to identify feeder bluffs, eroding shorelines that are important... -
Chehalis River Basin Ecoregions
These 10 Ecoregions were created to support mapping and analysis for the Chehalis Basin Strategy Aquatic Species Restoration Plan (ASRP; original document can be found at... -
Groundwater Nitrate Priority Areas
The Washington State Department of Ecology (Ecology) Water Quality Program undertook the Nitrate Prioritization Project in 2014 (Morgan, 2014) because of growing concerns about... -
VT Biodiversity Project - Representative Landscapes in Vermont polygons
(Link to Metadata) This coverage represents the results of an analysis of landscape diversity in Vermont. Polygons in the dataset represent as much as possible (in a limited... -
VT Data - Agriculturally Important Soil Units
(Link to Metadata) GeologicSoils_SOAG includes a pre-selected subset of SSURGO soil data depicting prime agricultural soils in Vermont. The SSURGO county coverages were joined... -
CGS Map Sheet 48: Earthquake Shaking Potential for California (revised 2016)
The California Geological Survey published maps of “Earthquake Shaking Potential for California” in 1999 and has revised the maps following each update of the National Seismic... -
USGS Earthquake Hazards Program - Yellowstone Region
This web site is provided by the United States Geological Survey's (USGS) Earthquake Hazards Program as part of our effort to reduce earthquake hazard in the United States. We... -
Landslides in New Jersey
This Landslides data contains point and other attributes for historic and recent landslide locations in New Jersey mapped by the New Jersey Geological Survey (NJGS). The...