Abstract
Biochemical and haematological measurements were used to identify constraints on productivity in beef cattle. One hundred and twelve Aberdeen Angus and Criollo Argentine females including lactating cows, dry non-pregnant cows and heifers were selected. Blood samples were taken in the middle of summer and autumn. Serum was analysed for haemoglobin, PCV, glucose, albumin, urea, creatinine, Ca, P, Mg, Fe, Cu, ALP, AST, ALT, CK, LDH, Cl∼, Na and K content. Globulin was calculated by taking the difference between total protein and albumin. Percentages of all cattle that had metabolite levels outside reference ranges were: 15% (glucose), 8% (globulin), 5% (urea), 96% (Ca), 50% (P), 12% (Mg), 20% (Na), 5% (K), 24% (Cl), 18% (Fe), 5% (Cu) and 85% (CK). These results indicate with some certainty that dietary protein was not limiting. Body condition score loss was detected only in lactating cows. There were a few animals that could have presented chronic inflammatory disease. Phosphorus could be an important potential constraint on fertility, although the presence of symptoms of hypophosphataemia was not observed. The study also demonstrates the absence of anaemia or liver disease. Breed, seasonal and physiological state differences in some blood metabolites could be attributed to one or more of the following factors: chemical composition of the feed ingested, environmental temperature, nutrient content of the forage, animal age and cattle foraging experience. The study provides a basis for implementing helpful adjustments in current cattle management practices so as to alleviate the constraints on productivity, provided that these practices are profitable.
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Abbreviations
- AA:
-
Aberdeen Angus
- ALP:
-
alkaline phosphatase
- ALT:
-
alanine aminotransferase
- AST:
-
aspartate aminotransferase
- BCS:
-
body condition score
- CA:
-
Criollo Argentine
- CK:
-
creatine kinase
- Hb:
-
haemoglobin
- LDH:
-
lactate dehydrogenase
- PCV:
-
packed cell volume
- SSI:
-
sampling season 1
- SS2:
-
sampling season 2
References
Bide, R.W. and Tumbleson, M.E., 1976. Age related variations in plasma electrolytes of Hereford cattle under range conditions. Comparative Biochemistry and Physiology A - Physiology, 54, 365–371
Di Michele de Rosa, S., Otaiza, V.E. and Valeri, S.H., 1978. Valores hematólogicos y de la química sanguínea en bovinos de los estados Carabobo y Guarico. III. Proteínas serícas, nitrógeno ureico y creatinina. Agronomie Tropicale, 28, 233–248
Ganskopp, D. and Cruz, R., 1999. Selective differences between naive and experienced cattle foraging among eight grasses. Applied Animal Behaviour Science, 62, 293–303
González, F.H.D., 2000. Indicadores sangüineos do metabolismo mineral em ruminantes. In: F.H.D. González, J. Barcellos, H.O. Patino and L.A. Ribeiro (eds), Perfil metabólico em ruminantes. Seu uso em nutrição e doenças nutricionais, (Biblioteca Setorial da Facultade de Medicina Veterinária da UFRGS, Porto Alegre, Brasil), 31–51
Guevara, J.C., Abraham de Vasquez, E.M., Candia, R.J. and Kufner, M.B., 1990. Acción del IADIZA en investigación, conservatión y desarrollo en la llanura mendocina. Terra Arida, 8, 87–170
Hassan, A. and Roussel, J.D., 1975. Effect of protein concentration in the diet and blood composition and productivity of lactating Holstein cows under thermal stress. Journal of Agricultural Science, 85, 409–415
InfoStat, 2002. InfoStat version 1.1, Grupo InfoStat, FCA, (Universidad Nacional de Cordóba, Argentina)
Kaneko, J.J., Harvey, J.W. and Bruss, M.L. (eds), 1997. Clinical Biochemistry of Domestic Animals, (Academic Press, San Diego, CA, USA)
Miñón, D.P., Cahuepé, M.A., Lorenzo, M.S., Colombo, I., Brizuela, M.A. and Miquel, M.C., 1984. Análisis comparative de las dietas de dos razas vacunas en un pastizal de la Depresion del Salado (Buenos Aires). II. Composición química del alimento. Revista Argentina de Producción Animal, 4, 803–814
Moore, F., 1997. Serum chemistry profiles in dairy cows - A herd management tool? Veterinary Medicine, 92,986–991
Otto, F., Vilela, F., Harun, M., Taylor, G., Baggasse, P. and Begin, E., 2000. Biochemical blood profile of Angoni cattle in Mozambique, http://www.isrvma.org/article/553-4.htm
Roussel, J.D., Aranas, T.J. and Seybt, S.H., 1982. Metabolic profiles testing in Holstein cattle in Louisiana: Reference values. American Journal of Veterinary Research, 43, 1658–1660
Schalm, O.W., Jain, N.C. and Carroll, E.J., 1975. Veterinary Hematology, 3rd edn, (Lea and Febiger, Philadelphia, USA)
Shaffer, L.L., Roussel, J.D. and Koonce, K.L., 1981. Effects of age, temperature-season, and breed on blood characteristics of dairy cattle. Journal of Dairy Science, 64, 62–70
Suttle, N., 1993. Overestimation of copper deficiency [Letter]. Veterinary Record, 133, 123–124
Underwood, E.J., 1969. Los minerales en la alimentación del ganado, (Acribia, Zaragoza, Spain)
Whitaker, D.A., 2000. Use and interpretation of metabolic profiles. In: A.H. Andrews (ed.), The Health of Dairy Cattle, (Blackwell Science, Oxford, UK), 89–107
Whitaker, D.A., Kelly, J.M. and Eayres, H.F., 1998. Use and interpretation of metabolic profiles in dairy cows, (Department of Veterinary Clinical Studies, University of Edinburgh, UK)
Whitaker, D.A., Goodger, W.J., Garcia, M., Perera, B.M.A.O. and Wittwer, F., 1999. Use of metabolic profiles in dairy cattle in tropical and subtropical countries on smallholder dairy farms. Preventive Veterinary Medicine, 38, 119–131
Wittwer, F.G., Heuer, G., Contreras, P.A. and Bohmwald, H., 1993. Valores bioquimicos clínicos sanguineos de vacas cursando con decubito en el sur de Chile. Archivos de Medicina Veterinaria, 25, 83–88
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Grünwaldt, E.G., Guevara, J.C., Estévez, O.R. et al. Biochemical and Haematological Measurements in Beef Cattle in Mendoza Plain Rangelands (Argentina). Trop Anim Health Prod 37, 527–540 (2005). https://doi.org/10.1007/s11250-005-2474-5
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DOI: https://doi.org/10.1007/s11250-005-2474-5