PARASITE FAUNA OF TAMBAQUI REARED IN NET-CAGES AT TWO STOCKING DENSITIES

Authors

  • Raimundo Rosemiro de Jesus BAIA Embrapa Amapá
  • Gracienhe Gomes Santos Embrapa Amapá
  • Alasson da Silva e SILVA Embrapa Amapá
  • Briani Oliveira SOUSA Embrapa Amapá
  • Marcos Tavares-DIAS Embrapa Amapá

DOI:

https://doi.org/10.20950/1678-2305.2019.45.3.492

Keywords:

aggregation, Amazon, fish farming, parasites

Abstract

This study investigated the parasite fauna in Colossoma macropomum reared at two stocking densities in net-cages of a fish farm in the Matapi River, State of Amapá. Before stocking fish in the net-cages for fattening, fish were examined for parasites and also at the end of 90 and 180 days at densities of 50 and 100 fish m-3, respectively. All fish were parasitized by one or more species such as Ichthyophthirius multifiliis, Piscinoodinium pillulare, Anacanthorus spathulatus, Mymarothecium boegeri, Notozothecium janauachensis, Procamallanus (Spirocamallanus) inopinatus and Acarina gen. sp., but the dominance was of I. multifiliis. Parasites presented aggregated dispersion pattern, and there were no differences in the fish relative condition factor between the densities used. There was positive correlation of I. multifiliis abundance and monogenean abundance with length and weight of the hosts. Before fish stocking, the mean intensity and mean abundance of I. multifiliis, A. spathulatus and M. boegeri were lowest when comparing fish at densities of 50 and 100 fish m-3, which were similar to each other. The mean intensity and mean abundance of N. janauachensis was highest in the density of 50 fish m-3 when comparing the fish before stocking and at a density of 100 fish m-³. The mean abundance of P. (S.) inopinatus was highest in fish kept at 100 fish m-3 when compared to fish before stocking and 50 fish m-3. However, P. pillulare and mites occurred only in density of 50 fish m-3. There was a predominance of ectoparasites and few endoparasites, as expected. Therefore, it is necessary the constant monitoring of the parasites, to better implement control strategies aiming to avoid the occurrence of diseases.

References

Ayroza, D.M.M.R.; Furlaneto, F.P.B.; Ayroza, L.M.S. 2006. Procedimentos para regularização de projetos de cultivo de peixes em tanques-rede no Estado de São Paulo. Pesquisa & Tecnologia, Apta Regional, 3:1í 9.

Baia, R.R.J; Florentino, A.C.; Silva, L.M.A.; Tavares-Dias, M. 2018. Patterns of the parasite communities in a fish assemblage of a river in the Brazilian Amazon region. Acta Parasitologica, 63(2):304í 316.
https://doi.org/10.1515/ap-2018-0035

Beveridge, M.C.M. 1996. Cage aquaculture. Oxford: Fishing News Books. 346p.

Brandão, F.R.; Gomes, L.C.; Chagas, E.C.; Araújo, L.R. 2004. Densidade de estocagem de juvenis de tambaqui durante a recria em tanquesrede. Pesquisa Agropecuária Brasileira, 39(4): 357-362. http://dx.doi.
org/10.1590/S0100-204X2004000400009.

Bush, A.O.; Lafferty, K.D.; Lotz, J.M.; Shostak, W. 1997. Parasitology meets ecology on its own terms: Margolis et al. revisited. The Journal of Parasitology, 83: 575-583.

Chagas, E.C.; Lourenço, J.N.P.; Gomes, L.C.; Val, A. L. 2003. Desempenho e estado de saúde de tambaquis cultivados em tanques-rede sob diferentes densidades de estocagem. In: Urbinati, E.C.; Cyrino, J.E.P. (eds). XII Simpósio Brasileiro de Aquicultura. Jaboticabal, SP: Aquabio. p. 83í 93.

Chagas, E.C., Gomes, L.C.; Martins Júnior, H.; Roubach, R. 2007. Produtividade de tambaqui criado em tanque-rede com diferentes taxas de alimentação. Ciência Rural, 37(4): 1109í 1115. http://dx.doi.org/10.1590/S0103-84782007000400031.

Costa, O.T.F.; Dias, L.C.; Malmann, C.S.Y.; Ferreira, C.A.L.; Carmo, I.C.; Wischneski, A.G.; Souza, R.L.; Cavaiero, B.A.S.; Lameiras, J.L.V.; Santos, M.C. 2019.The effects of stocking density on the hematology, plasma protein profileand immunoglobulin production of juvenile tambaqui (Colossoma macropomum) farmed in Brazil. Aquaculture, 499: 260í 268. https://doi.org/10.1016/j.aquaculture.2018.09.040

Eiras, J.C.; Takemoto, R.M.; Pavanelli, G.C. 2006. Métodos de estudo e técnicas laboratoriais em parasitologia de peixes. 2a ed. Maringá: Eduem. 199p.

FAO í  Food and Agriculture Organization of the United Nations. 2018. The State of World Fisheries and Aquaculture: meeting the sustainable development goals. Rome:FAO. 210p.

Fernandez-Jover, D.; Faliex, E.; Sanchez-Jerez, P.; Sasal, P.; Bayle-Sempere, J.T. 2010. Coastal fish farming does not affect the total parasite communities of wild fish in SW Mediterranean. Aquaculture, 300:10í 16. https://doi.org/10.1016/j.aquaculture.2009.12.006

Gomes, L.C.; Chagas, E.C.; Martins-Junior, H.; Roubach, R.; Ono, E.A.; Lourenço, J.N.P. 2006. Cage culture of tambaqui (Colossoma macropomum) in a central Amazon floodplain lake. Aquaculture, 253:374í 384. https://doi.org/10.1016/j.aquaculture.2005.08.020

Gomes, L.C.; Simões, L.N.; Araújo-Lima, C. A. R. M. 2010. Tambaqui (Colossoma macropomum). In: Baldisseroto, B.; Gomes, L.C. Espécies nativas para piscicultura no Brasil. 2a ed. Editora UFSM, Santa Maria. p. 175-204.

IBGE - Instituto Brasileiro de Geografia e Estatí­­stica. Pesquisa da pecuária Municipal. GEPEC/COAGRO, Rio de Janeiro, 2018.

Le Cren, E.D. 1951. The length-weight relationship and seasonal cycle in gonad weight and condition in the perch (Perca fluviatilis). Journal of Animal Ecology, 20: 201-219. https://doi.org/10.2307/1540

Ludwig, J.; Reynolds, J.F. 1988. Statistical ecology: a primer on methods and computing. New York: Wiley-Interscience. 337p.

Merella, P.; Cherchi, S.; Garippa, G.; Fioravanti, M.L.; Gustinelli, A.; Salti, F. 2009. Outbreak of Sciaenacotyle panceri (Monogenea) on cagereared meagre Argyrosomus regius (Osteichthyes) from the western Mediterranean Sea. Diseases of Aquatic Organisms, 86: 169í 173. https://doi.org/10.3354/dao02115.

Mladineo, I. 2006. Parasites of Adriatic cage reared fish. Acta Adriatica, 47(1): 23-28.

Morales-Serna, F.N.; Chapa-López, M.; Martí­­nez-Brown, J.M.; IbarraCastro, L.; Medina-Guerrero, R.M.; Fajer-Ávila, E. J. 2018. Efficacy of praziquantel and a combination anthelmintic (Adecto®) in bath treatments against Tagia ecuadori and Neobenedenia melleni (Monogenea), parasites of bullseye puffer fish. Aquaculture, 492: 361-368. https://doi.org/10.1016/j.aquaculture.2018.04.043

Nowak, B.F. 2007. Parasitic diseases in marine cage culture: an example of experimental evolution of parasites? International Journal for Parasitology, 37: 581-588. https://doi.org/10.1016/j.ijpara.2007.01.003

Poulin, R.; Leung, TLF. 2011. Body size, trophic level, and the use of fish as transmission routes by parasites. Oecologia, 166: 731-738. https://doi.org/10.1007/s00442-011-1906-3.

Ritter, F., A. Pandolfo, L. J. G. Barcellos, V. R.S.; Ritter, L. M.; Pandolfo, L. D.; Tagliari; N. Barbacovi, E. 2014. Utilização do método monte Carlo para avaliação econômica de policultivos de jundiás, carpas e tilápias-do-nilo como uma alternativa de modelo de cultivo de peixes para pequenas propriedades. Produção Online, 14: 1292-1315.

Roubach, R.; Correia, E.S.; Zaiden, S.; Martino, R.C.; Cavalli, R.O. 2003. Aquaculture in Brazil. World Aquaculture, 34(1): 28-34: 70-71.

Rózsa, L.; Reiczigel, J.; Majoros, G. 2000. Quantifying parasites in samples of hosts. The Journal of Parasitology, 86: 228-232. https://doi.org/10.1645/0022-3395(2000)086[0228:QPISOH]2.0.CO;2

Santos, E. F.; Tavares-Dias, M.; Pinheiro, D.A.; Neves, L.R.; Marinho, RG.B., Dias, M.K.R. 2013. Fauna parasitária de tambaqui Colossoma macropomum (Characidae) cultivado em tanque-rede no estado do Amapá, Amazônia oriental. Acta Amazonica, 43: 107í 114. http://dx.doi.org/10.1590/S0044-59672013000100013

Silva, C.A.; Fujimoto, R.Y. 2015. Crescimento de tambaqui em resposta a densidade de estocagem em tanques-rede. Acta Amazonica, 45(3):323-332. http://dx.doi.org/ 10.1590/1809-4392201402205

Tavares-Dias, M.; Martins, M.L. 2017. An overall estimation of losses caused by diseases in the Brazilian fish farms. Journal of Parasitic Diseases, 41: 913-918. https://doi.org/10.1007/s12639-017-0938-y

Varella, M.B.A., Peiro, S.N.; Malta, J.C.O. 2003. Monitoramento da parasitofauna de Colossoma macropomum (Cuvier, 1818) (Osteichthyes: Characidae) cultivado em tanques rede em um lago de várzea na Amazônia. In: Urbinati, E.C.; Cyrino, J.E.P. Aquabio. XII Simpósio Brasileiro de Aquicultura, 2: 95í 105.

Wang, Q.; Yu,Y.; Zhang, X.; Xu, Z. 2019. Immune responses of fish to Ichthyophthirius multifiliis (Ich): a model for understanding immunity against protozoan parasites. Developmental and Comparative Immunology, 93: 93í 102. https://doi.org/10.1016/ j.dci.2019.01.002

Wei, J.Z; Li, H.; Yu, H. 2013. Ichthyophthiriasis: emphases on the epizootiology. Letters in Applied Microbiology, 57: 91-101. https://doi.org/10.1111/lam.12079

Zar, J. H. 2010. Biostatistical analysis. Prentice-Hall, New Jersey. 944p

Published

2019-09-03

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