Hostname: page-component-78c5997874-t5tsf Total loading time: 0 Render date: 2024-11-05T13:18:40.789Z Has data issue: false hasContentIssue false
  • English
  • Français

Nematode infection patterns in a Neotropical lizard species from an insular mountain habitat in Brazil

Published online by Cambridge University Press:  28 October 2016

A.B.H.P. Václav ,
L.A. Anjos ,
M.S. Queiróz ,
L.B. Nascimento  and
C.A.B. Galdino
A.B.H.P. Václav
Affiliation:
PET Biologia PUC Minas – MEC/SESu, Pontifícia Universidade Católica de Minas Gerais, 30535-901, Belo Horizonte, Brazil Programa de Pós-graduação em Biologia de Vertebrados, Pontifícia Universidade Católica de Minas Gerais, 30535-610, Belo Horizonte, Brazil
L.A. Anjos
Affiliation:
Departamento de Biologia e Zootecnia, Laboratório de Parasitologia e Zoologia, UNESP, Universidade Estadual Paulista, FEIS, Passeio Monção 226, CEP 15385-000, Ilha Solteira, Brazil
M.S. Queiróz
Affiliation:
Departamento de Biologia e Zootecnia, Laboratório de Parasitologia e Zoologia, UNESP, Universidade Estadual Paulista, FEIS, Passeio Monção 226, CEP 15385-000, Ilha Solteira, Brazil
L.B. Nascimento
Affiliation:
Programa de Pós-graduação em Biologia de Vertebrados, Pontifícia Universidade Católica de Minas Gerais, 30535-610, Belo Horizonte, Brazil
C.A.B. Galdino*
Affiliation:
Programa de Pós-graduação em Biologia de Vertebrados, Pontifícia Universidade Católica de Minas Gerais, 30535-610, Belo Horizonte, Brazil
*
*E-mail: [email protected]
Get access Rights & Permissions [Opens in a new window]

Abstract

Neotropical lizards are known to harbour rich nematode parasite faunas; however, knowledge of the diversity and patterns of infection are still lacking for many species. This is true for the genus Tropidurus, in which data on patterns of parasitism are known for only approximately 11 of its 30 species. We show that the nematode fauna associated with a population of Tropidurus montanus is composed of three species of host-generalist parasites with high overall prevalence. Male and female lizards did not differ in infection pattern and there was no relationship between host body size and intensity of infection for the most prevalent parasite species. Nevertheless, overall prevalence changed seasonally, with a higher proportion of parasitized individuals being found in the dry period than in the rainy period. We discuss our findings in the context of diet patterns of T. montanus, which we suggest may explain the similarities in prevalence and intensity of infection between the sexes. In addition, seasonal changes in diet are considered to be related to the observed differences in prevalence between dry and rainy periods.

Type
Research Papers
Information
Journal of Helminthology , Volume 91 , Issue 5 , September 2017 , pp. 578 - 582
Copyright
Copyright © Cambridge University Press 2016 

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.)

Footnotes

All authors consented to participation in the study and agreed upon the content of the article.

References

Altizer, S., Dobson, A., Hosseini, P., Hudson, P., Pascual, M. & Rohani, P. (2006) Seasonality and the dynamics of infectious diseases. Ecology Letters 9, 467484.CrossRefGoogle ScholarPubMed
Alvares, C.A., Stape, J.L., Sentelhas, P.C., Moraes, J.L.G. & Sparovek, G. (2014) Koppen's climate classification map for Brazil. Meteorologische Zeitschrift 22, 711728.Google Scholar
Andrade, C. (2000) Meios e soluções comumente empregados em laboratórios. 1st edn. 353 pp. Seropédica, Bazil, UFRRJ.Google Scholar
Anjos, L.A., Bezerra, C.H., Passos, D.C., Zanchi, D. & Galdino, C.A.B. (2011) Helminth fauna of two gecko lizards, Hemidactylus agrius and Lygodactylus klugei (Gekkonidae), from caatinga biome, northeastern Brazil. Neotropical Helminthology 5, 285290.Google Scholar
Anjos, L.A., Ávila, R.W., Ribeiro, S.C., Almeida, W.O. & Silva, R.J. (2012) Gastrointestinal nematodes of the lizard Tropidurus hispidus (Squamata: Tropiduridae) from a semi-arid region of north-eastern Brazil. Journal of Helminthology 87, 443449.Google Scholar
Ávila, R.W. & Silva, R. (2010) Checklist of helminths from lizards and amphisbaenians (Reptilia, Squamata) of South America. Journal of Venomous Animals and Toxins Including Tropical Diseases 16, 543572.CrossRefGoogle Scholar
Ávila, R.W., Cardoso, M.W., Oda, F.H. & Silva, R.J. (2011) Helminths from lizards (Reptilia: Squamata) at the Cerrado of Goiás State, Brazil. Comparative Parasitology 78, 120128.Google Scholar
Ávila, R.W., Anjos, L.A., Ribeiro, S.C., Morais, D.H., Silva, R.J. & Almeida, W.O. (2012) Nematodes of lizards (Reptilia: Squamata) from Caatinga Biome, Northeastern Brazil. Comparative Parasitology 79, 5663.Google Scholar
Barreto-Lima, A.F. & Anjos, L.A. (2014) Occurrence of Strongyluris oscari (Nematoda; Heterakidae) in Enyalius bilineatus (Squamata: Leiosauridae) from the Brazilian Atlantic Forest. Herpetology Notes 7, 455456.Google Scholar
Bezerra, C.H., Ávila, R.W., Passos, D.C., Zanchi-Silva, D. & Galdino, C.B.A. (2015) Levels of helminth infection in the flat lizard Tropidurus semitaeniatus from north-eastern Brazil. Journal of Helminthology. doi:10.1017/S0022149X15000826.Google Scholar
Bezerra, C.H., Pinheiro, L.T., Melo, G.C., Zanchi-Silva, D., Queiroz, M.S., Anjos, L.A., Harris, D. & Borges-Nojosa, M. (2016) Assessing the influence of geographic distance in parasite communities of an exotic lizard. Acta Parasitologica 61, 136143.Google Scholar
Brito, S.V., Ferreira, F.S., Ribeiro, S.C., Anjos, L.A., Almeida, W.O., Mesquita, D.O. & Vasconcellos, A. (2014) Spatial–temporal variation of parasites in Cnemidophorus ocellifer (Teiidae) and Tropidurus hispidus and Tropidurus semitaeniatus (Tropiduridae) from Caatinga areas in northeastern Brazil. Parasitology Research 113, 11631169.Google Scholar
Bursey, C.R. & Goldberg, S.R. (2004) Helminths of Tropidurus guarani (Sauria: Tropiduridae) from Paraguay. Comparative Parasitology 71, 203207.Google Scholar
Bush, A.O., Lafferty, K.D., Lotz, J.M. & Shostak, A.W. (1997) Parasitology meets ecology on its own terms: Margolis et al. revisited. Journal of Parasitology 83, 575583.Google Scholar
Chaves, A.V., Freitas, G.H.S., Vasconcelos, M.F. & Santos, F.R. (2015) Biogeographic patterns, origin and speciation of the endemic birds from eastern Brazilian mountaintops: a review. Systematics and Biodiversity 13, 116.Google Scholar
Dobson, A.P., Pacala, S.W., Roughgarden, J.D., Carper, E.R. & Harris, E.A. (1992) The parasites of Anolis lizards in the northern Lesser Antilles. I. Patterns of distribution and abundance. Oecologia 91, 110117.Google ScholarPubMed
Filogonio, R., Del Lama, F.S., Machado, L.L., Drumond, M., Zanon, I., Mezzetti, N.A. & Galdino, C.A.B. (2010) Daily activity and microhabitat use of sympatric lizards from Serra do Cipó, southeastern Brazil. Iheringia, Série Zoologia 100, 336340.CrossRefGoogle Scholar
Fontes, A.F., Vicente, J.J., Kiefer, M.C. & Van Sluys, M. (2003) Parasitism by helminths in Eurolophosaurus nanuzae (Lacertilia: Tropiduridae) in an area of rocky outcrops in Minas Gerais State, Southeastern Brazil. Journal of Herpetology 37, 736741.Google Scholar
Fuxjager, M.J., Foufopoulos, J., Diaz-Uriarte, R. & Marler, C.A. (2011) Functionally opposing effects of testosterone on two different types of parasite: implications for the immunocompetence handicap hypothesis. Functional Ecology 25, 132138.Google Scholar
Galdino, C.A.B., Ávila, R.W., Bezerra, C.H., Passos, D.C., Melo, G.C. & Zanchi-Silva, D. (2014) Helminth infection patterns in a lizard (Tropidurus hispidus) population from a semiarid Neotropical area: associations between female reproductive allocation and parasite loads. Journal of Parasitology 100, 864867.Google Scholar
Goldberg, S.R. & Bursey, C.R. (2012) Endohelminths of the Socorro Island Tree Lizard, Urosaurus auriculatus (Squamata: Phrynosomatidae), from Colima, Mexico. Comparative Parasitology 79, 269274.Google Scholar
Hatano, F.H., Vrcibradic, D., Galdino, C.A.B., Cunha-Barros, M., Rocha, C.F.D & Van Sluys, M. (2001) Thermal ecology and activity patterns of the lizard community of the restinga of Jurubatiba, Macaé, RJ. Revista Brasileira de Biologia 61, 287294.Google Scholar
Hothorn, T., Hornik, K., van de Wiel, M.A. & Zeileis, A. (2008) Implementing a class of permutation tests: the Coin package. Journal of Statistical Software 28, 123.Google Scholar
Kiefer, M.C. (1998) Dieta, modo de forrageamentoe uso do microhábitat em duas espécies simpátricas de Tropidurus (Sauria, Tropiduridae) na Serra do Cipó, Minas Gerais . Master's Dissertation, UNICAMP, Campinas, Brazil.Google Scholar
Kuhnen, V.V., Graipel, M.E. & Pinto, C.J.C. (2012) Differences in richness and composition of gastrointestinal parasites of small rodents (Cricetidae, Rodentia) in a continental and insular area of the Atlantic Forest in Santa Catarina state, Brazil. Brazilian Journal of Biology 72, 563567.Google Scholar
Lambertz, M., Kohlsdorf, T., Perry, S.F., Ávila, R.W. & Silva, R.J. (2012) First assessment of the endoparasitic nematode fauna of four psammophilous species of Tropiduridae (Squamata: Iguania) endemic to north-eastern Brazil. Acta Herpetologica 7, 315323.Google Scholar
Lunaschi, L.I., Lamas, M.F. & Drago, F.B. (2012) A new species of Mathevotaenia (Cestoda, Anoplocephalidae) parasitizing Tropidurus spinulosus (Reptilia, Squamata) from northeastern Argentina. Revista Mexicana de Biodiversidad 83, 583590.Google Scholar
Martin, J.E. & Roca, V. (2005) Helminths of the Atlantic lizard, Gallotia atlantica (Reptilia, Lacertidae), in the Canary Islands (Eastern Atlantic): composition and structure of component communities. Acta Parasitologica 50, 8589.Google Scholar
Neves, A.C.O., Barbieri, A.F., Pacheco, A.A., Resende, F.M., Braga, R.F., Azevedo, A.A. & Fernandes, G.W. (2016) The human dimension in the Espinhaço Mountains: land conversion and ecosystem services. pp. 501526 in Fernandes, G.W. (Ed.) Ecology and conservation of mountaintop grasslands in Brazil. Switzerland, Springer.Google Scholar
Padilha, T.N. & Duarte, M.J.F. (1979) Ocorrência de Parapharyngodon alvarengai Freitas, 1957, em Ameiva ameiva (L.) no estado do Rio de Janeiro (Nematoda, Oxyuroidea). Atas da Sociedade de Biologia do Rio de Janeiro 20, 2122.Google Scholar
Pereira, F.B., Sousa, B.M. & Lima, S.S. (2012) Helminth community structure of Tropidurus torquatus (Squamata: Tropiduridae) in a rocky outcrop area of Minas Gerais state, southeastern Brazil. Journal of Parasitology 98, 610.Google Scholar
Poulin, R. (1997) Species richness of parasite assemblages: evolution and patterns. Annual Review in Ecology and Systematics 28, 341358.Google Scholar
Ribas, S.C., Rocha, C.F.D., Teixeira-Filho, P.F. & Vicente, J.J. (1995) Helminths (Nematoda) of the lizard Cnemidophorus ocellifer (Sauria: Teiidae): assessing the effect of rainfall, body size and sex in the nematode infection rates. Journal of Brazilian Association for the Advancement of Science 47, 8891.Google Scholar
Ribas, S.C., Rocha, C.F.D., Teixeira-Filho, P.F. & Vicente, J.J. (1998) Nematode infection in two sympatric lizards (Tropidurus torquatus and Ameiva ameiva) with different foraging tactics. Amphibia–Reptilia 19, 323330.CrossRefGoogle Scholar
Rodrigues, M.T. (1987) Sistematica, ecologia e zoogeografia dos Tropidurus do grupo torquatus ao sul do Rio Amazonas (Sauria, Iguanidae). Arquivos de Zoologia 31, 105230.Google Scholar
Santos, J.N., Melo, F.T.V., Nazaré, L.C., Furtado, A.P. & Giese, E.G. (2013) Strongyluris amazonicus n. sp. (Nematoda: Heterakidae): a parasite of Tropidurus oreadicus from the Brazilian Amazon. Acta Tropica 128, 96102.Google Scholar
Uetz, P. & Hošek, J. (Eds). (2016) The reptile database. Available at http://www.reptile-database.org (accessed 20 June 2016).Google Scholar
Van Sluys, M., Rocha, C.F.D., Bergallo, H.G., Vrcibradic, D. & Ribas, S.C. (1997) Nematode infection in three sympatric lizards in an isolated fragment of restinga habitat in southeastern Brazil. Amphibia–Reptilia 18, 442446.CrossRefGoogle Scholar
Vrcibradic, D., Rocha, C.F.D., Ribas, S.C. & Vicente, J.J. (1999) Nematodes infecting the skink Mabuya frenata in Valinhos, São Paulo State, southeastern Brazil. Amphibia–Reptilia 20, 333339.Google Scholar