A Comparative Assessment of Genetic Diversity among Differently‐Aged Populations of Spartina alternif lora on Restored Versus Natural Wetlands

We collected naturally recolonizing Spartina alterniflora (smooth cord grass) from each of three restored sites and one undisturbed reference site in southwestern Louisiana to assess the impact of wetland restoration on genetic diversity. We used amplified fragment length polymorphisms (AFLPs) to produce 94 polymorphic genetic markers, which were used to characterize genetic diversity as average heterozygosity and the proportion of polymorphic loci . Overall our findings indicate that restored populations of S. alterniflora maintain levels of genetic diversity comparable to natural populations, which should provide some measure of resistance against environmental disturbances. Diversity estimates were lowest for the natural reference site ( = 0.1059; = 0.2763), whereas estimates for the three restored sites ranged from = 0.1148 to 0.1256 and = 0.3114 to 0.3202. All sites maintained sufficiently high diversity levels to suggest significant rates of outcrossing. Overall, genetic differentiation among populations was small (Weir and Cockerham's Θ = 0.0645), with the values from each pairwise comparison among the populations increasing with the geographic distance between sites (range = 0.0490-0.1101). These values indicate an average migration rate of 3.6 migrants, either pollen or seeds, per generation.

[1]  P. Vos,et al.  AFLP: a new technique for DNA fingerprinting. , 1995, Nucleic acids research.

[2]  J. Doyle,et al.  A rapid DNA isolation procedure for small amounts of fresh leaf tissue , 1987 .

[3]  B. Weir,et al.  ESTIMATING F‐STATISTICS FOR THE ANALYSIS OF POPULATION STRUCTURE , 1984, Evolution; international journal of organic evolution.

[4]  L. Excoffier,et al.  Analysis of molecular variance inferred from metric distances among DNA haplotypes: application to human mitochondrial DNA restriction data. , 1992, Genetics.

[5]  S. Wright,et al.  Systems of Mating. I. the Biometric Relations between Parent and Offspring. , 1921, Genetics.

[6]  P. Keim,et al.  An analysis of genetic variation in Astragalus cremnophylax var. cremnophylax, a critically endangered plant, using AFLP markers , 1996, Molecular ecology.

[7]  R. Jorgensen,et al.  Ribosomal DNA spacer-length polymorphisms in barley: mendelian inheritance, chromosomal location, and population dynamics. , 1984, Proceedings of the National Academy of Sciences of the United States of America.

[8]  R. Lande,et al.  THE EVOLUTION OF SELF‐FERTILIZATION AND INBREEDING DEPRESSION IN PLANTS. I. GENETIC MODELS , 1985, Evolution; international journal of organic evolution.

[9]  D. M. Grant,et al.  Influence of seed source upon phenology of flowering of Spartina alterniflora Loisel and the likelihood of cross pollination , 1981 .

[10]  S. Rogers,et al.  Extraction of DNA from milligram amounts of fresh, herbarium and mummified plant tissues , 1985, Plant Molecular Biology.

[11]  Deborah Charlesworth,et al.  INBREEDING DEPRESSION AND ITS EVOLUTIONARY CONSEQUENCES , 1987 .