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References

  • 1
    Appanah, S., Gentry, A.H. & LaFrankie, J.V. (1992) Liana diversity and species richness of Malaysian rain forests. Journal of Tropical Forest Science, 6, 116123.
  • 2
    Appanah, S. & Putz, F.E. (1984) Climber abundance in virgin dipterocarp forest and the effect of pre-felling climber cutting on logging damage. The Malaysian Forester, 47, 335342.
  • 3
    Balée, W. & Campbell, D.G. (1990) Evidence for the successional status of liana forest (Xingu river basin, Amazonian Brazil). Biotropica, 22, 3647.
  • 4
    Barton, A.M., Fetcher, N. & Redhead, S. (1989) The relationship between treefall gap size and light flux in a Neotropical rain forest in Costa Rica. Journal of Tropical Ecology, 5, 437439.
  • 5
    Brokaw, N.V.L. (1985a) Gap-phase regeneration in a tropical forest. Ecology, 66, 682687.
  • 6
    Brokaw, N.V.L. (1985b) Treefalls, regrowth, and community structure in tropical forests. The Ecology of Natural Disturbance and Patch Dynamics (eds S.T.A.Picket & P.S.White), pp. 5369. Academic Press, New York, NY, USA.
  • 7
    Brokaw, N.V.L. (1987) Gap-phase regeneration of three pioneer tree species in a tropical forest. Journal of Ecology, 75, 920.
  • 8
    Brokaw, N.V.L. (1996) Treefalls, frequency, timing, and consequences. The Ecology of a Tropical Forest: Seasonal Rhythms and Long-Term Changes (eds E.G.Leigh, A.S.Rand & D.M.Windsor), pp. 101108. Smithsonian Institution Press, Washington DC, USA.
  • 9
    Canham, C.D. & Marks, P.L. (1985) The response of woody plants to disturbance: patterns of establishment and growth. The Ecology of Natural Disturbance and Patch Dynamics (eds S.T.A.Picket & P.S.White), pp. 197216. Academic Press, New York, NY, USA.
  • 10
    Chapman, C.A., Chapman, L.J., Kaufman, L. & Zanne, A.E. (1999) Potential causes of arrested succession in Kibale National Park, Uganda: growth and mortality of seedlings. African Journal of Ecology, 37, 8192.
  • 11
    Clark, D.A. (1994) Plant demography. La Selva: Ecology and Natural History of a Neotropical Rainforest (eds L.A.McDade, K.S.Bawa, H.A.Hespenheide & G.S.Hartshorn), pp. 90105. University of Chicago Press, Chicago, USA.
  • 12
    Clark, D.B. & Clark, D.A. (1990) Distribution and effects on tree growth of lianas and woody hemiepiphytes in a Costa Rican tropical wet forest. Journal of Tropical Ecology, 6, 321331.
  • 13
    Condit, R., Hubbell, S.P. & Foster, R. (1992a) Recruitment near conspecific adults and the maintenance of tree and shrub diversity in a neotropical forest. American Naturalist, 140, 261286.
  • 14
    Condit, R., Hubbell, S.P. & Foster, R. (1992b) Short-term dynamics of a neotropical forest. Bioscience, 42, 822828.
  • 15
    Croat, T.B. (1978). Flora of Barro Colorado Island. Stanford University Press, Stanford, USA.
  • 16
    Dalling, J.W. & Denslow, J.S. (1998) Soil seed bank composition along a forest chronosequence in seasonally moist tropical forest. Panama. Journal of Vegetation Science, 9, 669678.
  • 17
    Dalling, J.W., Hubbell, S.P. & Silvera, K. (1998) Seed disperal, seedling establishment and gap partitioning among tropical pioneer trees. Journal of Ecology, 86, 674689.
  • 18
    Denslow, J.S. (1980a) Gap partitioning among tropical rainforest trees. Biotropica, 12 (Suppl.), 4755.
  • 19
    Denslow, J.S. (1980b) Patterns of plant species diversity during succession under different disturbance regimes. Oecologia, 46, 1821.
  • 20
    Denslow, J.S. (1987) Tropical rainforest gaps and tree species diversity. Annual Review of Ecology and Systematics, 18, 431451.
  • 21
    Denslow, J.S., Newell, E. & Ellison, A.M. (1991) The effect of understory palms and cyclanths on the growth and survival of Inga seedlings. Biotropica, 23, 225234.
  • 22
    Dietrich, W.E., Windsor, D.M. & Dunne, T. (1996) Geology, climate, and hydrology of Barro Colorado Island. The Ecology of a Tropical Forest: Seasonal Rhythms and Long-Term Changes (eds E.G.Leigh, A.S.Rand & D.M.Windsor), pp. 2146. Smithsonian Institution Press, Washington DC, USA.
  • 23
    Foster, R.B. & Brokaw, N.V.L. (1996) Structure and history of the vegetation of Barro Colorado Island. The Ecology of a Tropical Forest: Seasonal Rhythms and Long-Term Changes (eds E.G.Leigh, A.S.Rand & D.M.Windsor), pp. 6781. Smithsonian Institution Press, Washington DC, USA.
  • 24
    Fox, J.E.D. (1968) Logging damage and the influence of climber cutting prior to logging in the lowland dipterocarp forest of Sabah. Malaysian Forester, 31, 326347.
  • 25
    Fraver, S., Brokaw, N.V.L. & Smith, A.P. (1998) Delimiting the gap phase in the growth cycle of a Panamanian forest. Journal of Tropical Ecology, 14, 673681.
  • 26
    Gentry, A.H. (1982) Patterns of neotropical plant species diversity. Evolutionary Biology, Vol. 15 (eds M.K.Hecht, B.Wallace & G.T.Prance), pp. 184. Plenum Press, New York, NY, USA.
  • 27
    Gentry, A.H. (1990) Four Neotropical Rainforests. Yale University Press, New Haven, USA.
  • 28
    Gentry, A.H. (1991) The distribution and evolution of climbing plants. The Biology of Vines (eds F.E.Putz & H.A.Mooney), pp. 349. Cambridge University Press, Cambridge, UK.
  • 29
    Gentry, A.H. & Dodson, C. (1987) Contribution of nontrees to species richness of a tropical rain forest. Biotropica, 19, 149156.
  • 30
    Hartshorn, G.S. (1978) Tree falls and tropical forest dynamics. Tropical Trees as Living Systems (eds P.B.Tomlinson & M.H.Zimmermann), pp. 617638. Cambridge University Press, Cambridge, UK.
  • 31
    Hegarty, E.E. (1989) The climbers – lianes and vines. Ecosystems of the World 14B. Tropical Rain Forest Ecosystems (eds H.Lieth. & M.J.A.Werger), pp. 339353. Elsevier, Amsterdam, the Netherlands.
  • 32
    Hubbell, S.P. & Foster, R.B. (1983) Diversity of canopy trees in a neotropical forest and implications for conservation. Tropical Rain Forest: Ecology and Management (eds S.L.Sutton, T.C.Whitmore & A.C.Chadwick), pp. 2541. Blackwell Scientific Publications, Oxford, UK.
  • 33
    Hubbell, S.P. & Foster, R.B. (1986) Canopy Gaps and the dynamics of a neotropical forest. Plant Ecology (ed. M.J.Crawley), pp. 7796. Blackwell Scientific Publications, Oxford, UK.
  • 34
    Hubbell, S.P., Foster, R.B., O'Brien, S.T., Harms, K.E., Condit, R., Wechsler, B., Wright, S.J. & Lao, S.L. (1999) Light-gap disturbances, recruitment limitation, and tree diversity in a neotropical forest. Science, 283, 554557.
  • 35
    Janzen, D.H. (1973) Dissolution of mutualism between Cecropia and its Azteca ants. Biotropica, 5, 1528.
  • 36
    Laurance, W.F., Laurance, S.G., Ferreira, L.V., Rankin-de Merona, J.M., Gascon, C. & Lovejoy, T.E. (1997) Biomass collapse in Amazonian forest fragments. Science, 278, 11171118.
  • 37
    Lawton, R.O. & Putz, F.E. (1988) Natural disturbance and gap-phase regeneration in a wind-exposed tropical cloud forest. Ecology, 69, 764777.
  • 38
    Leigh, E.G., Rand, A.S. & Windsor, D.M. (1996) The Ecology of a Tropical Forest: Seasonal Rhythms and Long Term Changes. Smithsonian Institutiion Press, Washington DC, USA.
  • 39
    Leigh, E.G. & Wright, S.J. (1990) Barro Colorado Island and Tropical Biology. Four Neotropical Rainforests (ed. A.H.Gentry), pp. 2847. Yale University Press, New Haven, USA.
  • 40
    Lieberman, D., Lieberman, M., Peralta, R. & Hartshorn, G.S. (1985) Mortality patterns and stand turnover rates in a wet tropical forest in Costa Rica. Journal of Tropical Ecology, 1, 98109.
  • 41
    Lowe, R.G. & Walker, P. (1977) Classification of canopy, stem, crown status and climber infestation in a natural tropical forest in Nigeria. Journal of Applied Ecology, 14, 897903.
  • 42
    Lugo, A.E. (1997) The apparent paradox of reestablishing species richness on degraded lands with tree monocultures. Forest Ecology and Management, 99, 919.
  • 43
    McClanahan, T.R. (1986) The effect of a seed source on primary succession in a forest ecosystem. Vegetatio, 65, 175178.
  • 44
    McCullough, D. (1977) The Path Between the Seas. Simon and Schuster, New York, NY, USA.
  • 45
    Nicholson, D.L. (1958) An analysis of logging damage in tropical rain forest, North Borneo. Malayan Forester, 21, 235245.
  • 46
    Niering, W.A. & Goodwin, R.H. (1974) Creation of relatively stable shrublands with herbicides: arresting ‘succession’ on rights-of-way and pastureland. Ecology, 55, 784795.
  • 47
    Ogawa, H., Yoda, K., Ogino, K. & Kira, T. (1965) Comparative ecological studies of three main types of forest vegetation in Thailand, 2: Plant biomass. Nature and Life in Southeast Asia, 4, 4980.
  • 48
    Peñalosa, J. (1984) Basal branching and vegetative spread in two tropical rain forest lianas. Biotropica, 16, 19.
  • 49
    Phillips, O.L. & Gentry, A.H. (1994) Increasing turnover through time in tropical forests. Science, 263, 954957.
  • 50
    Picket, S.T.A., Collins, S.L. & Armesto, J.J. (1987) Models, mechanisms, and pathways of succession. Botanical Review, 53, 335371.
  • 51
    Putz, F.E. (1980) Lianas vs. trees. Biotropica, 12, 224225.
  • 52
    Putz, F.E. (1983) Liana biomass and leaf area of a ‘tierra firme’ forest in the Rio Negro Basin, Venezuela. Biotropica, 15, 185189.
  • 53
    Putz, F.E. (1984a) The natural history of lianas on Barro Colorado Island, Panama. Ecology, 65, 17131724.
  • 54
    Putz, F.E. (1984b) How trees avoid and shed lianas. Biotropica, 16, 1923.
  • 55
    Putz, F.E. (1985) Woody lianas and forest management in Malaysia. Commonwealth Forestry Review, 64, 359365.
  • 56
    Putz, F.E. & Canham, C.D. (1992) Mechanisms of arrested succession in shrublands: root and shoot competition between shrubs and tree seedlings. Forest Ecology and Management, 49, 267275.
  • 57
    Putz, F.E. & Chai, P. (1987) Ecological studies of lianas in Lambir National Park, Sarawak, Malaysia. Journal of Ecology, 75, 523231.
  • 58
    Putz, F.E. & Holbrook, N.M. (1988) Further observations on the dissolution of mutualism between Cecropia and its ants: the Malaysian case. Oikos, 53, 121125.
  • 59
    Putz, F.E., Lee, H.S. & Goh, R. (1984) Effects of post-felling silvicultural treatments on woody vines in Sarawak. Malaysian Forester, 47, 214226.
  • 60
    Ricklefs, R.E. (1977) Environmental heterogeneity and plant species diversity, a hypothesis. American Naturalist, 111, 376381.
  • 61
    Runkle, J.R. (1981) Gap regeneration in some old-growth forests of the eastern United States. Ecology, 62, 10411051.
  • 62
    Runkle, J.R. & Yetter, T.C. (1987) Treefalls revisited: gap dynamics in the Southern Appalachians. Ecology, 68, 417424.
  • 63
    Sanford, R.L., Braker, H.E. & Hartshorn, G.S. (1986) Canopy openings in a primary neotropical lowland forest. Journal of Tropical Ecology, 2, 277282.
  • 64
    Sarmiento, F.O. (1997) Arrested succession in pastures hinders regeneration of Tropandean forests and shreds mountain landscapes. Environmental Conservation, 24, 1423.
  • 65
    SAS Institute (1995) JMP Statistics and Graphics Guide, Version 3.1. SAS Institute Inc., Cary, NC, USA.
  • 66
    Schnitzer, S.A. & Carson, W.P. (2001) Treefall gaps and the maintenance of species diversity in a tropical forest. Ecology, in press.
  • 67
    Smith, H.C. (1984) Forest Management Guidelines for Controlling Wild Grapevines. USDA Forest Service research paper NE-548.
  • 68
    Smith, H.C. & McCay, R.E. (1979) Estimating time required to cut grapevines in young, even-aged hardwood stands. Southern Journal of Applied Forestry, 3, 125127.
  • 69
    Sokal, R.R. & Rohlf, F.J. (1995) Biometry. W.H. Freeman, New York, NY, USA.
  • 70
    Strong, D.R. (1977) Epiphyte loads, tree falls, and perennial forest disruption: a mechanism for maintaining higher tree species richness in the tropics without animals. Journal of Biogeography, 4, 215218.
  • 71
    Swaine, M.D. & Whitmore, T.C. (1988) On the definition of ecological species groups in tropical rain forests. Vegetatio, 75, 8186.
  • 72
    Uhl, C., Clark, K., Dezzeo, N. & Maquino, P. (1988) Vegetation dynamics in Amazonian treefall gaps. Ecology, 69, 751763.
  • 73
    Weir, B.S. (1996) Genetic Data Analysis. Sinaur Associates Inc. publishers, Sunderland, MA, USA.
  • 74
    Welden, C.W., Hewett, S.W., Hubbell, S.P. & Foster, R.B. (1991) Sapling survival, growth, and recruitment: relationship to canopy height in a neotropical forest. Ecology, 72, 3550.
  • 75
    Whigham, D.F. (1984) The influence of vines on the growth of Liquidambar styraciflua (sweetgum). Canadian Journal of Forest Research, 14, 3739.
  • 76
    Whitmore, T.C. (1975) Tropical Rain Forests of the Far East. Clarendon Press, Oxford, UK.
  • 77
    Whitmore, T.C. (1989) Canopy gaps and the two major groups of forest trees. Ecology, 70, 536538.
  • 78
    Wilkinson, L., Hill, M. & Vang, E. (1992). Systat: Statistics. Systat Inc., Evanston, IL, USA.
  • 79
    Yavitt, J.B., Battles, J.J., Lang, G.E. & Knight, D.H. (1995) The canopy gap regime in a secondary neotropical forest in Panama. Journal of Tropical Ecology, 11, 391402.