Loamy Bottomland
Scenario model
Current ecosystem state
Select a state
Management practices/drivers
Select a transition or restoration pathway
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Transition T1A
No brush management, heavy continuous grazing, abandonment
More details -
Transition T1B
Brush management, crop cultivation, pasture planting, nutrient management, pest management
More details -
Restoration pathway R2A
Brush management, prescribed grazing
More details -
Transition T2A
No brush management, heavy continuous grazing, abandonment
More details -
Transition T2B
Brush management, crop cultivation, pasture planting, nutrient management, pest management
More details -
Restoration pathway R3A
Brush management, prescribed grazing, range planting
More details -
Transition T3A
Brush management, crop cultivation, pasture planting, nutrient management, pest management
More details -
Restoration pathway R4A
Range planting, prescribed grazing
More details -
Transition T4A
No brush management, heavy continuous grazing, abandonment
More details -
No transition or restoration pathway between the selected states has been described
Target ecosystem state
Select a state
Description
Two communities exist in the Savannah State: the 1.1 Wildrye/Sedge Savannah Community and the 1.2 Bermudagrass/Dallisgrass Savannah Community. Community 1.1 is characterized by tall and midgrass dominating the understory, with 20 percent woody cover by ash and elm. Community 1.2 is characterized by a replacement in the understory by introduced invasive herbaceous species.
Submodel
Description
One community exists in the Shrubland State, the 2.1 Carpetgrass/Shrub Community. It is characterized by an increase in shade-tolerant grasses and 20 to 40 percent overstory canopy.
Submodel
Description
One community exists in the Woodland State, the Ash/Elm Woodland Community. It is characterized by shade-tolerant grasses and an overstory canopy of 40 to 80 percent.
Submodel
Mechanism
The Savannah State will transition to the Shrubland State when continued heavy grazing pressure, no brush management, and/or field abandonment continues. The transition is evident when woody species canopy cover exceeds 20 percent and grasses shift composition to more shade-tolerant species.
Mechanism
The transition to the Converted State occurs when the site is plowed for planting crops or pasture. The driver for the transition is the land manager's decision to farm the site.
Mechanism
Restoration back to the Savannah State requires brush management and prescribed grazing. Mechanical or chemical controls can be used to remove the woody overstory species and shrubs. Prescribed grazing may require destocking and/or deferment.
Mechanism
The Shrubland State will transition to the Woodland State when continued heavy grazing pressure, no brush management, and/or field abandonment continues. The transition is evident when woody species canopy cover exceeds 40 percent and grasses shift composition to more shade-tolerant species.
Mechanism
The transition to the Converted State occurs when the site is plowed for planting crops or pasture. The driver for the transition is the land manager's decision to farm the site.
Mechanism
Restoration back to the Savannah State requires substantial energy inputs. Brush management and prescribed grazing will be need to shift the community back to the reference state. Mechanical or chemical controls can be used to remove the woody overstory species back below 20 percent. Prescribed grazing may require destocking and/or deferment to manage the understory grasses back to those found in the reference community.
Mechanism
The transition to the Converted State occurs when the site is plowed for planting crops or pasture. The driver for the transition is the land manager's decision to farm the site.
Mechanism
The restoration to State 1 can occur when the land manager ceases agronomic practices. Range planting of native species found in the reference community will be required to bring back a similar community as the State 1 plant composition. The extent of previous soil disturbances will determine how much seedbed preparation will be needed, as well as the ability to be restored. Proper grazing and brush management will be required to ensure success.
Mechanism
The Converted Land State will transition to the Woodland State when continued heavy grazing pressure, no brush management, and/or field abandonment continues. The transition is evident when woody species canopy cover exceeds 40 percent and grasses shift composition to more shade-tolerant species.
Model keys
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Ecological sites
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The Ecosystem Dynamics Interpretive Tool is an information system framework developed by the USDA-ARS Jornada Experimental Range, USDA Natural Resources Conservation Service, and New Mexico State University.