Influence of climatic changes on the hematological and biochemical status of a herd of Limousinе cows in the middle of two consecutive grazing seasons

Ivan Yanchev; Nikolay Markov; Tsvetana H.-Metodieva; Maya Ignatova

bg | en

Ivan Yanchev

, Nikolay Markov

, Tsvetana H.-Metodieva

, Maya Ignatova

Резюме: The aim of the present study was to evaluate the status in the red and white blood count, together with the values of some enzymes and metabolites - ALT, AST, ALP, serum iron and glucose in selected animals from a herd of Limousine beef cattle in the middle of two consecutive grazing seasons, with large differences in the average daily temperature, the amount and distribution of precipitation and of the quantity and quality of the grass at the end of its vegetation. The study was conducted in the experimental base "Zlatusha" of the IAS-Kostinbrod with 15 pregnant cows equalized by BCS and age, from which blood samples were taken in July, 2022 and 2023, by venipuncture of the tail vein. The analysis of hematological indicators in whole blood was performed with a 5-Part-Diff Automated Hematology Analyzer URIT-5160, and the analysis of biochemical indicators - in plasma extracted from it with a Semi-automatic Biochemical Analyzer BTS-350. Results are expressed as mean values ± S.E.M. and were analyzed statistically by the analysis of variance (ANOVA) method. Although there was almost no difference in the levels of hematocrit and the number of erythrocytes in the middle of two grazing seasons, in July, 2022, the studied cows had a significantly higher level of hemoglobin than in July, 2023 (P<0.001), which reflected also on the significance of the difference in mean corpuscular hemoglobin (MCH) and mean corpuscular hemoglobin concentration (MCHC) – also at P<0.001. There were no significant differences in leukocyte counts and leukocyte subpopulations and in iron and glucose concentrations in the middle of two consecutive years. ALT and AST enzyme activities were significantly lower (P<0.05), and ALP activity was significantly higher in July, 2022 (P<0.01).

Ключови думи: biochemical indicators; Climate change; hematological indicators; Limousine cows

Цитиране: Yanchev, I., Markov, N., Harizanova-Metodieva, Ts. & Ignatova, M. (2024). Influence of climatic changes on the hematological and biochemical status of a herd of Limousinе cows in the middle of two consecutive grazing seasons. Bulgarian Journal of Animal Husbandry, 61(5), 30-38 (Bg).

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Bezerra, L. R., Oliveira, W. D. C, Silva, T. P. D., Torreão, J. N. C., Marques, C. A. T., Araújo, M. J., Gilany, R. L. K. & Vafakhah, M. (2010). Hypoxia: a Review. Journal of Paramedical Sciences (JPS), 1(2), 43-60 (Eng).
Chang-Fung-Martel, J., Harrison, M. T., Brown, J. N., Rawnsley, R., Smith, A. P. & Meinke, H. (2021). Negative relationship between dry matter intake and the temperature-humidity index with increasing heat stress in cattle: a global meta-analysis. International Journal of Biometeorology, 65(12), 2099-2109 (Eng).
Chrást, V., Langová, L., Novotná, I., Zemanová, M., Vrtková, I., Urban, T. & Havlíček, Z. (2023). Effect of temperature-humidity index on physiological and haematological indicators in dairy cows. Journal of Central European Agriculture, 24(4), 802-808 (Eng).
Cozzi, G., Ravarotto, L., Gottardo, L. F., Stefani, A. L, Contiero, B., Moro, L., Brscic, M. & Dalvit, P. (2011). Short communication: reference values for blood parameters in Holstein dairy cows: effects of parity, stage of lactation, and season of production. J. Dairy Sci., 94(8), 3895-3901 (Eng).
da Silva, M. I., Oli, N., Gambonini, F. & Ott, T. (2024). Effects of parity and early pregnancy on peripheral blood leukocytes in dairy cattle. BioRxiv (Eng)
Đud, D., Gantner, V., Đidara, M., Pavlić, M. & Šperanda, M. (2022). Biochemical and hematological parameters and body condition score of holstein cows under different welfare conditions. Poljoprivreda, 28(2), 66-73 (Eng).
Etim, N. N., Williams, M. E., Akpabio, U. & Offiong, E. E. (2014). Haematological parameters and factors affecting their values. Agricultural science, 2(1), 37-47.
Fernandes, A. F. A., Oliveira, J. A. & Queiroz, S. A. (2016). Body condition score in ruminants. Ars Veterinaria, 32(1), 55-66 (Eng).
Githinji, M. (2023). Assessing influence of rainfall and temperature variability on production performance of sahiwal cattle in semi-arid region of Kenya (Doctoral dissertation, Egerton University).
Gorski, К. & Saba, L. (2012). Changes in the level of selected haematological and biochemical parameters in the blood of dairy cows in Central-Eastern Poland. Acta veterinaria, 62(4), 421-428 (Eng).
Guyot, H., Legroux, D., Eppe, J., Bureau, F., Cannon, L. & Ramery, E. (2024). Hematologic and serum biochemical characteristics of Belgian blue cattle. Veterinary Sciences, 11(5), 222 (Eng).
Kaneko J., Harvey, J. W. & Brus, M. L. (1997). Clinical Biochemistry of Domestic Animals. Academic Press, 932 (Eng).
Koreyba, L. V., Duda, Y. V. & Suslova, N. I. (2023). Seasons dynamics of biochemical parameters of blood of cows during the dry period. Scientific Messenger of LNU of Veterinary Medicine and Biotechnologies. Series: Veterinary Sciences, 25(109), 108-113 (Eng).
Macrae, A. (2017). Interpreting blood haematology/biochemistry in cattle and sheep in the field. Livestock Science, 22(1), 28-32 (Eng).
Mason, N. P. (2000). The physiology of high altitude: an introduction to the cardio-respiratory changes occurring on ascent to altitude. Current Anaesthesia & Critical Care, 11(1), 34-41 (Eng).
Mazzullo, G., Rifici, C., Caccamo, G., Rizzo, M. & Piccione, G. (2014). Effect of different environmental conditions on some haematological parameters in cow. Annals of Animal Science, 14(4), 947-954 (Eng).
McArdle, W. D., Katch, F. I. & Katch, V. L. (2010). Exercise at medium and high altitude. In: Exercise Physiology: Nutrition, Energy, and Human Performance, Lippincott Williams & Wilkins, chapter 24, 592-608 (Eng).
Mortola, J. P. & Frappell, P. B. (2000). Ventilatory responses to changes in temperature in mammals and other vertebrates. Annu. Rev. Physiol., 62, 847-874 (Eng).
Nazifi, S., Ahmadi, M. R. & Gheisari, H. R. (2008). Hematological changes of dairy cows in postpartum period and early pregnancy. Comparative clinical pathology, 17, 157-163 (Eng).
Peli, A., Scagliarini, L., Bergamini, P. F., Prosperi, A., Bernardini, D. & Pietra, M. (2018). Influence of heat stress on the immunity in growing beef cattle. Lucrări Ştiinţifice Medicină Veterinară, Li(2), Timişoara, 65-70.
Radkowska, I. & Herbut, E. (2014). Hematological and biochemical blood parameters in dairy cows depending on the management system. Animal Science Papers & Reports, 32(4) (Eng).
Radostits, O. M., Gay, C. C., Blood, D. C. & Hinchcliff, K. W. (2000). Veterinary Medicine, 9th edn, W.B. Saunders, London, 1819–1822 (Eng).
Rząsa, A., Nowakowski, P., Dobicki, A., Kwaśnicki, R. & Mordak, R. (2007). Effect of adaptation stress on blood indices of Limousine cows. Biotechnology in Animal Husbandry, 23(5-6-2), 9-15 (Eng).
Segura, J. L. M. (2022). Blood hematology and biochemistry in iberian cattle breeds (Master's thesis, Universidade de Lisboa (Portugal).
Wood, D. & Quiroz-Rocha, G. F. (2010). Normal hematology of cattle. In: Schalm’s veterinary hematology. Weiss D.G., Wardrop K.J. (eds), 6th ed. Philadelphia, USA: Wiley Publishing House, 829-835 (Eng).

DOI: https://doi.org/10.61308/SVET5882

Дата на публикуване: 2024-10-24

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