Long-term hydrologic effects on marsh plant community structure in the southern Everglades

Although large-scale transformation of Everglades landscapes has occurred during the past century, the patterns of association among hydrologic factors and southern Everglades freshwater marsh vegetation have not been well-defined. We used a 10-year data base on the aquatic biota of Shark Slough to...

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Bibliographic Details
Published in:Wetlands (Wilmington, N.C.) N.C.), 1998-06, Vol.18 (2), p.230-241
Main Authors: Busch, David E., Loftus, William F., Bass, Oron L.
Format: Article
Language:English
Subjects:
Algal mats
Annual variations
Aquatic animals
Aquatic biota
Aquatic plants
Bacopa caroliniana
Biota
Cladium jamaicense
Community structure
Drought
Eleocharis cellulosa
Floating plants
Freshwater
Marshes
Ordination
Panicum hemitomon
Paspalidium geminatum
Periphyton
Plant communities
Plant species
Plants
Plants (botany)
Rhyncospora tracyi
Sagittaria lancifolia
Substrates
Utricularia
Vegetation
Water depth
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Summary:Although large-scale transformation of Everglades landscapes has occurred during the past century, the patterns of association among hydrologic factors and southern Everglades freshwater marsh vegetation have not been well-defined. We used a 10-year data base on the aquatic biota of Shark Slough to classify vegetation and describe plant community change in intermediate- to long-hydroperiod Everglades marshes. Study area marsh vegetation was quantitatively grouped into associations dominated by 1)Cladium jamaicense, 2) a group of emergents includingEleocharis cellulosa, Sagittaria lancifolia, andRhyncospora tracyi, 3) taxa associated with algal mats (Utricularia spp. andBacopa caroliniana), and 4) the grassesPanicum hemitomon andPaspalidium geminatum. During the decade evaluated, the range of water depths that characterized our study sites approached both extremes depicted in the 40-year hydrologic record for the region. Water depths were near the long-term average during the mid-1980s, declined sharply during a late 1980s drought, and underwent a prolonged increase from 1991 through 1995. Overall macrophyte cover varied inversely with water depth, while the response of periphyton was more complex. An ordination analysis, based on plant species abundance, revealed that study area vegetation structure was associated with hydrologic patterns. Marsh plant community structure showed evidence of cyclic interannual variation corresponding to hydrologic change over the decade evaluated. Lower water depths, the occurrence of marl substrates, and high periphyton cover were correlated. These factors contributed to reduced macrophyte cover in portions of the study area from which water had been diverted.
ISSN:0277-5212
1943-6246
DOI:10.1007/BF03161658