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This carbon sequestration research is part of a new pilot grassland conservation program to protect at-risk grasslands from conversion to cropland in the northern Great Plains. Natural resources partners have leveraged more than $3 million in private and federal funding to support an innovative program that extends protection of privately-owned grasslands that have expired under the Conservation Reserve Program (CRP). In the past two years alone, the number of CRP acres nationally has dropped from 31.2 million to 27 million. Of the 4.2-million-acre-decline, lands lost in North Dakota and Montana accounted for 1.6 million acres, or 38 percent. The program aims to encourage private landowners to conserve CRP grasslands...
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Native grasslands have been reduced to a fraction of their original extent, with estimated total loss prior to the 1990s of 70% for prairie grassland (Federal Provincial and Territorial Governments of Canada 2010). Conversion of native grassland to cropland and tame hayfields or pasture has been one of the leading drivers of native grassland loss in North America. Degradation of native grasslands also continues in some areas due to changes in natural disturbance regimes such as fire suppression and intensive prolonged cattle grazing, threats from invasive non-native species, fragmentation, intensification of agriculture, and economic development associated with population growth(Federal Provincial and Territorial...
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This project will build a Geographic Information System (GIS) database for the Plains and Prairie Potholes LCC comprised of1) wetland abundance, 2) land cover, 3) primary productivity, and 4) wetness. Ultimately, the database will provide foundational information for future research and will facilitate management and conservation activities for multiple species across the entire LCC.
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The project will utilize a 4.5 million acre study area on the Montana Glaciated Plains. The objectives are to (1) identify environmental conditions and management practices that will maintain habitat for grassland birds but not impact ranching sustainability, and (2) identify areas on the landscape that have the greatest conservation potential for grassland birds. This spatial analysis will provide the framework for a rigorous assessment of management actions on the Montana Glaciated Plains.
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Land transformations occurring from energy development and agrarian use have altered the natural connectivity of fish communities inhabiting prairie waterways. The nation’s prairie waterways are obstructed by thousands of barriers that include road culverts, irrigation diversions, and dams. Connectivity is essential for the long term viability of aquatic species. One of the most promising adaptive management strategies for addressing impacts to aquatic systems by climate change and other landscape stressors is increasing connectivity. The purpose of this research is to characterize swimming abilities of three northern plains fish species; the sauger, the longnose dace, and the fathead minnow. The results of the...
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Rural America has changed dramatically over the last century, from having over half the population living in rural settings to only 20 percent residing in a rural area today, and outmigration of younger populations from rural communities remains a constant issue for local governing officials. A declining tax base and concurrent rising costs for maintenance and repair of aging infrastructure add further challenges to policy decisions. Reduced enrollment has caused school closures or mergers. Farm consolidation and technical advances reduced the demand for local labor. On the positive side, however, record-high commodity prices have amplified farm income to new heights. The increased revenues can lead to farmers spending...
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Cottonwood forests are in decline becasue of losses from land use conversion and reduced regeneration from river regulation. Projecting lon-term implications of current trends and policies, or alterations of these, will help to identify the importance and scale of restoration activities needed to offset losses. This project developed a landscape dynamic model to project future (eig. 25, 50, 100 year) trends in cottonwood forst area and age distribution for four remnant floodplain reches on the Missouri River, based on recent rates (or alternative scenarios) of land use change, cottonwood recruitment, and succession. For two reaches, these changes are used to project the effects onabundances of selected songbird...
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Habitat loss is one of the key factors contributing to loss of wildlife, but ultimately it comes down to decisions made at he private landowner. Economin pressures from comodity prices probably heavily wieght in decisions. However, understanding how a private landowner responds to economic incentives and pressures may identify strategies to reduce habitat loss in the plains and prairie pothole region. Also, farmers & ranchers generally have more thn an econominc interest in their lands with strong social and cultura ties. The aging trend inteh agricultrual industry is another factor contributing to decisions about land, foten with farm/rances being split among surviving relatives who may not continue to...
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Map drained wetland basins in the PPR of Iowa and complete data set for the eastern (Region 3) of the U.S. Prairie Pothole Regionl. These data form the foundation for a newly launced inititative to develop an “Integrated Conservation Design Strategy for the PPR of Minnesota and Iowa.” This new initiative integrates wildlife habitat, water quality and flood attenuation objectives with wetland restoration potential maps to develop multi-objective wetland restoration plans for landscape-scale watershed.
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The Midwest Glacial Lakes Partnership (MGLP), a Fish Habitat Partnership (FHP) recognized by the National Fish Habitat Action Plan (NFHAP) Board in March 2009, has been developing a dataset for the Midwest glacial lakes, equivalent to the NHD, since 2008. This project will complete development of a standardized lakeshed dataset that identifies the geographic extent of each lake, its local catchment, and tributary catchment.
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A strategy has been suggested for developing regionally specific Rapid Assessment Methods (RAMs) to evaluate wildlife-related issues associated with wind development at specific sites. The RAMs are anticipated to be appropriate for use in situations identified as Tier 1 (preliminary evaluation or screening of potential sites) by the Federal Advisory Committee to the U.S. Fish and Wildlife Service. A Rapid Assessment Methodology specifically for the U.S. portion of Bird Conservation Region 11, the Prairie Pothole Region, has been developed as a pilot test of the strategy. It has been reviewed by several individuals familiar with the wildlife issues of the region. Discussions are underway regarding integrating the...
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In the Prairie Pothole Region (PPR) wetland plant, invertebrate, and waterbird productivity are primarily driven by water-level dynamics in response to climate cycles. Large proportions of wetlands in the PPR have been drained, often consolidating water from smaller to larger-interconnected wetlands. This project will examine whether large basins that receive inflow from consolidation drainage have reduced water-level dynamics in response to climate cycles than those in undrained landscapes, resulting in relatively stable wetlands that have lower densities of invertebrate forage for ducks and shorebirds. We will also include a sample of wetland historically used by piping plovers to assess the threat of consolidation...
The Landscapes Patterns project is intended to provide support to multiple organizations with an interest in achieving environmental outcomes on landscapes of varying scales in the north-west part of the North American continent in general, and in Alberta in particular. The project undertook a literature review of publications that show a relationship between human land use and land use patterns and the qualitative state of various parts of the environment. Most published research focuses on wildlife species and water quality. Various map files were also produced as part of the project. The intent is to set up a spatial or keyword searchable function on the LC Map website and to allow website users to add citations...
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Livestock grazing practices are managed by private landowners and federal and state agencies across the western U.S. Increasingly, grazing strategies by these entities are incorporating conservation objectives and developing goals that include livestock production that is compatible with wildlife conservation objectives. This project evaluates the impact of conservation-oriented, rest-rotation livestock grazing and climate changes on migratory bird species associated with sagebrush habitat to better inform grazing management practices. Rest-rotation grazing management is likely to enhance important components of sagebrush, shrubland, and grassland habitat for a wide range of species, but little work has been done...
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The rapid expansion of pattern tile drainage (PTD) to enhance agricultural production in the Prairie Pothole Region (PPR) has the potential to negatively impact ecosystem services provided by wetlands. To better understand and assess these impacts we will develop a spatial database to provide a regional characterization of areas at risk to PTD. Spatial information in conjunction with existing data and models will be used to make preliminary projections on the effects of PTD on cosystem services such as duck production, water storage and water quality. Spatial information will be used to identify study sites that will be instrumented to quantify and model the effects of PTD systems on wetland hydrology; this information...
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The collection of LiDAR data for the James River basin began in 2010. The detailed surface elevation data will be used for conservation planning, design, research, delivery, floodplain mapping and hydrologic modeling utilizing LiDAR technology. The project area includes part of the James River watershed and adjacent areas in North and South Dakota. The project encompasses 16,825 sq miles and the 2010 phase of the project acquired 8,060 sq miles of LiDAR data and subsequent terrain data. This project represents the second phase with an objective to collect the remaining 8,765 square miles of the project area.
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This project will develop species distribution models (SDM) to evaluate current and future occurrence and density of wetland-dependent birds relative to several predictors, including land use patterns, wetland condition and connectivity, geomorphic setting and climate. These tools will suggest which wetland-dependent bird species appear most vulnerable to climate and land use change based on the expected extent of range change under various scenarios. Knowledge of natural history and habitat associations of species coupled with coefficients from regression models will provide insight into the potential reasons for species vulnerability. This information will be valuable in the development of management strategies.
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Montana's State Wildlife Action Plan (SWAP) is a comprehensive strategy to maintain the health and diversity of wildlife within the state, including reducing the need for future listings under the Endangered Species Act. Special emphasis is given to addressing wildlife species that have received less attention in the past, including those that are not hunted or fished. All 50 states have developed SWAPs, providing a framework for planning and coordination on wildlife issues that cross state boundaries. The development and implementation of SWAPs is supported by the US Fish and Wildlife Services' State and Tribal Wildlife Grant Program.Montana's SWAP addresses a variety of wildlife and habitat management challenges,...
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Wetland hydroperiod, the length of time water is available in wetlands, is particularly sensitive to changes in precipitation, temperature and timing due to climate variation. Truncated hydroperiod has major implications for wetland-dependent species (e.g., waterfowl) and human water allocation. Researchers aim to link hydroperiod to current climatic variation and use this relationship to predict wetland hydroperiod across the moisture gradient from sage steppe to grasslands.
map background search result map search result map Building the Foundation for International Conservation Planning for the Plains and Prairie Pothole Ecosystems LiDAR Data Collection for the James River Watershed and Adjacent Areas in South Dakota and North Dakota Assessment of Pattern Tile Drainage on Wetland Hydrology and Ecosystem Services in the Prairie Pothole Region Capture of Down-Scale Climate Change Models. Part B: The Application of High Resolution Climate Models for Avian Conservation Iowa Wetland Assessment and Restorable Wetland Inventory: Improving Wetland Restoration Planning Through Processing of Recently Collected LIDAR data for the Prairie Pothole Region of Iowa Grassland Bird Conservation on Working Landscapes: Spatial analysis linking populations to habitat Predicting Bird and Bat Fatality Risk at Wind Farms and Proposed Wind Farm Sites Using Acoustic Ultrasonic Recorders Maintaining migratory pathways of imperiled Large River and Small Stream Fishes in the Face of Climate Change and Energy Development Assessing land use practices on ecological charateristics of sagebrush ecosystems Wetland hydroperiod and climate change; implications for biodiversity and water availability Interactions of Consolidation Drainage and Climate on Water-Level Dynamics, Wetland Productivity, and Waterbirds Assessing the impacts to rural communities of wildlife habitat protection and restoration Carbon sequestration research to benefit grassland conservation in the northern Great Plains Developing a lakeshed delineation data layer for Midwest glacial lake Rapid Assessment Method for Wildlife Issues at Potential Wind Power Sites Human dimensions of habitat loss in the Plains and Prairie Potholes Region Comparative Analysis of Native Prairie Spatial Delineation Methods in the Prairie Ecozone Projecting Long-Term Landscape Change Along the Missouri River: Implications for Cottonwood Forests and Songbird Populations Montana SWAP Climate Change Chapter Carbon sequestration research to benefit grassland conservation in the northern Great Plains Iowa Wetland Assessment and Restorable Wetland Inventory: Improving Wetland Restoration Planning Through Processing of Recently Collected LIDAR data for the Prairie Pothole Region of Iowa LiDAR Data Collection for the James River Watershed and Adjacent Areas in South Dakota and North Dakota Grassland Bird Conservation on Working Landscapes: Spatial analysis linking populations to habitat Montana SWAP Climate Change Chapter Rapid Assessment Method for Wildlife Issues at Potential Wind Power Sites Developing a lakeshed delineation data layer for Midwest glacial lake Building the Foundation for International Conservation Planning for the Plains and Prairie Pothole Ecosystems Capture of Down-Scale Climate Change Models. Part B: The Application of High Resolution Climate Models for Avian Conservation Predicting Bird and Bat Fatality Risk at Wind Farms and Proposed Wind Farm Sites Using Acoustic Ultrasonic Recorders Maintaining migratory pathways of imperiled Large River and Small Stream Fishes in the Face of Climate Change and Energy Development Assessing land use practices on ecological charateristics of sagebrush ecosystems Wetland hydroperiod and climate change; implications for biodiversity and water availability Assessing the impacts to rural communities of wildlife habitat protection and restoration Human dimensions of habitat loss in the Plains and Prairie Potholes Region Comparative Analysis of Native Prairie Spatial Delineation Methods in the Prairie Ecozone Projecting Long-Term Landscape Change Along the Missouri River: Implications for Cottonwood Forests and Songbird Populations Interactions of Consolidation Drainage and Climate on Water-Level Dynamics, Wetland Productivity, and Waterbirds Assessment of Pattern Tile Drainage on Wetland Hydrology and Ecosystem Services in the Prairie Pothole Region