The influence of clomazone-based herbicide formulation on common carp (Cyprinus carpio) – a laboratory study including pathophysiological and histopathological assessment

Aguilar J.A.P., Andreu V., Campo J., Pico Y., Masia A. (2017). Pesticide occurrence in the waters of Júcar River, Spain from different farming landscapes. Sci. Total Environ., 607–608: 752–760. Search in Google Scholar

Ahmad W., Sultan A., Jan S.M.H., Ali A., Rahman I.U., Usman H., Sher A., Khan N., Suleman, Khan Z., Khan A. (2021). Environmental risk of atrazine (herbicide) to brain, gills and liver tissues of fish Ctenopharyngodon idella (Valenciennes, 1844). J. Geosci. Environ. Prot., 9: 1–16. Search in Google Scholar

Ahmadivand S., Farahmand H., Mirvaghefi A.R., Eagderi S., Shokrpoor S., Rahmati-Holasoo H. (2014). Histopathological and haematological response of male rainbow trout (Oncorhynchus mykiss) subjected to butachlor. Vet. Med. (Praha), 59: 433–439. Search in Google Scholar

Anusuya J., Hemalatha S. (2015) A. study on histopathological impact of 2,4– dichlorophenoxyacetic acid on gills and liver of Channa striatus. Int. J. Mod. Res. Rev., 3: 669– 673. Search in Google Scholar

Atamanalp M., Yanik T. (2003). Alterations in hematological parameters of rainbow trout (Oncorhynchus mykiss) exposed to mancozeb. Turk. J. Vet. Anim. Sci., 27: 1213–1217. Search in Google Scholar

Ateeq B., Abul farah M., Ali M.N., Ahmad W. (2002). Induction of micronuclei and erythrocyte alterations in the catfish Clarias batrachus by 2,4-dichlorophenoxyacetic acid and butachlor. Mutat. Res., 518: 135–144. Search in Google Scholar

Babu V., Mariadoss S., Ipek C.E., Serbest B., Ali S. (2014). Surface structures of gill, scale and erythrocyte of Anabas testudineus exposed to sublethal concentration of cypermethrin. Environ. Toxicol. Pharmacol., 37: 1109–1115. Search in Google Scholar

Badroo I.A., Nandurkar H.P., Khanday A.H. (2020). Toxicological impacts of herbicide paraquat dichloride on histological profile (gills, liver, and kidney) of freshwater fish Channa punctatus (Bloch). Environ. Sci. Pollut. Res., 27: 39054–39067. Search in Google Scholar

Balon E.K. (2004). About the oldest domesticates among fishes. J. Fish. Biol., 65: 1–27. Search in Google Scholar

Banaee M., Davoodi M.H., Zoheiri F. (2013). Histopathological changes induced by paraquat on some tissues of gourami fish (Trichogaster trichopterus). Open Vet. J., 3: 36–42. Search in Google Scholar

Bishkoul G.R., Halimi M., Norousta R., Zamani N., Heidari L. (2015). The anesthetic effect of MS-222 (tricaine methanesulfonate) on some hematological parameters of sterlet, Acipenser ruthenus. Comp. Clin. Path., 24: 89–92. Search in Google Scholar

Blahova J., Modra H., Sevcikova M., Marsalek P., Zelnickova L., Skoric M., Svobodova Z. (2014). Evaluation of biochemical, haematological, and histopathological responses and recovery ability of common carp (Cyprinus carpio L.) after acute exposure to atrazine herbicide. BioMed Res. Int., 980948. Search in Google Scholar

Bojarski B., Witeska M. (2020). Blood biomarkers of herbicide, insecticide, and fungicide toxicity to fish – a review. Environ. Sci. Pollut. Res., 27: 19236–19250. Search in Google Scholar

Bojarski B., Lutnicka H., Swadźba-Karbowy M., Makulska J., Jakubiak M., Pawlak K., Tombarkiewicz B., Witeska M. (2018 a). Effects of herbicides pendimethalin and ethofumesate on common carp (Cyprinus carpio) erythrocyte morphology. Folia Biol. (Krakow), 66: 143– 149. Search in Google Scholar

Bojarski B., Jakubiak M., Witeska M. (2018 b). Physiological and histological effects of herbicides in fish. Ann. Warsaw Univ. of Life Sci. – SGGW Anim. Sci., 57: 207–217. Search in Google Scholar

Bojarski B., Socha M., Drąg-Kozak E., Rombel-Bryzek A., Kapinos S., Szała L., Kondera E., Ługowska K., Witeska M. (2021). Does the site of blood collection in fish affect haematological and blood biochemical results? Folia Biol. (Krakow), 69: 51–56. Search in Google Scholar

Bojarski B., Osikowski A., Hofman S., Szała L., Szczygieł J., Rombel-Bryzek A. (2022 a). Effects of exposure to a glyphosate-based herbicide on haematological parameters, plasma biochemical indices and the microstructure of selected organs of the common carp (Cyprinus carpio Linnaeus, 1758). Folia Biol. (Krakow), 70: 213–229. Search in Google Scholar

Bojarski B., Medkova D., Hollerova A., Szała L., Stonawski B., Chmurska-Gąsowska M. (2022 b). Common carp (Cyprinus carpio) blood cells in Hayem’s solution – stable or not? Folia Biol. (Krakow), 70: 113–117. Search in Google Scholar

Bojarski B., Szała L., Osikowski A., Hofman S., Urbański K., Kamińska-Gibas T., Rombel-Bryzek A. (2023 a). Effects of an MCPA-based herbicide formulation on the common carp Cyprinus carpio Linnaeus, 1758 – haematological, biochemical and histological evaluation. Folia Biol. (Krakow), 71: 146–158. Search in Google Scholar

Bojarski B., Jurecka P., Szała L., Kondera E., Gaj-Chucher C., Stonawski B., Rombel-Bryzek A. (2023 b). The influence of methylene blue and malachite green on common carp (Cyprinus carpio) blood parameters. Anim. Sci. Genet., 19: 27–41. Search in Google Scholar

Bomski H. (1983). Podstawowe laboratoryjne badania hematologiczne (in Polish). PZWL, Warszawa, 332 pp. Search in Google Scholar

Brum A., Dotta G., Roumbedakis K., Goncalves E.L.T., Garcia L.P., Garcia P., Scussel V.M., Martins M.L. (2014). Hematological and histopathological changes in silver catfish Rhamdia quelen (Siluriformes) exposed to clomazone herbicide in the Madre River, Santa Catarina State, Southern Brazil. J. Environ. Sci. Health B, 49: 169–175. Search in Google Scholar

Bunzel K., Schafer R.B., Thran D., Kattwinkel M. (2015). Pesticide runoff from energy crops: A threat to aquatic invertebrates? Sci. Total Environ., 537: 187–196. Search in Google Scholar

Cattaneo R., Moraes B.S., Loro V.L., Pretto A., Menezes C., Sartori G.M.S., Clasen B., de Avila L.A., Marchesan E., Zanella R. (2012). Tissue biochemical alterations of Cyprinus carpio exposed to commercial herbicide containing clomazone under rice-field conditions. Arch. Environ. Contam. Toxicol., 62: 97–106. Search in Google Scholar

Chidya R., Derbalah A., Abdel‑Dayem S., Kaonga C., Tsuji H., Takeda K., Sakugawa H. (2022). Contamination, dynamics, and health risk assessment of pesticides in seawater and marine samples from the Seto Inland Sea, Japan. Environ. Sci. Pollut. Res., 29: 67894–67907. Search in Google Scholar

Cooper J., Dobson H. (2007). The benefits of pesticides to mankind and the environment. Crop Prot., 26: 1337–1348. Search in Google Scholar

Crestani M., Menezes C., Glusczak L., dos Santos Miron D., Lazzari R., Duarte M.F., Morsch V.M., Pippi A.L., Vieira V.P. (2006). Effects of clomazone herbicide on hematological and some parameters of protein and carbohydrate metabolism of silver catfish Rhamdia quelen. Ecotoxicol. Environ. Saf., 65: 48–55. Search in Google Scholar

De A., Bose R., Kumar A., Mozumdar S. (2014). Worldwide pesticide use. In: Targeted delivery of pesticides using biodegradable polymeric nanoparticles; Springer, New Delhi Heidelberg New York Dordrecht London, 2: 5–6. Search in Google Scholar

de Moura F.R., da Silva Lima R.R., da Cunha A.P.S., da Costa Marisco P., Aguiar D.H., Sugui M.M., Sinhorin A.P., Sinhorin V.D.G. (2017). Effects of glyphosate-based herbicide on pintado da Amazônia: Hematology, histological aspects, metabolic parameters and genotoxic potential. Environ. Toxicol. Pharmacol., 56: 241–248. Search in Google Scholar

de Souza R.M., Seibert D., Quesada H.B., de Jesus Bassetti F., Fagundes-Klen M.R., Bergamasco R. (2020). Occurrence, impacts and general aspects of pesticides in surface water: A review. Process Saf. Environ. Prot., 135: 22–37. Search in Google Scholar

Elias N.S., Abouelghar G.E., Sobhy H.M., El Miniawy H.M., Elsaiedy E.G. (2020). Sublethal effects of the herbicide thiobencarb on fecundity, histopathological and biochemical changes in the African catfish (Clarias gariepinus). Iran. J. Fish. Sci., 19: 1589–1614. Search in Google Scholar

Fathy M., Mohamed I.A., Farghal A.I.A., Temerak S.A.H., Sayed A.E.D.H. (2019). Hemotoxic effects of some herbicides on juvenile of Nile tilapia Oreochromis niloticus. Environ. Sci. Pollut. Res., 26: 30857–30865. Search in Google Scholar

Feng G., Zhuang P., Zhang L., Kynard B., Shi X., Duan M., Liu J., Huang X. (2011). Effect of anaesthetics MS-222 and clove oil on blood biochemical parameters of juvenile Siberian sturgeon (Acipenser baerii). J. Appl. Ichthyol., 27: 595–599. Search in Google Scholar

Ferhatoglu Y., Barrett M. (2006). Studies of clomazone mode of action. Pestic. Biochem. Physiol., 85: 7–14. Search in Google Scholar

Fossati P., Prencipe L. (1982). Serum triglycerides determined colorimetrically with an enzyme that produces hydrogen peroxide. Clin. Chem., 28: 2077–2080. Search in Google Scholar

Georgieva E., Kovacheva E., Yancheva V., Velcheva I., Hrischev P., Atanassova P., Tomov S., Stoyanova S. (2023). Pesticides induce fatty degeneration in liver of Cyprinus carpio (Linnaeus 1758) after acute exposure. Ecol. Balk., 15: 77–82. Search in Google Scholar

Husak V.V., Mosiichuk N.M., Maksymiv I.V., Sluchyk I.Y., Storey J.M., Storey K.B., Lushchak V.I. (2014). Histopathological and biochemical changes in goldfish kidney due to exposure to the herbicide Sencor may be related to induction of oxidative stress. Aquat. Toxicol., 155: 181–189. Search in Google Scholar

Kondera E., Bojarski B., Ługowska K., Kot B., Witeska M. (2020). Effects of oxytetracycline and gentamicin therapeutic doses on hematological, biochemical and hematopoietic parameters in Cyprinus carpio juveniles. Animals, 10: 2278. Search in Google Scholar

Kondera E., Bojarski B., Ługowska K., Kot B., Witeska M. (2021). Hematological and hematopoietic effects of bactericidal doses of trans-cinnamaldehyde and thyme oil on Cyprinus carpio juveniles. Front. Physiol., 12: 771243. Search in Google Scholar

Kondera E., Teodorczuk B., Ługowska K., Witeska M. (2018). Effect of glyphosate-based herbicide on hematological and hemopoietic parameters in common carp (Cyprinus carpio L). Fish Physiol. Biochem., 44: 1011–1018. Search in Google Scholar

Kruć-Fijałkowska R., Dragon K., Drożdżyński D., Górski J. (2022). Seasonal variation of pesticides in surface water and drinking water wells in the annual cycle in western Poland, and potential health risk assessment. Sci. Rep., 12: 3317. Search in Google Scholar

Lepic P., Stara A., Turek J., Kozak P., Velisek J. (2014). The effects of four anaesthetics on haematological and blood biochemical profiles in vimba bream, Vimba vimba. Vet. Med. (Praha), 59: 81–87. Search in Google Scholar

Lutnicka H., Bojarski B., Witeska M., Tombarkiewicz B., Formicki G. (2019). Exposure to herbicide linuron results in alterations in hematological profile and stress biomarkers of common carp (Cyprinus carpio). Ecotoxicology, 28: 69–75. Search in Google Scholar

Macneale K.H., Kiffney P.M., Scholz L.N. (2010). Pesticides, aquatic food webs, and the conservation of Pacific salmon. Front. Ecol. Environ., 8: 475–482. Search in Google Scholar

Mahmood Y., Hussain R., Ghaffar A., Ali F., Nawaz S., Mehmood K., Khan A. (2022). Acetochlor affects bighead carp (Aristichthys nobilis) by producing oxidative stress, lowering tissue proteins, and inducing genotoxicity. BioMed Res. Int., 9140060. Search in Google Scholar

Montuori P., De Rosa E., Sarnacchiaro P., Di Duca F., Provvisiero D.P., Nardone A., Triassi M. (2020). Polychlorinated biphenyls and organochlorine pesticides in water and sediment from Volturno River, Southern Italy: occurrence, distribution and risk assessment. Environ. Sci. Eur., 32: 123. Search in Google Scholar

Nag S.K., Sajina A.M., Sahu S.K., Sarkar S.D., Samanta S., Saha K., Bandyopadhyay S. (2023). Assessment of environmental and human health risk from pesticide residues in river Gomti, Northern India. Environ. Sci. Pollut. Res., 30: 83341–83355. Search in Google Scholar

Okomoda V.T., Ataguba G.A., Ayuba V.O. (2013). Hematological response of Clarias gariepinus fingerlings exposed to acute concentrations of Sunsate^®. J. Stress Physiol. Biochem., 9: 271–278. Search in Google Scholar

Oluah N.S., Aguzie I.O., Ekechukwu N.E., Madu J.C., Ngene C.I., Oluah C. (2020). Hematological and immunological responses in the African catfish Clarias gairepinus exposed to sublethal concentrations of herbicide Ronstar^®. Ecotoxicol. Environ. Saf., 201: 110824. Search in Google Scholar

Oropesa A.L., Garcia‐Cambero J.P., Gomez L., Roncero V., Soler F. (2009). Effect of long‐term exposure to simazine on histopathology, hematological, and biochemical parameters in Cyprinus carpio. Environ. Toxicol., 24: 187–199. Search in Google Scholar

Palma P., Kock-Schulmeyer M., Alvarenga P., Ledo L., Barbosa I.R., Lopez de Alda M., Barcelo D. (2014). Risk assessment of pesticides detected in surface water of the Alqueva reservoir (Guadiana basin, southern of Portugal). Sci. Total Environ., 488–489: 208–219. Search in Google Scholar

Papadakis E.-N., Tsaboula A., Kotopoulou A., Kintzikoglou K., Vryzas Z., Papadopoulou-Mourkidou E. (2015). Pesticides in the surface waters of Lake Vistonis Basin, Greece: Occurrence and environmental risk assessment. Sci. Total Environ., 536: 793–802. Search in Google Scholar

Pereira L., Fernandes M.N., Martinez C.B.R. (2013). Hematological and biochemical alterations in the fish Prochilodus lineatus caused by the herbicide clomazone. Environ. Toxicol. Pharmacol., 36: 1–8. Search in Google Scholar

Popoola O.M. (2018). Toxicity effect of atrazine on histology, haematology and biochemical indices of Clarias gariepinus. Int. J. Fish. Aquat. Stud., 6: 87–92. Search in Google Scholar

Rahman M.M. (2015). Role of common carp (Cyprinus carpio) in aquaculture production systems. Front. Life Sci., 8: 399–410. Search in Google Scholar

Ramesh M., Srinivasan R., Saravanan M. (2009). Effect of atrazine (Herbicide) on blood parameters of common carp Cyprinus carpio (Actinopterygii: Cypriniformes). Afr. J. Environ. Sci. Technol., 3: 453-458. Search in Google Scholar

Relyea R.A. (2005). The impact of insecticides and herbicides on the biodiversity and productivity of aquatic communities. Ecol. Appl., 15: 618–627. Search in Google Scholar

Ritu R.F., Islam S.M.M., Rashid H., Haque S.M., Zulfahmi I., Sumon K.A. (2022). Application of fenitrothion on Heteropneustes fossilis causes alteration in morphology of erythrocytes via modifying hematological parameters. Toxicol. Rep., 9: 895–904. Search in Google Scholar

Rohani M.F. (2023). Pesticides toxicity in fish: Histopathological and hemato-biochemical aspects – a review. Emerg. Contam., 9: 100234. Search in Google Scholar

Rożyński M., Demska-Zakęś K., Sikora A., Zakęś A. (2018). Impact of inducing general anesthesia with Propiscin (etomidate) on the physiology and health of European perch (Perca fluviatilis L.). Fish Physiol. Biochem., 44: 927–937. Search in Google Scholar

Salbego J., Pretto A., Gioda C.R., de Menezes C.C., Lazzari R., Neto J.R., Baldisserotto B., Loro V.L. (2010). Herbicide formulation with glyphosate affects growth, acetylcholinesterase activity, and metabolic and hematological parameters in piava (Leporinus obtusidens). Arch. Environ. Contam. Toxicol., 58: 740–745. Search in Google Scholar

Schumann G., Bonora R., Ceriotti F., Ferard G., Ferrero C.A., Franck P.F.H., Gella F.J., Hoelzel W., Jorgensen P.J., Kanno T., Kessner A., Klauke R., Kristiansen N., Lessinger J.M., Linsinger T.P.J., Misaki H., Panteghini M., Pauwels J., Schiele F., Schimmel H.G., Weidemann G., Siekmann L. (2002). IFCC Primary reference procedures for the measurement of catalytic activity concentrations of enzymes at 37°C. Part 4. Reference procedure for the measurement of catalytic concentration of alanine aminotransferase. Clin. Chem. Lab. Med., 40: 718–724. Search in Google Scholar

Seibel H., Baßmann B., Rebl A. (2021). Blood will tell: What hematological analyses can reveal about fish welfare. Front. Vet. Sci., 8: 616955. Search in Google Scholar

Shahi N., Mallik S.K., Sarma D. (2022). Muscle growth in targeted knockout common carp (Cyprinus carpio) mstn gene with low off-target effects. Aquaculture, 547: 737423. Search in Google Scholar

Sjerps R.M.A., Kooij P.J.F., van Loon A., Van Wezel A.P. (2019). Occurrence of pesticides in Dutch drinking water sources. Chemosphere, 235: 510–518. Search in Google Scholar

Soni R., Gaherwal S., Shiv G. (2018). Effect of herbicide 2,4-D on hematological parameters of Clarias batrachus. Int. J. Curr. Res. Life Sci., 7: 2441–2444. Search in Google Scholar

Stevanovic M., Gasic S., Pipal M., Blahova L., Brkic D., Neskovic N., Hilscherova K. (2017). Toxicity of clomazone and its formulations to zebrafish embryos (Danio rerio). Aquat. Toxicol., 188: 54–63. Search in Google Scholar

Stone W.W., Gilliom R.J., Ryberg K.R. (2014). Pesticides in U.S. streams and rivers: occurrence and trends during 1992−2011. Environ. Sci. Technol., 48: 11025−11030. Search in Google Scholar

Svobodova Z., Luskova V., Drastichova J., Svoboda M., Zlabek V. (2003). Effect of deltamethrin on haematological indices of common carp (Cyprinus carpio L.). Acta Vet. Brno, 72: 79–85. Search in Google Scholar

Tabassum H., Ashafaq M., Khan J., Shah M.Z., Raisuddin S., Parvez S. (2016). Short term exposure of pendimethalin induces biochemical and histological perturbations in liver, kidney and gill of freshwater fish. Ecol. Indic., 63: 29–36. Search in Google Scholar

Ullah S., Zorriehzahra M.J. (2015). Ecotoxicology: a review of pesticides induced toxicity in fish. Adv. Anim. Vet. Sci., 3: 40–57. Search in Google Scholar

Van Scoy A.R., Tjeerdema R.S. (2014). Environmental fate and toxicology of clomazone. Rev. Environ. Contam. Toxicol., 229: 35–49. Search in Google Scholar

Velisek J., Stara A., Li Z.H., Silovska S., Turek J. (2011). Comparison of the effects of four anaesthetics on blood biochemical profiles and oxidative stress biomarkers in rainbow trout. Aquaculture, 310: 369–375. Search in Google Scholar

Velisek J., Svobodova Z., Piackova V., Sudova E. (2009 a). Effects of acute exposure to metribuzin on some hematological, biochemical and histopathological parameters of common carp (Cyprinus carpio L.). Bull. Environ. Contam. Toxicol., 82: 492–495. Search in Google Scholar

Velisek J., Stejskal V., Kouril J., Svobodova Z. (2009 b). Comparison of the effects of four anaesthetics on biochemical blood profiles of perch. Aquacult. Res., 40: 354–361. Search in Google Scholar

Witeska M. (2013). Erythrocytes in teleost fishes: a review. Zool. Ecol., 23: 275–281. Search in Google Scholar

Witeska M. (2015). Anemia in teleost fishes. Bull. Eur. Ass. Fish Pathol., 35: 148–160. Search in Google Scholar

Witeska M., Dudyk J., Jarkiewicz N. (2015). Haematological effects of 2-phenoxyethanol and etomidate in carp (Cyprinus carpio L.). Vet. Anaesth. Analg., 42: 537–546. Search in Google Scholar

Witeska M., Kondera E., Bojarski B. (2023). Hematological and hematopoietic analysis in fish toxicology – a review. Animals, 13: 2625. Search in Google Scholar

Witeska M., Kondera E., Ługowska K., Bojarski B. (2022). Hematological methods in fish – Not only for beginners. Aquaculture, 547: 737498. Search in Google Scholar

Witeska M., Kondera E., Szczygielska K. (2011). The effects of cadmium on common carp erythrocyte morphology. Pol. J. Environ. Stud., 20: 783–788. Search in Google Scholar

Witeska M., Kondera E., Szymanska M., Ostrysz M. (2010). Hematological changes in common carp (Cyprinus carpio L.) after short-term lead (Pb) exposure. Pol. J. Environ. Stud., 19: 825–831. Search in Google Scholar

Witeska M., Teodorczuk B., Lugowska K. (2017). Hematological effects of etomidate and tricaine in common carp. Turk. J. Vet. Anim. Sci., 41: 93–98. Search in Google Scholar

Yancheva V., Stoyanova S., Todorova B., Georgieva E., Velcheva I. (2022). Common carp (Cyprinus carpio Linnaeus, 1785): a species equally important for aquaculture and aquatic toxicology. ZooNotes, 199: 1–3. Search in Google Scholar

Yancheva V., Velcheva I., Stoyanova S., Georgieva E. (2016). Histological biomarkers in fish as a tool in ecological risk assessment and monitoring programs: a review. Appl. Ecol. Environ. Res., 14: 47–75. Search in Google Scholar

Zanella R., Primel E.G., Machado S.L.O., Goncalves F.F., Marchezan E. (2002). Monitoring of the herbicide clomazone in environmental water samples by solid-phase extraction and high-performance liquid chromatography with ultraviolet detection. Chromatographia, 55: 573–577. Search in Google Scholar