Leptodactylus latrans (Steffen, 1815)
South American Spotted Grassfrog, Criolla Frog | family: Leptodactylidae subfamily: Leptodactylinae genus: Leptodactylus |
Taxonomic Notes: Synonym for Leptodactylus ocellatus after Lavilla EO, Langone JA, Caramaschi U, Heyer WR, de Sa RO. 2010. The identification of Rana ocellata Linnaeus, 1758. Nomenclatural impact on the species currently known as Leptodactylus ocellatus (Leptodactylildae) and Osteopilus brunneus (Gosse, 1851)(Hylidae). Zootaxa 2346:1-16. |
© 2005 Germano Woehl Jr. (1 of 37) |
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Description Distribution and Habitat Country distribution from AmphibiaWeb's database: Argentina, Bolivia, Brazil, Paraguay, Uruguay
Life History, Abundance, Activity, and Special Behaviors During the breeding time, i.e. from September to February, the males hide in aquatic vegetation and call with short monotonous notes at low pitch. Calls are louder and more frequent before rain, as the eggs are usually laid into seasonal ponds. Males beat glandular secretions of the female into a foamy mass while still on the female’s back, so the several thousand small black eggs are sheltered in a foam nest that will float on a water surface. The thumb spines or thorns in males are thought to give them a better grip during amplexus, when the males beat up the foam nest. A usual nest is between 12 and 25 cm in diameter and often has a central hole of 4 to 8 cm width. This foam nest lowers the predation risk for eggs and larvae and keeps them moist in the seasonal ponds of tropical regions. In dry ponds shortly before heavy rainfalls, the foam nest is deposited, and eggs may even hatch in the nest and the larvae be released on the next rain, which will destroy the nest and fill the pond with water again. The larvae of L. ocellatus then have an evolutionary advantage over other larvae as they are further developed and may start metamorphosis earlier, before the pond may again fall dry. Seasonality of the ponds also ensures a lower predation risk for the larvae, because there are no fishes in seasonal ponds and other predators such as water insects and carnivorous tadpoles develop later after the filling of the pond. Females are characterized by extended maternal care. They are often found sitting in the nest hole with the head poking out or beneath the nest, and they show threatening and biting behavior toward predators. Hatched larvae aggregate and move together in gregarious shoals, mostly accompanied by the mother in less than 1 m distance. Mothers will stay with the larvae both during the night and day and defend them against predation, especially birds such as the benteveo (Pitangus sulphuratus argentinus). On sight of a bird, the mother beats the water surface, so the larvae realize coming danger and rapidly hide beneath the mother. Interestingly, the adult frogs may change the length of their guts in relation with feeding season and reproductive status. In L. ocellatus, the stomach of both sexes and the intestine in males is longer during the hot, high feeding season; the length of the female intestine is highest during the cold season and correlated with high estrogen levels, which occur shortly before spawning, so female intestine length is related to yolk production. Trends and Threats Possible reasons for amphibian decline General habitat alteration and loss Comments Amphibians are found across a wide range of elevations, from sea level to above 5,000 meters, exposing them to a wide range of climates. The climate variability hypothesis predicts that organisms exposed to more temperate variation will be able to function across a wider range of temperatures. Bovo et al. (2023) tested the thermal tolerances of five species of frogs that are distributed across mountains in Brazil's Atlantic Rainforest in a variety of microhabitats, including Boana faber, Dendropsophus minutus, Leptodactylus latrans, Physalaemus cuvieri, and Rhinella icterica. They found differences among species in temperature tolerance, but did not always find that broader temperature variation at increasing elevations correlated with broader temperature tolerance. In addition, they did not find a consistent difference in water loss or water uptake across altitude or climates. Overall, they did not find strong support for the climate variability hypothesis or for elevation shaping these physiological traits. (MWomack)
References
Bogart, J. P. (1974). ''A karyosystematic study of frogs in the genus Leptodactylus (Anura: Leptodactylidae).'' Copeia, (3), 728-737. Cardoso, A. J., Andrade, G. V., and Haddad, C. F. B. (1989). ''Distribução espacial em comunidades de anfíbios (Anura) no sudeste do Brasil.'' Revista Brasileira de Biología, 49, 241-249. Cei, J. M. (1962). ''Mapa preliminar de la distribucion continental de las sibling species del grupo ocellatus (genero Leptodactylus).'' Revista de la Sociedad Argentina de Biologia, 38, 258-265. Gallardo, J. M. (1964). ''Consideraciones sobre Leptodactylus ocellatus (L.) (Amphibia, Anura) y especies aliadas.'' Physis, 24(68), 373-384. Heyer, W. R. (1969). ''The adaptive ecology of the species groups of the genus Leptodactylus (Amphibia, Leptodactylidae).'' Evolution, 23, 421-428. Heyer, W. R., Rand, A. S., Cruz, C. A. G., Peixoto, O. L., and Nelson, C. E. (1990). ''Frogs of Boracéia.'' Arquivos de Zoologia Sao Paulo, 31, 231-410. Kwet, A. and Di-Bernardo, M. (1999). Anfíbios - Amphibien - Amphibians. EDIPUCRS, Porto Alegre. Lavilla, E. O., Langone, J. A. , Caramaschi, U., Heyer, W. R., and de Sá, R. O. (2010). ''The identification of Rana ocellata Linnaeus, 1758. Nomenclatural impact on the species currently known as Leptodactylus ocellatus (Leptodactylidae) and Osteopilus brunneus (Gosse, 1851) (Hylidae).'' Zootaxa, 2346, 1-16. Naya, D., Maneyro, R., Camargo, A., Canavero, A., and da Rosa, I. (2003). ''Seasonal changes in gut length of the South American common frog Leptodactylus ocellatus (Amphibia, Anura).'' Biociências, Porto Alegre, 11(1), 47-52. Prado, C. P. de A., Uetanabaro, M., and Haddad, C F. B. (2002). ''Description of a new reproductive mode in Leptodactylus (Anura, Leptodactylidae), with a review of the reproductive specialization towards terrestriality in the genus.'' Copeia, 2002(4), 221-245. Straughan, I. R., and Heyer, W. R. (1976). ''A functional analysis of the mating calls of the neotropical frog genera of the Leptodactylus complex (Amphibia, Leptodactylidae).'' Papéis Avulsos de Zoologia, 29, 221-245. Vaira, M. and Coria, G. (1994). ''Leptodactylus ocellatus (Rana criolla). Predation.'' Herpetological Review, 25(3), 118. Vaz-Ferreira, R. and Gehrau, A. (1975). ''Comportamiento epimeletico de la Rana comun, Leptodactylus ocellatus (L.) (Amphibia, Leptodactylidae) 1. Atencion de la cria y actividades alimentarias y agresivas relacionadas.'' Physis Secc. B. Buenos Aires, 34(88), 1-14. Originally submitted by: Joern Dietl, Susanne Fritz, Rebecca Kittel and Mirco Sole (first posted 2010-02-01) Edited by: Kellie Whittaker, Michelle S. Koo (2023-08-13) Species Account Citation: AmphibiaWeb 2023 Leptodactylus latrans: South American Spotted Grassfrog <https://amphibiaweb.org/species/7436> University of California, Berkeley, CA, USA. Accessed Dec 28, 2024.
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Citation: AmphibiaWeb. 2024. <https://amphibiaweb.org> University of California, Berkeley, CA, USA. Accessed 28 Dec 2024. AmphibiaWeb's policy on data use. |