Wet Meadow

Description

This site developed under Northern Great Plains climatic conditions which included frequent droughts and wide fluctuations in temperature and precipitation which can result in both short-term and long-term changes in water levels and water chemistry (e.g., alkalinity/ salinity). Hydrology, water chemistry, grazing, and fire can all serve as important drivers of this site. Hydrology is mainly a factor of landscape position including the size of the contributing watershed, connectivity to other basins, and whether the basin has an outlet. Water chemistry is influenced by soil chemistry and whether the site is a recharge, flow-through, or discharge site.

This state is typically co-dominated by a mixture of cool-season and warm-season graminoids (mainly woolly sedge, wheat sedge, and Sartwell’s sedge) along with prairie cordgrass and northern reedgrass. Prior to European influence the primary disturbance mechanisms for this site in the reference condition included water level fluctuations, periodic fire, and grazing by large herding ungulates. Spring snowmelt runoff and rainfall events, coupled with timing of fires and grazing events, dictated the dynamics that occurred within the natural range of variability. Along with water level fluctuations and water chemistry, present day primary disturbances are from concentrated livestock grazing and a lack of fire. Under these conditions, vegetation for livestock and wildlife can be expected to decline along with a corresponding increase in less desirable vegetation.

Wet Meadow ecological sites are highly influenced by water levels (including saturated soil), water movement, and water chemistry (i.e., discharge and recharge hydrology). Water levels influence fire effectiveness and livestock use. Water levels also influence exotic species invasion. As Wet Meadow sites draw down, drying and losing soil moisture, they transition to functioning as an upland ecological site and can increase in salinity/alkalinity. Exotic cool-season grasses and forbs begin to invade starting from the upland edge of the Wet Meadow ecological site moving toward the deeper portion of the wetland. Many factors will dictate the speed of exotic species invasion including duration of draw-down phase, management of the sites during the draw-down phase, changes in soil chemistry, and availability of exotic species seed or plants parts (e.g., propagules). During extended periods of draw-down, presence of exotic species adjacent to the site and lack of fire or heavy season-long livestock grazing can speed up the invasion of cool-season exotic grasses or forbs, such as Canada thistle or field sowthistle.

Once the site is invaded, increased water depth can begin to reverse the invasion of exotic species. However, the increase in salt accumulation will be difficult to reverse back to levels prior to extended periods of draw- down. In addition, exotic cool-season grasses such as quackgrass along with foxtail barley can tolerate extended periods of inundation or saturation, never totally drowning out along the outer margins of the Wet Meadow site. The continued presence of exotic cool-season grasses prevents the site from transitioning back to State 1: Reference State.

Characteristics and indicators

(i.e., characteristics and indicators that can be used to distinguish this state from others). Because of changes in disturbances and other environmental factors (particularly the widespread occurrence of exotic species), the Reference State is increasingly rare.

Resilience management

(i.e., management strategies that will sustain a state and prevent a transition). 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 upland ecological sites. Maintenance of the reference condition is contingent upon a monitoring protocol to guide management.

Submodel

Description

This state may be characterized as consisting of similar community phases as found in the Reference State (e.g., Community Phase 1.1 and 1.2); but the site has now been colonized by exotic plants - mainly cool- season grasses (such as Kentucky bluegrass, quackgrass, smooth brome, and/or exotic strains/hybrids of reed canarygrass). Canada thistle is also a frequent exotic on the state. Although the state is still dominated by native cool-season grasses and graminoids, an increase in the exotic cool-season grasses can be expected.

These exotic cool-season grasses have been particularly and consistently invasive under extended periods of no use and no fire. To slow or limit the invasion of these exotic grasses, it is imperative that managerial options (e.g., prescribed grazing, prescribed burning, other) be carefully constructed and evaluated with respect to that objective. If management does not include measures to control or reduce these exotic cool- season grasses, the transition to State 3: Invaded State should be expected.

Production and diversity are typically much reduced compared to that of the Reference State. Production can vary widely due to variations in environmental factors and the extent of exotic grasses. However, annual production may be in the range of 3300-6000 pounds per acre.

Willows (e.g., Bebb willow) may be present in this state. They may markedly increase, particularly during periods of infrequent fire (i.e., +/- 5-10 year intervals), leading to the transition to State 3: Wooded State (T2A).

Restoration of State 2: Native/Invaded State back to State 1: Reference State is not considered to be achievable. It should be noted, however, that if the major invader is exotic strains/hybrids of reed canarygrass, prescribed grazing techniques that target reed canarygrass may be a good choice for restoration efforts because the species is not very tolerant of heavy grazing.

Characteristics and indicators

(i.e., characteristics that can be used to distinguish this state from others). The presence of trace amounts of exotic cool-season grasses indicates a transition from State 1 to State 2. The presence of exotic biennial or perennial leguminous forbs (i.e., sweet clover, black medic) may not, on their own, indicate a transition from State 1 to State 2 but may facilitate that transition.

Resilience management

(i.e., management strategies that will sustain a state and prevent a transition). To slow or limit the invasion of these exotic grasses, it is imperative that managerial options (e.g., prescribed grazing, prescribed burning) be carefully constructed and evaluated with respect to that objective.

Grazing management should be applied that enhances the competitive advantage of native grass and forb species. This may include: (1) grazing when exotic cool-season grasses are actively growing and native cool- season grasses are dormant; (2) applying proper deferment periods allowing native grasses to recover and maintain or improve vigor; (3) adjusting overall grazing intensity to reduce excessive plant litter (above that needed for rangeland health indicator #14 – see Rangeland Health Reference Worksheet); (4) incorporating early heavy spring utilization which focuses grazing pressure on exotic cool-season grasses and reduces plant litter, provided that livestock are moved when grazing selection shifts from exotic cool-season grasses to native grasses.

Prescribed burning should be applied in a manner that maintains or enhances the competitive advantage of native grass and forb species. Prescribed burns should be applied as needed to adequately reduce/remove excessive plant litter and maintain the competitive advantage for native species. Timing of prescribed burns (spring vs. summer vs. fall) should be adjusted to account for differences in annual growing conditions and applied during windows of opportunity to best shift the competitive advantage to the native species.

Submodel

Description

This state occurs throughout the MLRA and often results from extended periods of infrequent fire. A threshold leading to this state appears to occur over 5-10 years +/- of no fire. Bebb willow and many other willows resprout following burns. A vigorous sprouting response, in combination with increased growth (e.g., size, canopy cover) and reduced fine fuel loads beneath the canopy, often enables the willows to increase with infrequent fires. Older, larger plants survive the fires while smaller and younger plants resprout following a burn. Over time, the willows may form rather extensive stands or thickets. A marked increase in non-use management and active fire suppression since European influence has enabled this state to expand and become more widespread.

Characteristics and indicators

(i.e., characteristics and indicators that can be used to distinguish this state from others). The dominance of woody species (by cover and production) distinguishes this state from other herbaceously dominated states.

Resilience management

(i.e., management strategies that will sustain a state and prevent a transition). This state is resistant to change in the long-term absence of fire. Restoration efforts would require the use of prescribed fire, mechanical treatment, and prescribed grazing. Considerable time and effort will be required to restore to other States.

Submodel

Description

This state is similar to Community Phase 2.1, but exotic species now dominate the site. Foxtail barley is a conspicuous component of the community; however, the exotic grasses make up the bulk of the vegetation. Several exotic grasses may be present (alone or in combination) and include barnyardgrass, quackgrass, smooth brome, redtop, and/or exotic strains/hybrids of reed canarygrass. Common exotic forbs include Canada thistle, kochia, lambsquarters, and field sowthistle. Marsh fleabane (aka swamp ragwort) is also occasionally abundant on the site during draw-down periods.

Characteristics and indicators

(i.e., characteristics that can be used to distinguish this state from others). This site is characterized by exotic cool-season grasses constituting greater than 30 percent of the annual production and native grasses constituting less than 40 percent of the annual production.

Resilience management

(i.e., management strategies that will sustain a state and prevent a transition). Salinity levels need to be considered when developing management alternatives. Moderately stocked continuous, season-long grazing will maintain this plant community. Application of herbaceous weed treatment, occasional prescribed burning and/or brush management may be needed to manage noxious weeds and increasing shrub (e.g., western snowberry) populations.

Submodel

Description

This community is the freshwater phase of the invaded states and appears similarly to Community Phase 2.2. Exotic grasses dominate the site and may consist of quackgrass, smooth brome, and barnyardgrass (alone or in combination). Although foxtail barley may be present, it is much reduced compared to that of State 4: Invaded/Saline State. Canada thistle, field sowthistle, and lambsquarters are common forbs.

Characteristics and indicators

(i.e., characteristics that can be used to distinguish this state from others). This site is characterized by exotic cool-season grasses constituting greater than 30 percent of the annual production and native grasses constituting less than 40 percent of the annual production.

Resilience management

(i.e., management strategies that will sustain a state and prevent a transition). Light or moderately stocked continuous, will maintain this State. Application of herbaceous weed treatment, occasional prescribed burning and/or brush management may be needed to manage noxious weeds and increasing shrub (e.g., western snowberry) populations.

Submodel

Description

This state results from eutrophication and sedimentation of the site, often due to tillage on or adjacent to the site. Depending upon what seeds, rhizomes, and propagules are present in the substrate, monotypic stands of hybrid cattails or exotic strains/hybrids of reed canarygrass often develop. A rise in water levels, particularly when in association with wetlands, may also lead to dominance by cattails.

Characteristics and indicators

(i.e., characteristics that can be used to distinguish this state from others). This site is often characterized by exotic cool-season grasses constituting greater than 30 percent of the annual production and native grasses constituting less than 40 percent of the annual production. Hybrid cattail may dominate this site.

Resilience management

(i.e., management strategies that will sustain a state and prevent a transition). Continued cropping of uplands and lack of a vegetated buffer will maintain this State. Application of herbaceous weed treatment, occasional prescribed burning and/or brush management may be needed to manage noxious weeds and increasing shrub (e.g., western snowberry) populations.

Submodel

Description

This state is highly variable depending on the level and duration of disturbance related to the T8A 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 maybe noxious weeds.

Characteristics and indicators

(i.e., characteristics that can be used to distinguish this state from others). 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

(i.e., management strategies that will sustain a state and prevent a transition). Continued tillage will maintain the state. Control of noxious weeds will be required.

Submodel