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Reinclusion of Ciona intestinalis (Ascidiacea: Cionidae) in Brazil—a methodological view

Published online by Cambridge University Press:  26 May 2009

Flávia de Oliveira Marins
Affiliation:
Universidade do Estado do Rio de Janeiro, Departamento de Ciências (State University of Rio de Janeiro, Department of Sciences). Rua Francisco Portela, 1470–Patronato, São Gonçalo, RJ, Brazil. 24435-005
Camila da Silva Oliveira
Affiliation:
Universidade do Estado do Rio de Janeiro, Departamento de Ciências (State University of Rio de Janeiro, Department of Sciences). Rua Francisco Portela, 1470–Patronato, São Gonçalo, RJ, Brazil. 24435-005
Nathalia Maria Vieira Maciel
Affiliation:
Universidade do Estado do Rio de Janeiro, Departamento de Ciências (State University of Rio de Janeiro, Department of Sciences). Rua Francisco Portela, 1470–Patronato, São Gonçalo, RJ, Brazil. 24435-005
Luís Felipe Skinner*
Affiliation:
Universidade do Estado do Rio de Janeiro, Departamento de Ciências (State University of Rio de Janeiro, Department of Sciences). Rua Francisco Portela, 1470–Patronato, São Gonçalo, RJ, Brazil. 24435-005
*
Correspondence should be addressed to: L.F. Skinner, Universidade do Estado do Rio de Janeiro, Departamento de Ciências (State University of Rio de Janeiro, Department of Sciences), Rua Francisco Portela, 1470–Patronato, São Gonçalo, RJ, Brazil. 24435-005 email: [email protected]
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Abstract

The invasive ascidian Ciona intestinalis is irregularly and narrowly distributed in a few areas on the Brazilian coast. It was recorded in the States of Paraná, São Paulo, and Rio de Janeiro. In the State of Rio de Janeiro, all records refer to the Guanabara Bay, a polluted environment that probably hosts other introduced species. Ciona intestinalis was last recorded in this bay in 1991. Given the absence of records since then, researchers concluded that it had been extinct there, and even from the Brazilian coast. During our experiment, conducted with predator exclusion and light attenuation, we collected some samples of C. intestinalis, which suggests that it has either been reintroduced in the Guanabara Bay or that its presence there is a consequence of predator exclusion. Ciona intestinalis was found inside boxes with low luminosity, whose openings were turned to the bottom and protected with a net for predator exclusion. This method was successfully used 17 years ago, when numerous species samples were detected. Our conclusion is that the irregular recording of C. intestinalis on the Brazilian coast, in both time and space, probably derives from inappropriate techniques and methods to sample or observe it on natural substrate. Replicating this methodology in other regions of Brazil and in other South American countries, especially in port areas, would show that the distribution of C. intestinalis is possibly broader than previously reported.

Type
Research Article
Copyright
Copyright © Marine Biological Association of the United Kingdom 2009

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References

REFERENCES

Blum, J.C., Chang, AL., Liljesthröm, M., Schenk, M.E., Steinberg, M.K. and Ruiz, G.M. (2007) The non-native solitary ascidian Ciona intestinalis (L.) depresses species richness. Journal of Experimental Marine Biology and Ecology 342, 514.CrossRefGoogle Scholar
Clancey, L. and Hinton, R. (2003) Distribution of the tunicate, Ciona intestinalis, in Nova Scotia. Nova Scotia Agriculture and Fisheries report, Nova Scotia Department of Fisheries and Agriculture.Google Scholar
Costa, H.R. (1969) Notas sobre os Ascidiacea brasileiros. IV. Ordem Phlebobranchia (Lahille, 1887), 12. Atlas da Sociedade de Biologia do Rio de Janeiro, pp. 289292.Google Scholar
Daley, B.A. and Scavia, D. (2008) An integrated assessment of the continued spread and potential impacts of the colonial ascidian, Didemnum sp. A, in U.S. waters. OAA Technical Memorandum OS CCOS 78, 61 pp.Google Scholar
Gulliksen, B. and Skjaeveland, S.H. (1973) The sea-star. Asterias rubens L., as predator on the ascidian, Ciona intestinalis (L.), in Borgenfjorden, North Triindelag, Norway. Sarsia 52, 1520.CrossRefGoogle Scholar
Hewitt, C.L., Martin, R.B., Sliwa, C., McEnnulty, F.R., Murphy, N.E., Jones, T. and Cooper, S. (eds) (2002) National Introduced Marine Pest Information System. www.sciencedirect.com/science (accessed 27 May 2004).Google Scholar
Hoffmeyer, M.S. (2004) Decadal change in zooplankton seasonal succession in the Bahía Blanca estuary, Argentina following introduction of two zooplankton species. Journal of Plankton Research 26, 181189.CrossRefGoogle Scholar
Hoshino, Z. and Nishikawa, T. (1985) Taxonomic studies of Ciona intestinalis (L.) and its allies. Publications of the Seto Marine Biological Laboratory 30, 6179.CrossRefGoogle Scholar
Howes, S., Herbinger, C.M., Darnell, P. and Vercaemer, B. (2007) Spatial and temporal patterns of recruitment of the tunicate Ciona intestinalis on a mussel farm in Nova Scotia, Canada. Journal of Experimental Marine Biology and Ecology 342, 8592.CrossRefGoogle Scholar
Instituto Hórus de Desenvolvimento e Conservação Ambiental/The Nature Conservance (2007) Ciona intestinalis: Taxonomia/Características gerais/Características da invasão/Informação de manejo/Localidades de Ocorrência/Projetos Associados/Bibliografia. http://i3n.institutohorus.org.br/ver_especie_sistematica.asp?id_especie=256 (accessed 28 August 2008).Google Scholar
Jackson, A. (2008) Ciona intestinalis. A sea squirt. Marine Life Information Network: Biology and Sensitivity Key Information Sub-programme [on-line]. Plymouth: Marine Biological Association of the United Kingdom (accessed 14 July 2008). Available from: <http://www.marlin.ac.uk/species/Cionaintestinalis.htm>>Google Scholar
Jara, V.C., Miyamoto, J.H.S., Da Gama, B.A.P., Molis, M., Wahl, M. and Pereira, R.C. (2006) Limited evidence of interactive disturbance and nutrient effects on the diversity of macrobenthic assemblages. Marine Ecology Progress Series 308, 3748.CrossRefGoogle Scholar
Kott, P. (1997) The tunicates. In Shepherd, S.A. and Thomas, I.M. (eds) Marine invertebrates of Southern Australia, Part I. Adelaide, South Australia: Government Printer, pp. 10921255.Google Scholar
Lambert, C.C. and Lambert, G. (1998) Non-indigenous ascidians in southern California harbors and marinas. Marine Biology 130, 675688.CrossRefGoogle Scholar
Lambert, G. (2005) Ecology and natural history of the protochordates. Canadian Journal of Zoology 83, 3450.CrossRefGoogle Scholar
LeGresley, M.M., Martin, J.L., McCurdy, P., Thorpe, B. and Chang, B.D. (2008) Non-indigenous tunicate species in the Bay of Fundy, eastern Canada. ICES Journal of Marine Science 65, 770774.CrossRefGoogle Scholar
Lotufo, T.M.C. (2002) Ascidiacea (Chordata: Tunicata) do litoral tropical brasileiro. PhD thesis. Universidade de São Paulo, Brazil.Google Scholar
McDonald, J. (2004) The invasive pest species Ciona intestinalis (Linnaeus, 1767) reported in a harbour in southern Western Australia. Marine Pollution Bulletin 49, 868870.CrossRefGoogle Scholar
Meliane, I. (2003) Scientists surprised by sea squirts. Global Ballast Water Management Program News 12, 10.Google Scholar
Millar, R.H. (1958) Some ascidians from Brazil. Annals and Magazine of Natural History 13, 497514.CrossRefGoogle Scholar
Millar, R.H. (1966) Ascidiaceae. Oslo: Scandinavian University Books.Google Scholar
NIMPIS (2002) Ciona intestinalis species summary. National Introduced Marine Pest Information System. Hewitt, C.L., Martin, R.B., Sliwa, C., McEnnulty, F.R., Murphy, N.E., Jones, T. and Cooper, S. (eds). Web publication. <http://crimp.marine.csiro.au/nimpis> (accessed 31 August 2008).+(accessed+31+August+2008).>Google Scholar
Omena, E.P. and Souza, M.M. (1999) Efeito da predação sobre o desenvolvimento inicial da comunidade incrustante da região da Urca, Baía de Guanabara, RJ. Oecologia Brasiliensis, Rio de Janeiro VII, 213227.CrossRefGoogle Scholar
Omena, E.P., Barreto, C., Zalmon, I. and Brasil, A.C. (1995) Número ideal de amostras para estudo da comunidade incrustante da região da Urca, Baía de Guanabara, RJ. Acta Biologica Leopoldensia 17, 3546.Google Scholar
Omena, E.P., Zalmon, I. and Barreto, C. (1993) Fouling community of Urca Beach, Guanabara Bay (RJ). Acta Biologica Leopoldensia 15, 3750.Google Scholar
Orensanz, J.M., Schwindt, E., Pastorino, G., Bortolus, A., Casas, G., Darrigran, G., Elías, R., López Gappa, J.J., Obenat, S., Pascual, M., Penchaszadeh, P., Piriz, M.L., Scarabino, F., Spivak, E.D. and Vallarino, E.A. (2002) No longer the pristine confines of the world ocean: a survey of exotic marine species in the southwestern Atlantic. Biological Invasions 4, 115143.CrossRefGoogle Scholar
Petersen, J.K. and Svane, I. (1995) Larval dispersal in the ascidian Ciona intestinalis (L.). Evidence for a closed population. Journal of Experimental Marine Biology and Ecology 186, 89102.CrossRefGoogle Scholar
Pisanó, A., Rengel, D. and Bustuoabad, O. (1971) Finding of Ciona robusta in Argentine seas. Annuario dell'Istituto e Museo di Zoologia dell'Universitá di Napoli 19, 110.Google Scholar
Ramsay, A., Davidson, J., Landry, T. and Stryhn, H. (2008) The effect of mussel seed density on tunicate settlement and growth for the cultured mussel, Mytilus edulis. Aquaculture 275, 194200.CrossRefGoogle Scholar
Rocha, R.M. and Kremer, L.P. (2005) Introduced Ascidians in the Bay of Paranaguá, Paraná, in southern Brazil. Revista Brasileira de Zoologia 22, 11701184.CrossRefGoogle Scholar
Silva, S.H.G., Brasil, A.C.S., Skinner, L.F. and Zalmon, I.R. (1991a) Fatores que influenciam na colonização de organismos incrustantes na Baía de Guanabara, RJ—Estudo preliminar. Congresso Brasileiro de Zoologia, pp. 514–514.Google Scholar
Silva, S.H.G., Brasil, A.C.S., Zalmon, I.R. and Silva, O.M.P. (1991b) Influência da predação na evolução de populações incrustantes na Baía de Guanabara, RJ. XVIII Congresso Brasileiro de Zoologia, pp. 517–517.Google Scholar
Therriault, T.W. and Herborg, L.-M. (2008) Predicting the potential distribution of the vase tunicate Ciona intestinalis in Canadian waters: informing a risk assessment. ICES Journal of Marine Science 65, 788794.CrossRefGoogle Scholar
Xavier, E.A., Da Gama, B.A.P., Porto, T.F., Antunes, B.L. and Pereira, R.C. (2008) Effects of disturbance area on fouling communities from a tropical environment: Guanabara Bay, Rio de Janeiro, Brazil. Brazilian Journal of Oceanography 56, 7384.CrossRefGoogle Scholar
Zalmon, I.R., da Gama, B.A.P. and Leta, A. (1993) Fouling community organization at Guanabara Bay, Brazil: a directional process or a variable temporal progression? Oebalia—International Journal of Marine Biology and Oceanography 19, 217222.Google Scholar