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Wednesday, 10 August 2016

The Trees of Pasoh Forest: Stand Structure and Floristic Composition of the 50-ha Forest Research Plot

Published Date
pp 35-50

Title 

The Trees of Pasoh Forest: Stand Structure and Floristic Composition of the 50-ha Forest Research Plot

  • Author 
  • Stuart J. Davies
  • Nur Supardi Md. Noor
  • James V. LaFrankie
  • Peter S. Ashton

Abstract

Abstract: Stand structure and floristic composition of the 50-ha Forest Research Plot in Pasoh Forest Reserve (Pasoh FR) are described. Pasoh FR was found to have extremely high tree species diversity. In the 50-ha plot there were 338,924 trees with a total basal area of 1,659 m2, comprising 818 tree species in 295 genera and 81 families. The Euphorbiaceae (85 species) was the most species-rich family. The Dipterocarpaceae dominated the forest with 27% of the basal area, and eight of the top 10 basal-area contributing species. The Fabaceae, Euphorbiaceae and Burseraceae were the next most important large trees in the plot. Shorea had the highest basal area and stem number. Syzygium was the richest genus with 45 species. As with other Asian tropical forests there were many speciose genera in the plot; 11 genera had ≧ 12 species. Floristic composition and stand structure varied across the 50-ha plot in relation to edaphic and topographic variation. Multivariate analyses revealed three main community types: a swamp community in the lowest areas of the plot, a hill community, and an alluvial forest community in mid to lower elevations in the plot. In addition, the alluvial community appears to be divisible into three types based on differences in soil properties. In addition to describing species characteristic of each of these community types, we also describe some of the distinctive life-history and evolutionary characteristics of the Pasoh FR. This chapter provides a basis for future work at Pasoh FR.


References

  1. Ashton, P. S. (1976) Mixed dipterocarp forest and its variation with habitat in Malayan lowlands: a re-evaluation of Pasoh. Malay. For. 39: 56–72.
  2. Ashton, P. S., Boscolo, M., Liu, J. & LaFrankie, J. V. (1999) A global programme in interdisciplinary forest research: The C TFS perspective. J. Trop. For. Sci. 11: 180–204.
  3. Condit, R. (1995) Research in large, long-term tropical forest plots. Trends Ecol. Evol. 10: 18–22.PubMedCrossRef
  4. Condit, R. (1998) Tropical forest census plots: Methods and results from Barro Colorado Island, Panama and a comparison with other plots. Springer-Verlag, Berlin.CrossRef
  5. Corner, E. J. H. (1940) Wayside trees of Malaya. Government Printer, Singapore. 861pp.
  6. Fisher, R. A., Corbet, A. S. & Williams, C. B. (1943) The relation between the number of species and the number of individuals in a random sample of an animal population. J. Anim. Ecol. 12: 42–58.CrossRef
  7. Ho, C. C., Newbery, D. M. & Poore, M. E. D. (1987) Forest composition and inferred dynamics in Jengka Forest Reserve, Malaysia. J. Trop. Ecol. 3: 25–56.CrossRef
  8. Hubbell, S. P. & Foster, R. B. (1983) Diversity of canopy trees in a neotropical forest and implications for conservation. In Sutton, S. L., Whitmore, T. C. & Chadwick, C. (eds.). Tropical rain forest: ecology and management. Serial Publication No. 2 of the British Ecological Society, UK, pp.25–41.
  9. Kochummen, K. M., LaFrankie, J. V. & Manokaran, N. (1990) Floristic composition of Pasoh Forest Reserve, a lowland rain forest in Peninsular Malaysia. J. Trop. For. Sci. 3: 1–13.
  10. Legendre, P. & Legendre, L. (1998) Numerical ecology (2nd ed.). Elsevier, Amsterdam, The Netherlands. 853pp.
  11. Manokaran, N., LaFrankie, J. V., Kochummen, K. M., Quah, E. S., Klahn, J. E., Ashton, P. S. & Hubbell, S. P. (1990) Methodology for the fifty hectare research plot at Pasoh Forest Reserve. Research Pamphlet No. 104. Forest Research Institute Malaysia, Kepong, Malaysia.
  12. Manokaran, N. & LaFrankie, J. V. (1990) Stand structure of Pasoh Forest Reserve, a lowland rain forest in Peninsular Malaysia. J. Trop. For. Sci. 3: 14–24.
  13. Manokaran, N., LaFrankie, J. V., Kochummen, K. M., Quah, E. S., Klahn, J. E., Ashton, P. S. & Hubbell, S. P. (1999). The Pasoh 50-ha forest dynamic plot: 1999 CD-ROM version. Forest Research Institute Malaysia, Kepong, Malaysia.
  14. Manokaran, N., Quah, E. S., Ashton, P. S. & LaFrankie, J. V. Pasoh forest dynamics plot, Malaysia. Pasoh forest dynamics plot, Malaysia. In Losos, E. C. & Leigh, E. G. Jr. (eds.). Forest diversity and dynamism: Findings from a network of large-scale tropical forest plots. University of Chicago Press, Chicago (in press).
  15. Okuda, T., Nor Azman, H., Manokaran, N., Saw, L. Q., Amir, H. M. S. & Ashton, P. S. Local variation of canopy structure in relation to soils and topography and the implications for species diversity in a rain forest of Peninsular Malaysia. In Losos, E. C. & Leigh, E. G. Jr. (eds.). Forest diversity and dynamism: Findings from a network of large-scale tropical forest plots. University of Chicago Press, Chicago (in press).
  16. Poore, M. D. (1968) Studies in Malayan rain forest. I. The forest on Triassic sediments in Jengka Forest Reserve. J. Ecol. 56: 143–196.CrossRef
  17. Wong, Y. K. & Whitmore, T. C. (1970) On the influence of soil properties on species distribution in a Malayan dipterocarp rain forest. Malay. For. 32: 42–54.
  18. Wyatt-Smith, J. (1963) Manual of Malayan silviculture for inland forests. Malayan Forest Records No. 23. Forest Research Institute Malaysia, Kepong.
  19. Wyatt-Smith, J. (1964) A preliminary vegetation map of Malaya with descriptions of the vegetation types. J. Trop. Geogr. 18: 200–213.


For further details log on website :
http://link.springer.com/chapter/10.1007/978-4-431-67008-7_3

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