Filters: Tags: woody encroachment (X) > Categories: Data (X)
4 results (9ms)|
Filters
Date Range
Extensions Types Contacts
Categories Tag Types
|
Grassland loss to woody encroachment is widespread and ongoing. Mechanical removal of Eastern Red Cedar (ERC) is the most cost-shared practice to address this threat. Cost-share is provided based on acres with different levels of infestation. Delineation of the different levels of infestation is time consuming butrequired to ensure the appropriate amount of cost-share is provided and contractors are not over/under compensated. The Rangeland Brush Estimation Toolbox(RaBET) is geospatial tool that can accurately automate this process. Unfortunately,wet-meadows and other wetland features cause the tool to overestimate woody cover. This project will provide funds to finish the National Wetlands Inventory (NWI). This...
Categories: Data,
Project;
Tags: Federal resource managers,
Grasslands,
Project,
SA Science Catalog,
Strategic Science - 1420,
This data set contains output from the dynamic vegetation model MC1, as modified to simulate future woody encroachment in the northern Great Plains, for 23 monthly variables, 63 yearly variables, and 31 multi-year variables. Variables include simulated plant (by growth form) and soil carbon stocks, net primary production, vegetation type, potential and actual evapotranspiration, stream flow, and fuel mass and moisture. Model output is provided for the EQ, Spinup, Historical, and Future stages of MC1 runs; future stages were run for four climate projections crossed with 10 or 11 fire X grazing X CO2 concentration scenarios for the western and eastern portions of the study area, respectively.
This data set contains output from the dynamic vegetation model MC1, as modified to simulate future woody encroachment in the northern Great Plains. Simulations were done for the historical period (1895-2005) and the future period (2006-2100). Separate simulations were done for eastern and western portions of the region, with the eastern simulations using model parameters appropriate for Juniperus virginiana as the major evergreen needle-leaf life form, and the western simulations using model parameters appropriate for Pinus ponderosa as the major evergreen needle-leaf life form. Simulations in each portion were run for two A2 emissions scenario climate projections (CSIRO, representing moderate temperature increases...
Categories: Data;
Types: Citation;
Tags: Grasslands and Plains,
Juniperus,
Landscapes,
North Central CASC,
Pinus ponderosa,
The dynamic global vegetation model MC1 simulates plant growth and biogeochemical cycles, vegetation type, wildfire, and their interactions. The model simulates competition between trees and grasses (including other herbaceous species), as affected by differential access to light and water, and fire-caused tree mortality (Bachelet et al., 2000; 2001). MC1 projects the dynamics of lifeforms, including evergreen and deciduous needleleaf and broadleaf trees, as well as C3 and C4 grasses. However, the model can also be parameterized for a particular dominant species of the associated lifeform. For this project we used two versions of MC1, both of which modified the standard code to improve the simulation of potential...
Categories: Data;
Tags: Grasslands and Plains,
Landscapes,
North Central CASC,
climate change,
dynamic vegetation model,
|
|
