Underwater fertilization dynamics of marine green algae.

We studied the fertilization dynamics of marine green algae with both analytical methods and numerical simulations. In this study, we focused on a new factor, gametic investment per unit volume of the space in which gametes searched for their partners, and compared the numbers of zygotes formed at lower investments with those at higher investments. As a function of the gametic investment for various anisogamy ratios, we found there was generally a crossover region for each series where, for gametic investments larger than the crossover region, isogamy prevailed with the highest number of zygotes formed, while for gametic investments smaller than the crossover region, anisogamy dominated. These results may explain both the stable maintenance of isogamy in shallow water and the distribution of anisogamous species in deep water, since in shallow water the gametic investments typically exceed this crossover region and vice versa. Comparisons of field data from marine green algae are consistent with this hypothesis. Also, we showed that the cost of sex was approximately twofold in zygote formation when comparing isogamous species with mating types to those without mating types.