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Flowering mechanisms, pollination strategies and floral scent analyses of syntopically co‐flowering Homalomena spp. (Araceae) on Borneo
Author(s) -
Hoe Y. C.,
Gibernau M.,
Maia A. C. D.,
Wong S. Y.
Publication year - 2016
Publication title -
plant biology
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.871
H-Index - 87
eISSN - 1438-8677
pISSN - 1435-8603
DOI - 10.1111/plb.12431
Subject(s) - biology , pollinator , araceae , inflorescence , botany , pollination , anthesis , brassicaceae , mating , scarabaeidae , curculionidae , zoology , pollen , cultivar
Abstract In this study, the flowering mechanisms and pollination strategies of seven species of the highly diverse genus Homalomena (Araceae) were investigated in native populations of West Sarawak, Borneo. The floral scent compositions were also recorded for six of these species. The selected taxa belong to three out of four complexes of the section Cyrtocladon (Hanneae, Giamensis and Borneensis). The species belonging to the Hanneae complex exhibited longer anthesis (53–62 h) than those of the Giamensis and Borneensis complexes ( ca . 30 h). Species belonging to the Hanneae complex underwent two floral scent emission events in consecutive days, during the pistillate and staminate phases of anthesis. In species belonging to the Giamensis and Borneensis complexes, floral scent emission was only evident to the human nose during the pistillate phase. A total of 33 volatile organic compounds ( VOC s) were detected in floral scent analyses of species belonging to the Hanneae complex, whereas 26 VOC s were found in samples of those belonging to the Giamensis complex. The floral scent blends contained uncommon compounds in high concentration, which could ensure pollinator discrimination. Our observations indicate that scarab beetles ( Parastasia gestroi and P. nigripennis ; Scarabaeidae, Rutelinae) are the pollinators of the investigated species of Homalomena , with Chaloenus schawalleri (Chrysomelidae, Galeuricinae) acting as a secondary pollinator. The pollinators utilise the inflorescence for food, mating opportunities and safe mating arena as rewards. Flower‐breeding flies ( Colocasiomyia nigricauda and C . aff. heterodonta ; Diptera, Drosophilidae) and terrestrial hydrophilid beetles ( Cycreon sp.; Coleoptera, Hydrophilidae) were also frequently recovered from inflorescences belonging to all studied species (except H. velutipedunculata ), but they probably do not act as efficient pollinators. Future studies should investigate the post‐mating isolating barriers among syntopically co‐flowering Homalomena sharing the same visiting insects.