Hostname: page-component-586b7cd67f-vdxz6 Total loading time: 0 Render date: 2024-11-29T09:47:46.340Z Has data issue: false hasContentIssue false

Pan-American marine coastal distribution of the acanthocephalan Profilicollis altmani based on morphometric and phylogenetic analyses of cystacanths from the mole crab Emerita brasiliensis

Published online by Cambridge University Press:  29 April 2016

S.M. Rodríguez*
Affiliation:
Doctorado en Biología Marina and Instituto de Ciencias Marinas y Limnológicas, Facultad de Ciencias, Universidad Austral de Chile, campus Isla Teja s/n, Valdivia, Chile
G. D'Elía
Affiliation:
Instituto de Ciencias Ambientales y Evolutivas, Facultad de Ciencias, Universidad Austral de Chile, campus Isla Teja s/n, Valdivia, Chile
*

Abstract

Thorny-headed acanthocephalan worms of the genus Profilicollis are widely distributed in the oceans of the world and present complex life cycles with intermediate and definitive hosts. The genus is still poorly known, with an unstable taxonomy and, for most species, incompletely characterized geographical distributions. In this study, based on molecular and morphological evidence, we report that the species Profilicollis altmani is also distributed along the South American Atlantic coast, using the mole crab Emerita brasiliensis as an intermediate host. As such, our record shows that P. altmani has a Pan-American distribution where five species of Emerita are utilized as intermediate hosts.

Type
Short Communication
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.)

References

Alda, P., La Sala, L., Marcotegui, P. & Martorelli, S.R. (2011) Parasites and epibionts of grapsid crabs in Bahía Blanca estuary, Argentina. Crustaceana 84, 559571.Google Scholar
Amin, O.M. (2013) Classification of the Acanthocephala. Folia Parasitologica 60, 273305.Google Scholar
Balboa, L., Hinojosa, A., Riquelme, C., Rodríguez, S., Bustos, J. & George-Nascimento, M. (2009) Alloxenic distribution of Cystacanths of two Profilicollis species in sympatric crustacean hosts in Chile. Journal of Parasitology 95, 12051208.Google Scholar
Brockerhoff, A. & Smales, L. (2002) Profilicollis novaezelandensis n. sp. (Polymorphidae) and two acanthocephalan parasites from shore birds (Haematopodidae and Scolopacidae) in New Zealand, with records of two species in intertidal crabs (Decapoda: Grapsidae and Ocypodidae). Systematic Parasitology 52, 5565.Google Scholar
Buehler, D.M., Bugoni, L., Dorrestein, G.M., González, P.M., Pereira, J. Jr, Proença, L., De Lima Serrano, I., Baker, A.J. & Piersma, T. (2010) Local mortality events in migrating sandpipers (Calidris) at a stopover site in southern Brazil. Wader Study Group Bulletin 117, 150156.Google Scholar
Darriba, D., Taboada, G.L., Doallo, R. & Posada, D. (2012) jModelTest 2: more models, new heuristics and parallel computing. Nature Methods 9, 772.CrossRefGoogle ScholarPubMed
Diaz, J.I., Cremonte, F. & Navone, G.T. (2011) Helminths of the kel gull, Larus dominicanus, from the northern Patagonian coast. Parasitology Research 109, 15551562.Google Scholar
Folmer, O., Black, M., Hoeh, W., Lutz, R. & Vrijenhoek, R. (1994) DNA primers for amplification of mitochondrial cytochrome c oxidase subunit I from diverse metazoan invertebrates. Molecular Marine Biology and Biotechnology 3, 294299.Google Scholar
García-Varela, M. & Nadler, S.A. (2006) Phylogenetic relationships among Syndermata inferred from nuclear and mitochondrial gene sequences. Molecular Phylogenetics and Evolution 40, 6172.Google Scholar
García-Varela, M., Pérez-Ponce de León, G., Aznar, F.J. & Nadler, S.A. (2013) Phylogenetic relationship among genera of Polymorphidae (Acanthocephala), inferred from nuclear and mitochondrial gene sequences. Molecular Phylogenetics and Evolution 68, 176184.CrossRefGoogle ScholarPubMed
Goulding, T.C. & Cohen, C.S. (2014) Phylogeography of a marine acanthocephalan: lack of cryptic diversity in a cosmopolitan parasite of mole crabs. Journal of Biogeography 41, 965976.Google Scholar
Holcman-Spector, B., Mane-Garzon, F. & Dei-Cas, E. (1977) Una larva cystacantha (Acanthocephala) de la cavidad general de Chasmagnathus granulata Dana, 1851. Ciclo evolutivo y descripción de Falsificollis chasmagnathi n. sp. (Acanthocephala). Revista de Biología del Uruguay 5, 6776.Google Scholar
Kreuder, C., Miller, M.A., Jessup, D.A., Lowenstine, L.J., Harris, M.D., Ames, J.A., Carpenter, T.E., Conrad, P.A. & Mazet, J.A.K. (2003) Patterns of mortality of southern sea otters (Enydra lutris nereis) from 1998 to 2001. Journal of Wildlife Diseases 39, 495509.Google Scholar
La Sala, L.F., Perez, A.M. & Martorelli, S.R. (2012) Epidemiology of acanthocephalan infections in crabs from the Bahía Blanca Estuary, Argentina. Journal of Helminthology 86, 446452.Google Scholar
La Sala, L.F., Perez, A.M., Smits, J.E. & Martorelli, S.R. (2013) Pathology of enteric infections induced by the acanthocephalan Profilicollis chasmagnathi in Olrog's gull, Larus atlanticus, from Argentina. Journal of Helminthology 87, 1723.Google Scholar
Martorelli, S.R. (1989) El rol de Cyrtograpsus angulatus (Crustacea; Brachyura) en los ciclos de vida de Microphallus szidati (Digenea; Microphallidae) y Falsificollis chasmagnathi (Acanthocephala; Filicollidae). Algunos aspectos de su ecología parasitaria. Memórias do Instituto Oswaldo Cruz 84, 567574.Google Scholar
Mayer, K.A., Murray, D.D. & Miller, M.A. (2003) Helminth parasites of the southern sea otter Enhydra lutris nereis in central California: abundance, distribution and pathology. Diseases of Aquatic Organisms 53, 7788.Google Scholar
Nickol, B.B., Crompton, D. & Searle, D. (1999) Reintroduction of Profilicollis Meyer, 1931, as a genus in Acanthocephala: significance of the intermediate host. Journal of Parasitology 85, 716718.Google Scholar
Nickol, B.B., Heard, R.W. & Smith, N.F. (2002) Acanthocephalans from crabs in the southeastern US, with the first intermediate hosts known for Arhythmorhynchus frassoni and Hexaglandula corynosoma . Journal of Parasitology 88, 7983.Google Scholar
Riquelme, C., George-Nascimento, M. & Balboa, L. (2006) Morfometria y fecundidad de Profilicollis bullock Mateo, Córdova & Guzmán 1982 (Acanthocephala: Polymorphidae) en especies simpátricas de aves costeras de Chile. Revista Chilena de Historia Natural 79, 465474.Google Scholar
Rojas, V.J. & Sebastián, Y.M. (2011) Consumo de Emerita analoga ‘muy muy’ y su infección por larvas Profilicollis altmani en las playas del sur de Lima – 2010. Encuentro Científico Internacional Revista ECIPERU. Available at http://www.guzlop-editoras.com/web_des/bio01/biomedicina/pld0379.pdf (accessed 31 January 2016).Google Scholar
Ronquist, F. & Huelsenbeck, J.P. (2003) MrBayes 3: Bayesian phylogenetic inference under mixed models. Bioinformatics 19, 15721574.Google Scholar
Tamura, K., Stecher, G., Peterson, D., Filipski, A. & Kumar, S. (2013) MEGA6: Molecular Evolutionary Genetics Analysis version 6.0. Molecular Biology and Evolution 30, 27252729.Google Scholar
Tantaleán, M. & Cárdenas, J. (2004) Consideraciones sobre Profilicollis altmani (Perry, 1942) Van Cleave, 1947 en el Perú. Revista Peruana de Biología 11, 109111.CrossRefGoogle Scholar
Tantaleán, M., Cárdenas, J. & Güere, R. (2002) Profilicollis altmani (Perry, 1942) Van Cleave, 1947 (Acanthocephala) en el Perú. Con notas sobre la infección experimental de mamíferos terrestres. Revista Peruana de Biología 9, 4951.Google Scholar
Torres, P., Schlatter, R., Montefusco, A., Gesche, W., Ruiz, E. & Contreras, A. (1993) Helminth parasites of piscivorous birds from lakes in the south of Chile. Memórias do Instituto Oswaldo Cruz 88, 341343.CrossRefGoogle ScholarPubMed