Hostname: page-component-848d4c4894-p2v8j Total loading time: 0 Render date: 2024-05-08T14:58:36.446Z Has data issue: false hasContentIssue false
  • English
  • Français

Effect of milking interval on secretion rate and composition of camel milk in late lactation

Published online by Cambridge University Press:  01 June 2009

Muhammad A. Alshaikh  and
Mahmoud S. Salah
Muhammad A. Alshaikh
Affiliation:
Department of Animal Production, College of Agriculture, King Saud University, PO Box 2460, Riyadh 11451, Saudi Arabia
Mahmoud S. Salah
Affiliation:
Department of Animal Production, College of Agriculture, King Saud University, PO Box 2460, Riyadh 11451, Saudi Arabia
Get access Rights & Permissions [Opens in a new window]

Summary

The effect of milking interval on secretion rates of milk and milk constituents was studied in four milking camels during late lactation. An interval of 4 h produced the highest milk secretion rate compared with 8, 12 and 16 h intervals, and rates tended to decline with increasing milking intervals. Secretion rates of organic (lactose, SNF, fat and protein) and inorganic milk constituents (sodium, potassium, calcium and magnesium) generally followed similar patterns of decreasing secretion with increasing milking intervals. Many of the values for different intervals were significantly different.

Type
Original articles
Information
Journal of Dairy Research , Volume 61 , Issue 4 , November 1994 , pp. 451 - 456
Copyright
Copyright © Proprietors of Journal of Dairy Research 1994

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

REFERENCES

Abu-Lehia, I. H. 1987 Composition of camel milk. Milchwissenschaft 42 368371Google Scholar
Al-Shaikh, M. A. 1991 Milk Micro Components During Natural and Induced Galactopoiesis in Ruminants. PhD Thesis, University of NottinghamGoogle Scholar
Amos, H. E., Kiser, T. & Loewenstein, M. 1985 Influence of milking frequency on productive and reproductive efficiencies of dairy cows. Journal of Dairy Science 68 732739CrossRefGoogle ScholarPubMed
Bachmann, M. R. & Schulthess, W. 1987 Lactation of camels and composition of camel milk in Kenya. Milchwissenschaft 42 766768Google Scholar
Baǐmukanov, A. 1974 [Machine milking of female camels.] Proceedings of the Third All-Union Symposium on Physiological Principles of Machine Milking, Borovsk, USSR, 1972, pp. 6768Google Scholar
Desai, H. K., Patel, J. N., Pandya, A. J., Upadhyay, K. G. & Vyas, S. H. 1982 Composition of camels' milk. Gujarat Agricultural University Research Journal 7 131132Google Scholar
Elamin, F. M. & Wilcox, C. J. 1992 Milk composition of Majaheim camels. Journal of Dairy Science 75 31553157CrossRefGoogle ScholarPubMed
El-Bahay, G. M. 1962 Normal contents of Egyptian camel milk. Veterinary Medical Journal 8 (9) 718Google Scholar
Elliott, G. M. 1959 The effect on milk yield of the length of milking intervals used in twice a day milking, twice and three times a day milking and incomplete milking. Dairy Science Abstracts 21 481490Google Scholar
Evans, J. O. & Powys, J. G. 1980 Camel husbandry to increase the productivity of ranchland. In Workshop on Camels, pp. 241250. Islamabad, Pakistan: IFS (International Foundation for Science Provisional Report no. 6)Google Scholar
Henderson, A. J., Blatchford, D. R. & Peaker, M. 1983 The effects of milking thrice instead of twice daily on milk secretion in the goat. Quarterly Journal of Experimental Physiology 68 645652CrossRefGoogle ScholarPubMed
Henderson, A. J., Blatchford, D. R. & Peaker, M. 1985 The effects of long-term thrice-daily milking on milk secretion in the goat: evidence for mammary growth. Quarterly Journal of Experimental Physiology 70 557565CrossRefGoogle ScholarPubMed
Hillerton, J. E., Knight, C. H., Turvey, A., Wheatley, S. D. & Wilde, C. J. 1990 Milk yield and mammary function in dairy cows milked four times daily. Journal of Dairy Research 57 285294CrossRefGoogle ScholarPubMed
Knight, C. H., Fowler, P. A. & Wilde, C. J. 1990 Galactopoietic and mammogenic effects of long-term treatment with bovine growth hormone and thrice daily milking in goats. Journal of Endocrinology 127 129138CrossRefGoogle ScholarPubMed
Knoess, K. H. 1977 The camel as a meat and milk animal. World Animal Review no. 22 3944Google Scholar
Knoess, K. H. 1980 Milk production of the dromedary. In Workshop on Camels, pp. 201214. Islamabad, Pakistan: IFS (International Foundation for Science Provisional Report no. 6)Google Scholar
Linzell, J. L. & Peaker, M. 1971 The effects of oxytocin and milk removal on milk secretion in the goat. Journal of Physiology 216 717734CrossRefGoogle ScholarPubMed
Matthews, C. A., Swett, W. W. & Fohrman, M. H. 1949 Weight and capacity of the dairy cow udder in relation to producing ability, age and stage of lactation. Washington, DC: US Department of Agriculture (Technical Bulletin no. 989)Google Scholar
Ministry Of Agriculture And Water 1990 Agricultural Statistical Year Book. Riyadh: Department of Economic Studies and Statistics, Kingdom of Saudi ArabiaGoogle Scholar
Morton, R. H. 1984 Camels for meat and milk production in sub-Sahara Africa. Journal of Dairy Science 67 15481553CrossRefGoogle Scholar
Oftedal, O. T. 1984 Milk composition, milk yield and energy output at peak lactation: a comparative review. In Physiological Strategies in Lactation, pp. 3385 (Eds M. Peaker R. G. Vernon and C. H. Knight). (Symposium of the Zoological Society of London no. 51)Google Scholar
Ohri, S. P. & Joshi, B. K. 1961 Composition of milk of camel. Indian Veterinary Journal 38 514516Google Scholar
Pearson, R. E., Fulton, L. A., Thompson, P. D. & Smith, J. W. 1979 Three times a day milking during the first half of lactation. Journal of Dairy Science 62 19411950CrossRefGoogle Scholar
Rao, I. V. & Ludri, R. S. 1984 Effect of increasing milking frequency on the efficiency of milk production and its organic constituents in crossbred cows. Indian Journal of Animal Sciences 54 3337Google Scholar
Rao, M. B., Gupta, R. C. & Dastur, N. N. 1970 Camels' milk and milk products. Indian Journal of Dairy Science 23 7178Google Scholar
Sas 1985 SAS User's Guide: Statistics, version 5. Cary, NC: SAS Institute.Google Scholar
Sawaya, W. N., Khalil, J. K., Al-Shalhat, A. & Al-Mohammad, H. 1984 Chemical composition and nutritional quality of camel milk. Journal of Food Science 49 744747CrossRefGoogle Scholar
Schmidt, G. H. 1960 Effect of milking intervals on the rate of milk and fat secretion. Journal of Dairy Science 43 213219CrossRefGoogle Scholar
Tucker, H. A., Reece, R. P. & Mather, R. E. 1961 Udder capacity estimates as affected by rate of milk secretion and intramammary pressure. Journal of Dairy Science 44 17251732CrossRefGoogle Scholar
Turner, H. G. 1955 Changes in capacity of the udder of the dairy cow during course of lactation. Australian Journal of Agricultural Research 6 145160CrossRefGoogle Scholar
Van Der Iest, R. & Hillerton, J. E. 1989 Short-term effects of frequent milking of dairy cows. Journal of Dairy Research 56 587592CrossRefGoogle ScholarPubMed
Wheelock, J. V., Rook, J. A. F., Dodd, F. H. & Griffin, T. K. 1966 The effect of varying the interval between milkings on milk secretion. Journal of Dairy Research 33 161176CrossRefGoogle Scholar
Wilde, C. J., Henderson, A. J., Knight, C. H., Blatchford, D. R., Faulkner, A. & Vernon, R. G. 1987 Effects of long-term thrice-daily milking on mammary enzyme activity, cell population and milk yield in the goat. Journal of Animal Science 64 533539CrossRefGoogle ScholarPubMed
Yagil, R. 1982 Camels and Camel Milk, pp. 1419. Rome: FAO (FAO Animal Production and Health Paper no. 26)Google Scholar
Yagil, R. & Etzion, Z. 1980 Effect of drought condition on the quality of camel milk. Journal of Dairy Research 47 159166CrossRefGoogle Scholar
Yasin, S. A. & Wahid, A. 1957 Pakistan camels: a preliminary survey. Agriculture Pakistan 8 289297Google Scholar