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The Desert Landscape Conservation Cooperative Land Cover Map shows land cover at a regional scale (1:2,500,000). The files provided are graphic design files that can be used to plot a publication-quality, poster-size map.Scale: 1:2,500,000 Map poster dimensions: 34 x 44 inches Data sources:Land cover from North American Environmental Atlas by the Commission for Environmental Cooperation, 2010. Physiographic regions from Natural Earth 1:10 million scale Physical Labels (3.0.0) derived from Patterson’s Physical Map of the World, 2008. Hydrography, populated places, and political boundaries from National Atlas of the United States, 2004. File descriptions: DLCC_LandCover.ai is an Adobe Illustrator file. DLCC_LandCover.pdf...
Categories: Data; Types: ArcGIS REST Map Service, ArcGIS Service Definition, Downloadable, Map Service, OGC WFS Layer, OGC WMS Layer, OGC WMS Service; Tags: Academics & scientific researchers, Conservation NGOs, DATA ANALYSIS AND VISUALIZATION, Data, Data.gov Desert Landscape Conservation Cooperative, All tags...
Kristin Byrd presented how this project aids conservation of California rangelands by identifying future integrated threats of climate change and land use change, and will quantify two main co-benefits of rangeland conservation – water supply and carbon sequestration. Through a multi-stakeholder partnership, the project proponents will develop integrated climate change/land use change scenarios for the Central Valley and Chaparral and Oak Woodland eco-regions, and disseminate information about future potential threats to high priority conservation areas within the California Rangeland Conservation Coalition (CRCC) study area, which includes the foothills around the Central Valley and most of the southern Inner Coast...
This insert into the February 2013 Estuary news offers snapshots of how seven CA LCC projects have been laying the foundations for lasting cooperative conservation partnerships.
Speaker: Dr. Jason Kreitler, USGSWednesday, October 24, 2012 -12:00pm to 1:00pmThis project is analyzing downscaled climate model data to assess the geography of climate change at scales relevant to actual conservation actions. This work analyzes the California Essential Habitat Connectivity products to determine which protected lands are most vulnerable and which of the proposed corridors would partially mitigate climate change threats.
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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.
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Climate grids for the extent of the GNLCC study area saved as asciis with a 2km resolution. These grids are saved in in the Albers Equal Area Conic projection. Summer is defined as months 7-9, while winter is defined as months 1-3. All grids with the exception of cmi.asc, dd5.asc, & growingsl.asc were produced in the program ClimateWNA, which downscales PRISM climate grids using a digital elevation model. Mean annual precipitation (mm) - aprec.asc Annual Climate moisture index (cm/year) - cmi.asc Degree-days > 5°C - dd5.asc Growing season length - growingsl.asc Isothermality (°C) - isotherm.asc Mean annual temperature (°C) - mat.asc Maximum temperature warmest month (°C) - maxtw.asc Minimum temperature coldest...
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
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Systematic conservation planning is well suited to address the many large-scale biodiversity conservation challenges facing the Appalachian region. However, broad, well-connected landscapes will be required to sustain many of the natural resources important to this area into the future. If these landscapes are to be resilient to impending change, it will likely require an orchestrated and collaborative effort reaching across jurisdictional and political boundaries. The first step in realizing this vision is prioritizing discrete places and actions that hold the greatest promise for the protection of biodiversity. Five conservation design elements covering many critical ecological processes and patterns across the...
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The Data Needs Assessment research project was undertaken to review the variety of resources on conservation planning to provide packages of products, data, and identified data gaps to improve conservation planning in the Appalachian LCC. A suite of core conservation planning products and data from principal investigators at Clemson University are now available to the Cooperative.“Deliverables from this research include:An analysis of State Wildlife Action Plans in the Appalachian LCC that describe how information contained in these plans can be linked to integrate state and local-scale efforts into a regional conservation framework;A list of 21 conservation planning tools, describing function and relevance of each...
Scientists will employ land use change build-out scenaria for future energy development demand to quantify future impacts on forest habitats across the Appalachian LCC. We propose to create maps of wind, oil and gas, and coal development potential for the entire study area and use these maps and published projections from federal and state land management agencies to model future build-out scenaria.
Climate change continues to be one of the most challenging threats to global biodiversity and species persistence. In response, conservation design researchers and applied practitioners have recently begun to call for the identification of critical areas of stable climatic and environmental conditions that may preserve the platform of current climate dynamics, and promote the adaptation and dispersal of diverse taxa across the landscape. Due to their historically buffered and resilient features, climate refugia are considered valuable conservation targets that may function as robust bastions for climatically-sensitive endemic species. In this thesis research, I have worked to define the potential stability of refugia...
The advent of Web 2.0 and the growth of social media platforms have fostered an environment for the documentation and sharing of landscape imagery. In addition to looking at the site scale, using these big data allows for visual landscape assessment at the regional scale. The onset of Marcellus shale gas development in the state of Pennsylvania concurrent with the rapidly widening availability of crowd-sourced citizen photography has provided a valuable opportunity to study crowdsourced and georeferenced photography as an aid in visual resource conservation design and planning. As Trombulak and Baldwin (2010) outline, the goals for this work include identifying spatially explicit measures of change in the landscape,...
A new study and online mapping tool by the Appalachian Landscape Conservation Cooperative (LCC) and The Nature Conservancy are intended to inform discussions among conservation agencies and organizations, industry, policy makers, regulators and the public on how to protect essential natural resources while realizing the benefits of increased domestic energy production.
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Rainwater Harvesting and Stormwater Research is a priority research area identified by the Arizona Governor’s Blue Ribbon Panel on Water Sustainability, which recommended that universities take the lead to identify regulatory barriers, cost and benefits, water quality issues and avenues for increasing utilization of stormwater and rainwater at the regional, community and individual property level. In an effort to address the priority research area, the University of Arizona will develop a decision support tool to be used by public utilities and agencies to evaluate suitability and cost-effectiveness of rainwater and stormwater capture at various scales for multiple benefits. Data from the City of Tucson, Arizona...
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Projected water deficits mean that land and water managers must be proactive in their management of rivers and shallow aquifers, if they want to maintain the ecosystems dependent upon them. To do this, managers and decision makers need easy access to the best techniques available for determining how much water ecosystems need. This project will result in a Desert LCC-wide database of environmental flow needs and responses (environmental water demands) to help water and land managers make management decisions. This project will identify critical data gaps in flow need and flow response data in the Desert LCC (especially related to baseflow dependent streams) and result in a user-friendly, one-stop-shop for managers...
Categories: Data, Project; Types: Map Service, OGC WFS Layer, OGC WMS Layer, OGC WMS Service; Tags: 2014, AZ-01, AZ-02, AZ-03, AZ-04, All tags...


map background search result map search result map Great northern landscape conservation cooperative climate grids Utility Guide to Rainwater/Stormwater Harvesting as an Adaptive Response to Climate Change Land Cover Map Desert LCC Environmental Flows Database Appalachian LCC Landscape Conservation Design Phase 1 Local Build-outs Data Needs Assessment Essential Forests and Key Connectors in the Central Appalachians Whole System Future Energy Development Tool Public Great northern landscape conservation cooperative climate grids Essential Forests and Key Connectors in the Central Appalachians Whole System Utility Guide to Rainwater/Stormwater Harvesting as an Adaptive Response to Climate Change Appalachian LCC Landscape Conservation Design Phase 1 Local Build-outs Future Energy Development Tool Public Data Needs Assessment Desert LCC Environmental Flows Database Land Cover Map