Hostname: page-component-586b7cd67f-vdxz6 Total loading time: 0 Render date: 2024-11-25T21:08:21.011Z Has data issue: false hasContentIssue false
  • English
  • Français

Growth, recruitment and mortality in the Gama gallery forest in central Brazil over a six-year period (1985–1991)

Published online by Cambridge University Press:  10 July 2009

Jeanine Maria Felfili
Jeanine Maria Felfili
Affiliation:
University of Brasília, Departamento de Engenharia Florestal, Universidade de Brasília, 70, 000 Brasília, DF, Brazil, and Oxford Forestry Institute, University of Oxford, South Park Road, Oxford OX1 3RB.
Get access Rights & Permissions [Opens in a new window]

Abstract

Diameter increments, recruitment and mortality were studied over a six-year period in a 3.02 ha sample in an area of 64 ha of undisturbed gallery forest alongside the Gama stream. The study site is located in Fazenda Água Limpa in Brasília, Federal District, Brazil. Trees ≥ 31 cm gbh (10 cm dbh) were measured every three years from 1985 in 151 (10 m × 20 m) permanent plots in Gama forest.

The mean annual diameter increment for trees ≥ 10 cm dbh was 0.25 cm y-1. Variability was high with coefficients of variation c. 100% or more. Light-demanding and large upper storey species tended to grow faster than shade-tolerant and lower storey species. Mean increments for the community increased with increasing diameter classes.

The mean annual mortality rate for the community was 3.5% y−1 while the recruitment was 2.7%. The community was dynamic with 86% of all species either suffering mortality or gaining recruits or both during the six years. The net difference between recruitment and mortality was zero for 55 species. The recruitment compensated for the mortality of most of the abundant species.

Keywords

Brazilgallery forestgrowthincrementsmortalityrecruitmenttropics
Type
Research Article
Information
Journal of Tropical Ecology , Volume 11 , Issue 1 , February 1995 , pp. 67 - 83
Copyright
Copyright © Cambridge University Press 1995

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

LITERATURE CITED

Alder, D. 1992. Simple methods for calculating minimum diameter and sustainable yield in mixed tropical forest. Pp. 189200 in Miller, F. R. & Adam, K. L. (eds). Wise management of tropical forests. Proceedings of the Oxford Conference on Tropical Forests. Oxford Foresty Institute.Google Scholar
Alvarez-Buylla, E. R. & Martinez-Ramos, M. 1992. Demography and allometry of Cecropia obtusifolia, a neotropical pioneer tree – an evaluation of the climax-pioneer paradigm for tropical rainforests, Journal of Ecology 80(2):275290.CrossRefGoogle Scholar
Bryan, M. B. 1981. Studies of timber growth and mortality in the mixed dipterocarp forest in Sarawak. FAO Report no. Fo:MAL 176/008. Field Document 11.Google Scholar
Carvalho, J. O. P. 1992. Structure and dynamics of a logged over Brazilian Amazonian rainforest. DPhil Thesis. University of Oxford, Oxford, UK.Google Scholar
Cole, M. M. 1986. The savannas, biogeography and geobotany. Academic Press, London.Google Scholar
Connell, J. A., Tracey, J. G. & Webb, L. J. 1984. Compensatory recruitment, growth and mortality as factors maintaining rain forest tree diversity. Ecological Monograhs 54(2): 141164.CrossRefGoogle Scholar
Crow, T. R. 1980. A rainforest chronicle: a 30-year record of change in structure and composition at El Verde, Puerto Rico. Biotropica 12(1): 4255.CrossRefGoogle Scholar
Denslow, J. S. 1980. Gap partitioning among tropical rainforest trees. Biotropica 12(2);4555.CrossRefGoogle Scholar
Eiten, G. 1984. Vegetation of Brasilia. Phytocoenologia 12 (2/3):271292.CrossRefGoogle Scholar
Felfili, J. M. 1993. Structure and dynamics of a gallery forest in central Brazil. DPhil Thesis. University of Oxford, Oxford, UK.Google Scholar
Felfili, M. M. & Silva Junior, M. C. 1992. Floristic composition, phytosociology and comparison of cerrado and gallery forests at Fazenda Água Limpa, Federal District, Brazil. Pp. 393415 in Furley, P. A., Proctor, J. A. & Ratter, J. A.Nature and dynamics of forest-savanna boundaries. Chapman & Hall, London.Google Scholar
Furley, P. A. 1985. Notes on the soils and plant communities of Fazenda Água Limpa (Brasilia, D. F. Brasil). Occasional publications no. 5. Department of Geography, University of Edinburgh, Edinburgh.Google Scholar
FZDF (Fundação Zoobotânica Do Distrito Federal). 1990. Levantamento da vegetação do Jardim Botânico de Brasília. FZDF, Brasília.Google Scholar
Gentry, A. H. & Terborgh, J. 1990. Composition and dynamics of Cocha Cashu ‘mature’ floodplain forest. Pp. 442564 in Gentry, A. H. (ed.). Four neotropical rainforests. Yale University Press, New Haven.Google Scholar
Graaf, N. R. de. 1986. A silvicultural system for natural regeneration of tropical rain forest in Suriname. Agricultural University, Wageningen.Google Scholar
Heringer, E. P. & Paula, J. E. 1989. Contribuiçāo para o conhecimento ecodendrométrico de matas ripárias da região centro-oeste Brasileira. Acta Botanica Brasilica 3:3341.CrossRefGoogle Scholar
Hubbell, S. P. & Foster, R. B. 1990. Structure, dynamics and equilibrium status of old-growth forest on Barro Colorado Island. Pp. 522541 in Gentry, A. H. (ed.). Four neotropical rainforests. Yale University Press, New Haven.Google Scholar
Lieberman, D. & Lieberman, M. 1987. Forest tree growth and dynamics at La Selva, Costa Rica (1969–1982). Journal of Tropical Ecology 3:347358.CrossRefGoogle Scholar
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 Ecology 73:915924.CrossRefGoogle Scholar
Loetch, F. & Haller, K. E. 1974. Forest inventory. Vol. 1. B.L.V. Munique.Google Scholar
Lowrance, R., Todd, R., Fail Junior, J., Heindrickson Junior, O., Leonard, R. & Asmussen, L. 1984. Riparian forests as nutrient filters in agricultural watersheds. Bioscience 34:374377.CrossRefGoogle Scholar
Machado, J. W. B. 1990. Relaçāo origemlsolo e tolerância à saturaçāo hídrica de Copaifera langsdorffii Desf. PhD Thesis. Universidade Estadual de Campinas, Campinas, SP.Google Scholar
Manokaran, N. & Kochummen, K. M. 1987. Recruitment growth and mortality of tree species in a lowland dipterocarp forest in peninsular Malaysia. Journal of Tropical Ecology 3:315330.CrossRefGoogle Scholar
Mares, M. A., Ernest, K. A. & Gettinger, D. D. 1986. Small mammal community structure and composition in the cerrado province of central Brazil. Journal of Tropical Ecology 2:289300.CrossRefGoogle Scholar
Mervart, J. 1972. Report to the government of Nigeria on aspects of forest management. FAO Report no. TA 3124.Google Scholar
Meyer, H. A., Recknagel, A. B., Stevenson, D. D. & Bartoo, R. A. 1961. Forest management. 2nd Edition. Ronald Press, New York.Google Scholar
Moreira, A. G. 1987. Aspectos demográficos de Emmotum nitens (Benth.) Miers (Icacinaceae) em urn cerradāo distrófico no Distrito Federal. MSc Thesis. Universidade Estadual de Campinas, Campinas, SP.Google Scholar
Nascimento, M. T. & Hay, J. D. 1990. Taxa de herbivoria foliar em jovens de Metrodorea pubescens St. Hil. & Tull. (Rutaceae) da mata do Ribeirāo do Gama-DF. Pp. 229309 in Barbosa, L. M. (ed.). Anais do Simpósio sobre mata ciliar. Fundaçāo Cargill, Campinas, SP.Google Scholar
Nicholson, D. I., Henry, N. B. & Rudder, J. 1988. Stand changes in North Queensland rainforests. Proceedings of the Ecological Society of Australia 15:6180.Google Scholar
Nimer, E. 1989. Climatologia do Brazil. Institute Brasileiro de Geografia e Estatística, Departamento de Recursos naturais e estudos ambientais, Rio de Janeiro, RJ.Google Scholar
Okali, D. U. U. & Ola-Adams, B. A. 1987. Tree population changes in treated rain forest at Omo Forest Reserve, south-western Nigeria. Journal of Tropical Ecology 3:291313.CrossRefGoogle Scholar
Oliveira-Filho, A. T., Ratter, J. A. & Shepperd, G. J. 1990. Floristic composition and community structure of a central Brazilian gallery forest. Flora 184:103117.CrossRefGoogle Scholar
Paula, J. E., Encinas, J. I., Mendonça, R. C. & Leāo, D. T. 1990. Estudo dendrométrico e ecológico de mata ripária da regiāo Centro-Oeste. Pesquisa Agropecuária Brasileira 25:4355.Google Scholar
Paula Lima, W. de. 1989. Funçāo hidrológica da mata ciliar. Pp. 2541 in Barbosa, L. M. (ed.). Anais do Simpósio sobre mata ciliar. Fundaçāo Cargill, Campinas, SP.Google Scholar
Prance, G. T. 1987. Biogeography of neotropcial plants. Pp. 4665 in Whitmore, T. C. & Prance, G. T.Biogeography and quaternary history of tropical America. Clarendon Press, Oxford.Google Scholar
Pires, J. M. & Prance, G. T. 1977. The Amazon forest: a natural heritage to be preserved. Pp. 158194 in Prance, G. T. & Elias, E. S. (eds). Extinction is forever. Threatened and endangered species of plants in the Americas and their significance in ecoystems today and in the future. Proceedings of a symposium held at the New York Botanic Garden.Google Scholar
Rai, S. N. 1983. Basal area and volume increment in tropical rain forests of India. Indian Forester 109:198211.Google Scholar
Rankin-De-Merona, J. M., Hutchings, H. R. W. & Lovejoy, T. 1990. Tree mortality and recruitment over a five-year period in undisturbed upland rainforest of the central Amazon. Pp. 573584 in Gentry, A. H. (ed.). Four neotropical rainforests. Yale University Press, New Haven.Google Scholar
Ratter, J. A. 1980. Notes on the vegetation of Fazenda Agua Limpa (Brasília, DF, Brazil). Royal Botanic Garden, Edinburgh, Scotland.Google Scholar
Ratter, J. A., Richards, P. W., Argent, G. & Gifford, D. R. 1973. Observations on the vegetation of northeastern Mato Grosso. 1. The woody vegetation types of the Xavantina-Cachimbo expedition area. Philosophical Transactions of the Royal Society of London B 226;449492.Google Scholar
Ryan, B. F., Joiner, B. L. & JrRyan, T. 1976. Minitab handbook. 2nd Edition. Duxbury Press, Boston.Google Scholar
Seabra, H. F., Encinas, J. I. & Felfili, J. M. 1991. Análise estrutural da mata ciliar do córrego Capetinga-DF habitat de Callithrix jacchus penicillata L. Pesquisa Agropecuária Brasileira 26:1117.Google Scholar
Silva, J. N. M. 1989. The behaviour of the tropical rain forest of the Brazilian Amazon after logging. DPhil Thesis. Oxford University, Oxford.Google Scholar
Silva, J. N. M., Carvalho, J. O. P. & Lopes, J. C. 1988. Growth of a logged-over tropical rain forest of the Brazilian Amazon. Pp. 117136 in Proceedings of the seminar on growth and yield in tropical mixed/moist forests. Kuala-Lumpur. Forest Research Institute, Malaysia.Google Scholar
Swaine, M. D., Hall, J. B. & Alexander, I. J. 1987a. Tree populations dynamics at Kade, Ghana (1968–1982). Journal of Tropical Ecology 3:331345.CrossRefGoogle Scholar
Swaine, M. D., Lieberman, D. & Putz, F. E. 1987b. The dynamics of tree populations in tropical forest: a review. Journal of Tropical Ecology 3:359366.CrossRefGoogle Scholar
UFPR-FZDF (Universidade Federal Do Paraná – Centro De Pesquisas Florestais/Fundação Zoobotânica Do Distrito Federal). 1972. Inventário Florestal do Distrito Federal. Curitiba.Google Scholar
Uhl, C. 1982. Tree dynamics in a species rich Tierra Firme forest in Amazonia, Venezuela. Acta Científica Venezolana 33:7277.Google Scholar
Weaver, P. L. 1986. Hurricane damage and recovery in the montane forests of the Luquillo mountains of Puerto Rico. Caribbean Journal of Science 22(1–2):5370.Google Scholar