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EVALUATING PERTUBATIONS AND DEVELOPING RESTORATION STRATEGIES FOR INLAND WETLANDS IN THE GREAT LAKES BASIN
Citation:
Detenbeck, N E., J. Atkinson, S. M. Galatowitsch, AND H. Ball. EVALUATING PERTUBATIONS AND DEVELOPING RESTORATION STRATEGIES FOR INLAND WETLANDS IN THE GREAT LAKES BASIN. WETLANDS 19(4):789-820, (1999).
Description:
Wetland coverage and type distributions vary systematically by ecoregion across the Great Lakes Basin. Land use and subsequent changes in wetland type distributions also vary among ecoregions. Incidence of wetland disturbance varies significantly within ecoregions but tends to increase from north to south with intensity of land use. Although the nature of disturbance activities varies by predominant land-use type, mechanisms of impact and potential response endpoints appear to be similar across agricultural and urban areas. Based on the proportion of associated disturbance activities and proportion response endpoints affected, the highest ranking mechanisms of impact are sediment/turbidity, retention time, eutrophication, and changes in hydraulic timing. Disturbance activities here are defined as events that cause wetland structure or function to vary outside of a normal range, while stressors represent the individual internal or external agents (causes) that act singly or in combination to impair one or more wetland functions. Responses most likely associated with disturbance activities based on
shared mechanisms of impact are 1) shifts in plant species composition, 2) reduction in wildlife production, 3)decreased local or regional biodiversity, 4) reduction in fish and/or other
secondary production, 5) increased flood peaks/frequency, 6) increased above-ground production, 7) decreased water quality downstream, and 8) loss of aquatic plant species with
high light compensation points. General strategies and goals for wetland restoration can be derived at the ecoregion scale using information on current and historic wetland extent and
type distributions and the distribution of special-concern species dependent on specific
wetland types or mosaics of habitat types. Restoration of flood-control and water-quality
improvement functions will require estimates of wetland coverage relative to total land area or
specific land uses (e.g., deforestation, urbanization) at the watershed scale. The high
incidence of disturbance avtivities in the more developed southern ecoregions of both Canada and the US is reflected in the loss of species across all wetland types. The species data here suggests that an effective regional strategy must include restoration of a diversity of wetland types, including the rarer wetland types (wet meadows, fens), as well as forested swamps, which were more extensive historically. The prevalence of anthropogenic stresses and openwater habitats likely contributes to the concentration of exotic species in inland wetlands of the southern Great Lakes ecoregions. Vegetation removal and site disturbance are the best documentated causes for plant invasions, and encroachment activities are common in marshes and ponds of the southern ecoregions.