ARE LIFE HISTORY CHARACTERISTICS GOOD PREDICTORS OF GENETIC DIVERSITY AND STRUCTURE? A CASE STUDY OF THE INTERTIDAL ALGA FUCUS SPIRALIS (HETEROKONTOPHYTA; PHAEOPHYCEAE)1

Abstract

Characteristics of an organism's life history are often good predictors of genetic diversity and genetic structure. We tested hypotheses about genetic structure and diversity in an intertidal alga based on life history and life form. Fucus spiralis L. is a perennial monoecious alga that is abundant on the shores of Maine. Reproduction in fucoids is highly sensitive to water motion, resulting in fertilization success close to 100%. Given these life history characteristics, we predicted genetic structure among populations to be high and genetic diversity within populations to be low. We used five microsatellite loci to analyze genetic structure and diversity in F. spiralis from four sites on each of two coastal points, Maine, USA. Observed heterozygosities were relatively low (0.23 to 0.56), and FIS estimates were usually significantly large, ranging from 0.021 to 0.476. This suggests that selfing and/or inbreeding may occur. Contrary to predictions, genetic differentiation between the two coastal points was insignificant. Moreover, few sites were genetically different from one another. Pairwise tests revealed complex patterns among sites. Genetic differentiation was not correlated with distance (P>0.05). Life history characteristics are good predictors of genetic diversity but not of population genetic structure in F. spiralis. We suggest that long distance dispersal of F. spiralis via drifting algal rafts increases gene flow. In addition, low levels of genetic structure may arise due to episodic recruitment or recent recolonization events. We discuss the implications of our results in terms of using life history characteristics as predictors of genetic diversity and structure in algae.