Pathogenic oomycetes in fish farming nurseries in a semi-arid region in Brazil

Authors

DOI:

https://doi.org/10.22478/ufpb.1981-1268.2021v15n2.46215

Abstract

Fish farming in Brazil recently stands out as a promising activity, but the susceptibility of cultivars to diseases caused by oomycetes has been causing losses. This study aimed to identify oomycetes in soil and water in fish farms in the semi-arid region of Brazil, highlighting species with pathogenic potential for fish. 301 occurrences of oomycetes were obtained, of which 19 taxa were identified. Of these, 18 were present in the soil samples (94.7%) and 13 species identified in the water samples, which corresponded to 68.42% of the species. No fish infected with oomycetes were found in nurseries, but the identification of these microorganisms should serve as a warning for fish farmers.

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Author Biographies

Laércio Sousa Saraiva, Universidade Federal do Piauí

Graduado em Ciências Biológicas pela Universidade Estadual do Piauí - UESPI, onde participou do grupo de pesquisas em Microbiologia - LABMICRO, desenvolvendo projetos na área de bacteriologia, micologia e microbiologia ambiental. Mestrado em Desenvolvimento e Meio Ambiente pela Universidade Federal do Piauí, onde atuou na pesquisa sobre a diversidade, ecologia e taxonomia de organismos zoospóricos, sua importância e impactos para o meio ambiente.

José de Ribamar Sousa Rocha, Universidade Federal do Piauí

Graduação em Licenciatura Plena em Ciências Habilitação em Biologia (1982), especialização em Educação (1986) pela Universidade Federal do Piauí; mestrado em Biologia de Fungos (1997) pela Universidade Federal de Pernambuco e doutorado em Ciências Biológicas (2002, Botânica/Micologia) pela Universidade de São Paulo. Professor Titular da Universidade Federal do Piauí, no Departamento de Biologia e no Mestrado em Desenvolvimento e Meio Ambiente (MDMA-PRODEMA). Atua na área de Micologia, com ênfase em taxonomia de fungos e organismos zoospóricos, nos temas: fungos zoospóricos, Oomycota,Oomicetos, Chytridiomycota, quitrídias, fitopatologia, biologia de criptógamas, coleção de cultura e preservação de fungos zoospóricos, Etnomicologia e percepção ambiental.

References

Afzali SF, Hassan MD, Sharifpour I, Afsharnasab M, Shankar S. 2015. Experimental infection of Aphanomyces invadans and susceptibility in seven species of tropical fish. Veterinary World. 8(9):1038-1044.

Alexopoulos CJ, Mims CW, Blackwell M. 1996. Introductory mycology. New York: John Willey & Sons, 865 p.

Arderon WFRS. 1748. The Substance of letter from Mr. William Arderon FRS. Philosophical Transactions. 45(487):321-323.

Beakes GW, Honda D e Thines M. 2014. Systematics of the Straminipila: Labyrinthulomycota, Hyphochytridiomycota, and Oomycota. In: Systematics and Evolution, The Mycota, VIII Part A, D. J. McLaughlin and J. W. Spatafora (Eds.). 2ed., Springer-Verlag, Berlin, Heidelberg. p.39-97.

Chauhan R. 2014. Fungal attack on Tilapia mossabicus in culture ponds, leading to mortality of fishes. International Journal of Pharma Sciences and Research. 5(7):425-428.

Chinnabut S, Roberts RJ, Willoughby LG, Pearson MD. 1995. Histopathology of snakehead, Channa striatus (Bloch) experimentally infected with the specific Aphanomyces fungus associated with Epizootic Ulcerative Syndrome (EUS) at different temperatures. Journal of Fish Diseases. 18(1):41-47.

Codevasf. Manual de criação de peixes em viveiro. Brasília, DF. Editora Anaí Nabuco/Lettera Comunicação. 2013a.

Codevasf, Manual de criação de peixes em Tanques-rede. Brasília, DF. Ed. Codevasf, 2ªed. 2013b. 68 p.

Corrêa RO, Mota DMM, Meyer G. 2010. Tipologia da Piscicultura Familiar no Nordeste Paraense. Agrotrópica. Centro de Pesquisas do Cacau, Ilhéus, Bahia, Brasil. 22(2):75-88.

Czeczuga B, Muszyńska E. 1999. Aquatic fungi growing on the eggs fishes representing 33 cyprinid taxa (Cyprinide). Acta Ichthyologica et Piscatoria, 29(2):53-72.

Czeczuga B, Godlewska A, Mazalska B, Muszyńska E. 2010. Straminipilous organisms growing on herbivorous pirapitinga (Piaractus brachypomus) and carnivorous piranha (Pygocentrus nattereri) from Poland. Brazilian Journal of Biology. 70(2):335-339.

Dykstra MJ, Noga EJ, Levine JF, Moye DW. 1986. Characterization of the Aphanomyces species involved with ulcerative mycosis in menhaden. Mycologia. 78(4):664–672.

Embrapa, pesca e aquicultura, Melhoramento de Espécies Aquícolas com foco na Resistência a Doenças. 2015.

Fao. Report of the international emergency disease investigation task force on a serious fish disease in Southern Africa. 2009.

Fao. Food outlook: Biannual report on global food markets. Rome: FAO, 2015. 8p. Disponível em http://www.fao.org/3/a-i5003e.pdf. Acessada em 04/12/2018.

Fraser GC, Millar SD, Calder LM. 1992. Aphanomyces species associated with red spot disease: An ulcerative disease of estuarine fish from eastern Australia. Journal of fish diseases. 15(2):173–181.

Hatai K. 1980. Studies on pathogenic agents of saprolegniasis in fresh water fishes. Spec. Rep. Nagasaki Pref. Inst. Fish. 8:1-95.

Hatai K. 1989. Fungal pathogens/parasites of aquatic animals. In: Austin B, Austin D. A. (eds) methods for the microbiological examination of fish and shellfish. Ellis Horwood Ltd., West Susssex. p. 240–272.

Hatai K, Hoshiai G. 1992. Saprolegniasis in cultured Coho Salmon. Fish pathology. 27(4):233-234.

Hatai K, Nakamura K, Rha SA, Yuasa K, Wada S. 1994. Aphanomyces infection in the dwarf Gourami (Colisa lalia). Fish pathology. 29(2):95-99.

Kirk PM, Cannon PF, Minter DW, Stalpers JA. 2008. Dictionary of the Fungi. 10ª ed., Wallingford, CABI Bioscience.

Kitancharoen N, Hatai K. 1996. Experimental infection of Saprolegniasis spp. In Rainbow trout eggs. Fish Pathology. 31(1):49-50.

Kiziewicz B. 2004a. Aquatic fungi and fungus-like organisms in the bathing sites of the river Supraśl in Podlasie Province of Poland. Mycologia Balcanica. (1):77–83. Disponível em: http://www.mycobalcan.com/FT_1_2_01.pdf. Acessada em 30/09/2018.

Kiziewicz B. 2004b. Aquatic fungi growing on the muscle of vendace (Coregonus albula L.), Alpine bullhead (Cottus poecilopus H.) and lake trout (Salmo trutta lacustris L.) from lake hañcza (NE Poland). Zoologica Poloniae. Torún, Poland. 49(4):85-95.

Kubitza F, Kubitza LMM. 2000. Tilápias: qualidade da água, sistemas de cultivo, planejamento da produção, manejo nutricional e alimentar e sanidade – Parte 1. Panorama da Aquicultura. 59(10):44-53.

Kubitza F. 2005. Antecipando-se às Doenças na Tilápiocultura. Panorama da Aquicultura. 89(15):15-23.

Kubitza F, Ono E. 2010. Piscicultura familiar como ferramenta para o desenvolvimento e segurança alimentar no meio rural. Panorama da Aquicultura. 20(117):14-23.

Khulbe RD, Josh C, Bisht GS. 1995. Fungal Diseases of fish in Nanak Sagar, Nainital, India. Mycopathology. 130(2):71-74.

Kumar V, Roy S, Barman D. 2015. Effect of Mikania cordata (Burm) BL Robins on nonspecific Immune response of Catla catla (Hamilton, 1822) against Aphanomyces invadans. Fishery Technology. 52(1):20-25.

Marano AV, Pires-Zottarelli CLA, Gleason FH, Neuhauser S, Steciow MM. 2011. Assemblages of zoosporic true fungi, heterotrophic straminipiles and plasmodiophorids in freshwater ecosystems. In: Browne, S.A. (Ed.) Aquatic Ecosystems Series Nova Publishers. New York, p.1–55.

Mpa, Ministério da Pesca e Aquicultura. Disponível em: http://www.mpa.gov.br/index.php/pesca.

Acessada em: 20/10/2017.

Mastan SA. 2008. Incidents of Dermatomycosis in fishes of Lapur reserviour, Bhopal, (M.P.) Journal of Herbal Medicine Toxicology. 1(2):37-40.

Mastan SA, Begun SA, Osman Ahmed MD, Shamshad S. 2015a. Mycotic infection in some economically important freshwater fishes. World Journal of Farmacy and Phamaceutical Sciencie. 11(4): 1449-1456.

Mastan SA. 2015b. Fungal infection in freshwater fishes of Andhra Pradesh, India. African Journal of Biotechnology. 14(6):530-534.

Milanez AI. Distribuição de fungos de águas continentais. In: Fidalgo O. Bononi VL (Coords.). 1989. Técnicas de coleta, preservação e herborização de material botânico. Instituto de Botânica, São Paulo. Brasil, p. 17-20.

Milanez AI, Pires-Zottarelli CLA, Gomes AL. 2007. Brazilian zoosporic fungi. São Paulo. 113 p.

Moura RT, Lopes YVA, Henry-Silva GG. 2014. Sedimentação de nutrientes e material particulado em reservatório sob influência de atividades de piscicultura no Semiárido do Rio Grande do Norte. Química nova. 37(8):1283-1288.

Nsonga A, Mfitilodze W, Samui KL, Sikawa D. 2013. Epidemiology of Epizootic Ulcerative Syndrome in the Zambezi River System. A case study for Zambia. Human & Veterinary Medicine International Journal of the Bioflux Society. 5(1):1-8.

Oie. Epizootic ulcerative syndrome. In: Manual of diagnostic tests for aquatic animals. 2015. (Chapter 2.3.2), p. 1-13.

Pantoja-Lima J, Santos SM, Oliveira AT, Araújo RL, Silva Junior JAL, Aride PHR. 2015. Pró-Rural aquicultura: relatos das principais ações de extensão tecnológica e um panorama do setor aquícola do Estado do Amazonas, Brasil. Nexus revista de extensão do Ifam. 01(1):35-45.

Plaats-Niterink AJV. 1981. Monograph of genus Pythium. Studies in Mycology.

Pickering AD, Willoughby LG. 1982. Saprolegnia infection of salmonid fish. In: 50th Annual Report, Institutes of freshwater Ecology. p. 38-48.

Pinheiro CAM, Pinheiro RS, Santos WHL, Serra IMRS, Santos DMS. 2015. Qualidade da água e incidência de fungos em peixes oriundos de pisciculturas no município de São Luís-Maranhão. Pesquisa em Foco. 20(1):53-69.

Pradhan PK, Mohan CV, Shankar KM, Mohana Kumar B. 2008. Infection experiments with Aphanomyces invadans in advanced fingerlings of four different carp species. Diseases in Asian Aquaculture VI. Fish Health Section, Asian Fisheries Society, Manila, Philippines, p. 105-114.

Rekha C, Qureshi T. Fungal infection of fishes: Parasitic fungi and its role in fish diseases. 2012. Lap. Lambert Academic Publishing, p.184.

Rocha JRS, Rodrigues EP, Viana HS, Silva HSVP, Sousa LMA, Barros BS V. 2010. Distribuição geográfica de Aphanodictyon papillatum Huneycutt ex Dick (Saprolegniales) no Brasil. Acta botânica malacitana. 35:171-176.

Roberts RJ, Wootten R, Macrae I, Millar S, Struthers W. Ulcerative disease survey, Bangladesh. Final Report to the Government of Bangladesh and the Overseas Development Administration. Institute of Aquaculture, Stirling University, Scotland. 1989. p.85.

Roberts RJ, Willoughby LG, Chinnabut S. 1993. Mycotic aspects of Epizootic Ulcerative Syndrome (EUS) of Asian fishes. Journal of Fish Diseases. 16(3):169-183.

Samui KL, Hangombe B, Choongo K, Syachaba M, Phiri H. Report on the field expedition to assess the possible causes of the general fish kill in western Province. School of Veterinary Medicine, University of Zambia, 2007. p. 29.

Sati SC, Khulbe RD. 1983. Pythium gracile, as parasite on fish gills. Indian Phytopathology. 36:587 588.

Scott WW, O'bier AH. 1962. Aquatic Fungi Associated with Diseased Fish and Fish Eggs. The Progressive Fish-Culturist. 24(1):3-15.

Shanor L, Saslow HB. 1944. Aphanomyces as a fish Parasite. Mycologia. 36(4):413-415. Disponível em: https://www.jstor.org/stable/3754756?seq=1#page_scan_tab_contents. Acessada em 30/09/2018.

Sosa ER, Landsberg JH, Stephenson CM, Forstchen AB, Vandersea MW, Litaker RW. 2007. Aphanomyces invadans and ulcerative mycosis in estuarine and freshwater fish in Florida. Journal Aquat Anim Health. 19(1):14–26.

Srivastava GC, Srivastava RC. 1976. A note on the destruction of the eggs of Cyprinus carpio var. Communis by the members of Saprolegniaceae. Current Scientific & Culture. 42: 612–614.

Steciow MM, Milanez AI, Pires-Zottarelli CLA, Marano AV, Lecther PM, Vélez CG. 2012. Zoosporic true fungi, heterotrophic straminipiles and plasmodiophorids status of knowledge in South America. Darwiniana. 50(1):25-32. Disponível em http://www.scielo.org.ar/scielo.php?script=sci_arttext&pid=S0011-7932012000100002 Acessada em 04/02/2019.

Verma V. 2008. Fungus disease in fish, diagnosis and treatment. 2008. Veterinary World. 1(2):62.

Vickie B, Scott P, Edward P. 1999. Fish health, fungal infections, and Pfiesteria: The role of the U.S. Geological Survey. Fact sheet (Geological Survey (U.S.)), p. 98-114. Disponível em https://pubs.usgs.gov/fs/1998/0114/report.pdf Acessada em 30/09/2018.

Willoughby LG, Robert RJ. 1994. Improved methodology for isolation of the Aphanomyces fungal pathogen of epizootic ulcerative syndrome (EUS) in Asian fish. Journal Fish Diseases. 17(5):237–248.

Willoughby LG, Roberts RJ, Chinabut S. 2006. Aphanomyces invaderis sp. nov., the fungal pathogen of freshwater tropical fish affected by epizootic ulcerative syndrome. Journal of Fish Diseases. 18(3):273–276.

Yadav MK, Pradhan KP, Sood N, Chaudhary DK, Verma KD, Chauhan UK, Punia P, Jena JK. 2015. Innate imune response against na oomycete pathogen Aphanomyces invadans in common carp (Cyprinus carpio), a fish resistant to epizootic ulcerative syndrome. Acta Tropica. 155:71–76.

Zimmermann S, Moreira HLM, Vargas L, Ribeiro RP. 2001. Fundamentos da Moderna Aquicultura. Canoas, Editora Ulbra, p.199.

Published

2021-07-15

How to Cite

SARAIVA, L. S.; ROCHA, J. de R. S. Pathogenic oomycetes in fish farming nurseries in a semi-arid region in Brazil. Gaia Scientia, [S. l.], v. 15, n. 2, 2021. DOI: 10.22478/ufpb.1981-1268.2021v15n2.46215. Disponível em: https://periodicos.ufpb.br/ojs/index.php/gaia/article/view/46215. Acesso em: 22 nov. 2024.

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Section

Ciências Ambientais