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Seed attack by beetles and leaf-cutter ants on Peltogyne gracilipes Ducke (Caesalpiniaceae) on Maracá Island, Brazilian Amazonia

Published online by Cambridge University Press:  10 July 2009

Marcelo T. Nascimento
Affiliation:
Department of Biological and Molecular Sciences, University of Stirling, Stirling, FK9 4LA, Scotland, UK
John Proctor
Affiliation:
Department of Biological and Molecular Sciences, University of Stirling, Stirling, FK9 4LA, Scotland, UK

Abstract

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Type
Short Communication
Copyright
Copyright © Cambridge University Press 1996

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References

LITERATURE CITED

Andersen, A. N. 1987. Effects of seed predation by ants on seedling densities at a woodland site in SE Australia. Oikos 48:171174.Google Scholar
Andersen, A. N. & Ashton, D. H. 1985. Rates of seed removal by ants at heath and woodlands sites in southeastern Australia. Australian Journal of Ecology 10:381390.Google Scholar
Davidson, D. W. 1977. Foraging ecology and community organization in desert seed-eating ants. Ecology 58:725737.Google Scholar
Horvitz, C. C. & Schemske, D. W. 1986. Seed dispersal of a neotropical myrmecophore: variation in removal rates and dispersal distance. Biotropica 18:319322.CrossRefGoogle Scholar
Hughes, L., Westoby, M. & Johnson, A. D. 1993. Nutrient costs of vertebrate- and ant-dispersed fruits. Functional Ecology 7:5462.CrossRefGoogle Scholar
Jaffe, K. & Vilela, E. 1989. On nest densities of the cutting ant Atta cephalotes in tropical primary forest. Biotropica 21:234236.Google Scholar
Janzen, D. H. 1969. Seed-eaters versus seed size, number, toxicity and dispersal. Evolution 23:127.Google Scholar
Janzen, D. H. 1971. Seed predation by animals. Annual Reviews of Ecology and Systematics 2:465492.Google Scholar
Janzen, D. H. 1980. Specificity of seed-attacking beetles in a Costa Rican deciduous forest. Journal of Ecology 68:929952.Google Scholar
Levey, D. J. & Byrne, M. M. 1993. Complex ant-plant interactions: rain forest ants as secondary dispersers and post-dispersal seed predators. Ecology 74:18021812.Google Scholar
Moutinho, P. R., Nepstad, D. C., Araújo, K. & Uhl, C. 1993. Formigas e Floresta. Estudo para a recuperacao de áreas de pastagem. Ciência Hoje 15:5960.Google Scholar
Nascimento, M. T. 1994. A monodominant rain forest on Maracá Island, Roraima, Brazil: forest structure and dynamics. Unpublished PhD. Thesis. University of Stirling, UK.Google Scholar
Nascimento, M. T. & Proctor, J. 1994. Insect defoliation of a monodominant Amazonian rainforest. Journal of Tropical Ecology 10:633636.Google Scholar
Nascimento, M. T., Proctor, J. & Villela, D. M. 1996. Forest structure, floristic composition and soils of an Amazonian monodominant forest on Maracá Island, Roraima, Brazil. Edinburgh Journal of Botany (In press).Google Scholar
Roberts, J. T. & Heithaus, E. R. 1986. Ants rearrange the vertebrate-generated seed shadow of a neotropical fig tree. Ecology 67:10461051.Google Scholar
Schupp, E. W. 1990. Annual variation in seedfall, postdispersal predation, and recruitment of a neotropical tree. Ecology 71:504515.CrossRefGoogle Scholar
Sork, V. L. 1987. Effects of predation and light on seedling establishment in Gustavia superba. Ecology 68:13411350.Google Scholar
Villela, D. M. 1995. Nutrient cycling in a monodominant and other rainforest types on Maracá Island, Brazil. Unpublished Ph.D. Thesis. University of Stirling, UK.Google Scholar