Browse > Article
http://dx.doi.org/10.5187/JAST.2005.47.1.011

Comparison of Milk Composition and Blood Metabolites Between High and Low Milk Producing Cows  

Ahn, B.S. (National Livestock Research Institute, R.D.A.)
Kwon, E.G. (National Livestock Research Institute, R.D.A.)
Suh, G.H. (National Livestock Research Institute, R.D.A.)
Lee, H.J. (National Livestock Research Institute, R.D.A.)
Park, B.K. (National Livestock Research Institute, R.D.A.)
Publication Information
Journal of Animal Science and Technology / v.47, no.1, 2005 , pp. 11-18 More about this Journal
Abstract
The objective of this study was to estimate the effects of daily milk yield, somatic cell count(SCC), days in milk(DIM), and parity on the compositions of milk and blood in high or low producing dairy cows. To divide the high or low producing group, there were some restrictions in this study. 235 Holstein dairy cows had a average daily milk yield of 23.2 $\pm$ 6.8 kg were grouped into two classes with low producing(average daily milk 17kg) or high producing(average daily milk 29 kg). The other restrictions were two parities(first and second parity), two SCC groups(under $l{\times}10^5$cells/ml, and $l{\times}10^5$ to $7{\times}10^5$ celis/ml), and three DIM groups(under 80, 81 to 180, and 181 to 305DIM). The blood urea nitrogen(BUN), milk urea nitrogen(MUN) and glucose between two group with high and low somatic cell count were not affected by parity, DIM and SCC. But there were significantly different on BUN and glucose between high and low milk producing(p< 0.01), also was different on glucose between parities(p < 0.05). White blood cell(WBC) and lymphocyte were affected(p< 0.05) by SCC level, protein percent was also affected by DIM(p< 0.01). The least square means of protein in second parity was a 1.3 times higher than that in first parity(p < 0.05), and it showed a higher level in the low producing group than the high producing group(p < 0.0l). WBC and lymphocyte were lower in the $1{\sim}7{\times}10^5$ celis/ml than those under $1{\times}10^5$ celis/ml(p< 0.05). Neutrophil was a higher level in first parity than that in second parity(p < 0.05). Only protein and total solid were affected by parity, the other compositions were not affected by parity, DIM, SCC and milk yields. The results suggested that significant differences were in the blood components such as glucose, WBC, lymphocyte and neutrophil between high and low producing cows. The results also show that more studies are required to clarify the factors and markers related to milk yield, quality and mastitis.
Keywords
High and low milk yield; SCC; BUN; MUN; Glucose; WBC; Lymphocyte; Neutrophil; IgG;
Citations & Related Records
연도 인용수 순위
  • Reference
1 Heringstad, B., Klemetsdal, G. and Steine, T. 2003. Selection responses for clinical mastitis and protein yield in two Norwegian dairy selection experiments. J. Dairy Sci. 86:2990-2999   DOI   ScienceOn
2 Amaral, D. M., Veenhuizen, J. J., Drackley, J. K., Cooley, M. H., McGilliard, A. D. and Young, J. W. 1990. Metabolism of propionate, glucose, and carbon dioxide as affected by exogenous glucose in dairy cows at energy equilibrium. J. Dairy Sci. 73:1244-1254   DOI
3 Annison, E. F., Bickerstaffe, R. and Linzell, J. L. 1974. Glucose and fatty acid metabolism in cows producing milk of low fat content. J. Agric. Sci. 82:87-95   DOI
4 Bellmann, O., Wegnera, J., Rehfeldta, C., Teuschera, E., Schneidera, E., Voigta, J., Demoa, M., Sauerweinb, H., Weingartnera, J. and Ender, K. 2004. Beef versus dairy cattle: a comparison of metabolically relevant hormones, enzymes, and metabolites. Livest. Prod. Sci. 89:41-54   DOI   ScienceOn
5 Broderick, G. A. and Clayton, M. K. 1997. A statistical evaluation of animal and nutritional factors influencing concentrations of milk urea nitrogen. J. Dairy Sci. 80:2964-2971   DOI   ScienceOn
6 Hart, I. C., Bines, J. A., Balch, C. C. and Cowie, A. T. 1975. Hormone and metabolite differences between lactating beef and dairy cattle. Life Sci. 16(8): 1285-1291   DOI   ScienceOn
7 Holtenius K., Persson Waller, K., Essen-Gustavsson, B., Holtenius, P. and Hallen Sandgren, C. 2004. Metabolic parameters and blood leukocyte profiles in cows from herds with high or low mastitis incidence. Vet. J. 168:65-73   DOI
8 Kehrli, M. E. Jr., Weigel, K. A., Freeman, A. E., Thurston, J. R. and Kelley, D. H. 1991. Bovine sire effects on daughters' in vitro blood neutrophil functions, lymphocyte blastogenesis, serum complement and conglutinin levels. Vet. Immunol. Immunopathol. 27(4):303-319   DOI   ScienceOn
9 Knowlton K. F., Dawson, T. E., Glenn, B. P., Huntington, G. B. and Erdman. A. 1998. Glucose metabolism and milk yield of cows infused abomasally or ruminally with starch. J. Dairy Sci. 81:3248-3258   DOI   ScienceOn
10 Meglia, G. E., Johannisson, A., Agenas, S., Holtenius, K. and Waller, K. P. 2004. Effects of feeding intensity during the dry period on leukocyte and lymphocyte sub-populations, neutrophil function and health in periparturient dairy cows. Vet. J. xxx(2004) xxx-xxx
11 Miles, L. E. M., Lipschitz, D. A.. Bieber, C. P. and Cook, J. 1974. Measurement of serum ferritin by a 2-site immunoradiometric assay. Analyt. Biochem. 61:209-224   DOI   ScienceOn
12 Snijders S. E. M., Dillon, P. G., Farrell, K. J.. Diskin, M., Wylie, A. R. G., O'Callaghan, D.. Rath, M. and Boland, M. P. 2001. Genetic merit for milk production and reproductive success in dairy cows. Anim. Rep. Sci. 65: 17-31   DOI   ScienceOn
13 Dhiman, T. R., Cadorniga, C. and Satter, L. D. 1993. Protein and energy supplementation of high alfalfa silage diets during early lactation. J. Dairy Sci. 76:1945-1959   DOI   ScienceOn
14 Brockman, R. and Bergman, E. M. 1975. Effect of glucagons on plasma alanine and glutamine metabolism and hepatic gluconeogenesis in sheep. Am. J. Physiol. 228:1628-1633
15 Clark, J. H., Spires, H. R., Derrig, R. G. and Bennink, M. R. 1977. Milk production, nitrogen utilization and glucose synthesis in lactating cows infused postruminally with sodium caseinate and glucose. J. Nutr. 107:631-644   DOI
16 Veerkamp R. F., Beerda, B. and van der Lende, T. 2003. Effects of genetic selection for milk yield on energy balance, levels of hormones, and metabolites in lactating cattle, and possible links to reduced fertility. Lives. Prod. Sci. 83:257-275   DOI   ScienceOn
17 West, J. W. 2003. Effects of heat-stress on production in dairy cattle. J. Dairy Sci. 86:2131-2144   DOI   ScienceOn
18 Wood, G. M., Boetcher, P. J., Jarnrozik, J., Jansen, G. B. and Kelton, D. F. 2003. Estimation of genetic parameters for concentrations of milk urea nitrogen. J. Dairy Sci. 86:2462-2469   DOI   ScienceOn
19 전기준. 2003. 한우 혈액성분과 경제형질에 대한 표현형 상관과 유전모수 추정에 관한 연구. 강원대학교 대학원 박사학위논문
20 Lukes A. J., Barnes, M. A. and Pearson, R. E. 1989. Response to selection for milk yield and metabolic challenges in primiparous dairy cows. Dom. Anim. Endocrinol. 6(4):287-298   DOI   ScienceOn