Projects By Category: vulnerability assessment

FY2011

Assessing Future Energy Development across the Appalachian LCC used models that combined data on energy development trends and identified where these may intersect with important natural resource and ecosystem services to give a more comprehensive picture of what potential energy development coul

Increased network capacity is a priority identified by the GNLCC and the RMPF Leadership Team to build on the organizational structure of LCC Partner Forums.

The Beaufort Sea coast in Arctic Alaska and neighboring northern Canada has recently experienced extreme and accelerated climate change, including a dramatic reduction in summer sea ice.

In Alaska, changes in snow, ice, and weather, have resulted in risks to human lives, infrastructure damage, threats to valuable natural resources, and disruption of hunting, fishing, and livelihoods.

This project integrates projections from two climate downscaling approaches into a series of future climate scenarios that will be used to assess the vulnerability of resources and ecosystem services within the Aleutian and Bering Sea Islands LCC.

Partners developed a simulation model to better show how various projections associated with increased marine traffic in the Bering Sea might look in the coming decades.

While meadows cover less than one percent of the Sierra Nevada, these ecosystems are of high ecological importance given their role in carbon and nitrogen storage, mediation of surface water flows, groundwater recharge, sediment filtration, and as refugia for numerous species.

This project uses existing decision support tools (DST) in a scenario planning analysis for the South Bay Salt Ponds Restoration Project (SBSPRP) as a case study that other bayland managers can reference for best practices for using these DSTs for adaptation planning.

This project used the NatureServe Climate Change Vulnerability Index tool to assess vulnerability of 140 bird species that breed in the Sierra Nevada and will develop a peer-reviewed Climate Change Adaptation Strategy for Sierra Nevada bird species that are most vulnerable to climate change.

Gulf Coast Prairie Landscape Conservation Cooperative partners are undertaking numerous efforts to conserve and restore coastal resources, many of which are sensitive to the effects of climate change.

Climate, sea level rise, and urbanization are undergoing unprecedented levels of combined change and are expected to have large effects on natural resources — particularly along the Gulf of Mexico coastline (Gulf Coast).

The YKD is also home to the largest subsistence-based economy in Alaska.

This project provided systematic coastal habitat imagery and mapping for the Alaska Peninsula shoreline following the Alaska ShoreZone Mapping Protocol and made these products web-accessible. The completed mapping product is available on the ShoreZone website in a searchable dataset.

FY2014

The Washington Connected Landscapes Project is a highly leveraged effort to provide scientific analyses and tools necessary to conserve wildlife habitat connectivity.

FY2016
This project will address limited tribal capacity for vulnerability assessment by providing guidance and data tailored to the needs and capacities of Northwest and Great Basin tribes. Specifically, the project will:

FY2014
Workshops that provide tribal representatives with an introduction to planning for climate change impacts.

The Services goal with this project is to bridge the gap between guidance documents and field staff who develop Habitat Conservation Plans (HCPs).

WDFW will use funds provided by the NPLCC to integrate climate change impacts and implications into our State Wildlife Action Plan (SWAP) Revision.

WDFW will use funds provided by the NPLCC to integrate climate change impacts and implications into our State Wildlife Action Plan (SWAP) Revision.

Building on currently available resources and on the prior climate adaptation experiences of our team,
which includes tribal staff and a cultural anthropologist who is also an enrolled member of the

Practitioners struggle with how to identify, prioritize, and implement climate adaptation actions
that can effectively reduce vulnerability; these decisions may be more easily made and successfully

The Jamestown SKlallam and Port Gamble SKlallam tribes, and many other tribes in the Pacific
Northwest, rely on ESA listed fish species for subsistence as well as cultural and economic practices.

This project, with funding support by the North Pacific Landscape Conservation Cooperative and
partners, will address the need to better understand the impact that climate change will have on our

Background: Yellow-cedar (Callitropsis nootkatensis) is an economically and culturally important tree of the North Pacific coastal rainforest, ranging from northern California through Southeast Alaska.

The forum will have two major goals:. First, to share the successes and learnings of past LCC investments on the subjects of Traditional Ecological Knowledge, subsistence resources, and climate adaptation plans.

This project will apply the results of an on-going climate change vulnerability assessment to the management of two complex landscapes.

·       Anticipating potential shifts in plant communities has been a major challenge in climate-change ecology.

An urgent need exists to uniformly assess river corridors, including floodplains, and to prioritize areas for protection across the North Atlantic landscape. These are daunting tasks since there are no well-defined methods to delineate and assess scores of diverse river corridors in this region.

This project will use existing climate change scenarios and sea-level rise projections to create a Climate Change Adaptation Plan in collaboration with the Chitimacha Tribe of Louisiana.

Submersed aquatic vegetation, a critical component of highly productive coastal ecosystems, is greatly affected by sea level rise.

The project had four explicit objectives: 1) Conduct a climate vulnerability assessment of Species of Greatest Need of Conservation and major habitat types 2) Identify conservation strategies that increase resiliency or adaptive capacity, or mitigate the effects of climate change 3) Outline an ad

This project evaluated the potential impacts of storm surges and relative sea level rise on nesting geese and eider species that commonly breed on the Yukon-Kuskokwim Delta (Y-K Delta).

Full Project Title

Project Summary

The project will complete an extensive mapping of coastal change along the entire coastline of the Western Alaska Landscape Conservation Cooperative (LCC). The work will provide important baseline information on the distribution and magnitude of landscape changes over the past 41 years.

Southwest Alaska is one of the fastest warming regions on Earth and its aquatic resources are at distinct risk from changing climate.

This project uses previously collected ShoreZone imagery to map nearly 1,600 km of coastline between Wales and Kotzebue.

This project uses existing ShoreZone coastal imagery to map 719 km of shoreline in Bristol Bay, from Cape Constantine to Cape Newenham. This section of coastline is an extremely important herring spawning area and an important component of the Bristol Bay fisheries.

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 biom

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.

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 effect

The primary goals of this proposed project are to help identify and prioritize threats to endangered mussels and to determine whether existing environmental concentrations of ammonia, copper, and major ions in sediment pore-water are contributing to the decline of native mussel populations, as in

This project directly addresses the need for integration of climate change information and strategies into Wisconsin’s Wildlife Action Plan (WWAP) as identified by Upper Midwest and Great Lakes Land Conservation Cooperative.

Thermokarst lakes (lakes formed in a depression by meltwater from thawing permafrost) are common features and important ecosystems in Alaska.

Western Alaska is one of the fastest warming regions on the globe and recent trends are expected to continue into the next century, likely having substantial effects on the aquatic resources of this region.

To assess the vulnerability of a region to invasive plants, documentation of the presence or absence of invasive plants is necessary. This project expands on work initiated by the EPA to identify invasive plants in rural communities in the Bristol Bay region.

This project evaluates the connections between climate change impacts and health in Bristol Bay communities. Climate change impacts were assessed through the lens of public health, with an eye towards the potential effects on disease, injury, food and water security, and mental health.

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.

Our project focuses on understanding patterns and causes of recent population declines in the Haleakala silversword that are associated with decreasing precipitation, increasing temperature, and related climate changes in Hawaii's high-elevation ecosystems.