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RESEARCH ARTICLE
Contents Vol 66(7)

Floral traits predict pollination syndrome in Syzygium species: a study on four endemic species of the Western Ghats, India

Giby Kuriakose A B , Palatty Allesh Sinu A C D and K. R. Shivanna A
+ Author Affiliations
- Author Affiliations

A Ashoka Trust for Research in Ecology and the Environment (ATREE), Royal Enclave, Jakkur Post, Bangalore 560064, India.

B Present address: Department of Botany, Sacred Heart College, Thevara, 682013, Kochi, Kerala, India.

C Present address: Department of Animal Science, Central University of Kerala, Periye PO, 671316, Kasaragod, Kerala, India.

D Corresponding author. Email: sinu@cukerala.ac.in

Australian Journal of Botany 66(7) 575-582 https://doi.org/10.1071/BT18042
Submitted: 27 February 2018  Accepted: 27 October 2018   Published: 6 December 2018

Abstract

Pollination ecology and the breeding system of four endemic species of Syzygium (S. heyneanum, S. travancoricum, S. laetum and S. mundagam) of the Western Ghats, India are investigated. The floral traits are used for ordination analysis to understand if the species form any cryptic groups and whether this grouping predicts the pollination syndrome and the breeding system. Pollinators were distinguished from frequent visitors by studying their efficiency to transfer pollen to the stigma or induce fruit set following their exclusive visit to virgin flowers. The species formed two groups in the ordination map: the S. heyneanum and S. travancoricum group and the S. laetum and S. mundagam group. The flowers of studied species attracted 3–23 species of animals during the day, but none were encountered during the night. Flowers of S. heyneanum and S. travancoricum were visited by a large number of insect species of which only a limited number turned out to be the pollinators. S. laetum and S. mundagam attracted two bird species apart from a few insect species. In S. laetum, although birds did not bring about pollination directly, their visits facilitated anemophily by releasing pollen to the air by causing physical disturbance to the flowers. In S. mundagam, both birds and wind were involved in pollination. S. heyeanum and S. travancoricum were fully self-compatible, whereas S. laetum and S. mundagam were partially self-compatible.

Additional keywords: anemophily, breeding system, endemic species, ornithophily, partial self-incompatibility, plant–pollinator interaction, wet evergreen forest.


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