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Landscape simulation modeling will be used to develop detailed management guidelines for restoring and sustaining whitebark pine under future climates, accounting for the principal stressors that threaten its persistence (exotic disease infections, mountain pine beetles, and fire exclusion policies). We will build on existing work, including the 2012 publication A Range-Wide Restoration Strategy for Whitebark Pine Forests and existing simulation areas within critical whitebark pine habitat. This project will create a robust and trans-boundary set of management tools for creating resistant and resilient whitebark pine forests within the Rocky Mountains, USA and Canada.FY2013Objectives:We propose to use FireBGCv2...
Categories: Data,
Project;
Types: Map Service,
OGC WFS Layer,
OGC WMS Layer,
OGC WMS Service;
Tags: Alberta,
British Columbia,
Climate Change,
Conservation Plan/Design/Framework,
Conservation Planning, All tags...
Decision Support,
Federal resource managers,
Goal 4: Promote landscape-scale disturbances,
Grizzly Bear,
ID-1,
ID-2,
ID-2,
ID-2,
Idaho,
Idaho,
Invasive Species,
LCC Network Science Catalog,
MT-1,
MT-1,
MT-1,
Montana,
Montana,
Montana,
Montana,
Northern Rocky Mountain White Bark Pine Range,
OR-2,
OR-2,
OR-2,
Oregon,
Oregon,
Oregon,
Oregon,
Policy makers & regulators,
Presentation,
Project,
Publication,
Rocky Mountain,
State agencies,
WA-5,
WA-5,
WA-5,
WY-1,
WY-1,
WY-1,
Washington,
Washington,
Washington,
Washington,
Whitebark Pine,
Wyoming,
Wyoming,
Wyoming,
Wyoming,
completed,
environment, Fewer tags
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Greater sage-grouse genetic connectivity is essential to the species persistence across the Great Northern landscape; without such connectivity the greater sage-grouse may suffer the same fate as many other related species of grouse, which disappeared from the middle and eastern portion of the United States due to loss of habitat coupled with inbreeding depression. To prevent isolation in the face of energy development and other landscape changes it is essential that we evaluate both fine-scale connectivity and assign relative importance to different leks (breeding populations) on the landscape. This massive task cannot be accomplished with existing tools and maps; fortunately, advanced molecular genomic analyses...
Categories: Data,
Project;
Types: Map Service,
OGC WFS Layer,
OGC WMS Layer,
OGC WMS Service;
Tags: 2012,
AZ-1,
Academics & scientific researchers,
Alberta,
Arizona, All tags...
Arizona,
CA-1,
CA-1,
CA-1,
CA-4,
CA-4,
CA-4,
CA-8,
CA-8,
CA-8,
CO-2,
CO-2,
CO-2,
CO-3,
CO-3,
CO-3,
CO-4,
CO-4,
CO-4,
CO-5,
CO-5,
CO-5,
California,
California,
California,
California,
Climate Change,
Co,
Co,
Co,
Colorado,
Colorado Plateau Management Zone,
Columbia Basin Management Zone,
Data Acquisition and Development,
FY 2012,
Federal resource managers,
Goal 2: Conserve landscape connectivity,
Great Plains Management Zone,
Greater Sage-Grouse,
ID-1,
ID-1,
ID-1,
ID-2,
ID-2,
ID-2,
Idaho,
Informing Conservation Delivery,
LCC Network Science Catalog,
Land Use Change,
MT-1,
MT-1,
MT-1,
Map,
Methodology/Protocol,
Monitoring,
Montana,
ND-1,
ND-1,
ND-1,
NE-3,
NE-3,
NE-3,
NM-3,
NM-3,
NM-3,
NV-2,
NV-2,
NV-2,
NV-4,
NV-4,
NV-4,
Nebraska,
Nevada,
New Mexico,
North Dakota,
Northern Great Basin Management Zone,
OR-2,
OR-2,
OR-2,
OR-4,
OR-4,
OR-4,
Oregon,
Project,
Publication,
Rocky Mountain,
SD-1,
SD-1,
SD-1,
Sage Shrub/Grassland,
Sage-Steppe,
Saskatchewan,
Snake River Plain Management Zone,
South Dakota,
Southern Great Basin Management Zone,
State agencies,
UT-1,
UT-1,
UT-1,
UT-2,
UT-2,
UT-2,
UT-3,
UT-3,
UT-3,
UT-4,
UT-4,
UT-4,
Utah,
WA-3,
WA-3,
WA-3,
WA-4,
WA-4,
WA-4,
WA-5,
WA-5,
WA-5,
WA-8,
WA-8,
WA-8,
WY-1,
WY-1,
WY-1,
Washington,
Wyoming,
Wyoming Basins Management Zone,
completed,
environment, Fewer tags
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Existing stream temperature data were compiled from numerous federal, state, tribal, and private sources to develop an integrated regional database. Spatial statistical models for river networks were applied to these data to develop an accurate model that predicts stream temperature for all fish-bearing streams in the US portion of the GNLCC. Differences between model outputs for historic and future climate scenarios were used to assess spatial variation in the vulnerability of sensitive fish species across the GNLCC.FY2011Objectives: Develop a regional stream temperature model that incorporates important climate drivers, wildfire/riparian conditions, and geomorphic factors; Use the model to understand and predict...
Categories: Data,
Project;
Types: Map Service,
OGC WFS Layer,
OGC WMS Layer,
OGC WMS Service;
Tags: Academics & scientific researchers,
Aquatic Connectivity,
British Columbia,
Bull Trout,
CA-1, All tags...
CA-2,
CA-2,
CA-2,
CA-3,
CA-3,
CA-3,
CA-5,
CA-5,
CA-5,
CO-2,
CO-2,
CO-2,
CO-3,
CO-3,
CO-3,
California,
California,
Cascadia,
Climate Change,
Colorado,
Colorado,
Colorado,
Columbia Basin,
Cutthroat Trout,
Data Acquisition and Development,
Datasets,
Datasets/Database,
Federal resource managers,
Goal 2: Conserve landscape connectivity,
Goal 3: Maintain hydrologic regimes,
ID-1,
ID-1,
ID-1,
ID-2,
ID-2,
ID-2,
Idaho,
Idaho,
Idaho,
Invasive Species,
LCC Network Science Catalog,
MT-1,
MT-1,
MT-1,
Map,
Models,
Montana,
Montana,
Montana,
NV-2,
NV-2,
NV-2,
Nevada,
Nevada,
Nevada,
Northwest,
Northwest U.S.,
OR-1,
OR-1,
OR-1,
OR-2,
OR-2,
OR-2,
OR-3,
OR-3,
OR-3,
OR-4,
OR-4,
OR-4,
OR-5,
OR-5,
OR-5,
Oregon,
Oregon,
Oregon,
Population & Habitat Evaluation/Projection,
Project,
Riverine,
Rivers & Riparian Corridors,
Rocky Mountain,
Sage-Steppe,
Salmon,
State agencies,
Steelhead Trout,
Stream,
Temperature,
UT-1,
UT-1,
UT-1,
Utah,
Utah,
Utah,
Vulnerability Assessment,
WA-1,
WA-1,
WA-1,
WA-2,
WA-2,
WA-2,
WA-3,
WA-3,
WA-3,
WA-4,
WA-4,
WA-4,
WA-5,
WA-5,
WA-5,
WA-6,
WA-6,
WA-6,
WA-7,
WA-7,
WA-7,
WA-8,
WA-8,
WA-8,
WA-9,
WA-9,
WA-9,
WY-1,
WY-1,
WY-1,
Washington,
Washington,
Washington,
Website,
Wyoming,
Wyoming,
Wyoming,
completed,
environment, Fewer tags
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