Allometric variation of shade-tolerant tree species in a Mexican tropical rain forest

Authors

  • José Luiz Martínez-Sánches

DOI:

https://doi.org/10.5216/rbn.v5i1.5626

Keywords:

Mexico, phenotypic plasticity, tree architecture, tree growth type, tree morphology

Abstract

In tropical rain forests, shade-tolerant tree species exhibit the typical wide-crown architectural type characteristic of low-light environments. In recent studies, though, some shade-tolerant species have been found not to show this typical architectural type. In the present study, the stem and crown architectural type of three shade-tolerant tree species was analyzed, two from the forest understorey and one from the mid-canopy. Twelve architectural variables were measured in 254 saplings between 50 cm and 300 cm tall in Los Tuxtlas, México. The allometric analysis showed that the three species are not similar in architecture. Instead, they present architectural differences related to their adult canopyposition. Both sub-canopy species presented thicker stems and flatter crowns, while the mid-canopyspecies was taller, presenting a slenderer stem and crown, and a less vertical crown shading. It is con- cluded that within the group of shade-tolerant tree species there is certainly more than a single archi- tectural crown type depending on the adult canopy position of the particular species. The previous single wide-crown architectural type is not the only or typical architectural type for shade-tolerant species.

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Author Biography

José Luiz Martínez-Sánches

Bolsista de informática da RBN

References

Aiba, S. & T. Kohyama. 1997. Crown architecture and life-history traits of 14 tree species in a warm-temperate rain forest: significance of spatial heterogeneity. J. Ecol. 5: 611-624.

Bongers, F. & J. Popma. 1990. Leaf dynamics of seedlings of forest species in relation to canopy gaps. Oecologia 82: 122-127.

Bongers, F., J. Popma, J. Meave del Castillo & J. Carabias. 1988. Structure and floristic composition of the lowland rain forest of Los Tuxtlas, México. Vegetatio 74: 55-80.

Bongers, F. & F. Sterck. 1998. Architecture and development of rainforest trees: Responses to light variation. p. 125–161. In: D. M. Newbery, H. H. T. Prins & N. D. Brown (Eds), Dynamics of tropical communities. 37th Symposium of the British Ecological Society. Oxford, Blackwell Science.

Chazdon, R. L. 1986. The costs of leaf support in understory palms: economy versus safety. Am. Nat. 127: 9-30.

Clearwater, M. J. & K. S. Gould. 1995. Leaf orientation and light interception by juvenile Pseudopanax crassifolius (Cunn.) C. Koch in a partially shaded forest environment. Oecologia 104: 363-371.

Denslow, J. S. 1987. Tropical rain forest gaps and tree species diversity. Ann. Rev. Ecol. Syst. 18: 431-451.

Horn, H. S. 1971. The adaptive geometry of trees. Princeton University Press, Princeton.

Ibarra-Manríquez, G. & S. Sinaca-Colín. 1995. Lista florística de la Estación de Biología Tropical “Los Tuxtlas”, Veracruz, México. Rev. Biol. Trop. 43: 75–115.

Ibarra-Manríquez, G. & S. Sinaca-Colín. 1996. Estación de Biología Tropical “Los Tuxtlas”, Veracruz, México: Lista florística comentada (Mimosaceae a Verbenaceae) Rev. Biol. Trop. 44: 41–60.

King, D. A. 1990. Allometry of saplings and understorey trees of a Panamanian forest. Funct. Ecol. 4: 27-32.

King, D. A. 1994. Influence of light level on the growth and morphology of saplings in a Panamanian forest. Am. J. Bot. 81: 948-957.

King, D. A., E. G. Leigh, R. Condit, R. B. Foster & S. P. Hubbell. 1997. Relationships between branch spacing, growth rate and light in tropical rain forest saplings. Funct. Ecol. 11: 627-635.

Kohyama, T. 1987. Significance of architecture and allometry in saplings. Funct. Ecol. 1: 399-404.

Kohyama, T. 1991. A functional model describing sapling growth under a tropical forest canopy. Funct. Ecol. 5: 83-90.

Kohyama, T. & M. Hotta. 1990. Significance of allometry in tropical saplings. Funct. Ecol. 4: 515-521.

Martínez-Ramos, M. 1985. Claros, ciclos vitales de los tropicales y la regeneración de las selvas altas perennifolias. p.191-239. In: A. Gómez-Pompa & S. del Amo (Eds), Investigaciones sobre la regeneración de selvas húmedas tropicales en México. Vol. II. Alhambra. México D.F.

Martínez-Sánchez, J. L. 1999. Aspects of tropical rain forest and pasture nutrient dynamics at Los Tuxtlas, Mexico. Ph.D. Dissertation, University of Stirling, Stirling.

Murray, N. A. 1993. Revision of Cymbopetalum and Porcelia (Annonaceae). Syst. Bot. Monogr. 40: 1-121.

O’Brian, S. T., S. P. Hubbell, P. Spiro, R. Condit & R. Foster. 1995. Diameter, height, crown, and age relationship in eight neotropical tree species. Ecology 76: 1926-1939.

Poorter, L. & M. J. A. Werger. 1999. Light environment, sapling architecture, and leaf display in six rain forest tree species. Am. J. Bot. 86: 1464-1473.

Popma, J., F. Bongers & J. Meave del Castillo. 1988. Patterns in the vertical structure of the tropical lowland rain forest of Los Tuxtlas, México. Vegetatio 74: 81-91.

Shukla, R. P. & P. S. Ramakrishnan. 1986. Architecture and growth strategies of tropical trees in relation to successional status. J. Ecol. 74: 33-46.

Sterck, F. J., M. Martínez-Ramos, G. Dyer-Leal, J. Rodríguez-Velázquez & L. Poorter. 2003. The consequences of crown traits for the growth and survival of tree saplings in a Mexican lowland rainforest. Funct. Ecol. 17: 194-200.

Turner, I. M., W. K. Gong, J. E. Ong, J. S. Bujang & T. Kohyama. 1995. The architecture and allometry of mangrove saplings. Funct. Ecol. 9: 205-212.

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Published

2009-02-27

How to Cite

MARTÍNEZ-SÁNCHES, J. L. Allometric variation of shade-tolerant tree species in a Mexican tropical rain forest. Revista de Biologia Neotropical / Journal of Neotropical Biology, Goiânia, v. 5, n. 1, p. 41–51, 2009. DOI: 10.5216/rbn.v5i1.5626. Disponível em: https://revistas.ufg.br/RBN/article/view/5626. Acesso em: 22 nov. 2024.

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