Evolution 1990 Jul 01;444:933-941. doi: 10.1111/j.1558-5646.1990.tb03815.x.

GAMETIC INCOMPATIBILITY BETWEEN SPECIES OF THE SEA URCHIN ECHINOMETRA ON THE TWO SIDES OF THE ISTHMUS OF PANAMA.

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The Pliocene rise of the Central American Isthmus has resulted in numerous "geminate pairs," i.e., closely related species, one on each coast. Such species pairs can provide information on the evolution of isolating mechanisms in allopatry and on the relationship between genetic divergence and reproductive isolation in populations separated at a known time. The sea urchin genus Echinometra has one species, E. vanbrunti, in the eastern Pacific, and two, E. lucunter and E. viridis, in the Caribbean. E. viridis is morphologically distinct from the other two species, leading to the conclusion that E. lucunter and E. vanbrunti constitute a geminate pair. Allozyme data, on the other hand, place the speciation event of the two currently sympatric species after the rise of the Isthmus. We report fertilization experiments between the gametes of the three species performed to determine degree of reproductive isolation. Crosses between E. viridis and E. vanbrunti produce rates of fertilization almost equal to those manifested in homogamic crosses. Sperm of E. lucunter can fertilize eggs of the other two species, but few of its eggs permit fertilization by heterospecific sperm. Contrary to the predictions of the "speciation by reinforcement" hypothesis, degree of incompatibility between the allopatric E. lucunter and E. vanbrunti is higher than between the sympatric E. lucunter and E. viridis. Despite the incomplete and unidirectional nature of their gametic isolation, E. lucunter and E. viridis maintain their genetic integrities. Consideration of the likely phylogenetic relationships between the three species suggests that incompatibility of E. lucunter eggs with heterospecific sperm has evolved in the last 3.5 million years, after the rise of the Isthmus. There is no correlation between genetic divergence and strength of reproductive isolation, either within Echinometra, or among the geminate species pairs of echinoids that have been studied to date. Because recognition between echinoid gametes depends on the chemical compositions of a sperm protein and an egg glycoprotein, the appearance of gametic isolation would require only the fixation of a few mutations in each population on either side of a geographic barrier and could be independent of any other kind of genetic divergence. Thus, in animals with external fertilization, speciation need not be accompanied by major genomic reorganization.

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Genes referenced: LOC100887844 srpl