Size-based fruit selection of Calophyllum brasiliense (Clusiaceae) by bats of the genus Artibeus (Phyllostomidae) in a Restinga area, southeastern Brazil
Bizerril, M. X. A., and A. Raw. 1998. Feeding behaviour of bats and the dispersal of Piper arboreum seeds in Brazil. Journal of Tropical Ecology, 14: 109-114.
Bonaccorso, F. J., and T. J. Gush. 1987. Feeding behaviour and foraging strategies of captive phyllostomid fruit bats: an experimental study. Journal of Animal Ecology, 56: 907-920.
Fazzolari-Corrêa, S. 1995. Aspectos sistemáticos, ecológicos e reprodutivos de morcegos na Mata Atlântica. Ph.D. Thesis (Zoology), Universidade de São Paulo, Brazil, 168 pp.
Fischer, E., and F. A. M. Santos. 2001. Demography, phenology and sex of Calophyllum brasiliense (Clusiaceae) trees in the Atlantic forest. Journal of Tropical Ecology, 17: 903-909.
Fleming, T. H. 1991. The relationship between body size, diet, and habitat use in frugivorous bats, genus Carollia (Phyllostomidae). Journal of Mammalogy, 72: 493-501.
Foster, M. S. 1990. Factors influencing bird foraging preferences among conspecific fruit trees. The Condor, 92: 844-854.
Handley, C. O., Jr., D. E. Wilson, and A. L. Gardner. 1991. Demography and natural history of the common fruit bat, Artibeus jamaicensis, on Barro Colorado Island, Panamá. Smithsonian Contributions to Zoology, 511 pp.
Heithaus, E. R., T. H. Fleming, and P. A. Opler. 1975. Foraging patterns and resource utilization in seven species of bats in a seasonal tropical forest. Ecology, 56: 841-854.
Howe, H. F., and G. A. Vande Kerckhove. 1981. Removal of wild nutmeg (Virola surinamensis) crops by birds. Ecology, 62: 1093-1106.
Jordano, P. 1995a. Angiosperm fleshy fruits and seed disperser: a comparative analysis of adaptation and constraints in plant-animal interactions. The American Naturalist, 145: 163-191.
Jordano, P. 1995b. Frugivore-mediated selection on fruit and seed size: birds and St. Lucie’s cherry, Prunus mahaleb. Ecology, 76: 2627-2639.
Kalko, E. K. V., and M. Condon. 1998. Echolocation, olfaction, and fruit display: how bats find fruit of flagellichorous cucurbits. Functional Ecology, 12: 364-372.
MacArthur, R. H., and E. R. Pianka. 1966. On optimal use of a patchy environment. The American Naturalist, 100: 603-609.
Mack, A. L. 1998. An advantage of large seed size: tolerating rather than succumbing to seed predators. Biotropica, 30: 604-608.
Marques, M. C. M. 1994. Estudos auto-ecológicos do guanandí (Calophyllum brasiliense Camb. Clusiaceae) em urna mata ciliar do municipio de Brotas, SP. M.Sc. Thesis, Universidade Estadual de Campinas, Brazil, 105 pp.
Meehan, H. J., K. R. Mcconkey, and D. R. Drake. 2002. Potential disruptions to seed dispersal mutualisms in Tonga, Western Polynesia. Journal of Biogeography, 29: 695-712.
Nogueira, M. R., and A. L. Peracchi. 2003. Fig-seed predation by 2 species of Chiroderma: discovery of a new feeding strategy in bats. Journal of Mammalogy, 84: 225-233.
Sallabanks, R. 1993. Hierarchical mechanisms of fruit selection by an avian frugivore. Ecology, 74: 1326-1336.
Westoby, M., E. Jurado, and M. Leishman. 1992. Comparative evolutionary ecology of seed size. Trends in Ecology and Evolution, 7: 368-372.
Wheelwright, N. T. 1993. Fruit size in a tropical tree species: variation, preference by birds, and heritability. Pp. 163-174, in Frugivory and seed dispersal: ecological and evolutionary aspects (T. H. Fleming and A. Estrada, eds.). Kluwer Academic Press, Nordrecht, 392 pp.
Zar, J. H. 1999. Biostatistical analysis. Prentice-Hall, New Jersey, 693 pp.