Evaluation of transportation stress-induced changes in serum biochemistry of African catfish (Clarias gariepinus) transported in palm oil-treated water

Автор: Kolndadacha O.D., Ogbe R.J., Buba E., Aleji A.

Журнал: Журнал стресс-физиологии и биохимии @jspb

Статья в выпуске: 3 т.19, 2023 года.

Бесплатный доступ

Background: A study was conducted to evaluate the serum biochemical and oxidative stress parameters of catfish ( Clarias gariepinus ) obtained from homestead ponds in Makurdi metropolis, Nigeria, in order to establish changes due to stress from transportation, following the pretreatment of transporting water with palm oil and aqua anti-stress. Serum samples were obtained from the blood collected from the fish a day before, just before loading the fish, immediately after journey, and 3 days post-transportation. The samples were used to analyze for some oxidative stress markers like malon dialdehyde (MDA), superoxide dismutase (SOD), catalase (CAT), glutathione peroxidase (GPx), and other biochemical parameters such as; alanine transaminase (ALT), aspartate transaminase (AST), alkaline phosphatase (ALP), total cholesterol (TC) and triglyceride (TRG). Results: There was a significant (p0.05) difference in MDA levels of PA group compared with the control after the journey. However, there was no significant (p>0.05) difference in the MDA levels of aqua anti-stress agent-treated water (A) group compared with the control, before the journey and after the journey. There was a significantly (P0.05) difference in the ALT, AST and ALP activities of aqua anti-stress agent-treated water (A) group when compared with the control, before the journey and after the journey. There was no significant (p>0.05) difference in the TC and TRG levels of A, PA and PB groups when compared with the control group, before the journey and after the journey. The ALT, AST and ALP activities of the fish transported in water treated with palm oil were markedly reduced at the end of the journey when compared with the levels just before the journey. Conclusion: The findings of this study have shown that both aqua anti-stress agent and palm oil may improve the biochemical parameters of African catfish, which enhanced their responses to stress during the eight hour journey but the conventional anti-stress agent was more effective than palm oil.

Еще

Anti-stress, catfish, hepatotoxicity, oxidative stress, palm oil, transportation

Короткий адрес: https://sciup.org/143180574

IDR: 143180574

Список литературы Evaluation of transportation stress-induced changes in serum biochemistry of African catfish (Clarias gariepinus) transported in palm oil-treated water

Abalaka E.S. (2013) Evaluation of the haematology and biochemistry of Clarias gariepinus as biomarkers of environmental pollution in Tiga dam, Nigeria. Braz. Arch. Biol. Technol., 56(3), 371-376.
Achilike N.M. and Anyanwu P.E. (2019) Enzymes activities in juveniles and adults of Clarias gariepinus reared in earthen ponds and concrete tanks. Int. J. Fish. Aqua. Stud, 7(2), 258-262.
Adenkola A.Y. and Ayo J.O. (2009) The effect of road transportation on erythrocyte osmotic fragility in pig administered ascorbic acid during the harmattan season in Zaria, Nigeria. J. Cell Anim. Biol., 3(1), 004-008
Adenkola A.Y., Ayo J.O., Sackey A.K.B. and Minka N.S. (2008) Ameliorative effect of ascorbic acid on rectal temperature of pigs transported by road for eight hours during the harmattan season. Proc. 13th Annual Conference of Animal Science Association of Nig. pp. 177-181.
Adeyemo O.K., Naigaga I. and Alli A.R. (2009) Effects of handling and transportation on haematology of African catfish (Clarias gariepinus). J. Fish. Sci. Comm., 3(4), 333-341.
Bahmani M., Kazemi R. and Donskaya P. (2001) A comparative study of some hematological features in young reared sturgeons (Acipenser persicus and Huso huso). Fish Physiol. Biochem., 24, 135-140.
Crosby, T. C., Hill, J. E., Martinez, C. V., Watson, C. A., & Yanong, R. P. (2006). On-Farm Transport of Ornamental Fish: FA-119/FA119, 11/2006. EDIS, 2006(33).
Davis T. J. (1990) Brood stock and hatchery production. Southern Regional Aquaculture Center (SRAC) Publication No. 323.
Eden D.O. (2002) Palm oil: biochemical, physiological, nutritional, hematological, and toxicological aspects: a review. Plant Foods Hum. Nutr. 57(3-4), 319-341.
Esiegbe F.J., Doherty F.V., Sogbanmu T.O. and Otitoloju A.A. (2013) Histopathology alterations and lipid peroxidation as biomarkers of hydrocarbon-induced stress in the earthworm, Eudrilus eugeniae. Environ. Monit. Assessm., 185 (3), 2189-2196.
Eyo J.E. and Ezechie C.V. (2004) The effects of rubber (Havea brasiliensis) seed meal based diets on diets acceptability and growth performance of Heterobranchus bidorsalis (male) x Clarias gariepinus (female) hybrid. J. Susten. Trop. Aquacult. Res., 10, 20-5.
Fafioye O.O. Olurin K.B. and Sowunmi A.A. (2005) Studies on the physicochemical parameters of Omi water body of Ago-Iwoye, Nigeria. Afr. J. Biotechnol., 4(9), 1022-2024.
Falaye E., Omoike A., Folorunso L.A. and Bello O.S. (2012) The effects of palm oil on the physical appearance of Clarias gariepinus during transportation. Int. J. Plant Anim. Environ. Sci., 2(4), 82-89.
Famurewa A.C., Maduagwuna E.K., Aloke C., Azubuike-Osu S.O. and Narayanankutty A. (2022) Virgin coconut oil ameliorates arsenic hepatorenal toxicity and NO-mediated inflammation through suppression of oxidative stress in rats. Thai J. Pharmaceut. Sci., 46(2), 167-172.
Gomaa S. (2018) Adverse effects induced by diclofenac, ibuprofen, and paracetamol toxicity on immunological and biochemical parameters in Swiss albino mice. J. Basic Appl. Zool., 79:5-14.
Johnson S.K. (1993). Transport of live fish. Aquacult. Mag., 5(6), 20-4.
Keremah R., Davies O.A., and Abezi I.D. (2014) Physico-Chemical analysis of fish pond water in freshwater areas of Bayelsa State, Nigeria. Greener J. Biol. Sci., 4(2), 033-038.
Krieger-Azzolini M.H., Delattre E., Carolsfeld J., Ceccarelli P.C. and Menezes F.V. (1989) A time-course study of physiological indicators of handling stress in the tropical fish (Piaractus mesopotamicus). Braz. J. Med. Biol. Res., 22, 1019-1022.
Kurosvskaya L.N. and Osadchaya S.Y. (1993) The influence of Ichthyophthirus multifilis on under-yearling carp, Cyprinus carpio. J. Ichthyol., 33, 81-92.
NAERLS (2001) Transporting Fish for culture. Extension bulletin number 151, Fisheries series no 6. Pp 1-21 published by National agricultural research liaison services (NAERLS), A.B.U. Zaria.
Narnaware Y.K., Baker I.B. and Tomlinson M.G. (1994) The effects of various stresses, corticosteroids and adrenergic agents on phagocytosis in the rainbow trout Oncorhynchus mykiss. Fish Physiol. Biochem., 13, 31-40.
Nwamba H.O., Nwani C.D., Njom V.S., Ogamba E.E. (2020) Toxic effect of ladosulfan-pesticides on biochemical indices of Clarias gariepinus (Burchell 1822) juveniles. J. Mar. Sci. Res. Ocean., 3(3), 113-116.
Ogbe R. J., Luka C. D. and Adoga G. I. (2019) Effect of aqueous ethanol extract of Dialium guineense leaf on diclofenac-induced oxidative stress and hepatorenal injuries in Wistar rats. Comp. Clin. Pathol., 28, 241-248.
Ogbe R. J., Luka C. D. and Adoga G. I. (2020) Comparative study of the effects of Cassia spectabilis and Newbouldia laevis leaf extracts on diclofenac-induced hepatorenal oxidative damage in rats. Clin. Phytosci., 6, 28.
Ogbe R.J., Luka C.D. and Adoga G.I. (2022) Influence of hydroethanolic extract of Cassia spectabilis leaves on diclofenac-induced oxidative stress and hepatorenal damage in Wistar rats. J. Basic Appl. Zool., 83, 13.
Okechi J.K. (2004) Profitability assessment: A case study of African catfish (Clarias gariepinus) in the Lake Victoria basin, Kenya. Final project. Fisheries Training Programme. Iceland: The United Nations University; p. 12.
Okoye C.N., Dan-Jumbo S.O., Agina O.A., Eze U.U. and Udoumoh A.F. (2016) Reference intervals for the serum biochemistry and lipid profile of male broodstock African catfish (Clarias gariepinus: Burchell, 1822) at varied ages. Not. Sci. Biol., 8(4), 437-443.
Momoh M.Y., Deekae S.N. and Gabriel U.U. (2019) Effect of handling stress on selected antioxidants in two sizes of African catfish (Clarias gariepinus). Int. J. Innov. Stud. Aquat. Biol. Fish., 5 (3), 21-27.
Oriakpono O., Hart A. and Ekanem W. (2012) Acute haematological response of a cichlid fish Sarotherodon melanotheron exposed to crude oil. J. Toxicol. Environ. Health Sci., 4(9), 151-155.
Owumi S.E. and Dim U.J. (2019) Biochemical alterations in diclofenac-treated rats: Effect of selenium on oxidative stress, inflammation, and hematological changes. Toxicol. Res. Appl., 3, 1-10.
Ozmen M., Gungordu A., Kucukbay F.Z. and Gular R.E. (2006) Monitoring the effects of water pollution in Cyprinus carpio in Karakara lake Turkey. Ecotoxicology, 15, 167-169
Papagiannis I., Kagalou I., Leonardos J., Petridis D. and Kalfakakou V. (2004) Copper and Zinc in four freshwater fish species from Lake Pamvotis (Greece). Environ. Int., 30, 357-362.
Perez M.P., Palacio J., Santolaria M.P., Acena M.C., Chacon G., Gascon M., Calvo J.H., Zaragoza P., Beltran J.A. and Gracia-Belenguer S. (2002) Effect of transport time on welfare and meat quality in pigs. Meat Sci., 61, 425-433.
Refaey M.M. and Li D. (2018) Transport stress changes hepatic HSPs mRNA expressions of channel catfish Ictaluruspunctatus. Front. Physiol., 9, 1628.
Schmitt C.J., Brumbaugh W.G. and May T.W. (2007) Accumulation of metals in fish from lead-zinc mining areas of southeastern Missouri, USA. Ecotoxicol. Environ. Safety, 67, 14-30.
Stone N. M. and Thormford H. K. (2003) Understanding your fish pond water analysis report. University of Arkansas cooperative extension printing series. pp. 1-4.
Stoskopf, M.K., (1993) Clinical pathology. In Stoskopf, M.K. (ed.), Fish Medicine. WB Saunders Publishers, Philadelphia, USA, pp. 113-131.
Uzoma C.E., Obinna C.L. and Nnamndi A.H. (2015) Cellular biomarker responses of bagrid catfish, Chrysichthys nigrodigitatus in a contaminated coastal ecosystem. Afr. J. Biotechnol., 14(25), 21 14 - 2123, https://doi.org/10.5897/AJB2014.14265.
Vasudevan D.M. and Sreekumari S. (2007) Textbook of biochemistry for medical students (5th ed.). Jaypee Brothers Medical Publishers (P) Ltd, New Delhi, India, pp. 148-357.

Еще

Статья научная