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Analysis of a supra-annual cycle: reproductive phenology of the palm Oenocarpus bataua in a forest of the Colombian Andes

Published online by Cambridge University Press:  01 January 2009

Rosario Rojas-Robles  and
F. Gary Stiles
Rosario Rojas-Robles*
Affiliation:
Department of Forestry Science, National University of Colombia, Medellin, Calle 54 # 64–50 Medellin
F. Gary Stiles
Affiliation:
Institute of Natural Sciences, National University of Colombia, Bogotá, Carrera 30 # 45–03 Bogotá, Colombia
*
1Corresponding author. Email: [email protected]/[email protected]
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Abstract:

During a 4-y study of the palm Oenocarpus bataua, 368 reproductive structures on 102 palms were monitored. A reproductive structure required nearly 2 y for successful completion, from bud to ripe fruit. We found correlations with summed rainfall and averaged relative humidity and/or solar radiation for initiation of bud appearance, flowering and fruit maturation over 0–4 mo prior to the events, and another set of correlations over longer periods up to 11–12 mo before. Climatic variables showing short-term correlations (apparently triggering an event) often differed from those showing long-term correlations (which presumably initiated developmental processes culminating in the event itself). A high degree of asynchrony occurred in production of reproductive structures both within and between individual palms even within major reproductive peaks, and there were pronounced differences between individuals in total reproductive effort. Nearly all palms passed 1–3 y with little or no reproduction despite similar environmental conditions between years. We conclude that the supra-annual cycle of this palm is not the result of inadequate environmental cues in some years. There appear to be at least two different types of supra-annual cycles in tropical plants, differing in the relative importance of extrinsic cues vs. intrinsic physiological rhythms and in intrapopulation synchrony.

Keywords

floweringfruitingindividual phenologypopulation phenologyreproductive structuressupra-annual patternssynchrony
Type
Research Article
Information
Journal of Tropical Ecology , Volume 25 , Issue 1 , January 2009 , pp. 41 - 51
Copyright
Copyright © Cambridge University Press 2008

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References

LITERATURE CITED

BORCHERT, R. 1983. Phenology and control of flowering in tropical trees. Biotropica 15;8189.CrossRefGoogle Scholar
BORCHERT, R. 1994. Soil and stem water storage determine phenology and distribution of tropical dry forest trees. Ecology 75:14371449.CrossRefGoogle Scholar
BORGTOFT, P. H. & BALSLEV, H. 1993. Palmas útiles. Especies ecuatorianas para agroforesteria y extractivismo. Abya-Yala, Quito. 58 ppGoogle Scholar
COLLAZOS, M. E. & MEJÍA, M. 1988 Fenología y poscosecha de milpesos Jessenia bataua (Mart) Burret. Acta Agronónica 38:5363.Google Scholar
DE STEVEN, D., WINDSOR, D. M., PUTZ, F. E. & LEÓN, B. 1987. Vegetative and reproductive phenologies of a palm assemblage in Panama. Biotropica 19:342356.CrossRefGoogle Scholar
FOSTER, R. 1982. The seasonal rhythm of fruitfall on Barro Colorado Island. Pp 151172 in Leigh, E., Rand, S. M. & Windsor, D. (eds.). The ecology of a tropical forest: seasonal rythms and long-term changes. Smithsonian Institution Press, Washington DC.Google Scholar
FRANKIE, G. W., BAKER, H. G. & OPLER, P. A. 1974. Comparative phenology studies of trees in tropical wet and dry forest in the lowlands of Costa Rica. Journal of Ecology 62:881919.CrossRefGoogle Scholar
GARCÍA, S. M. 1988. Observaciones de polinización en Jessenia bataua (Arecaceae). Tesis de Licenciatura, Pontificia Universidad Católica del Ecuador, Quito, Ecuador. 60 pp.Google Scholar
HAUGAASEN, T. &. PERES, C. A. 2005. Tree phenology in adjacent Amazonian flooded and unflooded forests. Biotropica 37:620630.CrossRefGoogle Scholar
HENDERSON, A. 2002. Evolution and ecology of palms. The New York Botanical Garden Press, New York. 259 pp.Google Scholar
HENDERSON, A., GALEANO, G. & BERNAL, R. 1995. Field guide to the palms of the Americas. Princeton University Press, New Jersey. 340 pp.Google Scholar
HENDERSON, A., FISCHER, B., SCARIOT, A., WHITAKER, M. & PARDINI, R. 2000a. Flowering phenology of a palm community in a central Amazon forest. Brittonia 52:149159.CrossRefGoogle Scholar
HENDERSON, A., PARDINI, R., DOS SANTOS, J. F., VANIN, S. & ALMEIDA, D. 2000b. Pollination of Bactris (Palmae) in an Amazon forest. Brittonia 52:160171.CrossRefGoogle Scholar
HOLDRIDGE, L. 1996. Ecología basada en zonas de vida. Instituto Interamericano de Cooperación para la Agricultura, San José. 216 pp.Google Scholar
IBARRA-MANRÍQUEZ, G. 1992. Fenología de las palmas de una selva cálido húmeda de México. Bulletin de I'Institut Français d'Études Andines 21:669683.CrossRefGoogle Scholar
INKROT, D. & SATTLER, D. 2007. Flowering and fruiting phenology of Normanbya normanbyi (W. Hill) L. H. Bailey (Arecaceae), a palm endemic to the lowland tropical rainforest of north-eastern Australia. Austral Ecology 32:2128.CrossRefGoogle Scholar
JARAMILLO, D. F 1989. Estudio general de suelos, erosión y uso potencial agropecuario para los proyectos hidroeléctricos Porce II y Porce III. Empresas Públicas de Medellín, Medellín. 63 pp.Google Scholar
KAHN, F. & DE GRANVILLE, J. J. 1992. Palms in forest ecosystems of Amazonia. Springer Verlang, Berlin. 220 pp.CrossRefGoogle Scholar
MARQUIS, R. J. 1988. Phenological variation in the neotropical understory shrub Piper arieianum causes and consequences. Ecology 69:15521565.CrossRefGoogle Scholar
MILLER, C. 2002. Fruit production of the Ungurahua palm (Oenocarpus bataua subsp. bataua, Arecaceae) in an indigenous managed reserve. Economic Botany 56:165176.CrossRefGoogle Scholar
MILTON, K. 1991. Leaf change and fruit production in six neotropical Moraceae species. Journal of Ecology 79:126.CrossRefGoogle Scholar
NEWSTROM, G., FRANKIE, H., BAKER, H. G. & COLWELL, R. K. 1994. Diversity of long-term flowering patterns. Pp. 142160 in McDade, L. A., Bawa, K. S., Hespenheide, H. A. & Hartshorn, G. S. (eds.). La Selva. Ecology and natural history of a neotropical rain forest. The University of Chicago Press, Chicago.Google Scholar
NÚÑEZ-AVELLANEDA, L. & ROJAS-ROBLES, R. 2008. Biología reproductiva y ecología de la polinización de la palma milpesos Oenocarpus bataua en los Andes colombianos. Caldasia 30:101125.Google Scholar
OPLER, P. A., FRANKIE, G. W. & BAKER, H. G. 1980. Comparative phenological studies of treelet and shrub species in tropical wet and dry forests in the lowlands of Costa Rica. Journal of Ecology 68:167188.CrossRefGoogle Scholar
PERES, C. A. 1994. Composition, density, and fruiting phenology of arborescent palms in an Amazonian terra firme forest. Biotropica 26:285294.CrossRefGoogle Scholar
REICH, P. B. 1995. Phenology of tropical forest: patterns, causes, and consequences. Canadian Journal of Botany 73:164174.CrossRefGoogle Scholar
RUIZ, R. R. & ALENCAR, J. C. 2004. Comportamento fenologico da palmeira patauá (Oenocarpus bataua) na floresta Adolfo Ducke, Manaus, Amazonas, Brasil. Acta Amazônica 34:553558.CrossRefGoogle Scholar
SAKAI, S., MOMOSE, K., YUMOTO, T., NAGAMITSU, T., NAGAMASU, H., HAMID, A. & NAKASHIZUKA, T. 1999. Plant reproductive phenology over four years including an episode of general flowering in a lowland dipterocarp forest, Sarawak, Malaysia. American Journal of Botany 86:14141436.CrossRefGoogle Scholar
SAKAI, S., HARRISON, R. D., MOMOSE, K., KURAJI, K., NAGAMASU, H., YASUNARI, T., CHONG, L. & NAKASHIZUKA, T. 2006. Irregular droughts trigger mass flowering in a seasonal tropical forests in Asia. American Journal of Botany 93:11341139.CrossRefGoogle Scholar
SIST, P. 1989. Strategies de regeneration de quelques palmiers en foret Guyanaise. Doctoral thesis, Université de Paris, Paris. 297 pp.Google Scholar
VÉLEZ, G. A. 1992. Estudio fenológico de diecinueve frutales silvestres utilizados por las comunidades indígenas de la región de Araracuara-Amazonia colombiana. Colombia Amazónica 6:135186.Google Scholar