Abstract
We studied the dynamics of nine tropical rainforests on Mount Kinabalu, Borneo, at four elevations (700, 1,700, 2,700 and 3,100 m) on various edaphic conditions for four 2-year periods over 8 years (1995–2003), and examined the relationships with above-ground productivity. Mean growth rate of stem diameter, basal area turnover rate and estimated recruitment rate (using growth rate and size distribution) correlated with productivity among the nine forests in all periods. These rates based on growth rates of surviving stems appeared to be good measures of stand turnover. However, observed recruitment rate and mortality (and turnover rate as mean of these rates) based on direct observation of recruits and deaths did not correlate with productivity in some periods. These rates may not be useful as measures of stand turnover given small sample size and short census interval because they were highly influenced by stochastic fluctuation. A severe drought associated with the 1997–1998 El Niño event inflated mortality and depressed mean growth rate, recruitment rate and basal area turnover rate, but had little effect on the correlations between these rates (except mortality) and productivity. Across broad elevational and edaphic gradients on Mount Kinabalu, forest turnover, productivity and species richness correlated with each other, but the causal interpretation is difficult given the different histories and species pools among forests at different elevations.
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References
Aiba S, Kitayama K (1999) Structure, composition and species diversity in an altitude-substrate matrix of rain forest tree communities on Mount Kinabalu, Borneo. Plant Ecol 140:139–157
Aiba S, Kitayama K (2002) Effects of the 1997–1998 El Niño drought on rain forests of Mount Kinabalu, Borneo. J Trop Ecol 18:215–230
Aiba S, Kitayama K, Repin R (2002) Species composition and species-area relationships of trees in nine permanent plots in altitudinal sequence on different geological substrates of Mount Kinabalu. Sabah Parks Nature J 5:7–69
Bellingham PJ, Stewart GH, Allen RB (1999) Tree species richness and turnover throughout New Zealand forests. J Veg Sci 10:825–832
Burslem DFRP, Whitmore TC (1999) Species diversity, susceptibility to disturbance and tree population dynamics in tropical rain forest. J Veg Sci 10:767–776
Clark DA, Brown S, Kicklighter DW, Chambers JQ, Thomlinson JR, Ni J (2001) Measuring net primary production in forests: concepts and field methods. Ecol Appl 11:356–370
Condit R (1997) Forest turnover, diversity, and CO2. Trends Ecol Evol 12:249–250
Condit R, Hubbell SP, Foster RB (1993) Identifying fast-growing native trees from the Neotropics using data from a large, permanent plot census plot. For Ecol Manag 62:123–143
Condit R, Hubbell SP, LaFrankie JV, Sukumar R, Manokaran N, Foster RB, Ashton PS (1996) Species-area and species-individual relationships for tropical trees: a comparison of three 50-ha plots. J Ecol 84:549–562
Edwards PJ, Grubb PJ (1977) Studies of mineral cycling in a montane rain forest in New Guinea. I. The distribution of organic matter in the vegetation and soil. J Ecol 65:943–969
Kitayama K, Aiba S (2002) Ecosystem structure and productivity of tropical rain forests along altitudinal gradients with contrasting soil phosphorus pools on Mount Kinabalu, Borneo. J Ecol 90:37–51
Kitayama K, Aiba S, Takyu M, Majalap N, Wagai R (2004) Soil phosphorus fractionation and phosphorus-use efficiency of a Bornean tropical montane rain forest during soil aging with podozolization. Ecosystems 7:259–274
Kohyama T, Takada T (1998) Recruitment rates in forest plots: Gf estimates using growth rates and size distribution. J Ecol 86:633–639
Lieberman D, Lieberman M, Peralta R, Hartshorn GS (1996) Tropical forest structure and composition on a large-scale altitudinal gradient in Costa Rica. J Ecol 84:137–152
Morley RJ (2000) Origin and evolution of tropical rain forests. John Wiley and Sons Ltd, Chichester
Phillips OL (1995) Evaluating turnover in tropical forests: response. Science 268:894–895
Phillips OL (1996) Long-term environmental change in tropical forests: increasing tree turnover. Environ Conserv 23:235–248
Phillips OL, Baker TR, Arroyo L, Higuchi N, Killeen TJ, Laurance WF, Lewis SL, Lloyd J, Malhi Y, Monteagudo A, Neill DA, Núñez Vargas P, Silva JNM, Terborgh J, Vásquez Martínez R, Alexiades M, Almeida S, Brown S, Chave J, Comiskey JA, Czimczik CI, Di Fiore A, Erwin T, Kuebler C, Laurance SG, Nascimento HEM, Olivier J, Palacios W, Patiño S, Pitman NCA, Quesada CA, Salidas M, Torres Lezama A, Vinceti B (2004) Pattern and process in Amazon tree turnover, 1976–2001. Phil Trans R Soc Lond B 359:381–407
Phillips OL, Gentry AH (1994) Increasing turnover through time in tropical forests. Science 263:954–958
Phillips OL, Hall P, Gentry AH, Sawyer SA, Vázquez R (1994) Dynamics and species richness of tropical rain forests. Proc Natl Acad Sci USA 91:2805–2809
Rosenzweig ML (1995) Species diversity in space and time. Cambridge University Press, Cambridge
Sheil D (1995) Evaluating turnover in tropical forests. Science 268:894
Sheil D (1996) Species richness, tropical forest dynamics and sampling: questioning cause and effect. Oikos 76:587–590
Sheil D, Burslem DFRP, Alder D (1995) The interpretation and misinterpretation of mortality rate measures. J Ecol 83:331–333
Sheil D, Jennings S, Savill P (2000) Long-term permanent plot observations of vegetation dynamics in Budongo, a Ugandan rain forest. J Trop Ecol 16:765–800
Sheil D, May RM (1996) Mortality and recruitment rate evaluations in heterogeneous tropical forests. J Ecol 84:91–100
Takyu M, Aiba S, Kitayama K (2002) Effects of topography on tropical lower montane forests under different geological conditions on Mount Kinabalu, Borneo. Plant Ecol 159:35–49
Takyu M, Aiba S, Kitayama K (2003) Changes in biomass, productivity and decomposition along topographical gradients under different geological conditions in tropical lower montane forests on Mount Kinabalu, Borneo. Oecologia 134:397–404
Tanner EVJ (1980) Studies on the biomass and productivity in a series of montane rain forests in Jamaica. J Ecol 68:573–588
Waide RB, Willig MR, Steiner CF, Mittelbach G, Gough L, Dodson SI, Juday GP, Parmenter R (1999) The relationship between productivity and species richness. Annu Rev Ecol Syst 30:257–300
Weaver PL, Murphy PG (1990) Forest structure and productivity in Puerto Rico’s Luquillo Mountains. Biotropica 22:69–82
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© 2005 The Ecological Society of Japan
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Aiba, Si., Takyu, M., Kitayama, K. (2005). Dynamics, productivity and species richness of tropical rainforests along elevational and edaphic gradients on Mount Kinabalu, Borneo. In: Kohyama, T., Canadell, J., Ojima, D.S., Pitelka, L.F. (eds) Forest Ecosystems and Environments. Springer, Tokyo. https://doi.org/10.1007/4-431-29361-2_4
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DOI: https://doi.org/10.1007/4-431-29361-2_4
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