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Ensuring effective restoration efforts with salt marsh grass populations by assessing genetic diversity

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Smooth cordgrass (Spartina alterniflora) is a foundation species that naturally occurs along the Atlantic coast of North America and is often used in restoration due to its extensive rooting capacity… Click to show full abstract

Smooth cordgrass (Spartina alterniflora) is a foundation species that naturally occurs along the Atlantic coast of North America and is often used in restoration due to its extensive rooting capacity and ability to halt erosion. Clonal species, such as S. alterniflora, are easy to rear for transplant, but using a predominantly asexual species for restoration may lead to genetically depauperate populations. We (1) identified if genetic diversity was maintained during restoration; (2) determined if genotypes from the native populations were genetically distinct from the restored populations; and (3) evaluated if current efforts limited the number of multiple copies of the same multilocus genotypes (MLG) within restoration sites along the shorelines of the Mosquito Lagoon (ML), Florida, United States. All objectives were addressed where only one representative of an identical MLG was retained within each population. We found that allelic richness (p = 0.618) and expected heterozygosity (p = 0.527) did not significantly differ between restored and natural populations. Furthermore, pairwise FST estimates between naturally occurring populations ranged from 0.021 to 0.178, while estimates ranged from approximately 0 to 0.084 among restored populations. When we evaluated differentiation between natural and restored populations, average FST was 0.087. Finally, we found that higher numbers of samples with multiple copies of the same MLG occurred in restored populations (31.4–55.9% of samples per population) compared to natural populations (0–11.8% of samples per population). Overall, we found that current restoration efforts in the ML are effective at maintaining natural levels of genetic diversity.

Keywords: ensuring effective; restoration efforts; restored populations; genetic diversity; restoration

Journal Title: Restoration Ecology
Year Published: 2019

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