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This theme is polygon data that depicts two types of development for the state of Wyoming. The first is existing development and the second are habitats where there is a high likelihood that development will occur in the near future. We considered development of oil, gas and coal bed methane, mining of minerals (trona, uranimum, coal, and bentonite), urban expansion. Other infrastructure activities such as roads, highways, fiberoptic lines, processing plants, pipelines, other facilities, and various combinations of development that were believed to impact sage-grouse were recorded. Information sources and assessment processes varied depending on data available and resource specialist participation for areas within...
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ESRI file geodatabase of greater sage-grouse (Centrocercus urophasianus) range-wide breeding densities at 25% (BreedingDensity25), 50% (BreedingDensity50), 75% (BreedingDensity75) and 100% and the the current and historic distribution of potential habitat, or range, of the Greater Sage-grouse in Western North America were merged together. The current and historic distriubtion of potential habitat was initially researched and compiled by Dr. Michael A. Schroeder, research biologist for the Washington State Department of Fish and Wildlife. The initial draft of current and historic range data was mapped and submitted to state, federal, or provincial natural resource agencies and other experts for review, comment, and...
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This dataset contains landscape-scale greater sage-grouse Preliminary General Habitat. Specifically, it represents the remaining Sagebrush, Perennial grassland, Conifer encroachment, and some Persistence greater than 25% not accounted for in the 2012 Preliminary Priority Habitat dataset (Version 2 - April 2012). A combination of Key Habitat (Sather-Blair et al., 2000; ISAC 2006; BLM 2012), important winter and breeding habitat, local priority areas (spatially identified by the local working groups, BLM, IDFG biologists), known migration movement corridors, the revised 2011PA polygons, and exclusion of modeled agricultural and timber lands were used to further refine the 2012 Preliminary Priority Habitat (PPH) and...
This data set was created to facilitate the BLM Greater Sage-Grouse Land Use Planning Strategy in the Utah Sub-Region. This data was developed and addressed, and used during preparation of an environmental impact statement to consider amendments to 14 BLM land use plans throughout the State of Utah, as well as 6 Forest Service land use plans. This planning process was initiated through issuance of a Notice of Intent published on December 6, 2011. This dataset is associated with the Final Environmental Impact Statement, released to the public via a Notice of Availability on May 29, 2015. The purpose of the planning process is to address protection of greater sage-grouse, in partial response to a March 2010 decision...
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This data set was created to facilitate the BLM Greater Sage-Grouse Land Use Planning Strategy – Utah Sub-Region addresses preparation of an environmental impact statement to consider amendments to 14 BLM land use plans throughout the State of Utah, as well as 6 Forest Service land use plans. This planning process was initiated through issuance of a Notice of Intent published on December 6, 2011. The purpose of the planning process is to address protection of greater sage-grouse, in partial response to a March 2010 decision by the U.S. Fish and Wildlife Service (FWS) that found the greater sage-grouse was eligible for listing under the authorities of the Endangered Species Act. The planning process will prepare...
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This dataset was compiled from an ESRI file geodatabase of greater sage-grouse (Centrocercus urophasianus) range-wide breeding densities at 25% (BreedingDensity25), 50% (BreedingDensity50), 75% (BreedingDensity75) and 100% (BreedingDensity100) of breeding population. These areas were flattened to create this dataset, stacking low percentage classes on high percentage classes. The objective of this BLM project is to map high breeding densities of greater sage-grouse for use in conservation planning. This completion report provides two deliverables: 1) The analytical framework for evaluating options on where partners can deliver actions that will yield the highest return on their conservation investment, and 2) The...
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ESRI file geodatabase of greater sage-grouse (Centrocercus urophasianus) range-wide breeding densities at 25% (BreedingDensity25), 50% (BreedingDensity50), 75% (BreedingDensity75) and 100% (BreedingDensity100) of breeding population. The objective of this BLM project is to map high breeding densities of greater sage-grouse for use in conservation planning. This completion report provides two deliverables: 1) The analytical framework for evaluating options on where partners can deliver actions that will yield the highest return on their conservation investment, and 2) The GIS shapefiles delineating high breeding densities of sage-grouse for use by conservation planners. Maps developed here provide a large-scale view...
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Greater Sage Grouse range-wide breeding density at 50% (BreedingDensity50) of breeding population. ESRI file geodatabase of greater sage-grouse (Centrocercus urophasianus) range-wide breeding densities at 25% (BreedingDensity25), 50% (BreedingDensity50), 75% (BreedingDensity75) and 100% (BreedingDensity100) of breeding population. The objective of this BLM project is to map high breeding densities of greater sage-grouse for use in conservation planning. This completion report provides two deliverables: 1) The analytical framework for evaluating options on where partners can deliver actions that will yield the highest return on their conservation investment, and 2) The GIS shapefiles delineating high breeding densities...
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ESRI file geodatabase of greater sage-grouse (Centrocercus urophasianus) range-wide breeding densities at 25% (BreedingDensity25), 50% (BreedingDensity50), 75% (BreedingDensity75) and 100% (BreedingDensity100) of breeding population. The objective of this BLM project is to map high breeding densities of greater sage-grouse for use in conservation planning. This completion report provides two deliverables: 1) The analytical framework for evaluating options on where partners can deliver actions that will yield the highest return on their conservation investment, and 2) The GIS shapefiles delineating high breeding densities of sage-grouse for use by conservation planners. Maps developed here provide a large-scale view...
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Annual average wind resource potential of the northwestern United States at a 50 meter height. Data derived from 400m cell resolutioin. This dataset was clipped from the Northwest US Wind Resource Dataset, and has been reprojected. For the most up to date data, consult the NREL website http://www.nrel.gov/gis/data_analysis.html.
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ESRI file geodatabase of greater sage-grouse (Centrocercus urophasianus) range-wide breeding densities at 25% (BreedingDensity25), 50% (BreedingDensity50), 75% (BreedingDensity75) and 100% (BreedingDensity100) of breeding population. The objective of this BLM project is to map high breeding densities of greater sage-grouse for use in conservation planning. This completion report provides two deliverables: 1) The analytical framework for evaluating options on where partners can deliver actions that will yield the highest return on their conservation investment, and 2) The GIS shapefiles delineating high breeding densities of sage-grouse for use by conservation planners. Maps developed here provide a large-scale view...
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The Greater Sage Grouse Focal Area represents an area of interest pertaining to the greater sage grouse under the U.S. Department of Agriculture (USDA), Natural Resources Conservation Service (NRCS) Working Lands for Wildlife (WLFW) Wildlife Habitat Incentive Program (WHIP).Working Lands for Wildlife is a partnership between NRCS and the U.S. Fish and Wildlife Service (FWS) to use agency technical expertise and financial assistance from the Wildlife Habitat Incentive Program to combat the decline of seven specific wildlife species whose decline can be reversed and will benefit other species with similar habitat needs. The WLFW project will target species whose decline can be reversed and will benefit other species...
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ESRI file geodatabase of greater sage-grouse (Centrocercus urophasianus) range-wide breeding densities at 25% (BreedingDensity25), 50% (BreedingDensity50), 75% (BreedingDensity75) and 100% (BreedingDensity100) of breeding population. The objective of this BLM project is to map high breeding densities of greater sage-grouse for use in conservation planning. This completion report provides two deliverables: 1) The analytical framework for evaluating options on where partners can deliver actions that will yield the highest return on their conservation investment, and 2) The GIS shapefiles delineating high breeding densities of sage-grouse for use by conservation planners. Maps developed here provide a large-scale view...
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Sage Grouse datasets to produce PGH and PPH by March 1, 2012. DRAFT on 2-28-2012 by ELFO GIS Specialist, Ralph Wagnitz - includes edits from Arlene Kosic/Shawn Thornton. Sage Grouse data for the Eagle Lake Field Office, Alturas Field Office, Surprise Field Office for the RMP amendments process December 2011.
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This data set was created to facilitate the BLM Greater Sage-Grouse Land Use Planning Strategy – Utah Sub-Region addresses preparation of an environmental impact statement to consider amendments to 14 BLM land use plans throughout the State of Utah, as well as 6 Forest Service land use plans. This planning process was initiated through issuance of a Notice of Intent published on December 6, 2011. The purpose of the planning process is to address protection of greater sage-grouse, in partial response to a March 2010 decision by the U.S. Fish and Wildlife Service (FWS) that found the greater sage-grouse was eligible for listing under the authorities of the Endangered Species Act. The planning process will prepare...
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Greater Sage Grouse range-wide breeding density at 25% (BreedingDensity25) of breeding population. ESRI file geodatabase of greater sage-grouse (Centrocercus urophasianus) range-wide breeding densities at 25% (BreedingDensity25), 50% (BreedingDensity50), 75% (BreedingDensity75) and 100% (BreedingDensity100) of breeding population. The objective of this BLM project is to map high breeding densities of greater sage-grouse for use in conservation planning. This completion report provides two deliverables: 1) The analytical framework for evaluating options on where partners can deliver actions that will yield the highest return on their conservation investment, and 2) The GIS shapefiles delineating high breeding densities...
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ESRI file geodatabase of greater sage-grouse (Centrocercus urophasianus) range-wide breeding densities at 25% (BreedingDensity25), 50% (BreedingDensity50), 75% (BreedingDensity75) and 100% (BreedingDensity100) of breeding population. The objective of this BLM project is to map high breeding densities of greater sage-grouse for use in conservation planning. This completion report provides two deliverables: 1) The analytical framework for evaluating options on where partners can deliver actions that will yield the highest return on their conservation investment, and 2) The GIS shapefiles delineating high breeding densities of sage-grouse for use by conservation planners. Maps developed here provide a large-scale view...
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ESRI file geodatabase of greater sage-grouse (Centrocercus urophasianus) range-wide breeding densities at 25% (BreedingDensity25), 50% (BreedingDensity50), 75% (BreedingDensity75) and 100% (BreedingDensity100) of breeding population. The objective of this BLM project is to map high breeding densities of greater sage-grouse for use in conservation planning. This completion report provides two deliverables: 1) The analytical framework for evaluating options on where partners can deliver actions that will yield the highest return on their conservation investment, and 2) The GIS shapefiles delineating high breeding densities of sage-grouse for use by conservation planners. Maps developed here provide a large-scale view...
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Data Assumption notes: Sherm Karl, We can only assume the data are as current as 2007. Additional allotments have been assessed since then, but we do not have this information in a national data set, so we should date this as the 2008 assessmentAlso, here are some assumptions I made regarding allotments that have more than 1 authorization within them, and how they were identified as either being 1) allotments that have not achieved a habitat land health standard and livestock grazing (historic or current) is a causal factor in the non-achievement; and 2) allotments that have not yet been evaluated for land health.Utah—Some allotments had multiple authorizations. Some of the authorizations within the allotment had...
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Project Synopsis: Raven control (removal) efforts of varying intensity have been carried out around lambing grounds in Lincoln, Sweetwater, Uinta, and Carbon counties in Wyoming by United States Department of Agriculture/Wildlife Services (WS). This has provided a unique opportunity to study the potential effects of raven removal on sage-grouse nest success. Increased anthropogenic development (energy development and urbanization) may have a negative impact on sage-grouse nesting success and productivity as a result of increased raven populations and raven depredation of sage-grouse nests. Structures associated with anthropogenic development may provide perches that ravens need to forage or ravens may be drawn...
map background search result map search result map Wind Resource Potential at 50m Height for Wyoming Sagegrouse Developed Habitat for Wyoming at 1:24,000 Greater Sage-Grouse Preliminary General Habitat (Version 2, April 2012) for Idaho Impacts of Ravens on Sage-grouse Nests in Southern Wyoming Greater Sage Grouse Focal Area (WLFW) BLM UT Preliminary Disturbance Inventory Polygon BLM REA MIR 2011 Greater Sage-Grouse Breeding Bird Density (75%) BLM REA MIR 2011 Greater Sage-Grouse Breeding Bird Density Dissolve (75%) BLM REA COP 2010 Greater Sage Grouse Range-Wide Breeding Densities BLM REA NGB 2011 Greater Sage-Grouse Breeding Bird Density (75%) BLM REA NGB 2011 Greater Sage-Grouse PPH California BLM REA SLV 2013 Allotments BLM NotMeet LHS Poly BLM REA COP 2014 UT FCC Comm Towers BLM REA COP 2014 FCC Comm Towers BLM REA CBR 2010 Greater Sage Grouse Range-wide Breeding Densities - Breeding Density 25% BLM REA CBR 2010 Range-wide Breeding Densities 50 LEKS BLM REA CBR 2010 Range-wide Breeding Densities 25 LEKS BLM REA CBR 2010 Range-wide Breeding Densities 75 LEKS BLM REA CBR 2010 Greater Sage Grouse Range-wide Breeding Densities - Breeding Density 50% BLM REA CBR 2010 Range-wide Breeding Densities BLM REA SLV 2013 Allotments BLM NotMeet LHS Poly BLM REA NGB 2011 Greater Sage-Grouse PPH California Impacts of Ravens on Sage-grouse Nests in Southern Wyoming BLM REA COP 2010 Greater Sage Grouse Range-Wide Breeding Densities Greater Sage-Grouse Preliminary General Habitat (Version 2, April 2012) for Idaho BLM UT Preliminary Disturbance Inventory Polygon BLM REA CBR 2010 Greater Sage Grouse Range-wide Breeding Densities - Breeding Density 25% BLM REA COP 2014 FCC Comm Towers Sagegrouse Developed Habitat for Wyoming at 1:24,000 BLM REA CBR 2010 Greater Sage Grouse Range-wide Breeding Densities - Breeding Density 50% BLM REA COP 2014 UT FCC Comm Towers BLM REA NGB 2011 Greater Sage-Grouse Breeding Bird Density (75%) BLM REA CBR 2010 Range-wide Breeding Densities 50 LEKS BLM REA CBR 2010 Range-wide Breeding Densities 25 LEKS BLM REA CBR 2010 Range-wide Breeding Densities 75 LEKS BLM REA CBR 2010 Range-wide Breeding Densities BLM REA MIR 2011 Greater Sage-Grouse Breeding Bird Density (75%) BLM REA MIR 2011 Greater Sage-Grouse Breeding Bird Density Dissolve (75%) Wind Resource Potential at 50m Height for Wyoming Greater Sage Grouse Focal Area (WLFW)