Plant sexual systems, dichogamy, and herkogamy in the Venezuelan Central Plain

Sexual system, temporal variation in sex expression, and herkogamy were evaluated in 210 plant species in the Venezuelan Central Plain (VCP). This analysis was conducted considering the life forms, habitats, flowering time, pollination systems, and dispersal syndromes of the plant species. Hermaphrodite species dominated the community (75.2%; N=158), followed by monoecious taxa (17.1%; N=36), and then dioecious (7.6; N=16). Most species were adichogamous (=homogamous) (75.2%; N=155), followed by protandrous (16.5%; N=34), and protogynous (8.3%; N=17). The frequency of herkogamous species was higher (N=124; 60.2%) than the non-herkogamous (N=82; 39.8%). The three reproductive traits interacted significantly in a way that complements their effectiveness in promoting cross-pollination and avoidance of pollen–stigma interference: hermaphrodite-adichogamous species occurred in similar frequency to herkogamous and non-herkogamous species; monoecious-adichogamous species were mostly herkogamous, and all hermaphrodite, functionally dioecious-adichogamous, species were herkogamous. Sexual system, herkogamy, and dichogamy are associated with habitats in the savanna-forest mosaic of the VCP. The proportion of dioecious species decreased from trees to annual herbs and from forest to disturbed areas. Dichogamous species were most frequent for herbaceous plants, and non-herkogamous species dominated in annual herbs. The frequency of herkogamous species decreased from forest to disturbed areas. Sexual system was significantly associated with pollination system. Most dioecious and monoecious species had generalist pollination. A three-factor log linear analysis indicated that for any combination significantly. Sexual systems and herkogamy were associated with the respective seed dispersal syndrome. Most dioecious and herkogamous species were dispersed by frugivores, while monoecious plants tended to be dispersed by granivores and wind. Flowering time of dioecious species peaked during the dry–rainy transition period, whereas that of monoecious species was greatest during the rainy season. Therefore, specific biotic and abiotic conditions may enforce the occurrence of unisexuality in the community. In a similar way, dichogamous species tend to flower during the rainy season, associated with herbaceous life form and wind pollination. These results are discussed in the context of evolutionary and ecological trends.