Projects By Status: completed

The primary objective of this project is to bring together Hawaii's climate change scientists, Molokai's traditional fishpond managers, and other natural resource managers to share scientific and cultural knowledge and work together as a team to identify adaptive management strategies for two of

This project has three objectives: (1) evaluate the abilitiy of dual acoustic-ultrasonic recorders to capture nocturnal calls of birds and bats at wind power sites; (2) relate nocturnal calls to results of facility searches at operational wind farms: (3) evaluate whether call activitiy varies in

The objective of this experimental research is to determine if genetic enrichment may enhance survival, growth, and adaptation of important native Hawaiian montane plant species to changing precipitation patterns by relocating conspecifics to more favorable climate regimes at higher elevation.

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.

The specific objectives of this contract are to identify and categorize key differences and similarities between islands and continental systems that are relevant to achieving sustainable landscapes/seascapes at regional scales; to develop a conservation framework that integrates planning process

Livestock grazing practices are managed by private landowners and federal and state agencies across the western U.S.

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.

Past analysis has shown that temperature-dependent avian malaria is likely to reduce overall available Hawaiian forest bird habitat with temperature increases.

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.

     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.

Sea-level rise (SLR) is one of the biggest threats to the Hawaiian coastline, and resource managers of coastal wetlands in Hawai‘i must begin planning now for future impacts. The majority of these impacts are expected to occur from 2040 – 2100.

The Invasion of native communities by cool-season introduced grasses, especially smooth brome and Kentucky bluegrass in upland prairies, reed canary grass in wetlands, is on one of the most important management issues on U.S. Fish and Wildlife Service (Service)-owned lands.

To anticipate how weather is likely to change as a result of increasing concentrations of greenhouse gases (such as carbon dioxide) in the atmosphere, geophysical and meteorological scientists examined the results of climate models on the fine scale climate patterns of Hawai’i to understand what

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 incorporates Heiltsuk Traditional Knowledge and Values into ecosystem-based management planning within Strategic Landscape Reserve Design (SLRD) Landscape Units. The SLRD process seeks to identify areas to set aside from logging (harvesting) over short and long term timeframes.

The overarching goal of the project was to develop overlapping conceptual models of environmental and community health indicators in reference to climate forecasts.

This project initiated the first large-scale Tribal government discussions on the relationship of scientific research and traditional knowledge in the activities of the NPLCC. The project: 1.

The project had 2 broad objectives. The first objective was to meet the needs of the Yurok Tribe in collecting and documenting TEK to inform tribal planning related to climate change impacts to culturally significant wildlife and habitats that support these species.

Central Council Tlingit and Haida Indian Tribes of Alaska (Central Council) assisted the Organized Village of Kasaan (OVK) in their NPLCC grant, Traditional Ecological Knowledge and Climate Change project.

A combination of focus groups and usability tests were used to explore the needs and preferences of a variety of NPLCC stakeholders as regards data management platform content, format, and features.

This project built on previous National Wildlife Federation work and literature reviews for the North Pacific Landscape Conservation Cooperative (NPLCC).

This project obtained information regarding past catastrophic events, such as tsunamis, and TEK through oral history interviews with Tolowa elders regarding the effects of climate change and tsunamis on traditional smelt fishing camps; generated a GIS model of coastal inundation due to sea level

This project will create a targeted and easily understandable guide to tools that support landscape-level planning in the face of climate change for NPLCC partners. The guide will build on previous NPLCC research on decision support needs with an emphasis on tools currently in use in the region.

This project used sound science and best management practices in the development and preparation of a coast redwoods for climate change workshop and related field trip involving multiple partners and others.

A conservation and restoration priorities tool was developed that provides online access to regional information including: climate change projections, watershed condition, freshwater and terrestrial species, forest ecosystem information and invasive species information.

For Tribes where significant knowledge of traditional management practices is intact, but where all or part of ancestral lands are managed by other agencies, it is important that the sharing of TEK and implementation of management take place in a manner that promotes rather than hinders Tribal so

Twelve expert focus groups convened for comprehensive, cross-disciplinary discussions on climate change effects and adaptation strategies in marine/coastal and freshwater ecosystems across the North Pacific LCC landscape. Challenges and science or tool gaps were also discussed.

This is an integrated scenario project to the PFLCC line that incorporates updated critical land and water identification project layers with a decision support system for landscape conservation planning in Florida.

This project developed hydrologic projections for diverse wetland habitats (e.g.

The PFLCC has recently completed a set of comprehensive conservation planning scenarios for the state of Florida.

The North Pacific Forest Landscape Corridor and Connectivity Project utilized a landscape connectivity simulator (UNICOR) and a genetic simulation program (CDPOP) to model the functional (dispersal and genetic) connectivity in the North Pacific Landscape.

This project developed a soil vulnerability index and map indicating where forest cover will be most affected by climate change. Using this map, researchers developed a greater understanding of potential changes in soil moisture and temperature regimes under future climate conditions.

The Province of British Columbia, Ministry of Forests, Lands, & Natural Resource Operations, in partnership with Simon Fraser University and the Alaska Coastal Rainforest Center, led a third workshop to develop cross-boundary geospatial and climate data sets in support of regional conservatio

Classifying estuarine and marine habitats was identified as a priority need for a variety of purposes in the Northeast.

Fishery and aquatic scientists often assess habitats to understand the distribution, status, threats, and relative abundance of aquatic resources. Due to the spatial nature of habitats and associated temporal changes, using traditional analytical methods is often difficult.

Consistent and accurate landscape datasets are important foundational products for ecological analyses and for understanding and anticipating the effects of climate change on forested, agricultural, and freshwater systems across the U.S. and Canada.

The Open Space Institute (OSI) disseminated knowledge and tools across the northeast U.S. and the Canadian Maritimes to advance the application of NA LCC data sets for land conservation.

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 goal of this project is to develop a detailed national sampling frame for bat monitoring at various spatial scales similar to the recently designed Amphibian and Reptile Monitoring Initiative, which will allow biologists and managers to assess the status of North American bats.

Landscape Conservation Cooperatives (LCCs) have a critical need for information management processes that facilitate science product (i.e., data, analysis and decision tools, documents) sharing; data storage, security, and dissemination; and project tracking, communication and collaboration tools

The LCC Performance Measures Project is intended to: Follow the direction of the LCC Performance Measures Working Group; Assess the needs of individual LCCs specific to Performance Measures (PM); Assess the needs of the LCC network specific to PM; Review PM frameworks from natural resource and so

The NCED partnership was initiated through a grant from the US Endowment for Forestry and Communities (the Endowment) to begin the development of a first-ever database covering easement data nationwide.

This project applied sea-level rise (SLR) modeling approaches along the Pacific coast tidal gradient at a parcel scale through improved data collection tools and collaboration relevant to land managers.

The potential implications of climate change to fishes in Great Plains rivers and streams could range from drastic shifts in distribution to extirpation.

The Confederated Salish and Kootenai Tribes (CSKT) will identify and implement the goals and objectives outlined in CSKT Climate Change Strategic Plan.

The project will establish contact with interested parties in each tribe or first nation within the Crown of the Continent to collect information on all relevant activities and research regarding climate and adaptive management within each tribal nation.

The Confederated Tribes of the Umatilla Indian Reservation (CTUIR) has been working collaboratively with the Bureau of Land Management and US Forest Service (USFS) to inventory and map current and potential distributions of plant communities which support species of cultural concern on federal la

This project will integrate the shared priorities developed by the Arid Lands Initiative (ALI) in the Columbia Plateau ecoregion into implementation mechanisms of existing and new ALI partners.

The Canadian portion of the Crown of the Continent (CCoC) ecosystem has been identified as crucial for wolverines north of the US border to rescue or supply individuals and genes through dispersal to the highly fragmented population in the northern US Rocky Mountains.

This project will focus on analysis of 10 years of GPS telemetry data for 60 grizzly bears across the threatened and fragmented trans-border grizzly bear subpopulations in the Cabinet, Yaak, Purcell, and Selkirk Mountain (Proctor et al.