Skip to main content
Advanced Search

Filters: Tags: Grand County (X)

446 results (55ms)   

Filters
Date Range
Extensions
Types
Contacts
Categories
Tag Types
Tag Schemes
View Results as: JSON ATOM CSV
thumbnail
This dataset represents ease of access to bottomland areas for vegetation treatments. Access may be by road, 4x4 near road, hike in by field crews or requiring overnight camping or raft access. Access is considered for each side of the river separately.
thumbnail
This data set shows the extent of the Colorado River Conservation Planning project bottomland area as delineated by topography and vegetation, The bottomland area is subdivided into 1 km polygons measured from the upstream project boundary. Reach breaks were determined by large topographic shifts and/or tributary junctions by John Dohrenwend. Please see the project report for more details.
thumbnail
This is a model showing general habitat diversity, including both the structural and cover type diversity. See Open File Report, Rasmussen and Shafroth, Colorado River Conservation Planning for geoprocessing details.
thumbnail
This dataset represents the relative average amount of non-woody cover within 2 ha) of bottomland along the Colorado River from the Colorado state line (San Juan and Grand Counties, Utah) to the southern Canyonlands NP boundary, as of September 2010. Traditional image interpretation cues were used to develop the polygons, such as shape, size, pattern, tone, texture, color, and shadow, from high resolution, true color, aerial imagery (0.3m resolution), acquired for the project. Additional, public available aerial photos (NAIP, 2011) were used to cross-reference cover classes. As with any digital layer, this layer is a representation of what is actually occurring on the ground. Errors are inherent in any interpretation...
thumbnail
This dataset represents the variety (unique structural classes: water, bare, herbaceous, short shrubs, medium shrubs, short trees, tall trees) within 1 ha of bottomland areas. Traditional image interpretation cues were used to develop the polygons, such as shape, size, pattern, tone, texture, color, and shadow, from high resolution, true color, aerial imagery (0.3m resolution), acquired for the project. Additional, public available aerial photos (NAIP, 2011) were used to cross-reference cover classes. As with any digital layer, this layer is a representation of what is actually occurring on the ground. Errors are inherent in any interpretation of ground qualities. Due to the "snapshot" nature of the aerial photos,...
thumbnail
These plant and soil data were collected by Timothy M. Wertin and Sasha C. Reed in the spring, summer, and fall of 2011 at a climate manipulation experiment site near Moab, UT (38.521411, -109.470567). These data were collected to assess how warming affects leaf photosynthesis, soil CO 2 efflux, and soil chemistry in plots of ambient and warming treatments.
thumbnail
This map shows the channel boundary (2011) of the Colorado River mainstem between the Utah Colorado border and the upper pool of Lake Powell, Utah (146 miles). The channel boundary was mapped from public available NAIP imagery flown on June 28, 2011, when the river flow was 886 m3/s at the Cisco gage. The channel is subdivided into channel types: fast water (main channel, secondary channel), and still water types (backwater, isolated pool and tributary channel).
thumbnail
This polygon feature class represents vegetation communities mapped at Canyonlands National Park. The polygons were generated using guidelines set by the Standardized National Vegetation Classification System (October 1995). A combination of methods were used to map Canyonlands. The USGS used e-Cognition software to create segments. The segments created were then looked at and extensively edited by the vegetation mappers. Some mapping was done on screen, using the 2002 imagery. Hard copy 9X9 photography was used for photo interpretation. Traditional image interpretation cues were used to develop the polygons, such as shape, size, pattern, tone, texture, color, and shadow. Additional data layers were used in aiding...
thumbnail
Layered geospatial PDF 7.5 Minute Quadrangle Map. Layers of geospatial data include orthoimagery, roads, grids, geographic names, elevation contours, hydrography, and other selected map features. This map is derived from GIS (geospatial information system) data. It represents a repackaging of GIS data in traditional map form, not creation of new information. The geospatial data in this map are from selected National Map data holdings and other government sources.
thumbnail
Layered geospatial PDF 7.5 Minute Quadrangle Map. Layers of geospatial data include orthoimagery, roads, grids, geographic names, elevation contours, hydrography, and other selected map features. This map is derived from GIS (geospatial information system) data. It represents a repackaging of GIS data in traditional map form, not creation of new information. The geospatial data in this map are from selected National Map data holdings and other government sources.
thumbnail
Layered geospatial PDF 7.5 Minute Quadrangle Map. Layers of geospatial data include orthoimagery, roads, grids, geographic names, elevation contours, hydrography, and other selected map features. This map is derived from GIS (geospatial information system) data. It represents a repackaging of GIS data in traditional map form, not creation of new information. The geospatial data in this map are from selected National Map data holdings and other government sources.
thumbnail
Layered geospatial PDF 7.5 Minute Quadrangle Map. Layers of geospatial data include orthoimagery, roads, grids, geographic names, elevation contours, hydrography, and other selected map features. This map is derived from GIS (geospatial information system) data. It represents a repackaging of GIS data in traditional map form, not creation of new information. The geospatial data in this map are from selected National Map data holdings and other government sources.


map background search result map search result map Canyonlands National Park Vegetation Mapping Project - Spatial Vegetation Data Conservation Planning for the Colorado River in Utah - Stillness of water for Bat Watering Model Conservation Planning for the Colorado River in Utah - General Diversity Model Output Data for Colorado River in Utah Conservation Planning for the Colorado River in Utah - Diversity of All Structural Types for General Diversity Model Conservation Planning for the Colorado River in Utah - Open Areas for Open Land Species Model Conservation Planning for the Colorado River in Utah - Access to the Site for Relative Cost of Restoration Model Experimental Design Plant and Soil Measurement Data for Achnatherum hymenoides from a warming experiment, Colorado Plateau, 2011 - Data USGS Topo Map Vector Data (Vector) 70423 Hot Sulphur Springs, Colorado 20220511 for 7.5 x 7.5 minute Shapefile USGS Topo Map Vector Data (Vector) 17948 Granby, Colorado 20220511 for 7.5 x 7.5 minute Shapefile USGS Topo Map Vector Data (Vector) 48821 Whiteley Peak, Colorado 20220512 for 7.5 x 7.5 minute Shapefile USGS Topo Map Vector Data (Vector) 14931 Fall River Pass, Colorado 20220512 for 7.5 x 7.5 minute Shapefile USGS Topo Map Vector Data (Vector) 23591 King Creek, Colorado 20220512 for 7.5 x 7.5 minute Shapefile USGS Topo Map Vector Data (Vector) 27063 Lynx Pass, Colorado 20220512 for 7.5 x 7.5 minute Shapefile USGS Topo Map Vector Data (Vector) 42494 Spicer Peak, Colorado 20220511 for 7.5 x 7.5 minute Shapefile USGS Topo Map Vector Data (Vector) 40715 Shadow Mountain, Colorado 20220512 for 7.5 x 7.5 minute Shapefile Conservation Planning for the Colorado River in Utah - Bottomland Boundary of the Colorado River Divided at Homogeneous River Reaches USGS US Topo 7.5-minute map for Strawberry Lake, CO 2019 USGS US Topo 7.5-minute map for Tyler Mountain, CO 2019 US Topo 7.5-minute map for Granby, CO US Topo 7.5-minute map for Grand Lake, CO Experimental Design Plant and Soil Measurement Data for Achnatherum hymenoides from a warming experiment, Colorado Plateau, 2011 - Data USGS Topo Map Vector Data (Vector) 70423 Hot Sulphur Springs, Colorado 20220511 for 7.5 x 7.5 minute Shapefile USGS Topo Map Vector Data (Vector) 17948 Granby, Colorado 20220511 for 7.5 x 7.5 minute Shapefile USGS Topo Map Vector Data (Vector) 48821 Whiteley Peak, Colorado 20220512 for 7.5 x 7.5 minute Shapefile USGS Topo Map Vector Data (Vector) 14931 Fall River Pass, Colorado 20220512 for 7.5 x 7.5 minute Shapefile USGS Topo Map Vector Data (Vector) 23591 King Creek, Colorado 20220512 for 7.5 x 7.5 minute Shapefile USGS Topo Map Vector Data (Vector) 27063 Lynx Pass, Colorado 20220512 for 7.5 x 7.5 minute Shapefile USGS Topo Map Vector Data (Vector) 42494 Spicer Peak, Colorado 20220511 for 7.5 x 7.5 minute Shapefile USGS Topo Map Vector Data (Vector) 40715 Shadow Mountain, Colorado 20220512 for 7.5 x 7.5 minute Shapefile USGS US Topo 7.5-minute map for Strawberry Lake, CO 2019 USGS US Topo 7.5-minute map for Tyler Mountain, CO 2019 US Topo 7.5-minute map for Granby, CO US Topo 7.5-minute map for Grand Lake, CO Canyonlands National Park Vegetation Mapping Project - Spatial Vegetation Data Conservation Planning for the Colorado River in Utah - Stillness of water for Bat Watering Model Conservation Planning for the Colorado River in Utah - Open Areas for Open Land Species Model Conservation Planning for the Colorado River in Utah - General Diversity Model Output Data for Colorado River in Utah Conservation Planning for the Colorado River in Utah - Diversity of All Structural Types for General Diversity Model Conservation Planning for the Colorado River in Utah - Access to the Site for Relative Cost of Restoration Model Conservation Planning for the Colorado River in Utah - Bottomland Boundary of the Colorado River Divided at Homogeneous River Reaches