EFFECT OF KAOLIN ON HEMATOLOGICAL AND BIOCHEMICAL PARAMETERS OF CYPRINUS CARPIO L. AGAINST COPPER SULFATE TOXICITY

Authors

  • Mutaz S. Al-Tamimi
  • A. J. Al-Rudainy

DOI:

https://doi.org/10.36103/ijas.v55iSpecial.1900

Keywords:

fish, blood, adsorption, total protein, diseases

Abstract

The present study was aimed to evaluate the effect of kaolin on copper sulfate toxicity and on some hematological and biochemical performance in Cyprinus carpio L. 240 common carp ranged between 85-95g in weight. A total of 120 fish were used to determine the median lethal concentration LC50 of copper sulfate and 120 fish and randomly distributed into six treatments (two replications for each treatment). The LC50 of copper sulfate was 1.82 mg/l for 48h exposure, then added 0.91mg/l of copper sulfate to all treatment groups except control negative .The experimental treatments included adding kaolin: Control negative (without copper sulfate or kaolin); Control positive 0.91mg/l copper sulfate without kaolin.T1, T2, T3 and T4 kaolin were added in the water at levels of 2, 4 , 6 and 8 g/l respectively. Results showed that the values of RBCs count were ranged 1.16 x106 - 1.77x106 cell /mm³ in cont.+ve and T3 respectively. WBCs count were ranged 8.40×10³ in cont.+ve to 13.14×10³ cell/mm³ in T3.The lowest Hb content found in cont.+ve reached 8.35 g/dl, while the highest content found in control-ve attained 12.87g/dl. PCV ranged from 21.75 to 35.60% in cont.+ve and T3 respectively. Results of total protein ranged between 6.6 - 18.19 g/dl in T4 and cont.-ve respectively, while albumin ranged from 1.31 to 1.53 g/dl in cont.+ve and cont.-ve respectively. Globulin level recorded the lowest value in T4 which was 5.15g/dl whereas the highest level in cont.-ve which was 16.67 g/dl. In conclusion, this investigation indicated that kaolin has reduced the toxicity effects of copper sulfate in common carp and the best level can be use was 6g/l (T3).

References

Abdulathem, A. A. and A. J. Al-Rudainy. 2021. Effect of dietary zeolite on ammonia toxicity and on some of blood parameters in common carp Cyprinus carpio. Iraqi Journal of Agricultural Sciences. 52(5):1276–1283. https://doi.org/10.36103/ijas.v52i5.1465

Abdulathem, A.A. and A.J. Al-Rudainy. 2021. Effect of zeolite on ammonia toxicity and on some of blood parameters in common carp Cyprinus carpio. Iraqi Journal of Agricultural Sciences. 52(4): 918–924. https://doi.org/10.36103/ijas.v52i4.1400

Ajani, E.K. and B.U. Akpoilih. 2010. Effect of chronic dietary copper exposure on haematology and histology of common carp (Cyprinus carpio L.). Journal of Applied Sciences and Environmental Management. 14(4): 39–45

Al-Aboudi, H. J. , A. J. Al-Rudainy and A. Abid Maktof. 2022. Accumulation of lead and cadmium in tissues of Cyprinus carpio collected from cages of Al-Gharraf River / Thi Qar / Iraq. Iraqi Journal of Agriculture Sciences. 53(4):819-824. https://doi.org/10.36103/ijas.v53i4.1594

Al-Faragi, J.K., S.A. Mustafa and E.S. Najem. 2014. Effect of β-glucan on behavioral, biochemical and hematological parameters against toxicity of copper sulfate in common carp (Cyprinus carpio L.).The Iraqi Journal of Veterinary Medicine. 38(2): 128–137.

Al-Ghanim, K., S. Mahboob, S. Seemab, S. Sultana, T. Sultana, F. Al-Misned and Z. Ahmed.2016. Monitoring of trace metals in tissues of Wallago attu (Lanchi) from the Indus River as an indicator of environmental pollution. Saudi Journal of Biological Sciences. 23(1):72-78

Al-Rudainy, A.J. , S. A. Mustafa, A. A. Ashor and M. D. Bader. 2023. Role of kaolin on hematological, biochemical and survival rate of Cyprinus carpio challenged with Pesuydomonas aeruginosa. Iraqi Journal of Agriculture Sciences.54(2): 472- 477. https://doi.org/10.36103/ijas.v54i2.1723

Al-Rudainy, A.J. and S.M. Al- Samawi. 2017. Determination of lead concentration in water and in different organs of Carrasobarbus luteus and (Cyprinus carpio) in Tigris River. The Iraqi Journal of Veterinary Medicine. 41(1): 43–48

Al-Tamimi, A.H and A.J Al-Azzawi. 2015. The acute and chronic toxicity of copper on the behavioral responses and hematological parameters of freshwater fish, common carp (Cyprinus carpio L.). Iraqi Journal of Science. 56(4A): 2835-2845

Binukumari, S., K. Anusiya-Devi and J. Vasanthi. 2017. Applications in environmental risk assessment of biochemical analysis on the Indian freshwater fish,(Labeo rohita) exposed to monocrotophos pesticide. Journal of Environmental Toxicology and Pharmacology. 47: 200-205

Caponi, N., G.C. Collazzo, S.L. Jahn, G.L. Dotto, M.A. Mazutti and E.L. Foletto. 2017 .Use of brazilian kaolin as a potential low-cost adsorbent for the removal of malachite green from colored effluents. Materials Research. 20:14-22.

Dacie, J.V. and S.M. Lewis. 1984. Practical Haematology, Churchill Livingston ed., Selecto Printing Corporations Limited, N.Y. 445p

De Smet, H., R. Blust and L. Moens.1998. Absence of albumin in the plasma of the common carp (Cyprinus carpio) binding of fatty acids to high density lipoprotein. Fish Physiology and Biochemistry. 19:71-81

Dumas, B.T. and H.G. Biggs. 1972. Standard Methods of Clinical Chemistry. Education of Academic Press, N. Y. 13:215-220

FAO. The State of World Fisheries and Aquaculture. 2020. In Brief Sustainability in Action, Rome, Italy. Authored By Baldé, C., V. Forti, V. Gray, R. Kuehr, P. Stegmann.The Global E-waste Monitor

Fazio F. 2019. Fish Hematology Analysis as an Important Tool of Aquaculture: A Review Aquaculture. 500 : 237-242

Fink, N. E. and A. Salibian. 2005. Toxicological studies in adult amphibians: effects of lead Applications in Herpetology.2(3): 311-333

Goldstein, A., L. Aronow. and S. M. Kolman.1974. Principle of Drug Action. 2nd ed. John Wiley and Sons. Torento Canada. Roche, H. and Bogé, G., 1996. Fish Blood Parameters as a Potential Tool for Identification of Stress Caused by Environmental Factors and Chemical Intoxication Marines Environmental Research. 41: 27-43

Goswami, K., V. Nada, R.N.Ram, A. Saxena and R.K. Srivastava. 2021. Estimation of median lethal concentration (LC50) and behavioral alterations of amur carp (Cyprinus carpio haematopterus) in response to copper sulfate. Journal of Entomology and Zoology Studies . 9(1): 469-472

Hrubec, T.C., J.L. Cardinale and S.A. Smith. 2016.Hematology and plasma chemistry reference intervals for cultured tilapia (Oreochromis hybrid). Veterinary Clinical Pathology.29 (1):7–12

Inyinbor, A.A., F. Adekola and G. Olatunji. 2016. Liquid phase adsorption of Rhodamine B onto acid treated Raphia hookerie epicarp: Kinetics, isotherm and thermodynamics studies. South African Journal of Chemistry.69:218-226

Joshi, P. and H. Deep. 2002. Effect of lindane and malathion exposure to certain blood parameters in a freshwater teleost fish (Clarias batrachus). Pollution Research. 21: 55-57

Khan, M.N., K. Shahzad , A. Chatta, M.Sohail and T.T. Piria Mand. 2016. A review of introduction of common carp Cyprinus carpio L. in Pakistan: Origin, purpose, impact and management. Croatian Journal Fish. 74: 71-80

Klontz, G.W, J.S. Stolen, T. C. Fletcher, A.F. Rowley, J.T Zelikoff, S.L. Kaattari and S.A.Smith.1997. Techniques in Fish Immunology,3, SOS Puplications, NJ, USA. (2): 245- 258

Mazon, A. F., E. A. Monteiro, G. H. Pinheiro and M. N. Fernandes.2002. Hematological and physiological changes induced by Short-term exposure to copper in the freshwater fish, (Prochildus scrofa). Brazilian Journal of Biology. São Carlos. 62 : 621-631

Mustafa , S. and A. J.Al-Rudainy. 2021. Impact of mercury chloride exposure on some of immunological and biochemical assays of common carp, Cyprinus carpio. Iraqi Journal of Agriculture Sciences. 52(3):547-551. https://doi.org/10.36103/ijas.v52i3.1341

Mustafa, S., A.J. Al-Rudainy and J.K. Al-Faraji. 2019. Assessment of hydrogen peroxide on histological and survival rate in common carp Cyprinus carpio L. infected with Saprolegniasis. Iraqi Journal of Agriculture Sciences. 50(2):796-704. https://doi.org/10.36103/ijas.v2i50.669

Rana, R.S., P.Singh, V. Kandari, R. Singh, R. Dobhal, and S.A. Gupt. 2017. Review on Characterization and Bioremediation of Pharmaceutical Industries’ Wastewater: An Indian Perspective. Applied Water Science. 7: 1-12

Rożyński, M., K. Demska-Zakęś, A. Sikora and Z. Zakęś. 2018.Impact of inducing general anesthesia with Propiscin (etomidate) on the physiology and health of European perch (Perca fluviatilis L.).Fish Physiological and Biochemical.44 : 927-937

SAS.2012.Statistical Analysis System, User's Guide Statistical. Version 9.1th ed. SAS. Inst. Inc. Cary, N.C. USA

Sulieman, H. and E. Suliman. 2019 .Appraisal of heavy metal levels in some marine organisms gathered from the Vellar and Uppanar estuaries Southeast Coast of Indian Ocean. Journal Taibah University Science. 13 (1):338-343.

Tavares-Dias, M. J., E. Ferreira, E. Affonso, A. Akifumi , M. Ono and L. Martins. 2011. Toxicity and effects of copper sulfate on parasitic control and hematological response of tembaqui, (Colossoma macropomum). Boletim Instituto de Pesca. Sao Paulo. 34: 355-365

Thrall, M.A., D.C. Bker, T.W. Camobell, D. Dinicola, M.J. Fettman, E.D. Lassen, A. Reber and G.Weiser. 2006. Veterinary Hematology and Clinical Chemistary. Lippincott Williams, Philadelphia, 214-219

Weichselbaum, T.E. 1946. An accurate and rapid method for 12 the determination of proteins in small amounts of blood serum and plasma. American Journal of Clinical Pathology.16: 40-49

Witeska, M., K. Lugowska and E. Kondera. 2016. Reference values of hematological parameters for juvenile( Cyrpinus carpio). Bulletin European Associations of Fish Pathology. 36 (4) : 169-180

Yaseen, D. A. and M. Sholz .2019. Textile dye wastewater characteristics and constituents of synthetic effluents.International Journal of Environmental Science and Technology. 16:1193–1226.

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Published

2024-01-25

How to Cite

Mutaz S. Al-Tamimi, & A. J. Al-Rudainy. (2024). EFFECT OF KAOLIN ON HEMATOLOGICAL AND BIOCHEMICAL PARAMETERS OF CYPRINUS CARPIO L. AGAINST COPPER SULFATE TOXICITY. IRAQI JOURNAL OF AGRICULTURAL SCIENCES, 55(Special), 217-224. https://doi.org/10.36103/ijas.v55iSpecial.1900

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