Abstract
Changes in plant phenology will be one of the earliest responses to rapid global climate change and could potentially have serious consequences both for plants and for animals that depend on periodically available plant resources. Phenological patterns are most diverse and least understood in the tropics. In those parts of tropical Asia where low temperature or drought impose a seasonal rest period, regular annual cycles of growth and reproduction predominate at the individual, population, and community level. In aseasonal areas, individuals and populations show a range of sub- to supra-annual periodicities, with an overall supra-annual reproductive periodicity at the community level. There is no evidence for photoperiod control of phenology in the Asian tropics, and seasonal changes in temperature are a likely factor only near the northern margins. An opportunistic response to water availability is the simplest explanation for most observed patterns where water is seasonally limiting, while the great diversity of phenological patterns in the aseasonal tropics suggests an equal diversity of controls. The robustness of current phenological patterns to high interannual and spatial variability suggests that most plant species will not be seriously affected by the phenological consequences alone of climate change. However, some individual plant species may suffer, and the consequences of changes in plant phenology for flower-and fruit-dependent animals in fragmented forests could be serious.
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References
Aide, T.M.: 1993, ‘Patterns of Leaf Development and Herbivory in a Tropical Understorey Community’, Ecology 74, 455–466.
Appanah, S.: 1993, ‘Mass Flowering of Dipterocarp Forests in the Aseasonal Tropics’, J. Biosci. 18, 457–474.
Appanah, S. and Rasol, M.: 1990, ‘Smaller Trees Can Fruit in Logged Dipterocarp Forest’, J. Trop. For. Sei. 3, 80–87.
Ashton, P.S.: 1982, ‘Dipterocarpaceae’, Flora Malesiana Ser. 1 9, 251–552.
Ashton, P.S.: 1988, ‘Dipterocarp Biology as a Window to the Understanding of Tropical Forest Structure’, Ann. Rev. Ecol. Syst. 19, 347–370.
Ashton, P.S., Givnish, T.J., and Appanah, S.: 1988, ‘Staggered Flowering in the Dipterocarpaceae: New Insights into Floral Induction and the Evolution of Mast Fruiting in the Seasonal Tropics’, Am. Nat. 132, 44–66.
Auffenberg, W.: 1988, Gray’s Monitor Lizard, University of Florida Press, Gainesville.
Augspurger,C.K.: 1981, ‘Reproductive Synchrony of a Tropical Shrub: Experimental Studies on Effects of Pollinators and Seed Predators on Hybanthus prunifolius (Violaceae)’, Ecology 62, 775–788.
Beerling, D.J., and Woodward, F.I.:1994, ‘The Climate Change Experiment (CLIMEX): Phenology and Gas Exchange Responses of Boreal Vegetation to Global Change’, Global Ecol. Biogeog. Lett. 4, 17–26.
Bhat, D.M.: 1992, ‘Phenology of Tree Species of Tropical Moist Forest of Uttara Kannada District, Karnataka, India’, J. Biosci. 17, 325–352.
Borchert, R.: 1994a, ‘Induction of Rehydration and Bud Break by Irrigation or Rain in Deciduous Trees of a Tropical Dry Forest in Costa Rica’, Trees 8, 198–204.
Borchert, R.: 1994b, ‘Soil and Stem Water Storage Determine Phenology and Distribution of Tropical Dry Forest Trees’, Ecology 75, 1437–1449.
Ceulemans, R. and Mousseau, M.: 1994, ‘Effects of Elevated Atmospheric C02 on Woody Plants’,New Phytol. 127, 425–446.
Corlett, R.T.: 1990, ‘Flora and Reproductive Phenology of the Rain Forest at Bukit Timah, Singapore’, J. Trop. Ecol. 6, 55–63.
Corlett, R.T.: 1992a, The Angiosperm Flora of Singapore 1. Introduction’, Gard. Bull. Sing. 44, 3–21.
Corlett, R.T.: 1992b, The Impact of Cold and Frost on Terrestrial Vegetation in Hong Kong’, Mem. Hong Kong Nat. Hist. Soc. 19, 133–135.
Corlett, R.T.: 1993, ‘Reproductive Phenology of Hong Kong shrubland’, J. Trop. Ecol 9, 501–510.
Cranbrook, Earl of, and Edwards, D.S.: 1994, A Tropical Rainforest, Royal Geographical Society, London, U.K.
Curran, L.M.: 1994, The Ecology and Evolution of Mast-fruiting in Bornean Dipterocarpaceae: a General Ectomycorrhizal Theory. Ph.D. thesis, Princeton University, New Jersey.
Davies, S.J.: 1996, Ecological and Systematic Studies in the genus Macaranga (Euphorbiaceae). Ph.D. thesis, Harvard University, Cambridge.
Dudgeon, D. and Corlett, R.T.: 1994, Hills and Streams: An Ecology of Hong Kong, Hong Kong University Press, Hong Kong.
Foster, R.B.: 1983, ‘Famine on Barro Colorado Island’, in Leigh, E.G., Rand, A.S., and Windsor, D.M. (eds.), The Ecology of a Tropical Forest: Seasonal Rhythms and Long-term Changes, Oxford University Press, Oxford, pp. 201–212.
Gong, W.K., and Ong, J.E.: 1983, ‘Litter Production and Decomposition in a Coastal Hill Dipterocarp Forest’, in Sutton, S.L., Whitmore, T.C., and Chadwick, A.C. (eds.), Tropical Rain Forest: Ecology and Management, Blackwell, Oxford, pp. 275–285.
Guzman, de, E.D., Umali, R.M. and Sotalbo, E.D.: 1986, Guide to Philippine Flora and Fauna, Vol. 3, Dipterocarps, Non-Dipterocarps, Ministry of Natural Resources and University of the Philippines, Philippines.
Hogan, K.P., Smith, A.P. and Ziska, L.H.: 1991, ‘Potential Effects of Elevated C02 and Changes in Temperature on Tropical Plants’, Plant Cell Environ. 14, 763–778.
Hulme, M. and Viner, D.: 1995, A Climate Change Scenario for Assessing the Impact of Climate Change on Tropical Rain Forests, Report prepared by the Climate Research Unit for WWF (U.S.).
Knutson, T.R., Manabe, S. and Daifang Gu: 1997, ‘Simulated ENSO in a Global Coupled Ocean- Atmosphere Model: Multidecadal Amplitude Modulation and C02 Sensitivity’, J. Clim. 10, 138–161.
Korner, Ch.: 1995, Towards a better experimental basis for upscaling plant responses to elevated C02 and climate warming’ Plant Cell Environ. 18, 1101–1110.
Krishnaswarmy, K.: 1942, The Evergreen Ghat Rain-Forest of the Tunga and the Bhadra River Sources’, Indian Forester 59, 233–240.
Leighton, M and Leighton, D.R.: 1983, ‘Vertebrate Responses to Fruiting Seasonality within a Bornean Rain Forest’, in Sutton, S.L., Whitmore, T.C., and Chadwick, A.C. (eds.), Tropical Rain Forest: Ecology and Management, Blackwell, Oxford, pp. 181–196.
Leighton, M. and Wirawan, N.: 1986, ‘Catastrophic Drought and Fire in Borneo Rain Forests Associated with the 1982–1983 El Nino Southern Oscillation Event’, in Prance, G.T. (ed.), Tropical Rain Forests and the World Atmosphere, Colo, Westview, Boulder, pp. 83–107.
Li, M-J. and Wang, Z-H.: 1984, The Phenology of Common Plants in Ding Hu Shan’, Tropical Subtropical Forest Ecosystems 2, 1–11. (In Chinese).
Longman, K.A. and Jenik, J.: 1987, Tropical Forest and its Environment, 2nd edition, Longman, Essex, England.
Lucas, P.W. and Corlett, R.T.: 1991, ‘Relationships Between the Diet of Macaca fascicularis and Forest Phenology’, Folia Primatol. 57, 201–215.
Medway, Lord.: 1972, ‘Phenology of a Tropical Rain Forest in Malaya’, Biol J. Linn. Soc. 4, 117–146.
Morgenstern, E.K.: 1996, Geographical Variation in Forest Trees: Genetic Basis and Application of Knowledge in Silviculture, UBC Press, Vancouver.
Morley, R.J. and Flenley, J.R.: 1987, ‘Late Cainozoic Vegetational and Environmental Changes in the Malay Archipelago’ in Whitmore, T.C. (ed.), Biogeographical Evolution of the Malay Archipelago, Clarendon Press, Oxford, pp. 50–59.
Newstrom, L.E., Frankie, G.W., and Baker, H.G.: 1994, ‘A New Classification for Plant Phenology Based on Flowering Patterns in Lowland Tropical Rain Forest Trees at La Selva, Costa Rica’ Biotropica 26, 141–159.
Newton, P.N.: 1988, The Structure and Phenology of a Moist Deciduous Forest in the Central Indian Highlands’, Vegetatio 75, 3–16.
Ng, F.S.P.: 1977, ‘Gregarious Flowering of Dipterocarps inKepong, 1976’, Malay. For. 40, 126–137.
Ng, F.S.P.: 1988, ‘Forest Tree Biology’, in Earl of Cranbrook (ed.), Key Environments: Malaysia, Pergamon Press, Oxford, pp. 102–125.
Prentice, I.C., Cramer, W., Harrison, S.P., Leemans, R., Monserud, R.A. and Solon, A.M.: 1992, ‘A Global Biome Model Based on Plant Physiology and Dominance, Soil Properties and Climate’, J. Biogeogr. 19, 117–134.
Quinn, J.F. and Karr, J.R.: 1993, ‘Habitat Fragmentation and Global Change’, in Kareiva, P.M., Kingsolver, J.G., and Huey, R.B. (eds.), Biotic Interactions and Global Change, Sinauer Associates Inc., Sunderland, Mass., pp. 451–463.
Reich, P.B.: 1995, ‘Phenology of Tropical Forests: Patterns, Causes, and Consequences’, Can. J. Bot. 73, 164–174.
Roubik, D.W.: 1993, ‘Direct Costs of Forest Reproduction, Bee-cycling and the Efficiency of Pollination Modes’, J. Biosci. 18, 537–552.
Rundel, P.W. and Boonpragob, K.: 1995, ‘Dry Forest Ecosystems of Thailand’, in Bullock, S.H., Mooney, H.A., and Medina, E. (eds.), Seasonally Dry Tropical Forests, Cambridge University Press, Cambridge, pp. 93–123.
Shukla, R.P. and Ramakrishnan,P.S.: 1982, ‘Phenology of Trees in a Subtropical Humid Forest in North-eastern India’, Vegetatio 49, 103–109.
Schulmeister, J. and Lees, B.G.: 1995, ‘Pollen Evidence from Tropical Australia for the Onset of an ENSO-dominated climate at c. 4000 BP’, Holocene 5, 10–18.
Singh, J.S. and Singh, V.K.: 1992, ‘Phenology of a Seasonally Dry Tropical Forest’, Current Sei. 63, 684–689.
Sivaraj, N. and Krishnamurthy, K.V.: 1989, ‘Flowering Phenology in the Vegetation of Shervaroys, South India’, Vegetatio 79, 85–88.
Smith, I.N., Dix, M. and Allan, R.J.: 1997, ‘The Effects of Greenhouse SSTs on ENSO Simulations with an AGCM’, J. Clim. 10, 342–352.
Sukwong, S., Dhamanitayakul, P., and Pongumphai, S.: 1975, ‘Phenology and Seasonal Growth of Dry Dipterocarp Forest Tree Species’, Kasetsart Journal 9, 105–114.
van Schaik, C.P.: 1986, ‘Phenological Changes in a Sumatran Rain Forest’, J. Trop. Ecol. 2, 327–347.
van Schaik, C.P., Terborgh, J.W. and Wright, S.J.: 1993, ‘The Phenology of Tropical Forests: Adaptive Significance and Consequences for Primary Consumers’ Ann. Rev. Ecol. Syst. 24, 353–377.
Whitington, C., and Treesucon, U.: 1991, ‘Selection and Treatment of Food Plants by White-handed Gibbons (Hylobates laf) in Khao Yai National Park, Thailand’, Nat. Hist. Bull. Siam. Soc. 39, 111–122.
Whitmore, T.C.: 1990, An Introduction to Tropical Rain Forests, Clarendon Press, Oxford, U.K.
Wright, S.J.: 1991, ‘Seasonal Drought and the Phenology of Understorey Shrubs in a Tropical Moist Forest’, Ecology 72, 1643–1657.
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Corlett, R.T., Lafrankie, J.V. (1998). Potential Impacts of Climate Change on Tropical Asian Forests through an Influence on Phenology. In: Markham, A. (eds) Potential Impacts of Climate Change on Tropical Forest Ecosystems. Springer, Dordrecht. https://doi.org/10.1007/978-94-017-2730-3_14
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DOI: https://doi.org/10.1007/978-94-017-2730-3_14
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