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This project maps floodplain inundation frequency at the landscape scale in the south central United States. Using 15-40 images per Landsat scene, we established a wide range of possible flood frequencies across a variety of rising and falling river stages. This method represents a flexible approach that can be configured to define habitat availability for a variety of terrestrial and aquatic species.
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Assessing Future Energy Development across the Appalachian LCC used models that combined data on energy development trends and identified where these may intersect with important natural resource and ecosystem services to give a more comprehensive picture of what potential energy development could look like in the Appalachians. Ultimately this information is intended to support dialogue and conservation on how to effectively avoid, minimize, and offset impacts from energy development to important natural areas and the valuable services they provide.A final report from the study outlines the major findings of the potential footprint from coal, wind, and natural gas development. Models that depicts the probability...
The Conservation Blueprint provides a foundation to design strategies for collaborative conservation effort to achieve sustainable landscapes in the face of change. It builds on the Ecological Assesment project to develop a set of linked geospatial data products related to the nine priority systems of the GCPO LCC to provide a scientific (i.e. transparent, replicable & defensible) approach to identifying the next best places for collaborative conservation effort toward the partnership’s shared vision.
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The Arctic LCC has partnered with USGS to complete a feasibility study that will review current and past efforts to monitor thermokarst at broad spatial and temporal scales, compare relevance, cost, and strengths/weaknesses of the various approaches and techniques. Researchers have outlined potential study designs for monitoring thermokarst events that emphasize processes affecting large areas, or with a disproportionately large impact on fish and wildlife habitat quality. Information available in the final report includes: 1) review existing thermokarst monitoring methods via a literature review, 2) provide a brief description and review of thermokarst landforms and processes associated with permafrost degradation...
The Alaska Data Integration Working Group (ADIwg) Metadata Toolkit is an open source, suite of web applications for authoring and editing metadata for both spatial and non-spatial projects and datasets. The main goal of the toolkit is to promote the creation and use of metadata by lowering the level of technical expertise required to produce archival quality metadata.mdJSON is the metadata format ties the suite of tools together. The mdEditor is an open source client-side web application design to allow users to manage metadata for projects and data products. The mdEditor may be used to create mdJSON and interface with the mdTranslator to output metadata in multiple standards, including ISO 19115-2, 19115-1, 19110,...
Categories: Data, Project; Tags: AUTHORING TOOLS, AUTHORING TOOLS, Academics & scientific researchers, Conservation NGOs, Data Management and Integration, All tags...
The Southeast Aquatic Resources Partnership will engage regional aquatic experts to provide input into the development of desired ecological states - defined by landscape and species endpoints - for each of the broadly defined Freshwater Aquatic habitat types listed in the Gulf Coastal Plains and Ozarks Landscape Conservation Cooperative’s draft Integrated Science Agenda. The final product will include recommendations for next steps to validate and achieve the desired landscape conditions, including potential modeling and tool development to facilitate spatial projection of final desired states.
Building off the successes of the stratified random sampling approach to selecting aerial transects for waterfowl surveying used by Mississippi and Arkansas, the waterfowl conservation community is undertaking this approach across the entire Mississippi Alluvial Valley. Waterfowl respond directly to climate factors and this approach allows for statistically valid estimates that can track trends over time.
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The Wildlife Conservation Society (WCS) will facilitate integration of regional science through local land-use decision-making to enhance stewardship of North Atlantic LCC conservation priorities. The WCS will identify North Atlantic LCC science data layers that are most relevant for state and regional conservation priorities and determine opportunities for integrating this information into state and regional planning. This information will be used to identify and prioritize communities with the greatest potential to achieve conservation outcomes in locations of high conservation value on private lands through small science-based modifications to existing land-use planning tools. WCS will demonstrate on-the-ground...
The western coastline of Alaska is highly susceptible to coastal storms, which can cause coastal erosion, flooding, and have other pernicious effects to the environment and commercial efforts. The reduction in ice coverage due to climate change could potentially increase the frequency and degree of coastal flooding and erosion. Further, estuaries and delta systems act as conduits for storm surges, so when there is less nearshore ice coverage, these systems could introduce storm surge into terrestrial environments unaccustomed to saline intrusion, flooding, or other alien biogeochemical factors.​This project quantified the effect of reduced nearshore ice coverage on coastal flooding. The project developed a large...
This project will address species-habitat relationships for a priority aquatic system for the GCPO LCC, Mainstem Big Rivers. Specifically, the project will collect subsurface aquatic habitat data using side-scan sonar and high resolution bathymetry data in the Pearl River system of Louisiana. This project expands on current work ongoing in the Pearl River, and would extend habitat data collection for the purposes of making recommendations on restoration of aquatic habitat for species endpoints in this aquatic system. This project directly addresses landscape conservation design and will be used to inform Adaptation Strategies.
Pilot an approach that integrates dynamic landscape population viability models and structured decision making to choose among conservation scenarios that best meet desired endpoints for focal wildlife species. Our combined approach will Identify 3-4 species for each inland terrestrial habitat system listed in the Integrated Science Agenda (15-20 total). Using the combined approach, we will identify potential conservation strategy alternaties intended to meet desired endpoints for focal wildlife species in the Gulf Coastal Plains & Ozarks region under land use change. Scenarios will likely be habitat based, but could include other approaches (e.g. policy).
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The Integrated Ecosystem Model for Alaska project (IEM) uses down-scaled climate models as the drivers of ecosystem change to produce forecasts of future fire, vegetation, permafrost and hydrology regimes at a resolution of 1km. This effort is the first to model ecosystem change on a statewide scale, using climate change input as a major driving variable. The objectives of the IEM project are as follows; to better understand and predict effects of climate change and other stressors on landscape level physical and ecosystem processes, and to provide support for resource conservation planning.The IEM will provide resource managers with a decision support tool to visualize future landscapes in Alaska. Model outputs...
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Future climate change adaptation and mitigation strategies will be dependent on the best available projections of how the regional climate will change and the impacts those changes will have on the region’s natural and cultural resources. Understanding the vulnerability of various species and habitats to climate change within the Appalachian LCC is of critical importance for making effective conservation decisions. The AppLCC funded a Climate Change Vulnerability Assessment research project that addresses several factors: 1) how the Cooperative should acquire information about the climate vulnerability of Appalachian species and habitats to develop vulnerability assessments for a suite of key species and habitats...
Water temperature influences all biological and physicochemical interactions within aquaticsystems. Water temperature monitoring is an essential part of lake management capable of providing early warning signs of climate change using straight-forward, low-cost techniques. Water temperature data acquired in this study will be used to support analyses of trend of the lacustrine component of sockeye salmon habitat. The need for such analyses is acute because climate change will influence lake habitat quality; growth and survival of juvenile sockeyesalmon; and subsistence, recreational, and commercial harvest opportunities. Additionally, data acquired in this project will be eventually combined with data collected by...
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It has been recognized by the Appalachian LCC partnership that to develop and deliver landscape-level planning tools, it is essential to develop an Appalachian-wide map depicting where cave and karst habitats and resources occur across the landscape. For the past 18 months, researchers for the Appalachian LCC funded “Classification and Georeferencing Cave/Karst Resources across the Appalachian LCC” project have been gathering and analyzing data on caves and karst region wide. This work has produced a series of deliverables, including narratives, data tables, geospatial information layers, and a variety of maps. The maps and files provide a comprehensive overview of data availability for examining relationships between...
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Federal land managers, non-governmental organizations, and industry have been developing ecological land classifications at regional and landscape-level for Alaska to aid in ecosystem management. An ecoregion map that covers the entire state was produced by Nowacki et al. (2002). At the landscape level, ecological subsection mapping has been done for all National Park Service (NPS) and Forest Service lands in Alaska. In northern Alaska, a portion of the North Slope has been mapped at the ecological subsection level by industry (Jorgenson et al. 2003). In the Brooks Range, similar mapping has been done for National Parks and Preserves at Cape Krusenstern (Swanson 2001), Noatak (Jorgenson et al. 2002), and Gates of...
Long-term, large-scale (i.e. landscape) conservation struggles with big questions such as how can a single strategy be identified when there are multiple possible future outcomes? How do we decide which management action or portfolio of actions is the best for all species when different species will likely have conflicting responses to each action? Successful natural resource decision making processes also incorporate an assessment of baseline conditions; current and future stressors; a set of potential management actions; and formal linkages between conditions, actions and biological responses (i.e. a model). It also requires bringing together the elements of conservation decisions into a framework that allows...
The Alaska Center for Conservation Science at the University of Alaska Anchorage, in partnership with the Northwest Boreal Landscape Conservation Cooperative, embarked on a project to map and quantify the human footprint across interior Alaska and northwestern Canada. The goal was to build a seamless dataset that spanned state, provincial and territorial boundaries to represent an initial look at intactness in the boreal ecosystems of western Canada and Alaska. This project builds upon work done by Ducks Unlimited Canada. Although our goal was to create a comprehensive representation of these footprint activities, we were limited to data that was publicly available, so this likely represents an underestimation of...
This project integrates a reforestation decision support model for priority forest breeding birds and a restoration decision support tool for the federally-threatened Louisiana Black Bear. It was developed specifically to focus habitat restoration projects on frequently flooded agricultural lands within priority portions of the delta of Arkansas, Louisiana, and Mississippi, which were funded primarily by the Walton Family Foundation in 2010, 2011, 2012 and 2013.
map background search result map search result map Enhanced Stewardship of Priority Habitats and Species on Private Lands Using NALCC Science Across Four Northeastern States Assessing Future Energy Development Across the Appalachians Classification and Mapping of Cave and Karst Resources Understanding Arctic Ecosystems: Ecological Mapping and Mapping Field Plot Database for the North Slope Moored All-season Vertical Temperature Arrays in Lakes on Kodiak, Togiak and Alaska Peninsula/Becharof NWRs Assessing Vulnerability of Species and Habitats to Large-scale Impacts Thermokarst Monitoring at the Landscape Level: a Feasibility Study Integrated Ecosystem Model (AIEM) for Alaska and Northwest Canada (COPY) Moored All-season Vertical Temperature Arrays in Lakes on Kodiak, Togiak and Alaska Peninsula/Becharof NWRs Enhanced Stewardship of Priority Habitats and Species on Private Lands Using NALCC Science Across Four Northeastern States Understanding Arctic Ecosystems: Ecological Mapping and Mapping Field Plot Database for the North Slope Thermokarst Monitoring at the Landscape Level: a Feasibility Study Assessing Future Energy Development Across the Appalachians Assessing Vulnerability of Species and Habitats to Large-scale Impacts Classification and Mapping of Cave and Karst Resources Integrated Ecosystem Model (AIEM) for Alaska and Northwest Canada (COPY)