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The Monitoring Trends in Burn Severity (MTBS) project assesses the frequency, extent, and magnitude (size and severity) of all large wildland fires (includes wildfire, wildland fire use, and prescribed fire) in the conterminous United States (CONUS), Alaska, Hawaii, and Puerto Rico for the period of 1984 through 2010. All fires reported as greater than 1,000 acres in the western U.S. and greater than 500 acres in the eastern U.S. are mapped across all ownerships. MTBS produces a series of geospatial and tabular data for analysis at a range of spatial, temporal, and thematic scales and are intended to meet a variety of information needs that require consistent data about fire effects through space and time. This...
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This dataset is a raster of predicted suitable bioclimate using statistical correlations between known habitat and current climate (1950-1999 average) , and then projecting that niche into the future. The future timeslices used are 2020's, which is an average of 2020-2029, and 2050's which is 2050-2059. The Values 1-6 show the degree of model agreement (For example: areas with a value of 1 is where only 1 GCM predicted suitability; pixels with a value of 6 are where 6 GCMs predicted suitability, ect). *see Maxent output pdfs for more details about model inputs and settings.
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This dataset is a raster of predicted suitable bioclimate using statistical correlations between known habitat and current climate (1950-1999 average) , and then projecting that niche into the future. The future timeslices used are 2020's, which is an average of 2020-2029, and 2050's which is 2050-2059. The Values 1-6 show the degree of model agreement (For example: areas with a value of 1 is where only 1 GCM predicted suitability; pixels with a value of 6 are where 6 GCMs predicted suitability, ect). *see Maxent output pdfs for more details about model inputs and settings.
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Monitoring Trends in Burn Severity Data (MTBS) distributes three burn and fire related datasets (Burned Area Boundaries, Fire Occurrence Dataset, Burn Severity Mosaics). MTBS also provides web map services (WMS) as a method to access the national MTBS geospatial datasets. All three types of the seamless national datasets are published as an Open Geospatial Consortium (OGC)-compliant WMS.
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Wildfire can significantly alter the hydrologic response of a watershed to the extent that even modest rainstorms can produce dangerous flash floods and debris flows. The USGS conducts post-fire debris-flow hazard assessments for select fires in the Western U.S. We use geospatial data related to basin morphometry, burn severity, soil properties, and rainfall characteristics to estimate the probability and volume of debris flows that may occur in response to a design storm.
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The U.S. Geological Survey (USGS) has developed and implemented an algorithm that identifies burned areas in dense time series of Landsat image stacks to produce the Landsat Burned Area Essential Climate Variable (BAECV) products. The algorithm makes use of predictors derived from individual Landsat scenes, lagged reference conditions, and change metrics between the scene and reference conditions. Outputs of the BAECV algorithm consist of pixel-level burn probabilities for each Landsat scene, and annual burn probability, burn classification, and burn date composites. These products were generated for the conterminous United States for 1984 through 2015. These data are also available for download at https://rmgsc.cr.usgs.gov/outgoing/baecv/BAECV_CONUS_v1.1_2017/...
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Wildfire and fuel treatment locations for the USFWS Pacific Southwest Region (California, Nevada, Klamath Basin OR) extracted from the Fire Management Information System (FMIS) on October 23, 2015, for fiscal years 1980-2015.
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Polygon locations of fire perimeters in the Sky Island mountain ranges in the Madrean Archipelago Ecoregion of the southwestern United States and northern Mexico. These fires occurred from 1985 to 2017 and were mapped using Landsat satellite imagery.
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The 2000-2009 national fire perimeter data layer was developed in support of WFDSS for the 2010 fire season. The objective of the layer is to display historic national fire perimeter polygons in WFDSS. This layer will be expanded and grown upon in future years. The 2009 layer was created using the WFDSS 2001-2008 national fire history perimeter data, the interagency California 2009 data, Alaska 2009 data, and the remaining 47 States 2009 fire perimeter data from GeoMAC. The layer contains only those fires 100 acres and larger and from the time period of 2000-2009 from the data sources listed below. Last updated 08-23-2010. Sources: USFS R5 (California) GIS Clearinghouse http://www.fs.fed.us/r5/rsl/clearinghouse/gis-download.shtml/#firehistory...
Solar radiation grids were produced for a set of large fires sampled from within the Great Northern Landscape Conservation Cooperative study area. This solar radiation grid was produced using the Area Solar Radiation tool in ArcGIS 10.1, using inputs of the associated 30m DEM.
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Wildland Urban Interface (WUI) Boundaries designated in the Jackson and Josephine County Integrated Fire Plans
Solar radiation grids were produced for a set of large fires sampled from within the Great Northern Landscape Conservation Cooperative study area. This solar radiation grid was produced using the Area Solar Radiation tool in ArcGIS 10.1, using inputs of the associated 30m DEM.
Solar radiation grids were produced for a set of large fires sampled from within the Great Northern Landscape Conservation Cooperative study area. This solar radiation grid was produced using the Area Solar Radiation tool in ArcGIS 10.1, using inputs of the associated 30m DEM.


map background search result map search result map Wildland Urban Interface (WUI) Boundaries for Jackson and Josephine Counties U.S. National Historical Fire Perimeters (2000-2009) Region 8 FMIS Wildfire and Fuel Treatment Locations 1980-2015 Landsat Burned Area Essential Climate Variable products for the conterminous United States (1984 - 2015) BLM REA MBR 2010 Modeled Future Bioclimate 2050 - Swainsons Hawk BLM REA CBR 2010 Modeled Future Bioclimate 2050 - Mule Deer Class D Winter BLM REA CBR 2010 mtbs perims Clip CBR Monitoring Trends in Burn Severity Data (MTBS) Downloadable Data and Map Services Mapped fire perimeters from the Sky Island Mountains of US and Mexico: 1985-2017 Wildland Urban Interface (WUI) Boundaries for Jackson and Josephine Counties Mapped fire perimeters from the Sky Island Mountains of US and Mexico: 1985-2017 BLM REA CBR 2010 mtbs perims Clip CBR BLM REA MBR 2010 Modeled Future Bioclimate 2050 - Swainsons Hawk BLM REA CBR 2010 Modeled Future Bioclimate 2050 - Mule Deer Class D Winter Region 8 FMIS Wildfire and Fuel Treatment Locations 1980-2015 Landsat Burned Area Essential Climate Variable products for the conterminous United States (1984 - 2015) U.S. National Historical Fire Perimeters (2000-2009) Monitoring Trends in Burn Severity Data (MTBS) Downloadable Data and Map Services