[KSCI] Korea Science Citation Index Service

http://dx.doi.org/10.5713/ajas.2003.1285

Influence of Milk Yield, Parity, Stage of Lactation and Body Weight on Urea and Protein Concentration in Milk of Murrah Buffaloes

Roy, B. (Dairy Cattle Breeding Division, National Dairy Research Institute)
Mehla, R.K. (Dairy Cattle Breeding Division, National Dairy Research Institute)
Sirohi, S.K. (Dairy Cattle Nutrition Division National Dairy Research Institute)

Publication Information

Asian-Australasian Journal of Animal Sciences / v.16, no.9, 2003 , pp. 1285-1290 More about this Journal

Abstract

The present study was carried out to investigate the effect of test day milk yield, test day evening milk yield, parity, stage of lactation and body weight on milk urea and milk protein concentration. A total of 319 milk samples was collected from buffaloes over four month's period and subjected to urea and protein analysis. Milk urea concentration (mg/dl) was significantly (p<0.01) increased with increasing test day milk yield. The lowest value ( $57.03{\pm}1.13$ ) was observed in the milk yield group ${\leq}4.5kg/day$ and the highest value ( $64.15{\pm}1.13$ ) in the group 7.7-10.7 kg/day. However, test day evening milk yield had no significant effect on milk urea concentration. Milk protein did not vary significantly with the test day milk yield as well as test day evening milk yield. A clear decreasing trend of milk urea concentration (mg/dl) was found with the increasing parity. The highest MU concentration ( $64.03{\pm}1.14$ ) was found in the first parity and the lowest ( $55.67{\pm}1.22$ ) was found in the sixth and above parity. Whereas, stage of lactation had no effect on milk urea concentration. Moreover, parity and stage of lactation did not have any significant effect on milk protein concentration. Body weight (kg) was also found negatively (p<0.05) related with urea content (mg/dl) in milk. The highest mean MU concentration ( $64.34{\pm}0.88$ ) was found when body weight was between 532 and 598 kg and lower mean values ( $59.24{\pm}0.94$ and $59.33{\pm}1.23$ ) were observed in 599 to 665 kg and ${\geq}666kg$ group. Body weight also had significant (p<0.05) effect on milk protein content. The highest milk protein content (%) was found in ${\geq}666kg$ group and the lowest in <531 kg group. In conclusion, for proper interpretation of milk urea values to monitor protein nutrition status of the buffaloes parity, milk yield and body weight should be considered.

Keywords

Milk Urea; Murrah Buffalo; Milk Protein; Parity; Body Weight; Stage of Lactation;

Citations & Related Records

Times Cited By KSCI : 1 (Citation Analysis)
Times Cited By Web Of Science : 5 (Related Records In Web of Science)
Times Cited By SCOPUS : 5

1	Kramer, C. Y. 1957. Extension of multiple range tests to group correlated adjusted means. Biometrics 13:13-18. DOI ScienceOn
2	Oltner, R., M. Emanuelson and H. Wiktorsson. 1985. Urea concentrations in milk in relation to milk yield, live weight, lactation number and amount and composition of feed given to dairy cows. Livest. Prod. Sci. 12:47-57. DOI ScienceOn
3	All India dairy business directory. 2001. 2nd Ed. Sadana Publishers and distributors, SA-104, Shastrinagar, Ghaziabad, India.
4	Bector, B. S., M. Ram and O. P. Singhal. 1998. Rapid platform test for the detection/determination of added urea in milk. Indian Dairyman 50:59-62.
5	Broderick, G. A. and M. K. Clayton. 1997. A statistical evaluation of animal and nutritional factors influencing concentrations of MU nitrogen. J. Dairy Sci., 80:2964-2971. DOI ScienceOn
6	Erbersdobler, H. F., S. Braasch and E. A. Trautwein. 1990. Concentrations of taurine, urea and free amino acids in milk as influenced by stage of lactation and breed of the cows. J. Anim. Physiol. Anim. Nutri., 63:1-7 (Cited: Dairy Sci. Abst. 54:1061). DOI
7	Ferguson, J. D. and W. Chalupa. 1989. Symposium: Interactions of nutrition and reproduction. Impact of protein nutrition on reproduction in dairy cows. J. Dairy Sci. 72:746-766. DOI ScienceOn
8	Butler, W. R., J. J. Calaman and S. W. Beam. 1996. Plasma or milk urea nitrogen in relation to pregnancy rate in lactating dairy cattle. J. Anim. Sci. 74:858-865.
9	Reinartz, M. and W. Hofmann. 1989. Serum urea estimation in dairy herds. Praktische Tierarzt 70:22-28 (Cited: Dairy Sci. Abst. 52: 752).
10	Moore, D. A. and G. Verga. 1996. BUN and MUN: Urea nitrogen testing in dairy cattle. Comp. Cont. Edu. Pract. Vet. 18:712-721.
11	Sauvant, D., P. Bas, M. F. Mahe, P. Morand-Fehr and N. Mandran. 1992. Relationship between the type of $\alpha_S1$ -casein and the urea content of blood and milk of goat. Annales de Zootechnie 41:103-104 (Cited: Dairy Sci. Abst., 54: 933). DOI
12	Gooden, S. M., D. F. Kelton, K. D. Lisssemore, J. S. Walton, K. E. Leslie and J. H. Lumsden. 2001. Milk urea testing as a tool to monitor reproductive performance in Ontario dairy herds. J. Dairy Sci. 84:1397-1406. DOI ScienceOn
13	Kaim, M., Y. Folman and H. Neumark. 1983. The effect of protein intake and lactation number on post-partum body weight loss and reproductive performance of dairy cows. Ani. Prod. 37: 229-235. DOI
14	Hwang, S. Y., M. J. Lee and P. W. Chiou. 2000. Monitoring nutritional status of dairy cows in Taiwan using milk protein and milk urea nitrogen. Asian-Aust. J. Anim. Sci. 13(12):1667-1673. DOI
15	McDonald, P., R. A. Edwards, J. F. D. Greenhalgh and C. A. Morgan. 1995. Animal Nutrition, 5th Ed. Addison Wesley Lonman, Edinburgh Gate, Harlow, Essex CM202JE, United Kingdom.
16	Chalupa, W. 1984. Discussion of protein symposium. J. Dairy Sci. 67: 1134-1146. DOI
17	Coustumier, J. L. E. 1996. The balance of ration is not the whole story. Production Laitiere Moderne 261:96-97 (Cited: Dairy Sci. Abst., 59: 347).
18	Diab Ismail, A. K. and J. K. Hillers. 1996. Effect of selection for milk yield and dietary energy on yield traits, bovine somatotropin and plasma urea nitrogen in dairy cows. J. Dairy Sci. 79:682-688. DOI ScienceOn
19	Pecorari, M., M. S. Mariani, M. G. Calzolari and G. Tedeschi. 1993. Urea content in milk: Variations and relationships with technological parameters. Scienzae Tecnica Lattiero-Casearia 44:144-154 (Cited: Dairy Sci. Abst. 55:1001).
20	Rajcevic, M., I. Jazbec and M. Ponikvas. 1993. Urea in milk and blood as indicator of nutritive matter supply in high-yielding dairy cows. Zbornik Biotehniske Fakultete Univerze Edvasda Kardelja V Ljubljani, Kmetijstvo 62:179-184 (Cited: Dairy Sci. Abst. 57:498).
21	Carlsson, J., J. Bergstrom and B. Pehrson. 1995. Variations and breed, age, season, yield, stage of lactation and herd in the concentration of urea in bulk milk and individual cow's milk. Acta Veterinaria Scandinavica 36:245-254.
22	Canfield, D. A., C. J. Sniffen and W. Butler. 1990. Effects of excess degradable protein on postpartum reproduction and energy balance in dairy cattle. J. Dairy Sci. 73:2342-2349. DOI ScienceOn
23	Ndibualonji, B. B. and J. M. Godeau. 1993. Changes in plasma amino acids, urea and glucose in relation to the end of gestation and the onset of lactation in low yielding dairy cows. Mededelingen Vande Faculteit Land bouwwetenschappen, Universitiet Gent 58:1713-1717 (Cited: Dairy Sci. Abst. 58:7).
24	Roseler, D. K., J. D. Ferguson, C. J. Sniffen and J. Heremma. 1993. Dietary protein degradability effects on plasma and Milk Urea nitrogen and milk non-protein nitrogen in Holstein cows. J. Dairy Sci. 76:525-534. DOI ScienceOn
25	Zadnik, T., M. V. Nemec, Cadonic-Spelic and M. Klinkon. 1993. Urea concentration in samples of bulk tank milk. In: Prvi Slovenski Veterinarski Kongres. Portoroz 18-20 November 1993 (Cited: Dairy Sci. Abst. 57: 223).
26	Dhali, A. 2001. Studies on the effect of feeding management systems on blood and milk urea concentration in dairy cattle. Ph.D thesis. National Dairy Research Institute (Deemed University), Karnal, India.
27	Whitaker, D. A., J. M. Kelly and H. F. Eayros. 1995. Assessing dairy cow diets through milk urea tests. Vet. Rec., 136: 179-180.
28	Kalchreuter, R. 1990. Advantages of urea estimation in milk. Tierzuchter 42: 352-354 (Cited: Dairy Sci. Abst. 55:913).
29	Pestevsek, U., D. Likosar, J. Zust and A. Vengust. 1990. Use of Milk Urea test to detect malnutrition in dairy cows. Zbornik Veterinarske Fakultete Univerza Ljubljana 27:139-148 (Cited: Dairy Sci. Abst. 54:5).
30	Qureshi, S. M., G. Habib, H. A. Samad, M. M. Siddiqui, N. Ahmad, and M. Syed. 2002. Reproduction-Nutrition relationship in dairy buffaloes. I. Effect of intake of protein, energy and blood metabolites levels. Asian-Aust. J. Anim. Sci. 15(3):330-339. DOI
31	Hof, G., M. D. Vervoorn, P. J. Lenacrs and S. Tamminga. 1997. Milk urea nitrogen as a tool to monitor the protein nutrition of dairy cows. J. Dairy Sci. 80:3333-3340. DOI ScienceOn
32	Schepers, A. J. and R. G. M. Meijer. 1998. Evaluation of the utilization of dietary nitrogen by dairy cows based on urea concentration in milk. J. Dairy Sci. 81:579-584. DOI ScienceOn
33	AOAC. 1995. Official methods for analysis. Association of Official Analytical Chemists, Washington, DC, USA.
34	Gustafsson, A. H. and D. L. Palmquist. 1993. Diurnal variation of rumen ammonia, serum urea and milk urea in dairy cows at high and low yields. J. Dairy Sci. 76:475-484. DOI ScienceOn
35	Harvey, W. B. 1987. User's Guide for LSMLMW, mixed model least-squares and maximum likelihood computer program, PC-1 Version, Mimeograph, Ohio State University, Ohio, USA.

4	Shaowei ZHAI. (2007) Animal Science Journal Predicting urinary nitrogen excretion by milk urea nitrogen in lactating Chinese Holstein cows / 78 (4) , 395
3	Paula Marques Meyer. (2012) Revista Brasileira de Saúde e Produção Animal Validação de modelos de predição das concentrações de nitrogênio ureico no leite do rebanho de vacas holandesas / 13 (3) , 860
12	(2017) Animal Science Journal ) during the transition period / 88 (12) , 2025
7	(2018) Tropical Animal Health and Production Efficacy of different methods for detecting the onset of ovarian cyclicity in post-partum Murrah buffaloes / 50 (7) , 1559
12	(2003) Journal of dairy science Genetic analysis of milk urea concentration and its genetic relationship with selected traits of interest in dairy cows / 104 (12) , 12741
9	H. M. Khan. (2011) Asian-Australasian journal of animal sciences Relationship of Blood Metabolites with Reproductive Parameters during Various Seasons in Murrah Buffaloes / 24 (9) , 1192
6	(2003) Animals The Capacity of Holstein-Friesian and Simmental Cows to Correct a Negative Energy Balance in Relation to Their Performance Parameters, Course of Lactation, and Selected Milk Components / 11 (6) , 1674

1	/ Asian-Australasian Journal of Animal Sciences
2	/ Asian-Australasian Journal of Animal Sciences
3	/ Asian-Australasian Journal of Animal Sciences
4	/ Animal Science Journal
5	/ Asian Journal of Animal and Veterinary Advances