Comparative Patterns of Occupancy by Decapod Crustaceans in Seagrass, Oyster, and Marsh-Edge Habitats in a Northeast Gulf of Mexico Estuary

Decapod crustaceans occupying seagrass, salt marsh edge, and oyster habitats within the St. Martins Aquatic Preserve along the central Gulf coast of Florida were quantitatively sampled using a 1 - m2 throw trap during July-August 1999 and March-April 2000. Relative abundance and biomass were used as...

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Bibliographic Details
Published in:Estuaries 2003-10, Vol.26 (5), p.1291-1301
Main Authors: Glancy, Thomas P., Frazer, Thomas K., Cichra, Charles E., Lindberg, William J.
Format: Article
Language:English
Subjects:
Animal and plant ecology
Animal, plant and microbial ecology
Aquatic habitats
Biological and medical sciences
Biomass
Brackish
Brackish water ecosystems
Crabs
Crustaceans
Decapoda
Estuaries
Freshwater
Fundamental and applied biological sciences. Psychology
Habitat conservation
Habitats
Marine
Marine ecology
Oysters
Relative abundance
Salt marshes
Sea water ecosystems
Shellfish
Spring
Summer
Synecology
Wetland ecology
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Summary:Decapod crustaceans occupying seagrass, salt marsh edge, and oyster habitats within the St. Martins Aquatic Preserve along the central Gulf coast of Florida were quantitatively sampled using a 1 - m2 throw trap during July-August 1999 and March-April 2000. Relative abundance and biomass were used as the primary measures to compare patterns of occupancy among the three habitat types. Representative assemblages of abundant and common species from each habitat were compared using Schoener's Percent Similarity Index (PSI). In all, 17,985 decapods were sampled, representing 14 families and 28 species. In the summer sampling period, mean decapod density did not differ between oyster and seagrass habitats, which both held greater densities of decapods than marsh-edge. In the spring sampling period oyster reef habitat supported greater mean decapod density than both seagrass and marsh-edge, which had similar densities of decapods. Habitat-specific comparisons of decapod density between the two sampling periods indicated no clear seasonal effect. In summer 1999, when seagrasses were well established, decapod biomass among the three habitats was not significantly different. During spring 2000, decapod biomass in oyster (41.40 g m-2) was greater than in marsh-edge (4.20 g m-2), but did not differ from that of seagrass (9.73 g m-2). There was no significant difference in decapod biomass between seagrass and marsh-edge habitats during the spring 2000 sampling period. The assemblage analysis using Schoener's PSI indicated that decapod assemblages associated with oyster were distinct from seagrass and marsh-edge habitats (which were similar). The results of this study suggest that in comparison to seagrass and marsh-edge habitats, oyster reef habitats and the distinct assemblage of decapod crustaceans that they support represent an ecologically important component of this estuarine system.
ISSN:0160-8347
1559-2723
1559-2758
1559-2731
DOI:10.1007/BF02803631