Skip to main content
Advanced Search

Filters: Tags: {"type":"Label","name":"2013"} (X) > Categories: Project (X) > Categories: Data (X) > partyWithName: U.S. Fish and Wildlife Service (X)

17 results (16ms)   

Filters
Date Range
Extensions
Types
Contacts
Tag Schemes
Tags (with Type=Label )
View Results as: JSON ATOM CSV
thumbnail
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.
thumbnail
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.
This project used species distribution modeling, population genetics, and geospatial analysis of historical vs. modern vertebrate populations to identify climate change refugia and population connectivity across the Sierra Nevada. It is hypothesized that climate change refugia will increase persistence and stability of populations and, as a result, maintain higher genetic diversity. This work helps managers assess the need to include connectivity and refugia in climate change adaptation strategies. Results help Sierra Nevada land managers allocate limited resources, aid future scenario assessment at landscape scales, and develop a performance measure for assessing resilience.
Categories: Data, Project; Tags: 2011, 2013, CA, California Landscape Conservation Cooperative, Conservation Design, All tags...
This project uses bottom-up modeling at a parcel scale to measure the effects of sea-level rise (SLR) on coastal ecosystems and tidal salt marshes. At selected tidal marshes, the project team will measure several parameters that will be incorporated into ArcGIS models creating comparable datasets across the Pacific coast tidal gradient with a focus on 2-4 sites in the California LCC (e.g. San Diego, San Francisco Bay Refuges). The ultimate goal is to provide science support tools for local adaptation planning from the bottom-up that may be implemented under a structured decision-making framework.Science Delivery Phase (2013): The objectives are to: (1) Disseminate site-specific baseline data and modeling results,...
Categories: Data, Project; Tags: 2011, 2013, Applications and Tools, CA, CA-Northern, All tags...
thumbnail
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...
thumbnail
Researchers assessed how an expansion of forest reserves and climate-adaptive management may improve ecological connectivity and resilience under different climate scenarios. Resilience is measured as the capacity for these systems to maintain extant forest communities and aboveground live biomass. Forest landscape change was simulated via a spatially explicit forest ecosystem model, LANDIS-II. Simulations covered areas in northern Minnesota and northern lower Michigan that represent northern Great Lakes forest types. Restoring and maintaining ecological connectivity is one of the primary climate change adaptation strategies available to land managers, in addition to silvicultural practices. This study is...
thumbnail
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...
thumbnail
Climate change is expected to alter the distributions and community composition of stream fishes in the Great Lakes region in the 21st century, in part as a result of altered hydrological systems (stream temperature, streamflow, and habitat). Resource managers need information and tools to understand where fish species and stream habitats are expected to change under future conditions. Fish sample collections and environmental variables from multiple sources across the United States Great Lakes Basin were integrated and used to develop empirical models to predict fish species occurrence under present-day climate conditions. Random Forests models were used to predict the probability of occurrence of 13 lotic fish...
Categories: Data, Project; Types: Downloadable, Map Service, OGC WFS Layer, OGC WMS Layer, OGC WMS Service, Shapefile; Tags: 2011, 2011, 2012, 2012, 2013, All tags...
thumbnail
Mayflies (Ephemeroptera), stoneflies (Plecoptera), and caddisflies (Trichoptera) (a.k.a. EPT taxa) are the most environmentally sensitive of freshwater insects. They are utilized the world over as indicators of water quality in flowing waters. Their decline has been documented in Asia, Europe, and North America. A 220,321 record dataset of new and museum EPT specimen records covering much of the Midwest and Maximum Entropy (Maxent) software were used construct to current and future, climate influenced distribution models. Nearly 100 physical and historic vegetation variables and 9 BIOCLIM variables derived from downscaled climate data for the region were employed in this process. A total of 426 EPT species were...
thumbnail
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.
thumbnail
Oil and gas development in North Dakota is occurring at a rapid rate, and managers and biologists are ill-equipped to address and minimize damage from oil development and related activities on fish and wildlife habitat. This project aims to gather information on impacts to grassland birds from oil and gas development to better inform conservation managers.The 2012 pilot season was a success. Bird surveys were conducted at 18 oil wells and four control sites. Preliminary findings showed reduced densities of grassland birds near wells compared with away from wells, but the effect varied among species. Continuing work will strengthen inferences as well as attempt to assess effects on uncommon species such as Baird’s...
thumbnail
Ecological connectivity between the Great Lakes and their tributaries is widely impaired, and many agencies and organizations are currently investing in restoring these connections to enhance target fish and wildlife populations. To assist in targeting these investments, we have been developing spatial data on the location and attributes of barriers (dams and road-stream crossings) and fish breeding habitat throughout the Great Lakes basin to analyze the optimum strategy for enhancing connectivity and restoring fish migrations. The proposed work will result in guidance for barrier restoration at scales from individual watersheds to the entire basin, refine methodologies for spatial analysis of barriers, and provide...
thumbnail
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...
thumbnail
This project will improve tribal and First Nation engagement in cooperative natural resource conservation efforts. Researchers are fostering networking among tribes, First Nations and other relevant partners in the upper Midwest – Great Lakes region, and engaging tribal and First Nation representatives in the development of a set of principles and strategies for their authentic, robust inclusion in regional resource conservation cooperative frameworks. The project is conducting an environmental scan of current climate and landscape change planning initiatives as well as mitigation and resilience-building projects being implemented by tribes and First Nations in the region. The results will lead to broader inclusion...
thumbnail
Although it is certain that climate change will affect the hydrology and biota of Great Plains streams, how and where these effects will be manifested is not known. This project will predict the effects of climate change on these streams by creating watershed hydrology and fish assemblage models that are both linked to watershed characteristics, then predicting changes resulting from climate change using an ensemble of general circulation models. We will identify the areas of primary conservation concern by calculating Index of Biotic Integrity values for 1,600 samples in an existing regional fish database and compare them to the areas that are most likely to experience change under future climate scenarios.
    map background search result map search result map Regional decision support tool for identifying vulnerabilities of riverine habitat and fishes to climate change Manajiwin: Respecting tribes, First nations and cultural resources in cooperative landscape and climate change decision-making Full life cycle vulnerability assessments for the birds of the upper Midwest and Great Lakes Predicting climate change effects on riverine aquatic insects in the Upper Midwest Re-establishing ecological connectivity between the Great Lakes and their tributaries: Prioritization in a complex system Scenarios for forest reserve expansion and adaptive management under alternative climate change scenarios in the northern Great Lakes Assessment of Pattern Tile Drainage on Wetland Hydrology and Ecosystem Services in the Prairie Pothole Region 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 Effects of Climate Change on Native Fishes in Northern Great Plains Streams Predicting Bird and Bat Fatality Risk at Wind Farms and Proposed Wind Farm Sites Using Acoustic Ultrasonic Recorders Effects of oil and gas development on grassland birds Assessing land use practices on ecological charateristics of sagebrush ecosystems Wetland hydroperiod and climate change; implications for biodiversity and water availability Effects of oil and gas development on grassland birds 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 Scenarios for forest reserve expansion and adaptive management under alternative climate change scenarios in the northern Great Lakes Predicting Effects of Climate Change on Native Fishes in Northern Great Plains Streams Predicting Bird and Bat Fatality Risk at Wind Farms and Proposed Wind Farm Sites Using Acoustic Ultrasonic Recorders Assessing land use practices on ecological charateristics of sagebrush ecosystems Wetland hydroperiod and climate change; implications for biodiversity and water availability Assessment of Pattern Tile Drainage on Wetland Hydrology and Ecosystem Services in the Prairie Pothole Region Regional decision support tool for identifying vulnerabilities of riverine habitat and fishes to climate change Manajiwin: Respecting tribes, First nations and cultural resources in cooperative landscape and climate change decision-making Full life cycle vulnerability assessments for the birds of the upper Midwest and Great Lakes Predicting climate change effects on riverine aquatic insects in the Upper Midwest Re-establishing ecological connectivity between the Great Lakes and their tributaries: Prioritization in a complex system