1. Diversity of floodplain copepods (Crustacea) modified by flooding: species richness, diapause strategies and population genetics
- Author
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Dagmar Frisch, Bruce S. Libman, Stephen T. Threlkeld, and Stephen J. D'surney
- Subjects
geography ,education.field_of_study ,geography.geographical_feature_category ,Floodplain ,biology ,Ecology ,fungi ,Population ,Species diversity ,Aquatic Science ,Diapause ,biology.organism_classification ,Gene flow ,parasitic diseases ,Biological dispersal ,Species richness ,education ,Copepod - Abstract
We examined the impact of lateral and longitudinal hydrological connectiv- ity on copepod diversity (local species richness, diapause strategies and population genetics) in ponds of a North American floodplain. Results of a General Linear Model (GLM) which included three environmental pond variables showed that species rich- ness in these ponds was significantly influenced only by pond type (permanent ponds, temporary ponds with connections to other waterbodies during floods, isolated tempo- rary ponds). Local species richness in connected temporary ponds had significantly higher scores of local richness compared to isolated temporary ponds (means 7.4 and 2.7, respectively). Such enhancement of species diversity in connected ponds appears to be facilitated by increased dispersal during floods and also pertains to the diversity of diapause strategies in the ponds studied. Species with and without diapause were present in connected temporary ponds, but absent from isolated temporary ponds, which contained only species capable of diapausing during the dry season. To explore the significance of hydrological connectivity of longitudinal dispersal between up- stream and downstream sites, we used RAPD markers in populations of a calanoid co- pepod. The increase of average heterozygosity H (0.301 to 0.477) in an upstream- downstream direction and generally low genetic distances (Nei's D < 0.05) suggested maintenance of gene flow by flood-mediated dispersal between connected ponds. Lower heterozygosity (0.289) of the population in a downstream pond protected by le- vees suggested the interruption of gene flow when dispersal by flooding is blocked.
- Published
- 2005
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