PS 79-58 - Genetic diversity and population structure of Vallisneria americana in the Chesapeake Bay: Implications for restoration

Friday, August 12, 2011
Exhibit Hall 3, Austin Convention Center
Michael W. Lloyd1, Robert K. Burnett Jr.1, Katharina Engelhardt2 and Maile C. Neel3, (1)Plant Sciences and Landscape Architecture, University of Maryland, College Park, MD, (2)Appalachian Laboratory, University of Maryland Center for Environmental Science, Frostburg, MD, (3)Plant Science & Landscape Architecture and Entomology, University of Maryland, College Park, MD
Background/Question/Methods

Submersed aquatic macrophyte beds provide important ecosystem services, yet their distribution and extent has declined worldwide in aquatic ecosystems.  Effective restoration of these habitats will require, among other factors, reintroduction of genetically diverse source material that can withstand short- and long-term environmental fluctuations in environmental conditions. We examined patterns of genetic diversity in Vallisneria americana because it is a cosmopolitan freshwater submersed aquatic macrophyte and is commonly used for restoring freshwater habitats. 

Results/Conclusions

We sampled 26 naturally occurring sites of V. americana in the Chesapeake Bay estuary and its tributaries and found that the majority of sites are not highly inbred and have high genotypic diversity and are not highly inbred.  Fourteen of the sites had high allelic and genotypic diversity and could serve as source sites for restoration material.  However, substantial geographic structuring of genetic diversity suggests that caution should be used in moving propagules to locations distant from their source.  In particular, we suggest that propagules at least be limited within four primary geographic areas that correspond to freshwater tidal and non-tidal, oligohaline, and seasonally mesohaline areas of the Chesapeake Bay.

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