Shallow Loamy Upland

Description

The reference state is considered to be representative of the natural range of variability without major anthropogenic influences. This state is characterized by a warm-season, perennial, tallgrass savanna with scattered oak trees. Total overstory canopy cover is less than 25 percent.

Drivers- Fire frequency between 1 and 10 years (Hallgren, 2011), climate (decadal scale), insect and disease presence or establishment (oak wilt, beetles), and wildlife grazing or browsing.

Feedbacks- Fire tolerant grasses dominate the ecological site, fire intervals suppress woody vegetation growth. Wildlife grazing/browsing decreases the amount of grass available, decreasing fire intensity and causing wildlife migration to a new grazing location.

Characteristics and indicators

The reference state is characterized by a savanna, an open grassland with trees and shrubs present in low numbers. The trees species for this state are mainly post oak, blackjack oak, black hickory, bitternut hickory, chinquapin oak, cedar elm, and other oak species. Dominate grasses consist of little bluestem, switchgrass, indiangrass, and big bluestem (Landfire 2010; NatureServe 2009).

Submodel

Description

The encroached state is dominated by tree species. Canopy cover is greater than 25%.

Driver- Absence of wildfire, seed dispersal by wildlife, climate (decadal scale), and canopy density.

Feedbacks- Tree species dominate the ecological site, causing shading of grass species and shorter woody species. Less ground cover will decrease fire risk. Nutrient and water cycling will be controlled by tree species.

Characteristics and indicators

The encroached state consists of many tree species, especially eastern redcedar, where there is significant canopy closure. Depending on how long this state has been present on the ecological site, the plant community will vary from oak, to hickory, to eastern redcedar. As the woody canopy increases and an encroached state occurs, the hydrology of the site is altered. The increased canopy intercepts most of the precipitation and changes hydrological patterns to favor tree species over grass species. Understory species will generally have less available water for growth and will have to compete with an extensive redcedar root system (Zou, 2018).

Submodel

Description

The pasture state consists of introduced grass species that are planted to maximize livestock forage production.

Drivers- Mechanical soil disturbance and seed planting, climate (decadal scale), seed dispersal, and wildlife/livestock grazing or browsing.

Feedbacks- Land managers use mechanical or chemical equipment to manipulate the ecological site. Wildlife and livestock grazing/browsing decrease the amount of available forage. Inputs of fertilizer and brush management are required to maintain high productivity across this ecological state.

Characteristics and indicators

The pasture state will comprise species that are planted and grown for specific management goals, mainly livestock grazing. Common pasture species include buffalograss, western wheatgrass, little bluestem, sideoats grama, composite dropseed, silver beardgrass, winter bentgrass, purple lovegrass, kentucky bluegrass, tumblegrass, fall panicgrass, little barley, white sagebrush, slimflower scurfpea, and missouri goldenrod. Quality and quantity of forb, grass and legume species within this state will depend on the level of management inputs including seeding, weed management, and land uses. Species of both warm-season and cool-season grasses are feasible for these sites.

Submodel

Description

The eroded state consists of an area where the soil and plant communities are not stable due to wind and water erosion.

Drivers- Loss of soil and site stability, active soil erosion, climate (decadal scale), and wildlife/livestock grazing or browsing.

Feedbacks- Reduced basal cover and increased bare ground resulting in increased overland flow leading to rills and gullies.

Characteristics and indicators

The eroded state consists of an area where the soil and plant communities are not stable due to wind and water erosion. In addition to destroying the original plant community, over plowing (degrading soil through cultivation) has resulted in major soil condition changes. Reductions in organic matter, mineral levels, soil structure, oxygen levels, water holding capacity, and populations of soil dwelling organisms are common in this state. The extent of these changes depend upon duration of over plowing, as well as the species of crops grown and other management practices. Where vegetation is able to grow, this states plant community is predominately prairie threeawn interspersed in remnants of perennial grasses such as alkali sacaton, blue grama, sideoats grama and buffalograss. Numerous annuals are usually found on this state.

Submodel