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The capacity of ecosystems to provide services such as carbon storage, clean water, and forest products is determined not only by variations in ecosystem properties across landscapes, but also by ecosystem dynamics over time. ForWarn is a system developed by the U.S. Forest Service to monitor vegetation change using satellite imagery for the continental United States. It provides near real-time change maps that are updated every eight days, and summaries of these data also provide long-term change maps from 2000 to the present. Based on the detection of change in vegetation productivity, the ForWarn system monitors the effects of disturbances such as wildfires, insects, diseases, drought, and other effects of weather,...
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WaSSI (Water Supply Stress Index) predicts how climate, land cover, and human population change may impact water availability and carbon sequestration at the watershed level (about the size of a county) across the lower 48 United States. WaSSI users can select and adjust temperature, precipitation, land cover, and water use factors to simulate change scenarios for any timeframe from 1961 through the year 2100. Simulation results are available as downloadable maps, graphs, and data files that users can apply to their unique information and project needs. WaSSI generates useful information for natural resource planners and managers who must make informed decisions about water supplies and related ecosystem services...
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All Conservation Design Elements identified through a multi-year conservation planning effort undertaken by the Appalachian Landscape Conservation Cooperative (LCC). These elements were identified by the program Marxan as meeting collective conservation targets. Datasets include a merged design of all five elements, individual element shapefiles, and a prioritization shapefile (Conservation Design elements outlined by the NatureScape Design that were then placed into a prioritization framework based on Margulis and Pressy 2000).
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Provisional Tennessee State Wildlife Action Plan (TN-SWAP) terrestrial habitat priorities versus results of the population growth model developed by the Tennessee Chapter of The Nature Conservancy, 2008, converted to percent projected developed landcover in the year 2040. Spatial growth model was developed using population growth projections from the University of Tennessee Center for Business and Economic Research (UT-CBER), county urban growth boundaries, 2000 census blocks, and various ancillary datasets.
These results are a compilation of climate change vulnerability assessments in the southeastern portion of the LCC, covering the area from southern West Virginia, south to Alabama, west to eastern Kentucky and Tennessee. Hyperlinks to additional information are separated into two additional spreadsheets, one for aquatic and subterranean, and another for terrestrial species.
This document contains a list of the bat species that regularly use caves and mines in the Appalachian LCC region, federal status of these species, and sources of bat data.
Elizabeth Byers and Sam Norris. 2011. Climate change vulnerability assessment of species of concern in West Virginia. West Virginia Division of Natural Resources, Elkins, WV.This project assessed and ranked the relative climate change vulnerability of 185 animal and plant species in West Virginia.
Well-connected landscapes are necessary to sustain many of the natural and cultural resources important to the Appalachian region today and into the future. If these large connected areas are to endure and be resilient to impending environmental changes, it will require a collaborative effort involving many organizations and reaching across jurisdictional and political boundaries. Conservation planning - a process of spatially identifying and prioritizing lands and waters important for functioning ecosystems and biodiversity - is well suited to address the many large-scale biodiversity challenges facing the region and lead to conservation outcomes that link pristine and natural lands into an interconnected landscape...
Comments from Technical Oversight Team regarding Energy Forecast Project Progress Report in Quarter 1, 2013.
Addressing knowledge gaps to better protect unique landforms and their wealth of hidden biodiversity.
We have provided some interpretation material and text for conservation planning tools. These programs have been grouped into broad, sometime overlapping purposes. These brief descriptions of the various conservation planning tools can be put up on the AppLCC web portal, for users to get an idea about the tools available and what purposes they could serve. We have alo provided other links, where users can get detailed information about the tool.
County distribution for the climate change vulnerability of 41 newly assessed species is available for download. The entire package is available at the link provided.
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The Appalachians are a landscape filled with globally-significant biological diversity and cultural resources that provides essential benefits to large cities and surrounding human communities. The region is also rich in energy resources that meet national and regional demands for energy. As wind, natural gas, and oil energy development expand along with traditional coal, there is an increasing need for research to inform discussions on how to meet immediate and future energy needs while sustaining the health of natural systems. To help address this need, the Appalachian LCC awarded a grant to The Nature Conservancy to assess current and future energy development across the entire region. Assessing Future Energy...
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This shapefile represents The Nature Conservancy’s (TNC) “essential forests” and “key connectors” in the Central Appalachians Whole System. Essential Forests are built around groups of large forest patches, ecoregional portfolio roll-up sites, and areas with high local integrity and high flow density (from M. Anderson’s resiliency analysis). Key Connectors provide physical linkages among essential forests, have high flow density, and may also include large forest patches and matrix blocks. The polygons were originally delineated by TNC staff at a workshop near Petersburg, West Virginia, on March 9 and 10, 2011. The boundaries were hand-drawn on paper maps and then hand-digitized by A. Watland (TNC-VA) and T. Gagnolet...
This file includes two raster layers. One of the raster files (LCC_Windgt90x.img) displays the data by differentiating between areas that have a greater than 90 percent or higher risk of development from areas with less than a 90 percent risk of wind energy development. The second raster file (LCC_WindProbs.img) displays the energy risk across a gradient, but does not include the categories seen in the Energy Forecast Web Mapping Tool. The values range from 0-1, with larger values representing a higher probability of development.
This file includes two raster layers. One of the raster files (LCC_Coal_gt90x.img) displays the data by differentiating between areas that have a greater than 90 percent or higher risk of coal energy development and areas with less than a 90 percent risk of coal energy development. The second raster file (LCC_Coal.img) displays the energy risk across a gradient, but does not include the categories seen in the Energy Forecast Web Mapping Tool. The values range from 0-255, with larger values representing a higher probability of development.
Knowing which ecosystem services are provided and who benefits from these services will allow resource managers, scientists, industries, and the public to explore new institutional, market, and policies to encourage protection of and investments in these resources. Objectives of this project are to 1) link the environmental and economic values of the region’s natural assets in a way that establishes a common language for resource managers, scientists, industry, local government and the public to substantively engage in landscape-level conservation planning and 2) to explore different development or management strategies and examine trade-offs to support improved and informed decision-making. A first step in determining...
One of the basic goals of ecosystem assessment efforts is to describe the impacts of key drivers of change that place the sustained delivery of ecosystem services at risk. Some of these risk factors, such as urban growth and energy extraction, themselves provide important services, and trade-offs must be considered when they compromise other ecosystem benefits. Working towards sustainable landscapes by addressing these trade-offs is one of the great challenges in natural resource management and conservation practice. Here we summarize findings concerning key risk factors from assessment efforts in the Appalachian region.
Find here the Agenda and recorded Webinar from the June 29th Quarterly TRBN call
map background search result map search result map WASSI Future Change in Water Supply Stress Index 1991-2010 ForWarn Mean Summer National Difference Vegetation Index 2009-2013 Amount of inflow stored in upstream dams-rivers NatureScape, Design Essential Forests and Key Connectors in the Central Appalachians Whole System Future Energy Development Tool Public Provisional Tennessee State Wildlife Action Plan Potential Urban Growth Provisional Tennessee State Wildlife Action Plan Potential Urban Growth Essential Forests and Key Connectors in the Central Appalachians Whole System WASSI Future Change in Water Supply Stress Index 1991-2010 NatureScape, Design Future Energy Development Tool Public Amount of inflow stored in upstream dams-rivers ForWarn Mean Summer National Difference Vegetation Index 2009-2013