Shallow Marsh

Description

This state represents the natural range of variability that dominated the dynamics of this ecological site prior to European settlement. Historically, the primary disturbance mechanisms for this site in the reference condition were large fluctuations of the water table, water levels, soil saturation, and water chemistry (e.g., brackishness/salinity/ alkalinity). Periodic fire and grazing by large herding ungulates were also historical disturbances that influenced this site but to a much lesser degree. Climate, weather, and drawdown events (combined with the timing of fires and grazing) dictated the dynamics that occurred within the natural range of variability.

Presently, the main disturbances are climate, weather events, water level fluctuations, lack of fire, concentrated livestock grazing, and agronomic activities on adjacent ecological sites (e.g., tillage, fertilizer and herbicide use, drainage).

The Reference State is composed of four community phases. These phases are largely due to variations in weather and climate factors resulting in considerable fluctuations in water levels and water chemistry (e.g., brackishness), which are the major factors influencing vegetation of the site. Brackishness can be natural due to the type of hydrology and soils of the site. Exotic perennial plants do not exist in this state.

Characteristics and indicators

Exotic species and hydrologic manipulation would not be present on this site when it is in State 1: Reference State.

Resilience management

If intact, the reference state should be managed with current disturbance regimes which has permitted the site to remain in reference condition as well as maintaining the quality and integrity of associated ecological sites. Maintenance of the reference state is contingent upon a monitoring protocol to guide management.

Submodel

Description

This state is characterized by the colonization and establishment of minor amounts of exotic plants. Reed canarygrass is native to North America, but exotic strains (largely Eurasian) have been widely introduced and, along with their hybrids, can be quite invasive. Hybrid cattail (the hybrid between narrowleaf cattail and broadleaf cattail) is also a common exotic. Canada thistle is also known to invade the site during dry periods. Although the site is still dominated by native plants, an increase in exotic plants can be expected. Unless a prescribed grazing and/or prescribed burning program is implemented or an increase in water depth drowns out exotic species, a transition to State 3: Invaded State can be expected.

Characteristics and indicators

The presence of trace amounts of exotic species/hybrids (e.g., cattail, reed canarygrass) indicates a transition from State 1 to State 2.

Resilience management

Implementation of management techniques and monitoring procedures designed to limit or control exotic species/hybrids.

Submodel

Description

This state occurs when the site becomes dominated by exotic plants. Common exotics of the site include exotic strains/hybrids of reed canarygrass or hybrid cattail. Canada thistle, sowthistle, and absinthium (aka wormwood) may also invade the site during dry periods. Once the state is established, restoration efforts have proven difficult (see Restoration R3A).

Characteristics and indicators

This site is characterized by exotic species/hybrids dominating the site and controlling the ecological processes (i.e., approximately 30 to 40%).

Resilience management

Once established, reed canarygrass and hybrid cattail are very resilient and will withstand grazing, haying, and non- use.

Submodel

Description

This state is highly variable depending on the level and duration of disturbance related to the T5A pathway. In this MLRA, the most probable origin of this state is plant succession following crop abandonment. This plant community will initially include a variety of annual forbs and grasses, some of which may be noxious weeds.

Characteristics and indicators

Tillage has destroyed the native plant community, altered soil structure and biology, reduced soil organic matter, and resulted in the formation of a tillage induced compacted layer which is restrictive to root growth. Removal of perennial grasses and forbs results in decreased infiltration and increased runoff.

Resilience management

Continued tillage will maintain the state. Control of noxious weeds will be required.

Submodel