Abstract
Several recent observations on e.g. birds and fruit flies support the hypothesis that when previously geographically separated populations, as neospecies, come into contact, sexual isolation mechanisms become stronger as a result of direct selection against inferior hybrids (reinforcement hypothesis). Many aspects of the reproductive biology of cyclopid copepods are still very poorly known. However, all reports on mating processes in the genus Mesocyclops confirm that males attach to the fourth legs of the females by their geniculate antennulae before transferring spermatophores. Accordingly, it is reasonable to assume that the signals helping recognition of the conspecific mates are located on the leg 4 of the females. The posterior surface of the leg 4 coxopodite in Cyclopidae is ornamented with a complex and diverse spinule pattern which, despite some infraspecific variability, is a reliable species-specific trait in species of Mesocyclops. Depending upon whether the spinule ornamentation has any role in the recognition system, and whether it evolved in geographically separated populations or later when they had begun to overlap, different predictions can be made about the zoogeographical pattern of differences among these character states. In the following study, comparisons are made for 10 allopatric, four sympatric and two partially sympatric species pairs. These comparisons reveal that the degree of divergence in the spinule ornamentation is significantly greater between sympatric than between allopatric species. These results argue in favor of the spinule ornamentation of the leg 4 coxopodite being a signal in specific mate recognition system (SMRS), and that the divergence of this state is initiated when previously separated populations, as neospecies, begin secondary contact.
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Hołyńska, M. Is the spinule pattern on the leg 4 coxopodite a tactile signal in the specific mate recognition system of Mesocyclops (Copepoda, Cyclopidae)?. Hydrobiologia 417, 11–24 (2000). https://doi.org/10.1023/A:1003875912789
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DOI: https://doi.org/10.1023/A:1003875912789