Filters
Date Range
Extensions
Types
Contacts
Categories
Tag Types
Tag Schemes
|
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. They then evaluated how this information could be used to improve vegetation models across the landscape. They compared the results of different modeling approaches to the soil vulnerability map, synthesized the state of knowledge and uncertainty, and introduced management implications for action.
Categories: Data,
Project;
Types: Map Service,
OGC WFS Layer,
OGC WMS Layer,
OGC WMS Service;
Tags: 2011,
AK,
AK,
AK,
AK, All tags...
AK-0,
AK-1,
AK-1,
AK-1,
Academics & scientific researchers,
B.C.,
B.C.,
B.C.,
B.C.,
CA,
CA,
CA,
CA,
CA-2,
Ca-2,
Conservation Planning,
Conservation Planning,
Datasets/Database,
Decision Support,
Decision Support,
Decision Support,
Federal resource managers,
LCC,
LCC Network Science Catalog,
LCC Network Science Catalog - LCCScienceCatalog,
NPLCC,
NPLCC,
North Pacific Landscape Conservation Cooperative,
OR-1,
OR-1,
OR-1,
OR-1,
OR-3,
OR-3,
OR-3,
OR-3,
OR-4,
OR-4,
OR-4,
OR-4,
OR-5,
OR-5,
OR-5,
OR-5,
Priority B. Changes in air temperature and precipitation on forests,
Project,
Publication,
Regional & county planners,
Report,
Science Project,
Vulnerability Assessment,
Vulnerability Assessment,
WA,
WA-1,
WA-1,
WA-1,
WA-1,
WA-10,
WA-10,
WA-10,
WA-10,
WA-2,
WA-2,
WA-2,
WA-2,
WA-3,
WA-3,
WA-3,
WA-3,
WA-6,
WA-6,
WA-6,
WA-6,
WA-7,
WA-7,
WA-7,
WA-7,
WA-9,
WA-9,
WA-9,
WA-9,
WA. OR,
WA. OR,
WA. OR,
climate change,
climate change,
climate change,
climate change,
completed,
product,
soils,
soils,
vegetation model,
vegetation model,
vegetation model,
vegetation model, Fewer tags
This dataset represents the average amount of Growing Degree Days (GDD) per year within each HUC5 watershed, simulated by the model MC1 for the 30-year period 1971-2000. Growing degree days (referenced to 0oC) (unit = deg C days) were determined for each HUC5 watershed. Watersheds represent 5th level (HUC5, 10-digit) hydrologic unit boundaries. They were acquired from the Natural Resources Conservation Service. Background: The dynamic global vegetation model MC1 (see Bachelet et al. 2001) was used to simulate vegetation dynamics, associated carbon and nitrogen cycle, water budget, and wild fire impacts for OR, WA, AZ and NM, for a project funded by the USDA Forest Service (PNW 09-JV-11261900-003). The MC1 model...
Tags: DataBasin,
Effects of change in air temp. and precip. on forests,
NPLCC,
North Pacific Landscape Conservation Cooperative,
climate change, All tags...
dynamic global vegetation model,
growing degree days (gdd),
huc5,
hydrologic units,
mc1,
model,
simulation,
watersheds, Fewer tags
The over-arching theme of this work is that soil data affect the performance and realism of vegetation models with particular focus on their ability to predict or explain disturbances such as fire or disease. We tested the sensitivity of the Excel version of the 3-PG model to soil properties and applied this information to understanding bark beetle attacks in drought-stressed forests. We tested the sensitivity of the MC2 model to soil depth with a particular focus on how soils affect the biogeochemistry and fire modules of the Dynamic Global Vegetation Model (DGVM). We found in these sensitivity analyses, soil depth, soil water storage capacity (ASW) and soil texture are among the most important soil factors to...
This dataset represents the average carbon consumed by fire for each HUC5 watershed, simulated by the model MC1 for the 30-year period 1971-2000. Carbon in biomass consumed by fire, in g m-2 yr-1, was determined for each HUC5 watershed. Watersheds represent 5th level (HUC5, 10-digit) hydrologic unit boundaries and were acquired from the Natural Resources Conservation Service. Background: The dynamic global vegetation model MC1 (see Bachelet et al. 2001) was used to simulate vegetation dynamics, associated carbon and nitrogen cycle, water budget, and wild fire impacts for OR, WA, OR and WA, for a project funded by the USDA Forest Service (PNW 09-JV-11261900-003). The MC1 model was run using historical data...
Tags: DataBasin,
NPLCC,
North Pacific Landscape Conservation Cooperative,
carbon,
climate change, All tags...
dynamic global vegetation model,
fire,
huc5,
hydrologic units,
mc1,
model,
simulation,
watersheds, Fewer tags
This dataset represents the historical majority vegetation type (30 year mode), for each HUC5 watershed, simulated by the model MC1 for the 30-year period 1971-2000. Majority vegetation type was determined for each HUC5 watershed by calculating the 30 year mode from original ~ 4 km raster data. Watersheds represent 5th level (HUC5, 10-digit) hydrologic unit boundaries and were acquired from the Natural Resources Conservation Service. Background: The dynamic global vegetation model MC1 (see Bachelet et al.2001) was used to simulate vegetation dynamics, associated carbon and nitrogen cycle, water budget, a nd wild fire impacts for OR, WA, AZ and NM, for a project funded by the USDA Forest Service (PNW09-JV-11261900-003)....
Tags: DataBasin,
Effects of change in air temp. and precip. on forests,
NPLCC,
North Pacific Landscape Conservation Cooperative,
arizona, All tags...
climate change,
dynamic global vegetation model,
huc5,
hydrologic units,
mc1,
model,
new mexico,
simulation,
vegetation type,
watersheds, Fewer tags
This dataset depicts the Difference of Winter Precipitation for 2045-2060 compared to 1968-1999 for GFDL. These data have been generated using a regional climate model called RegCM3 using boundary conditions from observations or general circulation models for historical conditions, and from GCM projections for future conditions. Regional climate model description: RegCM3 is the third generation of the Regional Climate Model originally developed at the National Center for Atmospheric Research during the late 1980s and early 1990s. Details on current model components and applications of the model can be found in numerous publications (e.g., Giorgi et al, 2004a,b, Pal et al, 2007), the ICTP RegCNET web site (http://users.ictp.it/RegCNET/model.html),...
Tags: DataBasin,
ECH5,
Effects of change in air temp. and precip. on forests,
GENMOM,
GFDL, All tags...
NPLCC,
North Pacific Landscape Conservation Cooperative,
PRISM,
Precipitation,
REGCM3,
climate change, Fewer tags
The Conservation Biology Institute is developing a tool that managers in all watersheds of the Southern Rockies Landscape Conservation Cooperative can use to project the effects of climate change on soil vulnerability conditions and help resource managers develop appropriate strategies to mitigate negative climate impacts.Specifically, they will develop a spatially-explicit soil vulnerability index for the Southern Rockies Landscape Conservation Cooperative that can be used to forecast short-term response of plants to current drought conditions and test a vegetation model of plant response to drought.Conservation Biology Institute will use the soil vulnerability index to compare historical and future simulations...
Categories: Data,
Project;
Types: Map Service,
OGC WFS Layer,
OGC WMS Layer,
OGC WMS Service;
Tags: AZ-01,
AZ-04,
Applications and Tools,
Arizona,
CO-02, All tags...
CO-03,
CO-05,
Colorado,
Conservation Planning,
Datasets/Database,
Federal resource managers,
Four Corners,
GIS,
GIS,
Green River Basin,
LCC,
LCC Network Science Catalog,
Map,
NM-01,
NM-02,
NM-03,
New Mexico,
Project,
SRLCC,
SRLCC,
State agencies,
Tribes,
UT-01,
UT-02,
UT-03,
Upper Rio Grande,
Utah,
Vulnerability Assessment,
Wyoming,
climate change,
climate change,
completed,
soil vulnerability,
soil vulnerability,
vegetation change,
vegetation change,
water cycling,
water cycling, Fewer tags
This dataset represents the historical majority vegetation type (30 year mode), for each HUC5 watershed, simulated by the model MC1 for the 30-year period 1971-2000. Majority vegetation type was determined for each HUC5 watershed by calculating the 30 year mode from original ~ 4 km raster data. Watersheds represent 5th level (HUC5, 10-digit) hydrologic unit boundaries and were acquired from the Natural Resources Conservation Service. Background: The dynamic global vegetation model MC1 (see Bachelet et al.2001) was used to simulate vegetation dynamics, associated carbon and nitrogen cycle, water budget, a nd wild fire impacts for OR, WA, AZ and NM, for a project funded by the USDA Forest Service (PNW09-JV-11261900-003)....
Tags: DataBasin,
NPLCC,
North Pacific Landscape Conservation Cooperative,
arizona,
climate change, All tags...
dynamic global vegetation model,
huc5,
hydrologic units,
mc1,
model,
new mexico,
simulation,
vegetation type,
watersheds, Fewer tags
This dataset represents the average surface runoff for each HUC5 watershed, simulated by the model MC1 for the 30-year period 1971-2000. Mean surface runoff (in mm H2O yr-1), was determined for each HUC5 watershed by averaging values of original ~ 4 km raster data. Watersheds represent 5th level (HUC5, 10-digit) hydrologic unit boundaries and were acquired from the Natural Resources Conservation Service. Background: The dynamic global vegetation model MC1 (see Bachelet et al.2001) was used to simulate vegetation dynamics, associated carbon and nitrogen cycle, water budget, and wild fire impacts for OR, WA, AZ and NM, for a project funded by the USDA Forest Service (PNW09-JV-11261900-003). The MC1 model was...
Tags: DataBasin,
Effects of hydrologic regime shifts on rivers, streams, and riparian corridors,
NPLCC,
North Pacific Landscape Conservation Cooperative,
climate change, All tags...
dynamic global vegetation model,
huc5,
hydrologic units,
mc1,
model,
oregon,
simulation,
surface runoff,
washington,
watersheds, Fewer tags
This data set is distributed through the Conservation Biology Institute's Data Basin site: http://app.databasin.org/app/pages/datasetPage.jsp?id=5a1a66e950534fd095dee1a68a8c6f61 From the metadata: "This dataset shows the predicted change in average precipitation between historical (1961-1990) and future (2070-2099) time periods, simulated by the dynamic global vegetation model MC1 under the Hadley climate change projection and the anthropogenic emissions scenario A2. Change in precipitation (per ~ 8 km pixel) is depicted as a ratio of the average precipitation for 2070-2099 / the average for 1961-1990. Data values above 1 represent a projected increase in precipitation and values less than 1 represent a projected...
A “gateway” using Data Basin technology has been developed to serve the data integration, collaboration and outreach needs of the NPLCC. The gateway will continue to be a customized interface of the Data Basin platform that includes special branding, curation of spatial content, and direct links to selected sites in support of projects funded by and for the NPLCC . Conservation Biology Institute will add to the “gateway” a spatial data visualization tool to showcase priority data from the Pacific Marine and Estuarine Fish Habitat Partnership.
Categories: Data,
Project;
Types: Map Service,
OGC WFS Layer,
OGC WMS Layer,
OGC WMS Service;
Tags: 2013,
AK-1,
AK-1,
AK-1,
AK-1, All tags...
AK-1,
AK-1,
AK-1,
AK-1,
AK-1,
AK-1,
AK-1,
AK-1,
AK-1,
AK-1,
AK-1,
AK-1,
AK-1,
AK-1,
AK-1,
AK-1,
AK-1,
AK-1,
AK-1,
AK-1,
AK-1,
AK-1,
AK-1,
AK-1,
AK-1,
AK-1,
AK-1,
AK-1,
AK-1,
AK-1,
AK-1,
AK-1,
AK-1,
AK-1,
AK-1,
AK-1,
AK-1,
AK-1,
AK-1,
AK-1,
AK-1,
AK-1,
AK-1,
AK-1,
AK-1,
AK-1,
AK-1,
AK-1,
AK-1,
AK-1,
AK-1,
AK-1,
AK-1,
AK-1,
AK-1,
AK-1,
AK-1,
AK-1,
AK-1,
AK-1,
AK-1,
AK-1,
AK-1,
AK-1,
AK-1,
AK-1,
AK-1,
AK-1,
AK-1,
AK-1,
AK-1,
AK-1,
AK-1,
AK-1,
AK-1,
AK-1,
AK-1,
AK-1,
AK-1,
AK-1,
AK-1,
AK-1,
AK-1,
AK-1,
AK-1,
AK-1,
AK-1,
AK-1,
AK-1,
AK-1,
AK-1,
AK-1,
AK-1,
AK-1,
AK-1,
AK-1,
AK-1,
AK-1,
AK-1,
AK-1,
AK-1,
AK-1,
Academics & scientific researchers,
All priority topics,
Applications and Tools,
Applications and Tools,
British Columbia,
British Columbia,
British Columbia,
British Columbia,
British Columbia,
British Columbia,
British Columbia,
British Columbia,
British Columbia,
British Columbia,
British Columbia,
British Columbia,
British Columbia,
British Columbia,
British Columbia,
British Columbia,
British Columbia,
British Columbia,
British Columbia,
British Columbia,
British Columbia,
British Columbia,
British Columbia,
British Columbia,
British Columbia,
British Columbia,
British Columbia,
British Columbia,
British Columbia,
British Columbia,
British Columbia,
British Columbia,
British Columbia,
British Columbia,
British Columbia,
British Columbia,
British Columbia,
British Columbia,
British Columbia,
British Columbia,
British Columbia,
British Columbia,
British Columbia,
British Columbia,
British Columbia,
British Columbia,
British Columbia,
British Columbia,
British Columbia,
British Columbia,
British Columbia,
British Columbia,
British Columbia,
British Columbia,
British Columbia,
British Columbia,
British Columbia,
British Columbia,
British Columbia,
British Columbia,
British Columbia,
British Columbia,
British Columbia,
British Columbia,
British Columbia,
British Columbia,
British Columbia,
British Columbia,
British Columbia,
British Columbia,
British Columbia,
British Columbia,
British Columbia,
British Columbia,
British Columbia,
British Columbia,
British Columbia,
British Columbia,
British Columbia,
British Columbia,
British Columbia,
British Columbia,
British Columbia,
British Columbia,
British Columbia,
British Columbia,
British Columbia,
British Columbia,
British Columbia,
British Columbia,
British Columbia,
British Columbia,
British Columbia,
British Columbia,
British Columbia,
British Columbia,
British Columbia,
British Columbia,
British Columbia,
British Columbia,
British Columbia,
British Columbia,
British Columbia,
British Columbia,
British Columbia,
British Columbia,
British Columbia,
CA-2,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
California,
Climate Change,
Conservation Planning,
Conservation Planning,
Conservation planning,
Conservation planning,
Data Management and Integration,
Data Management and Integration,
Datasets/Database,
Datasets/Database,
Decision Support,
Decision Support,
Federal resource managers,
GIS,
GIS,
GIS,
GIS,
GIS,
GIS,
GIS,
GIS,
GIS,
GIS,
GIS,
GIS,
GIS,
GIS,
GIS,
GIS,
GIS,
GIS,
GIS,
GIS,
GIS,
GIS,
GIS,
GIS,
GIS,
GIS,
GIS,
GIS,
GIS,
GIS,
GIS,
GIS,
GIS,
GIS,
GIS,
GIS,
GIS,
GIS,
GIS,
GIS,
GIS,
GIS,
GIS,
GIS,
GIS,
GIS,
GIS,
GIS,
GIS,
GIS,
GIS,
GIS,
GIS,
GIS,
GIS,
GIS,
GIS,
GIS,
GIS,
GIS,
GIS,
GIS,
GIS,
GIS,
GIS,
GIS,
GIS,
GIS,
GIS,
GIS,
GIS,
GIS,
GIS,
GIS,
GIS,
GIS,
GIS,
GIS,
GIS,
GIS,
GIS,
GIS,
GIS,
GIS,
GIS,
GIS,
GIS,
GIS,
GIS,
GIS,
GIS,
GIS,
GIS,
GIS,
GIS,
GIS,
GIS,
GIS,
GIS,
GIS,
GIS,
GIS,
GIS,
GIS,
GIS,
GIS,
GIS,
GNLCC,
GNLCC,
GNLCC,
GNLCC,
GNLCC,
GNLCC,
GNLCC,
GNLCC,
GNLCC,
GNLCC,
GNLCC,
GNLCC,
GNLCC,
GNLCC,
GNLCC,
GNLCC,
GNLCC,
GNLCC,
GNLCC,
GNLCC,
GNLCC,
GNLCC,
GNLCC,
GNLCC,
GNLCC,
GNLCC,
GNLCC,
GNLCC,
GNLCC,
GNLCC,
GNLCC,
GNLCC,
GNLCC,
GNLCC,
GNLCC,
GNLCC,
GNLCC,
GNLCC,
GNLCC,
GNLCC,
GNLCC,
GNLCC,
GNLCC,
GNLCC,
GNLCC,
GNLCC,
GNLCC,
GNLCC,
GNLCC,
GNLCC,
GNLCC,
GNLCC,
GNLCC,
GNLCC,
GNLCC,
GNLCC,
GNLCC,
GNLCC,
GNLCC,
GNLCC,
GNLCC,
GNLCC,
GNLCC,
GNLCC,
GNLCC,
GNLCC,
GNLCC,
GNLCC,
GNLCC,
GNLCC,
GNLCC,
GNLCC,
GNLCC,
GNLCC,
GNLCC,
GNLCC,
GNLCC,
GNLCC,
GNLCC,
GNLCC,
GNLCC,
GNLCC,
GNLCC,
GNLCC,
GNLCC,
GNLCC,
GNLCC,
GNLCC,
GNLCC,
GNLCC,
GNLCC,
GNLCC,
GNLCC,
GNLCC,
GNLCC,
GNLCC,
GNLCC,
GNLCC,
GNLCC,
GNLCC,
GNLCC,
GNLCC,
GNLCC,
GNLCC,
GNLCC,
GNLCC,
GNLCC,
Hydrologic regime shift,
LCC,
LCC Network Science Catalog,
LCC Network Science Catalog - LCCScienceCatalog,
Map,
NPLCC,
NPLCC,
NorWest,
NorWest,
NorWest,
NorWest,
NorWest,
NorWest,
NorWest,
NorWest,
NorWest,
NorWest,
NorWest,
NorWest,
NorWest,
NorWest,
NorWest,
NorWest,
NorWest,
NorWest,
NorWest,
NorWest,
NorWest,
NorWest,
NorWest,
NorWest,
NorWest,
NorWest,
NorWest,
NorWest,
NorWest,
NorWest,
NorWest,
NorWest,
NorWest,
NorWest,
NorWest,
NorWest,
NorWest,
NorWest,
NorWest,
NorWest,
NorWest,
NorWest,
NorWest,
NorWest,
NorWest,
NorWest,
NorWest,
NorWest,
NorWest,
NorWest,
NorWest,
NorWest,
NorWest,
NorWest,
NorWest,
NorWest,
NorWest,
NorWest,
NorWest,
NorWest,
NorWest,
NorWest,
NorWest,
NorWest,
NorWest,
NorWest,
NorWest,
NorWest,
NorWest,
NorWest,
NorWest,
NorWest,
NorWest,
NorWest,
NorWest,
NorWest,
NorWest,
NorWest,
NorWest,
NorWest,
NorWest,
NorWest,
NorWest,
NorWest,
NorWest,
NorWest,
NorWest,
NorWest,
NorWest,
NorWest,
NorWest,
NorWest,
NorWest,
NorWest,
NorWest,
NorWest,
NorWest,
NorWest,
NorWest,
NorWest,
NorWest,
NorWest,
NorWest,
NorWest,
NorWest,
NorWest,
NorWest,
NorWest,
North Pacific Landscape Conservation Cooperative,
OR-1,
OR-1,
OR-2,
OR-3,
OR-3,
OR-4,
OR-4,
OR-5,
OR-5,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Oregon,
Priority D. Hydrologic regime changes on anadromous fish,
Project,
Report,
State agencies,
Stream temperature,
WA-1,
WA-1,
WA-10,
WA-10,
WA-2,
WA-2,
WA-3,
WA-3,
WA-4,
WA-5,
WA-6,
WA-6,
WA-7,
WA-7,
WA-8,
WA-9,
WA-9,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Washington,
Website,
Website,
climate change,
climate change,
climate change,
climate change,
climate change,
climate change,
climate change,
climate change,
climate change,
climate change,
climate change,
climate change,
climate change,
climate change,
climate change,
climate change,
climate change,
climate change,
climate change,
climate change,
climate change,
climate change,
climate change,
climate change,
climate change,
climate change,
climate change,
climate change,
climate change,
climate change,
climate change,
climate change,
climate change,
climate change,
climate change,
climate change,
climate change,
climate change,
climate change,
climate change,
climate change,
climate change,
climate change,
climate change,
climate change,
climate change,
climate change,
climate change,
climate change,
climate change,
climate change,
climate change,
climate change,
climate change,
climate change,
climate change,
climate change,
climate change,
climate change,
climate change,
climate change,
climate change,
climate change,
climate change,
climate change,
climate change,
climate change,
climate change,
climate change,
climate change,
climate change,
climate change,
climate change,
climate change,
climate change,
climate change,
climate change,
climate change,
climate change,
climate change,
climate change,
climate change,
climate change,
climate change,
climate change,
climate change,
climate change,
climate change,
climate change,
climate change,
climate change,
climate change,
climate change,
climate change,
climate change,
climate change,
climate change,
climate change,
climate change,
climate change,
climate change,
climate change,
climate change,
climate change,
climate change,
climate change,
climate change,
climate change,
digital atlas,
digital atlas,
digital atlas,
digital atlas,
digital atlas,
digital atlas,
digital atlas,
digital atlas,
digital atlas,
digital atlas,
digital atlas,
digital atlas,
digital atlas,
digital atlas,
digital atlas,
digital atlas,
digital atlas,
digital atlas,
digital atlas,
digital atlas,
digital atlas,
digital atlas,
digital atlas,
digital atlas,
digital atlas,
digital atlas,
digital atlas,
digital atlas,
digital atlas,
digital atlas,
digital atlas,
digital atlas,
digital atlas,
digital atlas,
digital atlas,
digital atlas,
digital atlas,
digital atlas,
digital atlas,
digital atlas,
digital atlas,
digital atlas,
digital atlas,
digital atlas,
digital atlas,
digital atlas,
digital atlas,
digital atlas,
digital atlas,
digital atlas,
digital atlas,
digital atlas,
digital atlas,
digital atlas,
digital atlas,
digital atlas,
digital atlas,
digital atlas,
digital atlas,
digital atlas,
digital atlas,
digital atlas,
digital atlas,
digital atlas,
digital atlas,
digital atlas,
digital atlas,
digital atlas,
digital atlas,
digital atlas,
digital atlas,
digital atlas,
digital atlas,
digital atlas,
digital atlas,
digital atlas,
digital atlas,
digital atlas,
digital atlas,
digital atlas,
digital atlas,
digital atlas,
digital atlas,
digital atlas,
digital atlas,
digital atlas,
digital atlas,
digital atlas,
digital atlas,
digital atlas,
digital atlas,
digital atlas,
digital atlas,
digital atlas,
digital atlas,
digital atlas,
digital atlas,
digital atlas,
digital atlas,
digital atlas,
digital atlas,
digital atlas,
digital atlas,
digital atlas,
digital atlas,
digital atlas,
digital atlas,
landscape,
landscape,
landscape,
landscape,
landscape,
landscape,
landscape,
landscape,
landscape,
landscape,
landscape,
landscape,
landscape,
landscape,
landscape,
landscape,
landscape,
landscape,
landscape,
landscape,
landscape,
landscape,
landscape,
landscape,
landscape,
landscape,
landscape,
landscape,
landscape,
landscape,
landscape,
landscape,
landscape,
landscape,
landscape,
landscape,
landscape,
landscape,
landscape,
landscape,
landscape,
landscape,
landscape,
landscape,
landscape,
landscape,
landscape,
landscape,
landscape,
landscape,
landscape,
landscape,
landscape,
landscape,
landscape,
landscape,
landscape,
landscape,
landscape,
landscape,
landscape,
landscape,
landscape,
landscape,
landscape,
landscape,
landscape,
landscape,
landscape,
landscape,
landscape,
landscape,
landscape,
landscape,
landscape,
landscape,
landscape,
landscape,
landscape,
landscape,
landscape,
landscape,
landscape,
landscape,
landscape,
landscape,
landscape,
landscape,
landscape,
landscape,
landscape,
landscape,
landscape,
landscape,
landscape,
landscape,
landscape,
landscape,
landscape,
landscape,
landscape,
landscape,
landscape,
landscape,
landscape,
landscape,
landscape,
onGoing,
stream network models,
stream network models,
stream network models,
stream network models,
stream network models,
stream network models,
stream network models,
stream network models,
stream network models,
stream network models,
stream network models,
stream network models,
stream network models,
stream network models,
stream network models,
stream network models,
stream network models,
stream network models,
stream network models,
stream network models,
stream network models,
stream network models,
stream network models,
stream network models,
stream network models,
stream network models,
stream network models,
stream network models,
stream network models,
stream network models,
stream network models,
stream network models,
stream network models,
stream network models,
stream network models,
stream network models,
stream network models,
stream network models,
stream network models,
stream network models,
stream network models,
stream network models,
stream network models,
stream network models,
stream network models,
stream network models,
stream network models,
stream network models,
stream network models,
stream network models,
stream network models,
stream network models,
stream network models,
stream network models,
stream network models,
stream network models,
stream network models,
stream network models,
stream network models,
stream network models,
stream network models,
stream network models,
stream network models,
stream network models,
stream network models,
stream network models,
stream network models,
stream network models,
stream network models,
stream network models,
stream network models,
stream network models,
stream network models,
stream network models,
stream network models,
stream network models,
stream network models,
stream network models,
stream network models,
stream network models,
stream network models,
stream network models,
stream network models,
stream network models,
stream network models,
stream network models,
stream network models,
stream network models,
stream network models,
stream network models,
stream network models,
stream network models,
stream network models,
stream network models,
stream network models,
stream network models,
stream network models,
stream network models,
stream network models,
stream network models,
stream network models,
stream network models,
stream network models,
stream network models,
stream network models,
stream network models,
stream network models,
stream network models,
temperature model,
temperature model,
temperature model,
temperature model,
temperature model,
temperature model,
temperature model,
temperature model,
temperature model,
temperature model,
temperature model,
temperature model,
temperature model,
temperature model,
temperature model,
temperature model,
temperature model,
temperature model,
temperature model,
temperature model,
temperature model,
temperature model,
temperature model,
temperature model,
temperature model,
temperature model,
temperature model,
temperature model,
temperature model,
temperature model,
temperature model,
temperature model,
temperature model,
temperature model,
temperature model,
temperature model,
temperature model,
temperature model,
temperature model,
temperature model,
temperature model,
temperature model,
temperature model,
temperature model,
temperature model,
temperature model,
temperature model,
temperature model,
temperature model,
temperature model,
temperature model,
temperature model,
temperature model,
temperature model,
temperature model,
temperature model,
temperature model,
temperature model,
temperature model,
temperature model,
temperature model,
temperature model,
temperature model,
temperature model,
temperature model,
temperature model,
temperature model,
temperature model,
temperature model,
temperature model,
temperature model,
temperature model,
temperature model,
temperature model,
temperature model,
temperature model,
temperature model,
temperature model,
temperature model,
temperature model,
temperature model,
temperature model,
temperature model,
temperature model,
temperature model,
temperature model,
temperature model,
temperature model,
temperature model,
temperature model,
temperature model,
temperature model,
temperature model,
temperature model,
temperature model,
temperature model,
temperature model,
temperature model,
temperature model,
temperature model,
temperature model,
temperature model,
temperature model,
temperature model,
temperature model,
temperature model,
temperature model,
temperature model, Fewer tags
This dataset represents the average amount of soil carbon within each HUC5 watershed, simulated by the model MC1 for the 30-year period 1971-2000. Soil carbon, in g m-2, was determined for each HUC5 watershed. Watersheds represent 5th level (HUC5, 10-digit) hydrologic unit boundaries and were acquired from the Natural Resources Conservation Service. Background: The dynamic global vegetation model MC1 (see Bachelet et al.2001) was used to simulate vegetation dynamics, associated carbon and nitrogen cycle, water budget, and wild fire impacts for OR, WA, AZ and NM, for a project funded by the USDA Forest Service (PNW09-JV-11261900-003). The MC1 model was run using historical data and future climate change projections...
Tags: DataBasin,
NPLCC,
North Pacific Landscape Conservation Cooperative,
carbon,
climate change, All tags...
dynamic global vegetation model,
huc5,
hydrologic units,
mc1,
model,
oregon,
simulation,
soil,
washington,
watersheds, Fewer tags
This data set is distributed through the Conservation Biology Institute's Data Basin site: http://app.databasin.org/app/pages/datasetPage.jsp?id=e2d159c08cd7463b9fcf8e5d8ae66740 A description from the metadata: "This dataset shows the predicted rise in temperature between historical (1961-1990) and future (2070-2099) time periods, simulated by the dynamic global vegetation model MC1 underthe Hadley climate change projection and the anthropogenic emissions scenario A2. Temperature change (in degrees C) was calculated by taking the difference between the simulated future average monthly maximum temperature and the historical average monthly maximum temperature per ~ 8 km pixel. Background: The dynamic global...
FY2011Aspen populations are in decline across western North America due to altered fire regimes, herbivory, drought, pathogens, and competition with conifers. Aspen stands typically support higher avian biodiversity than surrounding habitats, and maintaining current distributions of several avian species is likely tied to persistence of aspen on the landscape. We are examining effects of climate change on aspen and associated avian communities in isolated mountain ranges of the northern Great Basin, by coupling empirical models of avian-habitat relationships with spatially-explicit landscape simulations of vegetation and disturbance dynamics (using LANDIS-II) under various climate change scenarios. We are addressing...
Categories: Data,
Project;
Types: Map Service,
OGC WFS Layer,
OGC WMS Layer,
OGC WMS Service;
Tags: Academics & scientific researchers,
Data Acquisition and Development,
Federal resource managers,
LANDIS-II,
LANDIS-II, All tags...
LANDIS-II,
LCC Network Science Catalog,
Monitoring,
Nevada,
Nevada,
Nevada,
Population & Habitat Evaluation/Projection,
Project,
State agencies,
aspen,
avian,
avian,
avian,
biodiversity,
biodiversity,
biodiversity,
birds,
birds,
birds,
climate change,
climate change,
climate change,
completed,
empirical models,
empirical models,
empirical models,
fire,
fire,
fire,
northern great basin,
populus tremuloides,
populus tremuloides,
populus tremuloides,
wildfire,
wildfire,
wildfire, Fewer tags
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. They then evaluated how this information could be used to improve vegetation models across the landscape. They compared the results of different modeling approaches to the soil vulnerability map, synthesized the state of knowledge and uncertainty, and introduced management implications for action.The following data sets are included:Soil accumulations for the North Pacific Landscape Conservation Cooperative- northern California, USASoil...
Categories: Data;
Types: Map Service,
OGC WFS Layer,
OGC WMS Layer,
OGC WMS Service;
Tags: AK,
AK-1,
Academics & scientific researchers,
B.C.,
CA, All tags...
CA-2,
Conservation Planning,
Data,
Decision Support,
Federal resource managers,
LCC Network Science Catalog,
NPLCC,
OR-1,
OR-3,
OR-4,
OR-5,
Priority B. Changes in air temperature and precipitation on forests,
Regional & county planners,
Vulnerability Assessment,
WA-1,
WA-10,
WA-2,
WA-3,
WA-6,
WA-7,
WA-9,
WA. OR,
climate change,
completed,
product,
soils,
vegetation model, Fewer tags
This dataset represents the historical mean annual area burned per ~ 4 km pixel, averaged for each HUC5 watershed, simulated by the model MC1 for the 30-year period 1971-2000. Historical mean area burned per year (in square meters) per ~4 km pixel was averaged across each HUC5 watershed. Watersheds represent 5th level (HUC5, 10-digit) hydrologic unit boundaries and were acquired from the Natural Resources Conservation Service. Background: The dynamic global vegetation model MC1 (see Bachelet et al.2001) was used to simulate vegetation dynamics, associated carbon and nitrogen cycle, water budget, and wild fire impacts for OR, WA, AZ and NM, for a project funded by the USDA Forest Service (PNW09-JV-11261900-003)....
Tags: DataBasin,
NPLCC,
North Pacific Landscape Conservation Cooperative,
area burned,
climate change, All tags...
dynamic global vegetation model,
huc5,
hydrologic units,
mc1,
model,
oregon,
simulation,
washington,
watersheds, Fewer tags
|
|