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The GeoAdaptive and GeoDesign scenarios were extended to the state of Florida line and incorporated CLIP 3.0 into the scenarios for the ecological input. The scenarios will consist of urbanization level of 31,000,000 people by 2060 and sea level rise of 1.0m, and policies and assumptions such a build first conserve second (BAU) and conserve first build second (proactive). The type of conservation was varied; fee simple purchase and easement percentages. The first scenario had a 50/50 split between fee simple purchase and easements and the second and third scenario had 90% easement and 10% fee simple purchase. The difference in scenario was in the process of conservation (CLIP priority area 1 or Florida Forever land...
Refinement of Gopher Tortoise Habitat Identification and Related Land Cover Data. The benefits of this project include: 1) much improved gopher tortoise remote habitat identification that could have a strong influence on potential listing status (with the likelihood that significantly more habitat may be identified); 2) better statewide land cover data regarding scrubby flatwoods and potentially refined mesic flatwoods and dry prairie classifications; and 3) potential spin off benefits regarding better habitat identification for related species such as gopher frogs and other xeric adapted species that might be found in on drier flatwoods and dry prairie sites.This raster represents a potential habitat for the Florida...
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The PFLCC has recently completed a set of comprehensive conservation planning scenarios for the state of Florida. This represents the first statewide effort to assess likely alternative futures for conservation considering an array of financial, biological, climatological and urbanistic conditions. These spatially explicit and temporal scenarios simulate both urban growth and climate change and identify the most suitable areas for conservation given the resulting land use pattern. Conservation allocations are based on both fee-title and conservation easements.The conservation priorities and mechanisms expressed in these scenarios are based on a wide set of contributing factors, and simulated conservation is purposefully...
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The PFLCC has recently completed a set of comprehensive conservation planning scenarios for the state of Florida. This represents the first statewide effort to assess likely alternative futures for conservation considering an array of financial, biological, climatological and urbanistic conditions. These spatially explicit and temporal scenarios simulate both urban growth and climate change and identify the most suitable areas for conservation given the resulting land use pattern. Conservation allocations are based on both fee-title and conservation easements.The conservation priorities and mechanisms expressed in these scenarios are based on a wide set of contributing factors, and simulated conservation is purposefully...
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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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Full life-cycle vulnerability assessments are identifying the effects of climate change on nongame migratory birds that are of conservation concern and breed in the upper Midwest and Great Lakes region. Full life-cycle analyses are critical, as current efforts likely underestimate the vulnerability of migratory land birds due to a focus on assessing only one component of the annual cycle. The approach provides a framework for integrating exposure to climate changes, sensitivity to these changes, and the potential for adaptation in both winter and summer seasons, and accounts for carry-over effects from one season to another. The results of this work will inform regional management by highlighting both local and...
Brief:Under this project a collaborative and integrated geodatabase of inventoried connectivity barriers within the South Central Lake Superior Basin (SCLSB) was developed to prioritize restoration for more than 2,000 inventoried stream crossings. SUMMARY:KBIC Natural Resources Department received funding through the Upper Midwest and Great Lakes Landscape Conservation Cooperative to develop a collaborative and integrated geodatabase of inventoried connectivity barriers within the South Central Lake Superior Basin (SCLSB), to prioritize restoration for more than 2,000 inventoried stream crossings (see Figure 1). This project stemmed from KBIC’s participation in the Partnering for Watershed Restoration Group (PWR),...
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Within the time frame of the longevity of tree species, climate change will change faster than the ability of natural tree migration. Migration lags may result in reduced productivity and reduced diversity in forests under current management and climate change. We evaluated the efficacy of planting climate-suitable tree species (CSP), those tree species with current or historic distributions immediately south of a focal landscape, to maintain or increase aboveground biomass, productivity, and species and functional diversity. We modeled forest change with the LANDIS-II forest simulation model for 100 years (2000–2100) at a 2-ha cell resolution and five-year time steps within two landscapes in the Great Lakes region...
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For management agencies, there is a growing need to understand (1) how climate change affects and will continue to affect wildlife populations of conservation concern, and (2) how the negative Upper Midwest Great Lakes Landscape Conservation Cooperative Request for Funding 2013 demographic effects of climate change can be mitigated through management strategies. Climate Change Vulnerability Assessment (CCVA) integrates available data and scientific understanding in a transparent process, details assumptions and uncertainties, and ultimately projects population-level responses of target species to future climate change. Climate change is already influencing distributions and abundances of species throughout North...
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Phase 1 & 2 (2010, 2012): This project developed a sampling design and monitoring protocol for wintering shorebirds in the Central Valley and in the San Francisco Bay Estuary and develop an LCC-specific online shorebird monitoring portal publicly available at the California Avian Data Center. The three objectives in Phase II of this project are: 1) Complete the shorebird monitoring plan for the CA LCC by developing a sampling design and monitoring protocol for wintering shorebirds in coastal southern California and northern Mexico. 2) Develop models to evaluate the influence of habitat factors from multiple spatial scales on shorebird use of San Francisco Bay and managed wetlands in the Sacramento Valley, as a model...
Categories: Data, Project; Types: Map Service, OGC WFS Layer, OGC WMS Layer, OGC WMS Service; Tags: 2010, 2011, 2013, Academics & scientific researchers, Academics & scientific researchers, All tags...
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This project used species distribution modeling to assess the risk to habitat change under various climate change scenarios for rare plants. To predict the response of rare plant species to climate change, the project modeled the current distribution of the species using climate and environmental data (e.g., soils, disturbance, land-use), use these models to predict the species distribution given climate change, calculate current and future range size, calculate the amount of overlap of predicted future distribution with current distribution, and assess where barriers and protected areas are located with reference to the change in species distribution. Given the results of the distribution modeling, each species...
This project will conduct a vulnerability assessment, develop climate-smart adaptation strategies and actions, and generate implementation plans for focal habitats of the South and Central Coast regions of the CALCC, with a specific focus on four Southern California National Forests (Angeles, San Bernardino, Cleveland, Los Padres).Specific project goals include:(1) Assess the regional vulnerabilities and resiliencies of focal habitats to climate change and non-climate change stressors.(2) Generate climate-informed maps to identify how vulnerabilities vary spatially to help prioritize conservation areas and activities.(3) Identify implementable climate-smart conservation strategies and actions to conserve priority...
Conservation planning, the process of deciding how to protect, conserve, enhance and(or) minimize loss of natural and cultural resources, is a fundamental process to achieve conservation success in a time of rapid environmental change. Conservation targets, the measurable expressions of desired resource conditions, are an important tool in biological planning to achieve effective outcomes. Conservation targets provide a focus for planning, design, conservation action, and collaborative monitoring of environmental trends to guide landscape-scale conservation to improve the quality and quantity of key ecological and cultural resources. It is essential to have an iterative and inclusive method to define conservation...
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This dataset represents the soil texture from SSURGO and STATSGO soil descriptions for soil map units in the state of western Oregon that lie within the North Pacific Landscape Conservation Cooperative. Soil texture is the mineral particle size distribution of soil particles within a soil horizon. This dataset also documents rock fragments and organic matter that may contribute to water infiltration, storage and relocation within the surface horizons of the soil profile. For reference, see NRCS soil texture triangle: http://soils.usda.gov/technical/aids/investigations/texture/
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This dataset represents the soil pH from SSURGO and STATSGO soil descriptions for soil map units in the state of southern Alaska that lie within the North Pacific Landscape Conservation Cooperative.
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This dataset represents the soil water storage capacity (AWS in mm at 0.25 m depth) from SSURGO and STATSGO soil descriptions for soil map units in the state of southern Alaska that lie within the North Pacific Landscape Conservation Cooperative. Available Water Storage 0-25 cm - Weighted Average (centimeters). Available water storage (AWS). The volume of water that the soil, to a depth of 25 centimeters, can store that is available to plants. It is reported as the weighted average of all components in the map unit, and is expressed as centimeters of water. AWS is calculated from AWC (available water capacity) which is commonly estimated as the difference between the water contents at 1/10 or 1/3 bar (field capacity)...
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This dataset represents the soil water storage capacity (AWS in mm at 0.5 m depth) from SSURGO and STATSGO soil descriptions for soil map units in the state of southern Alaska that lie within the North Pacific Landscape Conservation Cooperative. Available Water Storage 0-50 cm - Weighted Average (centimeters). Available water storage (AWS). The volume of water that the soil, to a depth of 50 centimeters, can store that is available to plants. It is reported as the weighted average of all components in the map unit, and is expressed as centimeters of water. AWS is calculated from AWC (available water capacity) which is commonly estimated as the difference between the water contents at 1/10 or 1/3 bar (field capacity)...
The U.S. Fish & Wildlife Service awarded funding to eight projects for the Southern Rockies LCC. Attached is a PDF list of the projects.
Categories: Web Site; Tags: LCC


map background search result map search result map Soil texture for the North Pacific Landscape Conservation Cooperative- western Oregon, USA Assessing and Mapping Rare Plant Species Vulnerability to Climate Change A Monitoring Protocol to Assess Wintering Shorebird Population Trends Soil water storage capacity (AWS in mm at 0.25 m depth) for the North Pacific Landscape Conservation Cooperative- southern Alaska (a), USA Soil water storage capacity (AWS in mm at 0.5 m depth) for the North Pacific Landscape Conservation Cooperative- southern Alaska (a), USA Soil pH for the North Pacific Landscape Conservation Cooperative- southern Alaska (b), USA Appalachian LCC Landscape Conservation Design Phase 1 Local Build-outs Florida climate change, urbanization, and policy assumption scenario for conservation planning for the PFLCC. Publication: A blind spot in climate change Report: Climate Change Vulnerability Assessment for Species of Conservation Concern: Distributions and Demographics Across a Landscape Conservation Cooperative Publication: Measuring and managing resistance and resilience under climate change in northern Great Lake forests Habitat Grids Statewide Impact Assessment Reports A Monitoring Protocol to Assess Wintering Shorebird Population Trends Soil texture for the North Pacific Landscape Conservation Cooperative- western Oregon, USA Florida climate change, urbanization, and policy assumption scenario for conservation planning for the PFLCC. Habitat Grids Statewide Impact Assessment Reports Assessing and Mapping Rare Plant Species Vulnerability to Climate Change Publication: Measuring and managing resistance and resilience under climate change in northern Great Lake forests Soil pH for the North Pacific Landscape Conservation Cooperative- southern Alaska (b), USA Soil water storage capacity (AWS in mm at 0.25 m depth) for the North Pacific Landscape Conservation Cooperative- southern Alaska (a), USA Soil water storage capacity (AWS in mm at 0.5 m depth) for the North Pacific Landscape Conservation Cooperative- southern Alaska (a), USA Appalachian LCC Landscape Conservation Design Phase 1 Local Build-outs Publication: A blind spot in climate change Report: Climate Change Vulnerability Assessment for Species of Conservation Concern: Distributions and Demographics Across a Landscape Conservation Cooperative