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Population biology of Callinectes danae and Callinectes sapidus (Crustacea: Brachyura: Portunidae) in the south-western Atlantic

Published online by Cambridge University Press:  02 June 2009

Mário José Pereira
Affiliation:
Centro de Ciências Tecnológicas da Terra e do Mar (CTTMar), Universidade Vale do Itajaí (UNIVALI), CP 360, CEP 88302-202, Itajaí, Santa Catarina, Brazil
Joaquim Olinto Branco
Affiliation:
Centro de Ciências Tecnológicas da Terra e do Mar (CTTMar), Universidade Vale do Itajaí (UNIVALI), CP 360, CEP 88302-202, Itajaí, Santa Catarina, Brazil
Martin Lindsey Christoffersen*
Affiliation:
Departamento de Sistemática e Ecologia, Universidade Federal da Paraíba (UFPB), CEP 58059-900, João Pessoa, Paraíba, Brazil
Felipe Freitas Junior
Affiliation:
Centro de Ciências Tecnológicas da Terra e do Mar (CTTMar), Universidade Vale do Itajaí (UNIVALI), CP 360, CEP 88302-202, Itajaí, Santa Catarina, Brazil
Hélio Augusto Alves Fracasso
Affiliation:
Departamento de Hidrobiologia, Universidade Federal de São Carlos (UFSCar), CEP 13565-905, São Carlos, São Paulo, Brazil
Tuane Cristine Pinheiro
Affiliation:
Centro de Ciências Tecnológicas da Terra e do Mar (CTTMar), Universidade Vale do Itajaí (UNIVALI), CP 360, CEP 88302-202, Itajaí, Santa Catarina, Brazil
*
Correspondence should be addressed to: M.L. Christoffersen, Departamento de Sistemática e Ecologia, Universidade Federal da Paraíba (UFPB), 58059-900 João Pessoa, Paraíba, Brazil email: [email protected]; [email protected]; [email protected]

Abstract

The capture of crabs of the genus Callinectes is one of the oldest extractive activities practised by waterside communities, due to the abundance of brachyurans along the Brazilian coast. The present paper aimed to provide basic information on the population biology of C. sapidus and C. danae during the period of December 2003 to November 2004, in Babitonga Bay, Joinville, Santa Catarina. The size of the first maturation of C. danae was estimated as 7.1 cm in total carapace width for females, and as 8.6 cm for males. Fecundity of the 20 females of C. danae with carapace width from 7.0 to 11.0 cm varied from 618,667 to 811,267 eggs. Fecundity of C. sapidus was higher, with a median of 978,000 eggs per female, but carapace widths in this species were also larger, with the highest frequency of females attaining 19.01 cm on average. In both species, a tendency was observed for the egg mass to increase with size of females. The capture per unit of effort presented the lowest values in summer, while the largest values occurred from March, August and November. A total of 80 males and 117 females of C. sapidus were captured in the four collecting areas, with the largest abundances in Area III (45.18%), followed by Areas II, IV and I. The size of the first maturation of C. sapidus was estimated as 10.2 cm for females and as 9.0 cm for males. Fishing effort was in relative equilibrium for adult stock (males = 58.75% and females = 52.99%) and juveniles (males = 41.25% and females = 47.01%). The largest monthly rates of biomass of C. sapidus occurred from April to November, with a peak of capture in August, without significant differences in the participation of males and females.

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

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References

REFERENCES

Baptista-Metri, C., Pinheiro, M.A.A., Blankensteyn, A. and Borzone, C.A. (2005) Biologia populacional de Callinectes danae Smith (Crustacea, Portunidae) no balneário Shangri-Lá, Pontal do Paraná, Paraná, Brasil. Revista Brasileira de Zoologia 22, 446453.CrossRefGoogle Scholar
Barreto, A.V., Leite, L.M.A.B. and Aguiar, M.C.A. (2006) Maturidade sexual das fêmeas de Callinectes danae (Crustacea, Decapoda, Portunidae) nos estuários dos rios Botafogo e Carrapicho, Itamaracá-PE Brasil. Iheringia Série Zoologia 96, 141146.CrossRefGoogle Scholar
Branco, J.O. (1996) O ciclo e ritmo alimentar de Callinectes danae Smith, 1869 (Decapoda, Portunidae) na Lagoa da Conceição, Florianópolis, SC. Arquivos de Biologia e Tecnologia 39, 987998.Google Scholar
Branco, J.O. and Avila, M.G. (1992) Fecundidade em Callinectes danae Smith, 1869 (Decapoda, Portunidae) da Lagoa da Conceição, SC. Revista Brasileira de Zoologia 9, 167173.CrossRefGoogle Scholar
Branco, J.O. and Lunardon-Branco, M.J. (1993) Aspectos da biologia de Callinectes ornatus Ordway, 1863 (Decapoda: Portunidae) da região de Matinhos, Paraná, Brasil. Arquivos de Biologia e Tecnologia 36, 489496.Google Scholar
Branco, J.O. and Masunari, S. (2000) Reproductive ecology of the blue crab, Callinectes danae Smith, 1869 in the Conceição lagoon system, Santa Catarina isle, Brazil. Revista Brasileira de Biologia 60, 1727.CrossRefGoogle Scholar
Branco, J.O. and Thives, A. (1991) Relação peso/largura, fator de condição e tamanho de primeira maturação de Callinectes danae Smith 1869 (Crustacea, Portunidae) no manguezal do Itacorubi, SC, Brasil. Arquivos de Biologia e Tecnologia 34, 415424.Google Scholar
Branco, J.O. and Verani, J.R. (1997) Dinâmica da alimentação natural de Callinectes danae Smith (Decapoda, Portunidae) na Lagoa da Conceição, Florianópolis, SC, Brasil. Revista Brasileira de Zoologia 14, 10031018.CrossRefGoogle Scholar
Campbell, G.R. and Fielder, D.R. (1986) Size at sexual maturity and occurrence of ovigerous females in three species of commercially exploited portunid crabs in SE Queensland. Proceedings of the Royal Society of Queensland 97, 7987.Google Scholar
Churchill, E.P. Jr. (1919) Life history of the blue crab. Bulletin of the United States Bureau of Fisheries 36, 91128.Google Scholar
Costa, T.M. and Negreiros-Fransozo, M.L. (1996) Fecundity of Callinectes danae Smith, 1869 (Crustacea, Decapoda, Portunidae) in Ubatuba region (SP), Brazil. Arquivos de Biologia e Tecnologia 39, 393400.Google Scholar
Costa, T.M. and Negreiros-Fransozo, M.L. (1998) The reproductive cycle of Callinectes danae Smith, 1869 (Decapoda, Portunidae) in the Ubatuba region, Brazil. Crustaceana 71, 615627.CrossRefGoogle Scholar
Gamba, M.R. (1994) Guia prático de tecnologia de pesca. Ministério do Meio Ambiente e da Amazônia Legal, Instituto do Meio Ambiente e dos Recursos Naturais Renováveis (IBAMA). Itajaí: Centro de Pesquisa e Extensão Pesqueira das Regiões Sudeste e Sul, 28 pp.Google Scholar
Hartnoll, R.G. (1982) Growth. In Bliss, D.E. (ed.) The biology of Crustacea, Volume 2: embryology, morphology and genetics. New York: Academic Press, pp. 111196.Google Scholar
IBAMA (1998) Proteção e controle de ecossistemas costeiros: Manguezal da Baía da Babitonga. Coleção Meio Ambiente IBAMA Série Estudos de Pesca 25, 4958.Google Scholar
Kennedy, V.S. and Cronin, L.E. (eds) (2007) The blue crab Callinectes sapidus. Maryland: College Park. Maryland Sea Grant Book, 774 pp.Google Scholar
Mantelatto, F.L.M. and Fransozo, A. (1999) Reproductive biology and moulting cicle of the crab Callinectes ornatus (Decapoda, Portunidae) from the Ubatuba region, São Paulo, Brazil. Crustaceana 72, 6376.CrossRefGoogle Scholar
Matsuura, Y. (1986) Contribuição ao estudo da estrutura oceanográfica da região sudeste entre Cabo Frio (RJ) e Cabo de Santa Marta Grande (SC). Ciência e Cultura São Paulo 38, 14391450.Google Scholar
Medeiros, M.F.S.T. and Oshiro, L.M.Y. (1992) Aspectos reprodutivos de Callinectes danae Smith, 1869 (Crustacea, Decapoda, Portunidae), na Baía de Sepetiba, RJ. Segundo Simpósio de Ecossistemas da Costa Sul e Sudeste Brasileira: Estrutura, Função e Manejo, Águas de Lindóia. Anais ACIESP Rio de Janeiro 4, 150159.Google Scholar
Melo, G.A.S. (1996) Manual de identificação dos Brachyura (caranguejos e siris) do litoral brasileiro. São Paulo: Editora Plêiade.Google Scholar
Ogawa, E.F. and Rocha, C.A.S. (1976) Sobre a fecundidade de crustáceos decápodos marinhos do Estado do Ceará, Brasil. Arquivos de Ciências do Mar 16, 101104.Google Scholar
Pereira-Barros, J.B. (1980) Sobre o dimorfismo sexual de Callinectes danae e o polimorfismo entre fêmeas em estágios de desenvolvimento sexual diferentes. Revista Nordestina de Biologia Volume Especial 3, 7989.Google Scholar
Pita, J.B., Rodrigues, E.S., Lopes, R.G. and Coelho, J.A.P. (1985) Observações bioecológicas sobre o siri Callinectes danae Smith, 1869 (Crustacea, Portunidae), no complexo Baía-Estuário de Santos, Estado de São Paulo, Brasil. Boletim do Instituto de Pesca 12, 3543.Google Scholar
Prager, M.H., McConaugha, J.R., Jones, C.M. and Geer, P.J. (1990) Fecundity of blue crab, Callinectes sapidus, in Chesapeake Bay: biological, statistical and management considerations. Bulletin of Marine Sciences 46, 170179.Google Scholar
Robles, R., Schubart, C.D., Conde, J.E., Carmona-Suarez, C., Alvarez, F., Villalobos, J.L. and Felder, D.L. (2007) Molecular phylogeny of the American Callinectes Stimpson, 1860 (Brachyura: Portunidae), based on two partial mitochondrial genes. Marine Biology 150, 12651274.CrossRefGoogle Scholar
Santos, E.P. (1978) Dinâmica de populações aplicada à pesca e piscicultura. São Paulo: Editora da Universidade de São Paulo.Google Scholar
Santos, H.S. (1990) Relação entre a fecundidade e o tamanho do corpo do siri-tinga, Callinectes danae (Crustacea, Portunidae) da Baía de Vitória, Espírito Santo. Revista de Cultura da Universidade Federal de Vitória 43, 6773.Google Scholar
Severino-Rodrigues, E., Pita, J.B. and Graça-Lopes, R. (2001) Pesca artesanal de siris (Crustacea, Decapoda, Portunidae) na região estuarina de Santos e São Vicente (SP), Brasil. Boletim do Instituto de Pesca 27, 719.Google Scholar
Tagatz, M.E. (1965) The fishery for blue crabs in the St. Johns River, Florida, with special reference to the fluctuation in yield between 1961 and 1962. Special Scientific Report of Fisheries United States Fish and Wildlife Service 501, 111.Google Scholar
Taissoun, E.N. (1969) Las especies de cangrejos del genero “Callinectes” (Brachyura) en el Golfo de Venezuela e Lago Maracaibo. Boletín del Centro de Investigaciones Biologicas 2, 1112.Google Scholar
Taissoun, E.N. (1973) Biogeografia y ecología de los cancrejos de la familia “Portunidae” (Crustacea, Decapoda, Brachyura) en la costa Atlántica de América. Boletín del Centro de Investigaciones Biologicas 7, 723.Google Scholar
Tressler, D.K. and Lemon, J.M. (1951) Marine products of commerce. New York: Reinhold.Google Scholar
Truitt, R.V. (1939) Our water resources and their conservation. Maryland: Chesapeake Biological Laboratory of the University of Maryland.Google Scholar
Van Engel, W.A. (1958) The blue crab and its fishery in the Chesapeake Bay. Part. 1. Reproduction, early development, growth, and migration. Commission of Fisheries Reviews 20, 617.Google Scholar
Van Engel, W.A. (1987) Factors affecting the distribution and abundance of the blue crab in Chesapeake Bay. In Majumdar, S.K., Hall, L.W. Jr. and Austin, H.M. (eds) Contaminant problems and management of living Chesapeake Bay resources Volume 1. Philadelphia: The Pennsylvania Academy of Science, pp. 178209.Google Scholar
Van Engel, W.A. (1990) Development of the reproductively functional form in the male blue crab Callinectes sapidus. Bulletin of Marine Sciences 46, 1322.Google Scholar
Vazzoler, A.E.A.M. (1996) Biologia de reprodução de peixes teleósteos: teoria e prática. Maringá: Editora da Universidade Estadual de Maringá.Google Scholar
Weber, L.L., Puchnick, A., Lamego, J.P. and Levy, J.A. (2003) Genetic relationships among the most common swimming crabs of southern Brazil. Journal of Crustacean Biology 23, 201211.CrossRefGoogle Scholar
Williams, M.J. (1974) The swimming crabs of genus Callinectes (Decapoda: Portunidae). Fisheries Bulletin 72, 685789.Google Scholar
Zar, J.H. (1999) Biostatistical analysis. Fourth Edition. New Jersey: Prentice-Hall.Google Scholar