Hostname: page-component-586b7cd67f-2brh9 Total loading time: 0 Render date: 2024-11-29T10:15:59.779Z Has data issue: false hasContentIssue false
  • English
  • Français

Nematode assemblages associated with the parthenogenetic lizard Ameivula nativo in six restinga areas along the eastern coast of Brazil

Published online by Cambridge University Press:  04 October 2017

V.A. Menezes ,
J.C. Mascarenhas ,
D. Vrcibradic  and
C.F.D. Rocha
V.A. Menezes*
Affiliation:
Programa de Pós-Graduação em Ecologia e Evolução, Universidade do Estado do Rio de Janeiro – UERJ, Rua São Francisco Xavier 524, Rio de Janeiro, Brazil
J.C. Mascarenhas
Affiliation:
Programa de Pós-Graduação em Ecologia e Evolução, Universidade do Estado do Rio de Janeiro – UERJ, Rua São Francisco Xavier 524, Rio de Janeiro, Brazil
D. Vrcibradic
Affiliation:
Departamento de Zoologia, Universidade Federal do Estado do Rio de Janeiro - UNIRIO, Av. Pasteur 458, Rio de Janeiro, Brazil
C.F.D. Rocha
Affiliation:
Programa de Pós-Graduação em Ecologia e Evolução, Universidade do Estado do Rio de Janeiro – UERJ, Rua São Francisco Xavier 524, Rio de Janeiro, Brazil
*
Author for correspondence: V.A. Menezes, E-mail: [email protected]
Get access Rights & Permissions [Opens in a new window]

Abstract

We surveyed the nematode assemblages associated with populations of the parthenogenetic whiptail lizard Ameivula nativo from six coastal restinga areas in eastern Brazil: Setiba, Comboios and Guriri (State of Espirito Santo) and Guaratiba, Prado and Maraú (State of Bahia). A total of five nematode species (Physaloptera retusa, Physalopteroides venancioi, Skrjabinelazia intermedia, Subulura lacertilia and Parapharyngodon sp.) were recorded from the six different populations of A. nativo. There was considerable variation in overall prevalence of infection (1–42%) among study sites, but geographical distance among areas did not influence similarity in the composition of nematode assemblages. Overall intensity of infection was not affected by lizard body size and did not seem to affect host body condition, based on pooled data of all populations. The studied populations of the unisexual A. nativo had relatively low prevalences and intensities of infection compared to some bisexual congeners and to sympatric lizards from other families for which such data are available. We believe that the low richness of the nematode fauna associated with A. nativo, both locally and regionally, may reflect its narrow geographic distribution and the low diversity of habitats it occupies.

Type
Research Paper
Information
Journal of Helminthology , Volume 92 , Issue 5 , September 2018 , pp. 554 - 562
Copyright
Copyright © Cambridge University Press 2017 

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

Aho, J (1990) Helminth communities of amphibians and reptiles: comparative approaches to understanding patterns and processes. pp. 157195 in Esch, GW, Bush, AO and Aho, JM (Eds) Parasite communities: patterns and processes. London, Chapman & Hall.Google Scholar
Albuquerque, S, Ávila, R and Bernarde, P (2012) Occurrence of helminths in lizards (Reptilia: Squamata) at Lower Moa River Forest, Cruzeiro do Sul, Acre, Brazil. Comparative Parasitology 79, 6467.Google Scholar
Amo, L, Fargallo, JA, Martinez-Padilla, J, Millán, J, López, P and Martin, J (2005) Prevalence and intensity of blood and intestinal parasites in a field population of a Mediterranean lizard, Lacerta lepida. Parasitology Research 96, 413417.Google Scholar
Anjos, LA, Ávila, RW, Ribeiro, SC, Almeida, WO and Silva, RJ (2013) 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
Araújo-Filho, JA, Ribeiro, SC, Brito, SV, Teles, DA, Sousa, JGG, Ávila, RW and Almeida, WO (2014) Parasitic nematodes of Polychrus acutirostris (Polychrotidae) in the Caatinga biome, Northeastern Brazil. Brazilian Journal of Biology 74, 939942.Google Scholar
Ávila, RW and Silva, RJ (2009) Helminths of the teiid lizard Kentropyx calcarata (Squamata) from an Amazonian site in western Brazil. Journal of Helminthology 83, 267269.Google Scholar
Ávila, RW and Silva, RJ (2010) Checklist of helminths from lizards and amphisbaenians (Reptilia, Squamata) of South America. Journal of Venomous Animals and Toxins including Tropical Diseases 16, 543572.Google Scholar
Ávila, RW and Silva, RJ (2011) Helminths of lizards (Reptilia: Squamata) from Mato Grosso State, Brazil. Comparative Parasitology 78, 129139.Google Scholar
Ávila, RW and Silva, RJ (2013) Helminths of lizards from the municipality of Aripuanã in the southern Amazon region of Brazil. Journal of Helminthology 87, 1216.Google Scholar
Ávila, RW, Anjos, LA, Silva, RJ, Costa, HC, São Pedro, VA and Feio, RN (2010) Tupinambis longilineus: endoparasites. Herpetological Review 41, 8788.Google Scholar
Ávila, RW, Cardoso, MW, Oda, FH and Silva, RJ (2011) Helminths from lizards (Reptilia: Squamata) at the Cerrado of Goiás State, Brazil. Comparative Parasitology 78, 120128.Google Scholar
Ávila, RW, Anjos, LA, Ribeiro, S, Morais, D, Silva, R and Almeida, W (2012) Nematodes of lizards (Reptilia: Squamata) from Caatinga Biome, Northeastern Brazil. Comparative Parasitology 79, 5663.Google Scholar
Barreto-Lima, AF, Toledo, GM and Anjos, LA (2012) The nematode community in the Atlantic rainforest lizard Enyalius perditus Jackson 1978, from south-eastern Brazil. Journal of Helminthology 86, 395400.Google Scholar
Bursey, CR, Goldberg, SR and Parmelee, JR (2005) Gastrointestinal helminths from 13 species of lizards from Reserva Cuzco Amazonico, Peru. Comparative Parasitology 72, 5068.Google Scholar
Cogliatti-Carvalho, L, Freitas, AFN, Rocha, CFD and Van Sluys, M (2001) Variação na estrutura e na composição de Bromeliaceae em cinco zonas de restinga no Parque Nacional da Restinga de Jurubatiba, Macaé, RJ. Revista Brasileira de Botânica 24, 19.Google Scholar
Dias, E, Vrcibradic, D and Rocha, CFD (2005) Endoparasites infecting two species of whiptail lizard (Cnemidophorus abaetensis and C. ocellifer; Teiidae) in a restinga habitat of northeastern Brazil. Herpetological Journal 15, 133137.Google Scholar
Fontes, AF, Vicente, JJ, Kiefer, MC and 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
Goldberg, SR, Bursey, CR, Caldwell, JP, Vitt, LJ and Costa, GC (2007a) Gastrointestinal helminths from six species of frogs and three species of lizards, sympatric in Pará State, Brazil. Comparative Parasitology 74, 327342.Google Scholar
Goldberg, SR, Bursey, CR and Vitt, LJ (2007b) Parasite communities of two lizard species, Alopoglossus angulatus and Alopoglossus atriventris, from Brazil and Ecuador. Herpetological Journal 17, 269272.Google Scholar
Goldberg, SR, Bursey, CR and Vitt, LJ (2009) Diet and parasite communities of two lizard species, Plica plica and Plica umbra, from Brazil and Ecuador. Herpetological Journal 19, 4952.Google Scholar
Goldberg, SR, Bursey, CR, Vitt, LJ and Arreola, J (2013) Intestinal helminths of the wandering grass lizard, Cnemidophorus gramivagus (Squamata: Teiidae), from Brazil. Comparative Parasitology 80, 301303.Google Scholar
Kiefer, CM (2003) Ecologia Geografica de Tropidurus torquatus (Squamata: Trpiuridae) em areas de restinga, Ecologia termica e comunidades de nematodeos associados. PhD thesis, Universidade Estadual de Campinas, Campinas, SP. Available at http://www.bibliotecadigital.unicamp.br/document/?code=vtls000311244&fd=y (accessed 19 May 2017).Google Scholar
Menezes, VA and Rocha, CFD (2013) Geographic distribution, population densities, and issues on conservation of whiptail lizards in restinga habitats along the eastern coast of Brazil. North-Western Journal of Zoology 9, 337344.Google Scholar
Menezes, VA and Rocha, CFD (2014) Clutch size in populations and species of cnemidophorines (Squamata: Teiidae) on the eastern coast of Brazil. Anais da Academia Brasileira de Ciências 86, 707722.Google Scholar
Menezes, VA, Vrcibradic, D, Vicente, JJ, Dutra, GF and Rocha, CFD (2004) Helminths infecting the partenogenetic whiptail lizard Cnemidophorus nativo in a restinga habitat of Bahia State, Brazil. Journal of Helminthology 78, 323328.Google Scholar
MMA (2014) Lista nacional de espécies ameaçadas de extinção. Available at http://www.icmbio.gov.br/portal/faunabrasileira/lista-de-especies (accessed 21 July 2017).Google Scholar
Noronha, D, Bragança, R, Vicente, JJ and Pereira, LCM (2004) Coleções particulares incorporadas à coleção helmintológica do Instituto Oswaldo Cruz (CHIOC) I: Coleção do Instituto Pasteur de São Paulo. Revista Brasileira de Zoologia 21, 303305.Google Scholar
Pereira, FB, Sousa, BM and Lima, SS (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 (2003) The decay of similarity with geographical distance in parasite communities of vertebrate hosts. Journal of Biogeography 30, 609615.Google Scholar
Poulin, R and Morand, S (2004) Parasite biodiversity. 216 pp. Washington, DC, Smithsonian Books.Google Scholar
Ribas, SC, Rocha, CFD, Teixeira-Filho, PF and Vicente, JJ (1995) Helminths (Nematoda) of the lizard Cnemidophorus ocellifer (Sauria: Teiidae): assessing the effect of rainfall, body size and sex in the nematode infection rates. Ciência e Cultura 47, 8891.Google Scholar
Ribas, SC, Rocha, CFD, Teixeira-Filho, PF and Vicente, JJ (1998a) Nematode infection in two sympatric lizards (Tropidurus torquatus and Ameiva ameiva) with different foraging tactics. Amphibia-Reptilia 19, 323330.Google Scholar
Ribas, SC, Rocha, CFD, Teixeira-Filho, PF and Vicente, JJ (1998b) Parasitismo por nematódeos em duas espécies simpátricas de Mabuya (Lacertilia: Scincidae) na restinga da Barra de Maricá, RJ. pp. 883894 in Santos, JE (Ed.) Anais do VIII Seminário Regional de Ecologia, vol. II. São Carlos, PPG-ERN/UFSCar.Google Scholar
Roca, V, Jorge, F, Ilgaz, C, Kumluta, Y, Durmu, SH and Carretero, MA (2015) Are the helminth communities from unisexual and bisexual lizards different? Evidence from gastrointestinal parasites of Darevskia spp. in Turkey. Acta Zoologica Academiae Scientiarum Hungaricae 61, 279288.Google Scholar
Rocha, CFD (1995) Nematode parasites of the Brazilian sand lizard, Liolaemus lutzae. Amphibia-Reptilia 16, 412415.Google Scholar
Rocha, CFD and Vrcibradic, D (2003) Nematode assemblages of some insular and continental lizard hosts of the genus Mabuya (Reptilia, Scincidae) along the eastern Brazilian coast. Revista Brasileira de Zoologia 20, 755759.Google Scholar
Rocha, CFD, Menezes, VA and Dutra, GF (1999) Geographical distribution Cnemidophorus nativo. Herpetological Review 30, 109.Google Scholar
Rocha, CFD, Vrcibradic, D, Vicente, JJ and Cunha-Barros, M (2003) Helminths infecting Mabuya dorsivittata (Lacertilia, Scincidae) from a high-altitude habitat in Itatiaia National Park, Rio de Janeiro State, southeastern Brazil. Brazilian Journal of Biology 63, 129132.Google Scholar
Rocha, CFD, Cogliatti-Carvalho, L, Nunes-Freitas, AF, Rocha-Pessôa, TC, Dias, AS, Ariani, CV and Morgado, LN (2004) Conservando uma larga porção da diversidade biológica através da conservação de Bromeliaceae. Vidália 2, 5268.Google Scholar
Sousa, JGG, Brito, SV, Ávila, RW, Teles, DA, Araujo-Filho, JA, Teixeira, AAM, Anjos, LA and Almeida, WO (2014) Helmintos e pentastomídeos de dois lagartos sinantrópicos, Hemidactylus mabouia e Phyllopezus pollicaris, de uma area urbana da região Nordeste do Brasil. Brazilian Journal of Biology 74, 943948.Google Scholar
Van Sluys, M, Rocha, CFD, Bergallo, HG, Vrcibradic, D and Ribas, SC (1997) Nematode infection in three sympatric lizards in an isolated fragment of restinga habitat in southeastern Brazil. Amphibia-Reptilia 18, 442446.Google Scholar
Vrcibradic, D (2001) Ecologia de cinco espécie de Mabuya (Lacertilia, Scincidae) no Sudeste do Brasil: Padroes Reprodutivos, Termicos, Troficos e Comunidades de Nematodeos Parasitas Associados. PhD thesis, Universidade Estadual de Campinas, Campinas, SP. Available at http://www.bibliotecadigital.unicamp.br/document/?code=vtls000235504 (accessed 19 May 2017).Google Scholar
Vrcibradic, D, Cunha-Barros, M, Vicente, JJ, Galdino, CAB, Hatano, FH, Van Sluys, M and Rocha, CFD (2000) Nematode infection patterns in four sympatric lizards from a restinga habitat (Jurubatiba) in Rio de Janeiro, Southeastern Brazil. Amphibia-Reptilia 21, 307316.Google Scholar
Vrcibradic, D, Rocha, CFD, Bursey, CR and Vicente, JJ (2002a) Helminth infecting Mabuya agilis (Lacertilia: Scincidae) in a ‘restinga’ habitat (Grumari) of Rio de Janeiro, Brazil. Amphibia-Reptilia 23, 109114.Google Scholar
Vrcibradic, D, Rocha, CFD, Bursey, CR and Vicente, JJ (2002b) Helminth communities of two sympatric skinks (Mabuya agilis and Mabuya macrohyncha) from two ‘restinga’ habitats in southeastern Brazil. Journal of Helminthology 76, 335361.Google Scholar
Vrcibradic, D, Rocha, CFD and Teixeira, RL (2002c) Geographic distribution Cnemidophorus nativo. Herpetological Review 33, 223.Google Scholar
Vrcibradic, D, Vicente, JJ and Bursey, CR (2007) Helminths infecting the lizard Enyalius bilineatus (Iguanidae: Leiosaurinae) from an Atlantic Rainforest area in Espírito Santo state, southeastern Brazil. Amphibia–Reptilia 28, 166169.Google Scholar
Zar, JH (1999) Biostatistical analysis. 4th edn. 663 pp. Rio de Janeiro, Prentice Hall do Brasil Press.Google Scholar