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This dataset represents the historical mean number of fires per year burned per ~ 4 km pixel, averaged for each HUC5 watershed, simulated by the model MC1 for the 30-year period 1971-2000. Historical mean number of fires per year 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, 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: climate change,
dynamic global vegetation model,
fire,
huc5,
hydrologic units, All tags...
mc1,
model,
oregon,
simulation,
washington,
watersheds, Fewer tags
This dataset represents the average amount of carbon consumed by fire per year within 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, AZ and NM, for a project funded by the USDA Forest Service (PNW09-JV-11261900-003). The MC1 model was run using...
Tags: carbon,
climate change,
dynamic global vegetation model,
fire,
huc5, All tags...
hydrologic units,
mc1,
model,
simulation,
watersheds, 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: area burned,
climate change,
dynamic global vegetation model,
huc5,
hydrologic units, All tags...
mc1,
model,
oregon,
simulation,
washington,
watersheds, Fewer tags
Percent change in the average C3 grass fraction (a biogeographic index based on the ratio of C3 to C4 grass) for each HUC5 watershed between historical (1971-2000) and future (2071-2100) time periods. The MC1 dynamic vegetation model was run under the CSIRO, MIROC, and Hadley climate change projections and the A2 anthropogenic emissions scenario.Simulated mean C3 grass fraction 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,...
Tags: arizona,
c3 and c4 grasses,
climate change,
dynamic global vegetation model,
grass fraction, All tags...
huc5,
hydrologic units,
mc1,
model,
new mexico,
simulation,
watersheds, Fewer tags
Percent change in the mean number of fires per year (per ~4 km pixel ) for each HUC5 watershed between historical (1971-2000) and future (2071-2100) time periods. The MC1 dynamic vegetation model was run under the CSIRO, MIROC, and Hadley climate change projections and the A2 anthropogenic emissions scenario. Mean number of fires per year per ~4 km pixel 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...
Tags: arizona,
climate change,
dynamic global vegetation model,
fire,
huc5, All tags...
hydrologic units,
mc1,
model,
new mexico,
simulation,
watersheds, Fewer tags
Percent change in the average annual maximum vegetation carbon for each HUC5 watershed between historical (1971-2000) and future (2071-2100) time periods. The MC1 dynamic vegetation model was run under the CSIRO, MIROC, and Hadley climate change projections and the A2 anthropogenic emissions scenario. Mean maximum total vegetation carbon 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. Units are grams per square meter. Background: The dynamic global vegetation model MC1 (see Bachelet et al. 2001) was used to simulate vegetation dynamics, associated carbon and nitrogen cycle, water...
Tags: arizona,
climate change,
dynamic global vegetation model,
huc5,
hydrologic units, All tags...
maximum total vegetation carbon,
mc1,
model,
new mexico,
simulation,
watersheds, Fewer tags
Simulated percent change in the average annual amount of water contributed to the stream network for each watershed between historical (1971-2000) and future (2071-2100) time periods. The MC1 dynamic vegetation model was run under the CSIRO, MIROC, and Hadley climate change projections and the A2 anthropogenic emissions scenario.Mean streamflow (stormflow + baseflow + runoff) was determined for each watershed by averaging values of original ~ 4 km raster data, and percent change was calculated as (STREAMFLOW(2071-2100) minus STREAMFLOW(1971-2000)) divided by STREAMFLOW(1971-2000). Data are from MC1 version B60. Watersheds represent 5th level (HUC5, 10-digit) hydrologic unit boundaries and were acquired from the...
Tags: a2,
climate change,
csiro,
dynamic global vegetation model,
general circulation model, All tags...
hadley,
huc5,
hydrologic units,
mc1,
miroc,
model,
oregon,
simulation,
streamflow,
washington,
watersheds, Fewer tags
Compiled 3/23/2011 for the Clearwater Collaborative Analysis Area. The feature class was clipped from the dataset compiled 10/6/2003 for Forest Plan Revision from Clearwater, Nezperce, Bitterroot and Payette National Forest Watershed Coverages.
Percent change in carbon consumed by fire for each HUC5 watershed between historical (1971-2000) and future (2071-2100) time periods. The MC1 dynamic vegetation model was run under the CSIRO, MIROC, and Hadley climate change projections and the A2 anthropogenic emissions scenario. 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,...
Tags: carbon,
climate change,
dynamic global vegetation model,
fire,
huc5, All tags...
hydrologic units,
mc1,
model,
simulation,
watersheds, Fewer tags
Fifth Field Hydrologic Units (watersheds) polygons for the Pacific Coho Salmon population and distribution within the Western Oregon Plan Revision (WOPR) area.BLM (Bureau of Land Management) WOPR (Western Oregon Plan Revision) WOPR Theme Group: FSH (Fish) PRMP (Proposed Resource Management Plan) WOPR Purpose: A (Analysis) HUC (Hydrologic Unit Code) CHART (Critical Habitat Analytical Review Team)
Tags: A,
Analysis,
BLM,
Fith Field Hydrologic Unit,
HUC5, All tags...
NPLCC,
North Pacific Landscape Conservation Cooperative,
Oregon,
PRMP,
Pacific Coho,
Proposed Resource Management Plan,
WOPR,
Watershed,
Western Oregon,
Western Oregon Plan Revision,
biota, 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
Percent change in the average potential evaporation for each HUC5 watershed between historical (1971-2000) and future (2071-2100) time periods. The MC1 dynamic vegetation model was run under the CSIRO, MIROC, and Hadley climate change projections and the A2 anthropogenic emissions scenario. Simulated mean potential evaporation (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...
Tags: arizona,
climate change,
dynamic global vegetation model,
evapotranspiration,
huc5, All tags...
hydrologic units,
mc1,
model,
new mexico,
potential evaporation,
simulation,
watersheds, Fewer tags
Percent change in the average net primary production for each HUC5 watershed between historical (1971-2000) and future (2071-2100) time periods. The MC1 dynamic vegetation model was run under the CSIRO, MIROC, and Hadley climate change projections and the A2 anthropogenic emissions scenario. Simulated mean net primary production (in g m-2 per yr), 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...
Tags: arizona,
climate change,
dynamic global vegetation model,
huc5,
hydrologic units, All tags...
mc1,
model,
net primary production,
new mexico,
simulation,
watersheds, 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...
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: carbon,
climate change,
dynamic global vegetation model,
huc5,
hydrologic units, All tags...
mc1,
model,
oregon,
simulation,
soil,
washington,
watersheds, Fewer tags
These datasets represent the projected future majority vegetation type (30 year mode), for each HUC5 watershed, simulated by the model MC1 for the 30-year period 2071-2100. The MC1 dynamic vegetation model was run under the CSIRO, MIROC, and Hadley climate change projections and the A2 anthropogenic emissions scenario. 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...
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,
future vegetation type,
huc5,
hydrologic units,
mc1,
model,
oregon,
simulation,
washington,
watersheds, Fewer tags
This dataset represents the average maximum annual value of total vegetation carbon for each HUC5 watershed, simulated by the model MC1 for the 30-year period 1971-2000. Mean maximum annual value of total vegetation 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...
Tags: DataBasin,
NPLCC,
North Pacific Landscape Conservation Cooperative,
climate change,
dynamic global vegetation model, All tags...
huc5,
hydrologic units,
maximum total vegetation carbon,
mc1,
model,
oregon,
simulation,
washington,
watersheds, Fewer tags
Percent change in the average annual maximum vegetation carbon for each HUC5 watershed between historical (1971-2000) and future (2071-2100) time periods. The MC1 dynamic vegetation model was run under the CSIRO, MIROC, and Hadley climate change projections and the A2 anthropogenic emissions scenario. Mean maximum total vegetation carbon 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. Units are grams per square meter. Background: The dynamic global vegetation model MC1 (see Bachelet et al. 2001) was used to simulate vegetation dynamics, associated carbon and nitrogen cycle, water...
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,
huc5,
hydrologic units,
maximum total vegetation carbon,
mc1,
model,
oregon,
simulation,
washington,
watersheds, Fewer tags
Percent change in the average net primary production for each HUC5 watershed between historical (1971-2000) and future (2071-2100) time periods. The MC1 dynamic vegetation model was run under the CSIRO, MIROC, and Hadley climate change projections and the A2 anthropogenic emissions scenario. Simulated mean net primary production (in g m-2 per yr), 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...
Tags: climate change,
dynamic global vegetation model,
huc5,
hydrologic units,
mc1, All tags...
model,
net primary production,
oregon,
simulation,
washington,
watersheds, Fewer tags
This dataset represents the average annual precipitation for each HUC5 watershed, simulated by the model MC1 for the 30-year period 1971-2000. Mean annual precipitation (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...
Tags: annual precipitation,
arizona,
climate change,
dynamic global vegetation model,
huc5, All tags...
hydrologic units,
mc1,
model,
new mexico,
simulation,
watersheds, Fewer tags
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