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Filters: Tags: Consevation design (X) > partyWithName: Gulf Coastal Plains and Ozarks Landscape Conservation Cooperative (X)

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The balance between economic needs and natural resource conservation will become more tenuous in the future as a result of a myriad of environmental stressors. We propose a methodology that can help guide forest management practices whenever adequate species locational data and quality forest or land use data exist. More specifically, the results of this study can be used to evaluate alternative land and silviculture management scenarios in terms of creating or maintaining high-quality forest habitat for a specific species. We used data collected on radiotelemetered black bears from 1988 to 2015 to develop a regional habitat model throughout Louisiana and Arkansas using Mahalanobis distance (D2) statistic. We created...
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.
This project links downscaled climate data to an ecosystem model (LINKAGES) to a landscape simulator (LANDIS) to wildlife models (HSI). Collectively, these models offer a means to assess the response of wildlife to climate change - mediated through habitat.
This project will improve the existing Louisiana and Ozarks black bear models by incorporating more accurate, up-to-date landcover data, detailed agricultural data, and urbanization data. The models will then be coupled to create a seamless final landscape scale model of black bear habitat that identifies areas of importance for bears and specific forest management endpoints needed to maintain or create quality bear habitat.
The GCPO LCC region contains some of the most diverse aquatic biota in the world. The streams and rivers on which this biota depends are valuable conservation and economic resources. However, fragmentation of streams and rivers by dams and other barriers is a primary threat to the health of resident and anadromous fish species in southern rivers. Conservation planning in the region requires an assessment of the degree of fragmentation of streams and rivers and potential impacts on fish populations. However, the ability to conduct a connectivity assessment is limited in the GCPO LCC region due to the lack of a comprehensive dataset of fish barrier locations, attributes, and links to basic river maps. SARP proposes...
Conservation planning and delivery is often carried out by multiple stakeholders in isolation and constrained to political boundaries. Developing a regional conservation blueprint through partnership is an important component of the effort to conserve biodiversity in the face of declining agency capacity (staff and budgets) and rapidly changing landscapes and climate. In 2012, Missouri, Oklahoma, and Arkansas committed to developing a shared vision for conservation in the Ozark Highlands ecological region. Staff from the Gulf Coastal Plains & Ozarks Landscape Conservation Cooperative and the Central Hardwoods Joint Venture engaged in this effort to provide geospatial and conservation planning capacity. The resulting...
A prioritization model for identifying potentially suitable but currently unoccupied habitats to target search and restoration efforts for the federally-threatened Louisiana Pearlshell Mussel.
This project links downscaled climate data to an ecosystem model (LINKAGES) to a landscape simulator (LANDIS) to wildlife models (HSI). Collectively, these models offer a means to assess the response of wildlife to climate change - mediated through habitat.
A landscape level AG spawning suitability data layer was developed to screen for landscape level features indicating locations that may be suitable for AG spawning within the lower Mississippi river corridor. Suitability was determined using a combination of inundation frequency, land cover, and thermal characteristics derived from related landscape level analyses (see below). The result for each evaluation was coded to display the predicted suitability for AG spawning . Habitat suitablility was informed by an alligator gar telemetry project on the St. Catherine Creek National Wildlife Refuge south of Natchez, MS. Approximately 20 fish were tagged in 2010, 2012 and 2013 and movement patterns on the floodplain were...
A prioritization model for identifying potentially suitable but currently unoccupied habitats to target search and restoration efforts for the federally-threatened Louisiana Pearlshell Mussel.
The alligator gar (Atractosteus spatula; AG) is a large, long-lived, physostomous fish that prefer slow-moving rivers, bayous, and oxbows most of the year, and require access to inundated floodplains or wetland vegetation for spawning and nursery habitats (Inebnit 2009; Kluender 2011, Buckmeier 2013). Historically, AG were distributed throughout the central U.S., ranging from Oklahoma southward to the Gulf of Mexico but more recently, abundances have declined and AG is now considered vulnerable to localized extirpation (Ferrara 2001) . Several authors have cited habitat alteration and overexploitation as the most important factors in the pervasive decline in abundance (Robinson and Buchanan 1988; Simon and Wallus...
The goal of the Ozark Highlands Comprehensive Conservation Strategy (CCS) is to take an ecoregional approach to designing landscapes capable of sustaining healthy plant and animal communities in the Ozark Highlands. A comprehensive conservation strategy is Strategic Habitat Conservation. SHC is a continuous dialogue for habitat conservation. In a rapidly changing world this is necessarily a process rather than a product. An important milestone towards the CCS goal is the development of Conservation Opportunity Areas (COAs) that will focus conservation delivery efforts by the partners and other stakeholders. Although that product is important, this project goes beyond defining COAs to develop a preliminary network...
A presentation describing the planned prioritization model for identifying potentially suitable but currently unoccupied habitats to target search and restoration efforts for the federally-threatened Louisiana Pearlshell Mussel, from an early stage in the project.
This project will expand the East Gulf Coastal Plain’s existing grassland bird habitat model for prioritizing habitat management to include non-avian species of conservation concern in theGulf Coastal Plains and Ozarks region. It will also incorporate non-biological economics and cost effectiveness objectives into the decision framework.
Our goal is to predict the potential consequences of interactions among forest management, succession and natural disturbance, and climate change on Midwestern central hardwood landscapes and wildlife. We are working with partners that include the USDA Forest Service Eastern Region, the Northern Institute of Applied Climate Science, the Gulf Plains and Ozarks LCC, the USGS Northeast Climate Science Center, and the University of Missouri. We are making predictions for scenarios that are defined by alternative forest management actions, natural disturbance regimes, and alternative climate models. We first predict changes in tree species establishment under alternative climates on Midwestern sites with the LINKAGES...
This project will improve the existing Louisiana and Ozarks black bear models by incorporating more accurate, up-to-date landcover data, detailed agricultural data, and urbanization data. The models will then be coupled to create a seamless final landscape scale model of black bear habitat that identifies areas of importance for bears and specific forest management endpoints needed to maintain or create quality bear habitat.
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.
Efforts to conserve regional biodiversity in the face of global climate change, habitat loss and fragmentation will depend on approaches that consider population processes at multiple scales. By combining habitat and demographic modeling, landscape-based population viability models effectively relate small-scale habitat and landscape patterns to regional population viability. We demonstrate the power of landscape-based population viability models to inform conservation planning by using these models to evaluate responses of prairie warbler (Dendroica discolor) and wood thrush (Hylocichla mustelina) populations in the Central Hardwoods Bird Conservation Region to simulated conservation scenarios. We assessed the...
This project links downscaled climate data to an ecosystem model (LINKAGES) to a landscape simulator (LANDIS) to wildlife models (HSI). Collectively, these models offer a means to assess the response of wildlife to climate change - mediated through habitat.