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These maps are a digital representation of the individual tree species range maps of the Atlas of the United States Trees by Elbert L. Little, Jr. The atlas shows the natural distribution or range of the native tree species of North America. These coverages represent 3 volumes of the atlas. Little's tree extent maps can be found in the Data Basin gallery here: http://app.databasin.org/app/pages/galleryPage.jsp?id=5e449f3c91304f498a96299a9d5460a3
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These maps are a digital representation of the individual tree species range maps of the Atlas of the United States Trees by Elbert L. Little, Jr. The atlas shows the natural distribution or range of the native tree species of North America. These coverages represent 3 volumes of the atlas. Little's tree extent maps can be found in the Data Basin gallery here: http://app.databasin.org/app/pages/galleryPage.jsp?id=5e449f3c91304f498a96299a9d5460a3
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These maps are a digital representation of the individual tree species range maps of the Atlas of the United States Trees by Elbert L. Little, Jr. The atlas shows the natural distribution or range of the native tree species of North America. These coverages represent 3 volumes of the atlas. Little's tree extent maps can be found in the Data Basin gallery here: http://app.databasin.org/app/pages/galleryPage.jsp?id=5e449f3c91304f498a96299a9d5460a3
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The California Department of Fish and Game (CDFG) Vegetation Classification and Mapping Program (VegCAMP) and contractor Aerial Information Systems (AIS) created a fine-scale vegetation map of a portion of the western Mojave Desert in California. The mapped area is bounded to the west and south by USDA Ecoregional Subsection 322Ag of the Mojave Desert (Miles and Goudey 1997). To the east, the portion mapped by AIS (approx. 4,202,000 acres) is bounded by the borders of a vegetation map produced in 2004 for the Mojave Desert Ecosystem Program (MDEP). VegCAMP mapped a portion of the area mapped previously for the MDEP (approx. 776,000 acres) using the finer-scale rules and classification that AIS used for the larger...
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Dataset created by the Food and Agriculture Organization (FAO) to identify major global ecofloristic zones. It was used by the IPCC to categorize carbon stock estimates. Each of the 20 ecoregions are characterized by their temperature regime (tropical, subtropical, temperate, boreal, and polar) and their vegetation type (humid forest, dry forest, moist deciduous forest, shrubland, steppe, desert, etc.).
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These maps are a digital representation of the individual tree species range maps of the Atlas of the United States Trees by Elbert L. Little, Jr. The atlas shows the natural distribution or range of the native tree species of North America. These coverages represent 3 volumes of the atlas. Little's tree extent maps can be found in the Data Basin gallery here: http://app.databasin.org/app/pages/galleryPage.jsp?id=5e449f3c91304f498a96299a9d5460a3
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This dataset was created using the MC1 Dynamic Global Vegetation Model. It represents the mode of projected vegetation types for the time period 2041 to 2050 under the down-scaled CGCM3 Global Circulation Model under the A2 emissions scenario. The fire suppression condition was set for the model run. The spatial resolution is 30 arc seconds, and the extent is the four corners region of the southwestern USA (Utah, Colorado, Arizona and New Mexico).
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This dataset was created using the MC1 Dynamic Global Vegetation Model. It represents the mode of projected vegetation types for the time period 2041 to 2050 under the down-scaled MIROC3 Global Circulation Model under the A2 emissions scenario. The fire suppression condition was set for the model run. The spatial resolution is 30 arc seconds, and the extent is the four corners region of the southwestern USA (Utah, Colorado, Arizona and New Mexico).
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The Nature Conservancy (TNC) has derived climate suitability forecasts for most species of trees and shrubs considered to be ecological dominants of terrestrial Californian habitat types. Our plant projections are compiled as decision support tools to help Conservancy project staff, as well as our external partners, develop the necessary plans, priorities and strategies to successfully adapt to uncertain changes in future climate. In the recently completed Southern Sierra Partnership's 2010 Climate-Adapted Conservation Plan for the Southern Sierra Nevada and Tehachapi Mountains, species and habitat forecasts shown here informed the development of a regional conservation design that explicitly incorporates long-term...
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The Nature Conservancy (TNC) has derived climate suitability forecasts for most species of trees and shrubs considered to be ecological dominants of terrestrial Californian habitat types. Our plant projections are compiled as decision support tools to help Conservancy project staff, as well as our external partners, develop the necessary plans, priorities and strategies to successfully adapt to uncertain changes in future climate. In the recently completed Southern Sierra Partnership's 2010 Climate-Adapted Conservation Plan for the Southern Sierra Nevada and Tehachapi Mountains, species and habitat forecasts shown here informed the development of a regional conservation design that explicitly incorporates long-term...
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The Nature Conservancy (TNC) has derived climate suitability forecasts for most species of trees and shrubs considered to be ecological dominants of terrestrial Californian habitat types. Our plant projections are compiled as decision support tools to help Conservancy project staff, as well as our external partners, develop the necessary plans, priorities and strategies to successfully adapt to uncertain changes in future climate. In the recently completed Southern Sierra Partnership's 2010 Climate-Adapted Conservation Plan for the Southern Sierra Nevada and Tehachapi Mountains, species and habitat forecasts shown here informed the development of a regional conservation design that explicitly incorporates long-term...
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The Nature Conservancy (TNC) has derived climate suitability forecasts for most species of trees and shrubs considered to be ecological dominants of terrestrial Californian habitat types. Our plant projections are compiled as decision support tools to help Conservancy project staff, as well as our external partners, develop the necessary plans, priorities and strategies to successfully adapt to uncertain changes in future climate. In the recently completed Southern Sierra Partnership's 2010 Climate-Adapted Conservation Plan for the Southern Sierra Nevada and Tehachapi Mountains, species and habitat forecasts shown here informed the development of a regional conservation design that explicitly incorporates long-term...
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The Nature Conservancy (TNC) has derived climate suitability forecasts for most species of trees and shrubs considered to be ecological dominants of terrestrial Californian habitat types. Our plant projections are compiled as decision support tools to help Conservancy project staff, as well as our external partners, develop the necessary plans, priorities and strategies to successfully adapt to uncertain changes in future climate. In the recently completed Southern Sierra Partnership's 2010 Climate-Adapted Conservation Plan for the Southern Sierra Nevada and Tehachapi Mountains, species and habitat forecasts shown here informed the development of a regional conservation design that explicitly incorporates long-term...
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The Nature Conservancy (TNC) has derived climate suitability forecasts for most species of trees and shrubs considered to be ecological dominants of terrestrial Californian habitat types. Our plant projections are compiled as decision support tools to help Conservancy project staff, as well as our external partners, develop the necessary plans, priorities and strategies to successfully adapt to uncertain changes in future climate. In the recently completed Southern Sierra Partnership's 2010 Climate-Adapted Conservation Plan for the Southern Sierra Nevada and Tehachapi Mountains, species and habitat forecasts shown here informed the development of a regional conservation design that explicitly incorporates long-term...
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The Nature Conservancy (TNC) has derived climate suitability forecasts for most species of trees and shrubs considered to be ecological dominants of terrestrial Californian habitat types. Our plant projections are compiled as decision support tools to help Conservancy project staff, as well as our external partners, develop the necessary plans, priorities and strategies to successfully adapt to uncertain changes in future climate. In the recently completed Southern Sierra Partnership's 2010 Climate-Adapted Conservation Plan for the Southern Sierra Nevada and Tehachapi Mountains, species and habitat forecasts shown here informed the development of a regional conservation design that explicitly incorporates long-term...
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For his MS thesis, Brendan Rogers used the vegetation model MC1 to simulate vegetation dynamics, associated carbon and nitrogen cycle, water budget and wild fire impacts across the western 2/3 of the states of Oregon and Washington using climate input data from the the PRISM group (Chris Daly, OSU) at a 30arc second (800m) spatial grain. The model was run from 1895 to 2100 assuming that nitrogen demand from the plants was always met so that the nitrogen concentrations in various plant parts never dropped below their minimum reported values. A CO2 enhancement effect increased productivity and water use efficiency as the atmospheric CO2 concentration increased. Future climate change scenarios were generated through...
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We developed a vegetation classification and high-resolution vegetation map for Petroglyph National Monument, New Mexico, as part of the USGS Vegetation Characterization Program, a cooperative effort by the U.S. Geological Survey (USGS) and the National Park Service Inventory & Monitoring - Vegetation Mapping Program to classify, describe, and map vegetation communities in more than 280 national park units across the United States. The classification and map follow the guidelines and requirements of the national program, and are based on data collected from 499 field plots between 2007 and 2011 plus 469 independent survey points to assess the accuracy of the map and completeness of the classification.
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The National Hydro Network (NHN), for which the standard was officially adopted by the Canadian Council on Geomatics (CCOG) in August 2004, focuses on providing a quality geometric description and a set of basic attributes describing Canada's inland surface waters. It provides geospatial vector data describing hydrographic features such as lakes, reservoirs, rivers, streams, canals, islands, obstacles (e.g. waterfalls, rapids, rocks in water) and constructions (e.g. dams, wharves, dikes), as well as a linear drainage network and the toponymic information (geographical names) associated to hydrography.The NHN forms the hydrographic layer of the GeoBase. The best available federal and provincial/territorial data are...
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The geographic pattern in potential forest productivity (bolewood production) under current conditions was initially mapped over Oregon and Washington (Latta et al. 2009) based on statistical relationships between site index of USDA Forest Service forest Inventory and Analysis plots and PRISM climate data (i.e. interpolated meteorological station data). SAR_current is the result of that analysis with potential productivity in terms of gC/m2/yr of bolewood production. The same statistical relationships of climate to potential productivity were then used with downscaled climate data from General Circulation Models (800 m grid) to derive geographic patterns in potential forest productivity in 2100 (Latta et al. 2010).The...
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This map layer is a grid map of 2001 average vegetation growth for Alaska and the conterminous United States. The nominal spatial resolution is 1 kilometer and the map layer is based on 1-kilometer AVHRR data. The data were compiled by staff at the USGS Center for Earth Resources Observation and Science.


map background search result map search result map Average Vegetation Growth 2001 Canadian National Hydro Network (NHN) - GeoBase Web Mapping Service (WMS) B1_delta MC1 projections of potential vegetation types for (2041 to 2050) under the CGCM3 GCM A2 scenario MC1 projections of potential vegetation types for (2041 to 2050) under the MIROC3 GCM A2 scenario Land Cover/Natural Vegetation Communities (Group Level), Pinto Lucerne Valley and Eastern Slopes, DRECP West Indian mahogany (Swietenia mahagoni) extent, North America Jack pine (Pinus banksiana) extent, North America Brewer spruce (Picea breweriana) extent, North America Atlantic white cedar (Chamaecyparis thyoides) extent, North America Hot, dry scenario forecast of climate suitability for joshua tree (Yucca brevifolia) in the southern Sierra Nevada and Tehachapi Mountains (California, USA) based upon downscaled 2045-2065 MIROC3.2 A2  projections Warm, dry scenario forecast of climate suitability for spineless horsebrush (Tetradymia canescens) in the southern Sierra Nevada and Tehachapi Mountains (California, USA) based upon downscaled 2045-2065 MRI-CGCM2.3.2 A2  projections Warm, dry scenario forecast of climate suitability for California black oak (Quercus kelloggii) in the southern Sierra Nevada and Tehachapi Mountains (California, USA) based upon downscaled 2045-2065 MRI-CGCM2.3.2 A2 projections Warm, dry scenario forecast of climate suitability for Douglas-fir (Pseudotsuga menziesii) in the southern Sierra Nevada and Tehachapi Mountains (California, USA) based upon downscaled 2045-2065 MRI-CGCM2.3.2 A2  projections Hot, wet scenario forecast of climate suitability for California sycamore (Platanus racemosa) in the southern Sierra Nevada and Tehachapi Mountains (California, USA) based upon downscaled 2045-2065 IPSL-CM4 A2 projections Warm, dry scenario forecast of climate suitability for sugar pine (Pinus lambertiana) in the southern Sierra Nevada and Tehachapi Mountains (California, USA) based upon downscaled 2045-2065 MRI-CGCM2.3.2 A2  projections Hot, wet scenario forecast of climate suitability for lodgepole pine (Pinus contorta murrayana) in the southern Sierra Nevada and Tehachapi Mountains (California, USA) based upon downscaled 2045-2065 IPSL-CM4 A2 projections Global ecofloristic zones mapped by the United Nations Food and Agricultural Organization Simulated potential PNW vegetation the Western 2/3 of Oregon and Washington under CSIRO Mk3 general circulation model run with the A2 SRES emission scenario (2070-2099 mode) using the MC1 dynamic global vegetation model Petroglyph National Monument Vegetation Mapping Project - Spatial Vegetation Data Petroglyph National Monument Vegetation Mapping Project - Spatial Vegetation Data Brewer spruce (Picea breweriana) extent, North America Land Cover/Natural Vegetation Communities (Group Level), Pinto Lucerne Valley and Eastern Slopes, DRECP Hot, dry scenario forecast of climate suitability for joshua tree (Yucca brevifolia) in the southern Sierra Nevada and Tehachapi Mountains (California, USA) based upon downscaled 2045-2065 MIROC3.2 A2  projections Warm, dry scenario forecast of climate suitability for spineless horsebrush (Tetradymia canescens) in the southern Sierra Nevada and Tehachapi Mountains (California, USA) based upon downscaled 2045-2065 MRI-CGCM2.3.2 A2  projections Warm, dry scenario forecast of climate suitability for California black oak (Quercus kelloggii) in the southern Sierra Nevada and Tehachapi Mountains (California, USA) based upon downscaled 2045-2065 MRI-CGCM2.3.2 A2 projections Warm, dry scenario forecast of climate suitability for Douglas-fir (Pseudotsuga menziesii) in the southern Sierra Nevada and Tehachapi Mountains (California, USA) based upon downscaled 2045-2065 MRI-CGCM2.3.2 A2  projections Hot, wet scenario forecast of climate suitability for California sycamore (Platanus racemosa) in the southern Sierra Nevada and Tehachapi Mountains (California, USA) based upon downscaled 2045-2065 IPSL-CM4 A2 projections Warm, dry scenario forecast of climate suitability for sugar pine (Pinus lambertiana) in the southern Sierra Nevada and Tehachapi Mountains (California, USA) based upon downscaled 2045-2065 MRI-CGCM2.3.2 A2  projections Hot, wet scenario forecast of climate suitability for lodgepole pine (Pinus contorta murrayana) in the southern Sierra Nevada and Tehachapi Mountains (California, USA) based upon downscaled 2045-2065 IPSL-CM4 A2 projections West Indian mahogany (Swietenia mahagoni) extent, North America Simulated potential PNW vegetation the Western 2/3 of Oregon and Washington under CSIRO Mk3 general circulation model run with the A2 SRES emission scenario (2070-2099 mode) using the MC1 dynamic global vegetation model B1_delta MC1 projections of potential vegetation types for (2041 to 2050) under the CGCM3 GCM A2 scenario MC1 projections of potential vegetation types for (2041 to 2050) under the MIROC3 GCM A2 scenario Atlantic white cedar (Chamaecyparis thyoides) extent, North America Jack pine (Pinus banksiana) extent, North America Average Vegetation Growth 2001 Canadian National Hydro Network (NHN) - GeoBase Web Mapping Service (WMS) Global ecofloristic zones mapped by the United Nations Food and Agricultural Organization