Evaluation of the genotoxic effects of herbicide 2,4-D in Piaractus mesopotamicus by micronucleus test

C. F. Cowper; M. J. Jorge; L. C. Jorge

doi:10.30972/vet.3124739

Autores

C. F. Cowper Universidad Nacional del Nordeste. Facultad de Ciencias Veterinarias. Instituto de Ictiología del Nordeste.
M. J. Jorge Universidad Nacional del Nordeste. Facultad de Ciencias Veterinarias. Instituto de Ictiología del Nordeste.
L. C. Jorge Universidad Nacional del Nordeste. Facultad de Ciencias Veterinarias. Facultad de Ciencias Exactas.

DOI:

https://doi.org/10.30972/vet.3124739

Palavras-chave:

Piaractus mesoptamicus, 2.4-D, mutagenicity, micronucleus and alteration in the shape of nuclei

Resumo

The herbicide 2,4-D is currently one of the most used agrochemicals in agriculture. The fish are target of contamination, these when being in contact with toxics develop later alterations that can be studied, reason why they are used as models in the evaluation of aquatic ecosystems. There is scarce information about the effects of these pesticides in fish. Because of this, the objective of this work was to evaluate the possible impact of a contamination with 2,4-D, in sub-lethal concentrations in Piaractus mesopotamicus, through the frequency of micronuclei (MN) and alterations in the shape of the nuclei (NMA) in peripheral blood erythrocytes in chronic conditions (70 days). Two trials were conducted, one with the herbicide 2,4-D pure (P) and another with a commercial formulation (2,4-D bitter amine) (FC). Each experience was composed of five aquariums with two specimens in each, where different concentrations of the pesticide were administered (1 ppm, 1.8 ppm, 3.2 ppm, 5.6 ppm and 10 ppm), and in another with well water (control). A total of 4000 cells per individual were analyzed. Through the test MN and NMA the presence of diverse nuclear alterations was evidenced. The mentioned test for P and dilutions 1 ppm, 1.8 ppm, 3.2 ppm, 5.6 ppm of FC did not show significant differences with the control, while the concentration of 10 ppm of FC differed statistically from its control, this could be due to additional components in FC.

Downloads

Não há dados estatísticos.

Referências

Alsabti K, Metcalfe CD. 1995. Fish micronuclei for assessing genotoxicity in water. Mutation Research 343: 121-135.

Ateeq B, Farah MA, Ali MN, Ahmad W. 2002. Induction of micronuclei and erythrocyte alterations in the catfish Clarias batrachus by 2,4-dichlorophenoxyacetic acid and butachlor. Mutat Res Genetic Tox & Envir Mutag 518: 135-144.

Bejarano GF. 2004. Guía ciudadana para la aplicación del Convenio de Estocolmo. Capit. 1, “2,4,5-T”: el Agente Naranja y Dow, p. 14-17.

Belpaeme K, Delbeke K, Zhu L, Kirsch VM. 1996. Cytogenetic studies of PCB77 on brown trout (Salmo trutta fario) using the micronucleus test and the alkaline comet assay. Mutagenesis 11: 485-492.

Carrasco KR, Tilbury KL, Meyers MS. 1990. Assessment of the piscine micronucleus test as an in-situ biological indicator of chemical contaminant effects. Can J Fish Aquat Sci 47: 2123-2136.

Cristaldi M, Ieradi LA, Udroiu I, Zilli R. 2004. Comparative evaluation of back ground micronucleus frequencies in domestic mammals. Mutation Res 559: 1-9.

Decordier I, Dillen L, Cundari N, Kirsch VM. 2002. Elimination of micronucleated cells by apoptosis after treatment with inhibitors of microtubules. Mutagenesis 17: 337-344.

Dinnen RD, Tomlinson SM, Hart D, Chopra C, Heddle JA. 1988. Application of a micronucleus assay to the peripheral blood cells of rainbow trout, Salmo gairdneri. Canad Techn Rep Fish & Aquatic Sci 1607: 69-78.

Dirienzo JA et al. 2013. InfoStat, versión 2013, Grupo InfoStat, FCA, Universidad Nacional de Córdoba, Argentina.

FAO. 1995. Food & Agriculture Organization. Agricultura mundial hacia el año 2010. Edit. Mundi-Prensa, Madrid, 493 p.

Farah MA, Ateeq B, Ali MN, Ahmad W. 2003. Evaluation of genotoxicity of PCP and 2,4-D by micronucleus test in freshwater fish Channa punctatus. Ecotoxicol & Environ Safety 54: 25-29

Fischer U, Ototake M, Nakanishi T. 1998. Life span of circulating blood cells in ginbuna crucian carp (Carassius auratus langsdorfii). Fish & Shellfish Immun 5: 339-349.

Ibrahim MA et al. 1991. Weight of evidence on the human carcinogenicity of 24-D. Environm Health Perspect 96: 213-222.

Lai JC, Kakuta I, Mok HO, Rummer JL, Randall D. 2006. Effects of moderate and substantial hypoxia on erythropoietin levels in rainbow trout kidney and spleen. J Experim Biol 209: 2734-2738.

Linnainmaa K. 1983. Sister chromatid exchanges among

workers occupationally exposed to phenoxy acid herbicides 2,4-D and MCPA. Teratogenesis, Carcinogenesis & Mutagenesis 3: 269-279.

Mancini M, Grosman F. 2008. El pejerrey de las lagunas pampeanas: análisis de casos tendientes a una gestión integral de las pesquerías, 1ª ed., Edit. Univ. Nac. Río Cuarto, 446 p.

Minissi S, Ciccotti E, Rizzoni M. 1996. Micronucleus test in erythrocytes of Barbus plebejus (Teleostei, Pisces) from two natural environments: a bioassay for the in situ detection of mutagens in freshwater. Mutat Res 367: 245-251.

Moraes AV, Defreitas TR, Dasilva J. 2004. Comet assay using mullet (Mugil sp.) and sea catfish (Netuma sp.) erythrocytes for the detection of genotoxic pollutants in aquatic environment. Mutat Res 560: 57-67.

Neumeister L. 2014. Riesgos del herbicida 2,4-D, http://www.rapaluruguay.org/agrotoxicos/Prensa/Riesgos-delherbicida%202,4D pdf, 31 p.

Palma PS. 2005. Ensayo de micronúcleo en eritrocitos de Oncorhynchus mykiss como herramienta para evaluar la exposición a pesticidas potencialmente genotóxicos en el río Traiguen. Tesis Univ Cat Temuco, Chile, 116 p.

Park E, Lee J, Yi A, Etoh H. 1993. Fish cell line (ULF23 HU) derived from the fin of the central Oncorhynchus mykiss suitable characteristics for clastogenicity assay. In Vitro Cell Develop Biol 25: 987-994.

Polard T et al. 2011. Mutagenic impact on fish of runoff events in agricultural areas in south-west France. Aquatic Toxicol 101: 126-134.

Pollo FE, Salas NE, Mancini MA, Martino AL. 2012. Estudio comparativo de la frecuencia de micronúcleos y anormalidades nucleares en eritrocitos de tres especies ícticas. Acta Toxicol Argent 20: 62-67.

Rodriguez CA, Ayllon F, Garcia VE. 2003. Micronucleus test in freshwater fish species: an evaluation of its sensitivity for application in field surveys. Ecotoxicol & Environm Safety 56: 442-448.

Ruiz dC, Soloneski S, Larramendy ML. 2016. Toxic and genotoxic effects of the 2,4-dichlorophenoxyacetic acid (2,4-D)-based herbicide on the neotropical fish Cnesterodon decemmaculatus. Ecotoxicol & Environm Safety 128: 222-229.

Schmid W. 1975. The micronucleus test. Mutation Res 31: 9-15.

Udroiu I. 2006. The micronucleus test in piscine erythrocytes. Aquatic Toxicology 79: 201-204.

USEPA (United States Environmental Protection Agency). 1974. Compendium of registered pesticides, U.S. Government Printing Office, Washington, DC.

Vera CJ, Soloneski S, Larramendy ML. 2013. Evaluation of the genotoxic and cytotoxic effects of glyphosate-based herbicides in the ten spotted live-bearer fish Cnesterodon decemmaculatus (Jenyns, 1842). Ecotoxicol & Environm Safety 89: 166-173.

Zeljezic D, Garaj VV. 2004. Chromosomal aberrations, micronuclei and nuclear buds induced in human lymphocytes by 2,4-dichlorophenoxyacetic acid pesticide formulation. Toxicology 200: 39-47.