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Pollination ecology and breeding system of Oroxylum indicum (Bignoniaceae) in the foothills of the Western Himalaya

Published online by Cambridge University Press:  01 January 2009

Vikas ,
Mayank Gautam ,
Rajesh Tandon  and
H. Y. Mohan Ram
Vikas
Affiliation:
Department of Botany, University of Delhi, Delhi 110 007, India
Mayank Gautam
Affiliation:
Department of Botany, University of Delhi, Delhi 110 007, India
Rajesh Tandon*
Affiliation:
Department of Botany, University of Delhi, Delhi 110 007, India
H. Y. Mohan Ram
Affiliation:
194, SFS DDA Flats, Mukherjee Nagar, Delhi 110 009, India
*
1Corresponding author. Email: rjtnd@rediffmail.com
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Extract

Bat-pollinated (chiropterophilous) flowers are characterized by a wide-throated corolla, foetid odour, production of a copious amount of pollen and nectar, and most importantly nocturnal blooming (Faegri & van der Pijl 1979). In India, out of the 28 chiropterophilous plants reported (Subramanya & Radhamani 1993) only Ceiba pentandra (Bombacaceae) has been investigated in some detail (Nathan et al. 2005).

Keywords

bat pollinationCynopterus sphinxIndialate-acting self-incompatibilityovular receptivityspecializationthigmosensitive stigma
Type
Short Communication
Information
Journal of Tropical Ecology , Volume 25 , Issue 1 , January 2009 , pp. 93 - 96
Copyright
Copyright © Cambridge University Press 2008

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References

LITERATURE CITED

BITTENCOURT, N. S. & SEMIR, J. 2005. Late-acting self-incompatibility and other breeding systems in Tabebuia (Bignoniaceae). International Journal of Plant Sciences 166:493506.CrossRefGoogle Scholar
CRUDEN, R. W. 1977. Pollen-ovule ratios: a conservative indicator of breeding systems in flowering plants. Evolution 31:3246.CrossRefGoogle ScholarPubMed
FAEGRI, K. & VAN DER PIJL, L. 1979. The principles of pollination ecology. Pergamon Press, Oxford. 291 pp.Google Scholar
FRANSSEN-VERHEIJEN, M. A. W. & WILLEMSE, M. T. M. 1993. Micropylar exudate in Gasteria (Aloaceae) and its possible function in pollen tube growth. American Journal of Botany 80:253262.Google Scholar
GOULD, E. 1978. Foraging behavior of Malaysian nectar-feeding bats. Biotropica 10;184193.CrossRefGoogle Scholar
HESLOP-HARRISON, J. & HESLOP-HARRISON, Y. 1970. Evaluation of pollen viability by enzymatically induced fluorescence; intracellular hydrolysis of fluorescein diacetate. Stain Technology 45:115120.CrossRefGoogle ScholarPubMed
KEARNS, C. A. & INOUYE, D. W. 1993. Techniques for pollination biologists. University Press of Colorado, Colorado. 583 pp.Google Scholar
LINSKENS, H. F. & ESSER, K. 1957. Über eine specifische Anfärbung der Pollenschläuche im Griffel und die Zahl der Kallosepfropfen nach Selbstung und Fremdung. Naturwissenschaften 44:16.Google Scholar
MARSHALL, A. G. 1985. Old World phytophagous bats (Megachiroptera) and their food plants: a survey. Zoological Journal of the Linnean Society 83:351369.Google Scholar
MCCANN, C. 1939. Notes on the fulvous fruit-bat (Rousettus leschenaulti Desm.). Journal of Bombay Natural History Society 41:805816.Google Scholar
MUCHHALA, N. 2007. Adaptive trade-off in floral morphology mediates specialization for flowers pollinated by bats and hummingbirds. The American Naturalist 169:494504.Google Scholar
NATHAN, P. T., RAGHURAM, H., ELANGOVAN, V., KARUPPUDURAI, T. & MARIMUTHU, G. 2005. Bat pollination of kapok tree, Ceiba pentandra. Current Science 88:16791681.Google Scholar
SAGE, T. L. & WILLIAMS, E. G. 1995. Structure, ultrastructure and histochemistry of the pollen tube pathway in the milkweed Asclepias exaltata L. Sexual Plant Reproduction 8:257265.CrossRefGoogle Scholar
SINGH, J. & CHAUHAN, S. V. S. 1996. Morphological changes in the stigma of seasonally transient sterile Tecoma stans L. Phytomorphology 46:17.Google Scholar
SOKAL, R. R. & ROHLF, F. J. 1995. Biometry: the principles and practice of statistics in biological research. (Third edition). W. H. Freeman and Company, New York. 887 pp.Google Scholar
SRITHONGCHUAY, T., BUMRUNGSRI, S. & SRIPAO-RAYA, E. 2008. Pollination ecology of the late-successional tree, Oroxylum indicum (Bignoniaceae) in Thailand. Journal of Tropical Ecology 24:477484.Google Scholar
STEBBINS, G. L. 1970. Adaptive radiation of reproductive characteristics in angiosperms. 1. Pollination mechanisms. Annual Review of Ecology and Systematics 1:307326.CrossRefGoogle Scholar
STEPHENSON, A. G. 1979. An evolutionary examination of the floral display of Catalpa speciosa (Bignoniaceae). Evolution 33:12001209.CrossRefGoogle ScholarPubMed
SUBRAMANYA, S. & RADHAMANI, T. R. 1993. Pollination by birds and bats. Current Science 65:201209.Google Scholar