Calcareous Dolomite Exposed Backslope Woodland
Scenario model
Current ecosystem state
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Management practices/drivers
Select a transition or restoration pathway
- Transition T1A More details
- Transition T1B More details
- Restoration pathway R2A More details
- Transition T2B More details
- Transition T2A More details
- Transition T3A More details
- Transition T3B More details
- Transition T4A More details
- Restoration pathway T4B 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
The reference state was dominated by Shumard oak, chinkapin oak and ash. Periodic disturbances from fire, wind or ice maintained the dominance of white and chinkapin oak by opening up the canopy and allowing more light for oak reproduction. Long disturbance-free periods allowed an increase in more shade tolerant species such as northern red oak and sugar maple. Two community phases are recognized in this state, with shifts between phases based on disturbance frequency.
This reference state is uncommon today. Some sites have been converted to grassland (State 4). Others have been subject to repeated, high-graded timber harvest coupled with domestic livestock grazing (State 3). Fire suppression has resulted in increased canopy density, which has affected the abundance and diversity of ground flora. Many reference sites have been managed for timber harvests.
Submodel
Description
Lower disturbance levels has allowed these woodlands to become dense with saplings such as maple, ash and hickory. The dense, shaded conditions and lack of disturbance has caused the ground flora to decrease in cover and diversity. However, many of the original herbaceous species persist as small plants or in the seed bank. Consequently, thinning of the woody species and the re-introduction of periodic disturbances has shown these communities to be exceptionally resilient, and a return, after a period of many years, to the reference condition is possible.
Submodel
Description
Many of these sites have been subjected to heavy grazing by domestic livestock and periodic logging. These areas are more open with a diminished ground flora. In addition, grazed areas exhibit a lower diversity of native ground flora species and an increase of invasive natives such as coralberry and greenbrier. Restricting livestock access and eliminating logging will be necessary for successful restoration.
Submodel
Description
Conversion of other states to non-native cool season species such as tall fescue and red clover has been common. Occasionally, these pastures will have scattered oaks. Long term uncontrolled grazing can cause significant soil erosion and compaction. A return to the reference state may be impossible, requiring a very long term series of management options. If oak sprouting is left unchecked and grazing is eliminated or reduced then over time this state will transition to a fire excluded woodland or to a high-graded/grazed woodland.
Submodel
Mechanism
This is a gradual transition that results from extended, disturbance free periods of roughly 50 years or longer. Selective logging is also occurring.
Mechanism
This transition is the result of high-grade logging, uncontrolled domestic livestock grazing and fire suppression.
Mechanism
This restoration pathway is the result of the systematic application of prescribed fire. Mechanical thinning may also be used along with understory removal.
Mechanism
This transition is the result of high-grade logging and uncontrolled domestic livestock grazing.
Mechanism
This transition is the result of clearing and conversion to non-native cool season grassland.
Mechanism
This transition results from the cessation of livestock grazing and forest stand improvement.
Mechanism
This transition is the result of clearing and conversion to non-native cool season grassland.
Mechanism
This is a gradual transition that results from extended, disturbance free periods of roughly 50 years or longer, selective logging, tree planting and no grazing.
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.