Hostname: page-component-cd9895bd7-8ctnn Total loading time: 0 Render date: 2024-12-27T08:41:49.756Z Has data issue: false hasContentIssue false

A plot study of forest floor litter frogs, Central Amazon, Brazil

Published online by Cambridge University Press:  10 July 2009

Warren D. Allmon
Affiliation:
Museum of Comparative Zoology, Harvard University, Cambridge, MA 02138, USA

Abstract

Abundance and distribution of frogs inhabiting the litter layer of an area of primary lowland rain forest in Central Amazonia were studied over a period of 15 months by sampling 498 plots each 5m × 5m. The litter frog fauna of the area consists of 23 species, but only 12 of these were encountered in the plots, and 84% of the frogs encountered belonged to only six species. Total abundance and diversity within the plot data are strongly seasonal and peak in the late wet season. Both are positively correlated with litter volume and moisture. Most of this variation is due to seasonality of reproduction, as indicated by patterns of occurrence of juveniles of the most abundant species.

These results indicate that the plot sampling method docs not sample the entire fauna adequately. Since this technique has been used to study other tropical forest litter herpetofaunas, however, comparison with other studies may be useful. Species diversity of litter frogs appears to be approximately the same in lowland primary forest sites studied, averaging around 20 ‘regular’ species. Abundances, however, vary widely. Central American communities contain 14–15 frogs (100m)-2, African 9–10, South American 4–6, and South-east Asian 1–2. These differences may be due to differential nutrient availability in forests of different ages and/or on different soils.

Type
Research Article
Copyright
Copyright © Cambridge University Press 1991

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

Anonymous, . 1978. Projeto Radambrasil: Folha SA20 Manaus. Ministério de minas e Energia. Dept. National dc Produçao Mineral, Rio de Janeiro.Google Scholar
Anonymous, . 19811985. Boletins Meteorológicos. Bacia Modelo – Rio Taruma-açú. Instituto National de Pesquisas da Amazônia, Divisao de Ciências do Ambiente, Manaus.Google Scholar
Brown, W. C. & Alcala, A. C. 1961. Populations of amphibians and reptiles in the submontane and montane forests of Cuernos de Negros, Philippine Islands. Ecology 42:28636.CrossRefGoogle Scholar
Cohen, J. E. 1966. A model of simple competition. Harvard University Press, Cambridge, Massachusetts.CrossRefGoogle Scholar
Cohen, J. E. 1968. Alternate derivations of a species-abundance relation. American Naturalist 102:165172.CrossRefGoogle Scholar
Duellman, W. E. 1978. The biology of an equatorial herpetofauna in Amazonian Ecuador. Miscellaneous Publications of the Museum of Natural History, University of Kansas. 65:1352.Google Scholar
Fauth, J. E., Crother, B. I. & Slowinski, J. B. 1989. Elevational patterns of species richness, evenness, and abundance of the Costa Rican leaf-litter herpetofauna. Biotropica 21:178185.CrossRefGoogle Scholar
Fittkau, E. J., June, W., Klinge, H. & Sioli, H. 1975. Substrate and vegetation in the Amazon region. Pp. 7093 in Dierschke, H. (ed.). Vegetation and substrate. Cramer, Vaduz.Google Scholar
Flknley, J. 1979. The equatorial rain forest: a geological history. Butterworths, Boston, Massachusetts.Google Scholar
Hairston, N. G. 1969. On the relative abundance of species. Ecology 50:10911094.CrossRefGoogle Scholar
Heatwole, H. & Sexton, O. J. 1966. Herpetofaunal comparisons between two climatic zones in Panama. American Midland Naturalist 75:4560.Google Scholar
Heyer, R. W. 1977. A discriminant function analysis of the frogs of the genus Adenomera (Amphibia: Leptodactylidae). Proceedings of the Biological Society of Washington 89:581592.Google Scholar
Inger, R. F. 1966. The systematics and zoogeography of the amphibia of Borneo. Fieldiana, Zoology 52:1402.Google Scholar
Inger, R. F. 1980a. Relative abundances of frogs and lizards in forests of Southeast Asia. Biotropica 12:1422.CrossRefGoogle Scholar
Inger, R. F. 1980b. Densities of floor-dwelling frogs and lizards in lowland forests of Southeast Asia and Central America. American Naturalist 115:761770.Google Scholar
Inger, R. F. & Colwell, R. K. 1977. Organization of contiguous communities of amphibians and reptiles in Thailand. Ecological Monographs 47:229253.CrossRefGoogle Scholar
Inger, R. F. & Greenberg, B. 1966. Ecological and competitive relations among three species of frogs (genus Rana). Ecology 47:746759.CrossRefGoogle Scholar
Janzen, D. H. 1974. Tropical blackwater rivers, animals, and mast fruiting by Dipterocarpaceae. Biotropica 6:69103.CrossRefGoogle Scholar
Jordan, C. F. 1985. Nutrient cycling in tropical forest ecosystems. John Wiley & Sons, New York.Google Scholar
Kahn, F. & A., De Castro 1985. The palm community in a forest of Central Amazonia, Brazil. Biotropica 17:210216.CrossRefGoogle Scholar
Kapos, V. 1989. Effects of isolation on the water status of forest patches in the Brazilian Amazon. Journal of Tropical Ecology 5:173185.CrossRefGoogle Scholar
Kira, T., Ogawa, H., Yoda, K. & Ogino, K. 1967. Comparative ecological studies on three main types of forest vegetation in Thailand. IV. Dry matter production with special reference to the Khao Chong rain forest. Nature and Life in Southeast Asia 5:149174.Google Scholar
Lleberman, S. S. 1986. Ecology of the leaf litter herpetofauna of a Neotropical rainforest: La Selva, Costa Rica. Acta Zoologica Mexicana 14:172.Google Scholar
Lloyd, M. & Ghelardi, R. J. 1964. A table for calculating the ‘equitability’ component of species diversity. Journal of Animal Ecology 33:217225.CrossRefGoogle Scholar
Lloyd, M., Inger, R. F. & King, F. W. 1968. On the diversity of reptile and amphibian species in a Borncan rain forest. American Naturalist 102:497515.Google Scholar
Lovejoy, T. E. & Bierregaard, R. O. 1990. The Minimum Critical Size of Ecosystems study area. Pp. 6071 in Gentry, A. H. (ed.). Four neotropical forests. Yale University Press, New Haven, Connecticut.Google Scholar
Luizao, F. J. & Schubart, H. O. R. 1988. Litter production and decomposition in a terra-firme forest of Central Amazonia. Experientia 43:259265.Google Scholar
Lynch, J. D. 1976. The species groups of the South American frogs of the genus Eleutherodactylus (Leptodactylidae). Occasional Papers of the Museum of Natural History, University of Kansas. 61:124.Google Scholar
MacArthur, R. H. 1966. Note on Mrs. Pielou's comments. Ecology 47:1074.CrossRefGoogle Scholar
May, R. M. 1980. Why are there fewer frogs and lizards in Southeast Asia than in Central America? Nature 287:105.CrossRefGoogle Scholar
Miyata, K. I. 1980. Patterns of diversity in tropical herpetofaunas. Unpublished Ph.D. dissertation, Harvard University, Cambridge, Massachusetts.Google Scholar
Morley, R.J. & Flenley, J. R. 1987. Late Cainozoic vegctational and environmental changes in the Malay Archipelago. Pp. 5059 in Whitmore, T. C. (ed.). Biogeographical evolution of the Malay Archipelago. Oxford University Press, Oxford.Google Scholar
Penny, N. D. & Arias, J. R. 1982. Insects of an Amazon forest. Columbia University Press, New York, New York.Google Scholar
Plelou, E. C. 1977. Mathematical ecology. 2nd edition. John Wiley & Sons, New York.Google Scholar
Poore, M. E. O. 1968. Studies in Malaysian rain forest. I. The forest on Triassic sediments in Jengka Forest Reserve. Journal of Ecology 56:143196.CrossRefGoogle Scholar
Sanchez, P. A. 1976. Properties and management of soils in the tropics. John Wiley & Sons, New York.Google Scholar
Scott, N. J. 1976. The abundance and diversity of the herpetofaunas of tropical foresl litter. Biotropica 8:4158.Google Scholar
Scott, N. J. 1982. The herpetofaunas of forest litter plots from Cameroon, Africa. U.S. Fish and Wildlife Research Report 13:145150.Google Scholar
Sexton, O. J., Heatwole, H. & Knoght, D. 1964. Correlation of microdistribution of some Panamanian reptiles and amphibians with structural organization of the habitat. Caribbean Journal of Science 4:261295.Google Scholar
Sokal, R. R. & Rohlf, F. J. 1981. Biometry. 2nd edition. W. H. Freeman & Company, San Francisco.Google Scholar
Toft, C. A. 1980a. Seasonal variation in populations of Panamanian litter frogs and their prey: A comparison of wetter and drier sites. Oecologia (Berlin) 47:3438.Google Scholar
Toft, C. A. 1980b. Feeding ecology of 13 sympatric species of anurans in a seasonal environment. Oecologia (Berlin) 45:131141.Google Scholar
Toft, C. A. 1982. Community structure of litter anurans in a tropical forest, Makokou, Gabon: a preliminary analysis in the minor dry season. Revue de la Ecologie ( Terre el Vie) 36:223232.CrossRefGoogle Scholar
Umbgrove, J. H. F. 1949. Structural history of the East Indies. Cambridge University Press, Cambridge.Google Scholar
Vitousek, P. M. 1984. Litterfall, nutrient cycling, and nutrient limitation in tropical forests. Ecology 65:285298.Google Scholar
Walker, D. 1982. Speculations on the origin and evolution of Sunda-Sahul rain forests. Pp. 554575 in Prance, G. H. (ed.). Biological diversification in the tropics. Columbia University Press, New York.Google Scholar
Whitmore, T. C. 1984. Tropical rainforests of the far east. Second edition. Clarendon Press, Oxford.Google Scholar
Zimmerman, B. L. & Bierregaard, R. O. 1986. Relevance of the equilibrium theory of island biogeography and species-area relations to conservation with a case from Amazonia. Journal of Biogeography 13:133143.CrossRefGoogle Scholar
Zimmerman, B. L. & Bogart, J. P. 1988. Ecology and calls of four species of Amazonian forest frogs. Journal of Herpetology 22:97108.Google Scholar
Zimmerman, B. L. & Rodrigues, M. T. 1990. Frogs, snakes and lizards of the INPA-WWF reserves near Manaus, Brazil. Pp. 426454 in Gentry, A. (ed.). Four neotropical forests. Yale University Press, New Haven.Google Scholar