This project helps the Central Valley Joint Venture (CVJV) track gains and losses of key bird and waterfowl habitats at a landscape scale. This will allow the CVJV to effectively monitor and evaluate habitats essential to conservation planning for wildlife species.
Projects
Landscape Conservation Cooperatives use a collaborative approach to identify landscape scale conservation solutions. LCCs work across jurisdictional and political boundaries to work with partners to: meet unfilled conservation needs, develop decision support tools, share data and knowledge, and facilitate and foster partnerships.
As part of a shared science strategy, LCCs coordinate closely with the National Climate Change and Wildlife Center and the eight regional Climate Science Centers.
Why Rangelands: The Central Valley of California, the surrounding foothills and the interior Coast Range include over 18 million acres of grassland. Most of this land is privately owned and managed for livestock production.
The CA Academy of Science and Point Blue Conservation Science conducted a systematic analysis of uncertainty in modeling the future distributions of ~50 California endemic plant species and ~50 California land birds, explicitly partitioning among 5 alternative sources of variation and testing for
The main goal of this project is to ensure that the 2011-13 climate change update to the Baylands Ecosystem Habitat Goals Report (Baylands Goals) and other key, ongoing conservation activities in the San Francisco Bay region use the latest information about the current and future status of San Fr
The California Invasive Plant Council (Cal-IPC) developed a “risk mapping” approach that combines comprehensive distribution maps with maps of current and future suitable range to show where each (invasive) species is likely to spread.
California's native fishes are mostly endemic, with no place to go as climate change increases water temperatures and alters stream flows. Many of the alien fishes, however, are likely to benefit from the effects of climate change.
This project integrates fire risk models, species distribution models (SDMs) and population models with scenarios of future climate and land cover to project how the effects of climate-induced changes to species distributions and land use change will impact threatened species in fire-prone ecosys
The goal of this project is to create critically needed coastal fog datasets.
Activity 1. Quantify viability of corridors using temporal sampling: past, present, future. As large-scale wind patterns change, the viability of flyways in the Pacific hemisphere is likely to change.
The Aleutian archipelago is an area that is rich in cultural history. Information about cultural sites and artifacts exists in a variety of formats including peer-reviewed publications, agency reports, and other records.
Continuous, long-term monitoring of the food habits of marine birds is a key component in detecting responses to anticipated climate change of both the birds and the prey populations on which they depend.
This project takes advantage of an existing helicopter platform on St. Lawrence that will be used to collect ShoreZone imagery of the island.
This project will expand abundance & distribution models for seabirds, currently underway in Aleutian Is region (USFWS-funded project under Survey, Monitoring & Assessment program) to the greater ABSI-LCC region, and integrate 2013 seabird surveys into the analysis.
We propose developing an Alaska node for the iMapInvases database, to be managed and maintained by AKNHP.
The occurrence of Potentially Toxic Elements (PTEs) in the Arctic and sub-Arctic is of major concern for the sensitive ecosystems and the humans and aquatic flora and fauna in this region.
Unifying state-based stream classifications into a single consistent system, principal investigators at The Nature Conservancy developed a hierarchical classification system and map for stream and river systems for the Appalachian LCC that represents the region’s natural flowing-water aquatic hab
The Appalachian LCC is currently engaged in an effort to develop a draft regional conservation plan for the Cooperative using an interactive and iterative spatial prioritization framework.
The distribution and abundance of fishes across the Alaska Arctic is not well understood. Better information on fish distribution is needed for habitat assessment and modeling activities and is also important for planning industrial activities.
The Bureau of Ocean Energy Management (BOEM) initiated the development of an Arctic Coastal Impressions booklet and photographic exhibit. In the exhibit, there were dozens of spectacular photos of the Arctic coastline.
Widespread changes in lake distribution on the Arctic Coastal Plain (ACP) would affect water availability for humans, fish and other water-dependent species.
In 2010, FWS provided funds, as a contribution to Arctic LCC activities, to support ongoing stream gaging of the Canning and Tamayariak rivers.
The purpose of this project is to provide better information to industry and regulatory agencies regarding the likely locations of polar bear dens.
LCC funding for this project helped maintain a network of hydrology monitoring sites in a representative watershed of the Arctic Coastal Plain.
The Anaktuvuk River Fire was the largest, highest-severity wildfire recorded on Alaska’s North Slope since records began in 1956.
These products summarize baseline and projected temperature and precipitation. The animations and maps are focused on the northern portion of Alaska, while the raster data have a much larger spatial extent covering Alaska and Western Canada (YT, BC, AB, SK, and MB).
The Wildlife Conservation Society will assess the climate change vulnerability of bird species that regularly breed in substantial populations in Alaska using the NatureServe Climate Change Vulnerability Index (CCVI) tool.
The Nature Conservancy (TNC) drew upon its existing Canadian network to coordinate with potential Canadian partners on behalf of the Arctic LCC.
LCC funding allowed completion of this BLM initiative to develop a North Slope-wide cover type map and create a crosswalk that integrates all component cover type maps that comprise the larger overall North Slope cover type map.
The ALCC has asked the U.S. Institute for Environmental Conflict Resolution (U.S. Institute) to assist them in engaging a third-party neutral facilitator who can work with the steering committee to identify key landscape scale resource management needs common to many of the ALCC partners.
The Bureau of Ocean Energy Management (BOEM) is supporting a field effort in support of a ShoreZone mapping project along the Chukchi and Beaufort coasts. Funds from the LCC will allow for the inclusion of three additional ShoreStations.
Over the last 3 years, high-resolution LiDAR elevation data has been acquired for much of the northern coast of Alaska in support of the USGS Coastal and Marine Geology Program's National Assessment of Shoreline Change project.
This project used historical climate records for Alaska and Western Canada to identify patterns in temperature and precipitation reflecting the distribution of biomes seen across this region today.
The
North
Slope
of
Alaska
lies
on
the
north
side
of
Brooks
Range
and
includes
extensive
coastlines
along
the
Chukchi
Sea
and
Beaufort
Sea.
These