Meadow Fen 14+ PZ

Description

This represents the historical reference state in pristine conditions. Variability in depth to water table and seasonal fluctuations support native facultative and obligate wetland vegetation and vegetated communities include all historical functional and structural groups. The historical disturbance regime is intact and driven primarily by climate which influences snowpack and ground water recharge. The resilience and resistance of the site is bolstered by negative feedbacks between peat accumulation, vegetation production and hydrologic processes that maintains a dynamic equilibrium with geomorphological processes.

Submodel

Description

Soils in this state have been compacted or sod broken leading to decreases in water holding capacity, reductions in rooting area for plants, diminished productivity, and increased bareground. Increases in erosion may also occur on sloped sites. Shallow-rooted plant species such as Kentucky bluegrass, Baltic rush, small sedges and forbs may increase . If this state is reached through improperly managed livestock grazing or heavy, chronic, native ungulate utilization, plant community composition may be further impacted. Willow species may decline from extended grazing during late summer and early fall periods where preference is highest relative to herbaceous species. Exotic grasses and forbs adapted to disturbance or with low palatability may also increase.

Description

Site hydrology has been significantly altered by changes in groundwater discharge or seasonality. Water tables may be lowered or may experience more variability leading to decreases in sedge species composition and possible reductions in peat accumulation. Subsequent increases in native grasses adapted to more variable water tables such as tufted hair grass and meadow barley, and non-native grasses such as Kentucky bluegrass, reed canarygrass, and meadow foxtail may occur. Increases in fire frequency may follow drying of the site. More extreme departures from reference hydrologic conditions may lead to more dramatic shifts in species composition such as shrub and tree encroachment.