Loamy Terrace
Scenario model
Current ecosystem state
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Management practices/drivers
Select a transition or restoration pathway
- Transition 1A More details
- Transition 1B More details
- Transition 6A More details
- Transition 2A More details
- Transition 2B More details
- Transition 6A More details
- Transition 3A More details
- Transition 6A More details
- Transition 6A More details
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No transition or restoration pathway between the selected states has been described
Target ecosystem state
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Description
This State represents what is believed to exist prior to European settlement. This site in reference, is dominated by cool-season grasses and sub-dominant warm-season grass. Forbs are common and diverse. Silver sage is almost always present on this site and other shrubs such as western snowberry, chokecherry, American plum and remnant trees such as green ash and cottonwood can occur. Grazing or the lack of grazing, fire, excessive haying and invasion of non-native cool-season grasses are the major drivers of this State.
Submodel
Description
This state is the result of very heavy, concentrated disturbance such as concentrated rodent activity, or livestock concentration areas. This State can also develop as a result of invasion by highly competitive weed species such as Canada thistle, hound’s tongue, leafy spurge, or knapweeds. Extended periods of drought accompanied by heavy grazing can also push an ‘At Risk’ plant community phase to this state. In most cases, this phase is dominated by pioneer perennial and annual grass and forb species. Bare ground is also much higher than on any other plant community phase.
Submodel
Description
This State has been invaded by Kentucky bluegrass and/or smooth brome, but not at the levels where the plant community is dominated by these species. The plant community in this state looks very similar to the Reference Plant Community (1.1) and it functions very much like the Reference State. It is ‘At Risk’ of transitioning to the Invaded State (4.0) which is dominated by smooth brome and/or Kentucky bluegrass.
Submodel
Description
This state is the result of invasion and dominance of introduced species. This state is characterized by the dominance of Kentucky bluegrass and smooth brome, and an increasing thatch layer that effectively blocks introduction of other plants into the system. Plant litter accumulation tends to favor the more shade tolerant introduced grass species. The nutrient cycle is also impaired, the result is typically a higher level of nitrogen which also favors the introduced species. Increasing plant litter decreases the amount of sunlight reaching plant crowns thereby shifting competitive advantage to shade tolerant, introduced grass species. Studies indicate that soil biological activity is altered, and this shift apparently exploits the soil microclimate and encourages growth of the introduced grass species. Once the threshold is crossed, a change in grazing management alone cannot cause a reduction in the invasive grass dominance. Preliminary studies would tend to indicate this threshold may exist when Kentucky bluegrass exceeds 30 percent of the plant community and native grasses represent less than 40 percent of the plant community composition. Plant communities dominated by Kentucky bluegrass have significantly less cover and diversity of native grasses and forb species (Toledo, D. et al., 2014).
Submodel
Description
Any Plant Community can transition to this State. The two Plant Communities, Go-Back and Introduced, are highly variable in nature. They are derived through different management scenarios, and are not related successionally. Infiltration, runoff, and soil erosion vary depending on the vegetation present on the site.
Submodel
Mechanism
Heavy continuous season-long grazing, frequent and severe defoliation, heavy disturbance and drought will transition this plant community to the Early Seral State (2.0).
Mechanism
Nonuse and/or no fire for extend periods of time or long-term light grazing and the invasion of non-native, cool-season grasses will shift the Reference State (1.0) to the Native/Invaded State (3.0).
Mechanism
Heavy disturbance including tillage, abandon cropland or seeding to improved pasture species result in a transition to the Disturbed State (5.0).
Mechanism
If the disturbance causing severe defoliation is removed and long-term prescribed grazing is initiated, including adequate rest periods, and normal precipitation patterns return, this plant community may transition to the Native/Invaded State (3.0). With the presence of non-native, cool-season grasses in local plant communities it is assumed the Early Seral State will be invaded by non-native cool-season grasses so a restoration pathway to the Reference State is unlikely. This pathway will take an extended period of time and may not in the end meet management objectives.
Mechanism
If the disturbance causing the severe defoliation is removed and the plant community is invaded by non-native, cool-season grasses this plant community is likely to transition to the Invaded State (4.0).
Mechanism
T6A Heavy disturbance including tillage, abandon cropland or seeding to improved pasture species result in a transition to the Disturbed State (5.0).
Mechanism
Heavy continuous season-long grazing, or no use and no fire, or long-term light grazing will cause a transition of the Native/Invaded State to the Invaded State (4.0). The ecological threshold can be identified by the percentage of non-native cool-season species in the Plant Community. Preliminary studies would tend to indicate this threshold may exist when Kentucky bluegrass exceeds 30 percent of the plant community and native grasses represent less than 40 percent of the plant community composition (Toledo, D. et al., 2014). Smooth brome is assumed to follow a similar ecological threshold, but is not documented scientifically.
Mechanism
Heavy disturbance including tillage, abandon cropland or seeding to improved pasture species result in a transition to the Disturbed State (5.0).
Model keys
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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.