Hostname: page-component-586b7cd67f-rdxmf Total loading time: 0 Render date: 2024-11-23T00:02:01.990Z Has data issue: false hasContentIssue false

Milk progesterone profiles and their relationship with fertility, production and disease in dairy cows in Northern Ireland

Published online by Cambridge University Press:  09 March 2007

M. A. McCoy*
Affiliation:
Veterinary Sciences Division, Department of Agriculture and Rural Development, Stoney Road, Stormont, Belfast, BT4 3SD, UK
S. D. Lennox
Affiliation:
Biometrics Division, Department of Agriculture and Rural Development, Newforge Lane, Belfast, BT9 5PX, UK Department of Biometrics, School of Agriculture and Food Science, The Queen's University of Belfast, Newforge Lane, Belfast, BT9 5PX, UK
C. S. Mayne
Affiliation:
Agricultural Research Institute of Northern Ireland, Hillsborough, Co. Down BT26 6DR, UK
W. J. McCaughey
Affiliation:
Agricultural Research Institute of Northern Ireland, Hillsborough, Co. Down BT26 6DR, UK
H. W. J. Edgar
Affiliation:
Veterinary Sciences Division, Department of Agriculture and Rural Development, Stoney Road, Stormont, Belfast, BT4 3SD, UK
D. C. Catney
Affiliation:
Department of Biometrics, School of Agriculture and Food Science, The Queen's University of Belfast, Newforge Lane, Belfast, BT9 5PX, UK
M. Verner
Affiliation:
Agricultural Research Institute of Northern Ireland, Hillsborough, Co. Down BT26 6DR, UK
D. R. Mackey
Affiliation:
Agricultural Research Institute of Northern Ireland, Hillsborough, Co. Down BT26 6DR, UK
A. W. Gordon
Affiliation:
Biometrics Division, Department of Agriculture and Rural Development, Newforge Lane, Belfast, BT9 5PX, UK
*
Get access

Abstract

A detailed investigation was conducted to identify the main factors influencing the current poor reproductive performance in dairy herds in Northern Ireland. Nineteen herds were selected and a comprehensive database was established, comprising detailed information collected over a 2-year period. Milk progesterone monitoring (no.=1423 cows), based on twice weekly sampling, was included in this on-farm investigation. The mean interval from calving to commencement of luteal activity was 30·1 days and 13·4% (184/1378) of these cows had not commenced luteal activity by day 50 post partum. In addition, there was a high incidence of abnormal progesterone profiles: delayed ovulation type I; 15·6% (242/1388), delayed ovulation type II; 11·7% (125/965), persistent corpus luteum type I; 19·4% (212/1121) and persistent corpus luteum type II; 11·9% (70/619). Delayed commencement of luteal activity and abnormal profiles were associated with reduced fertility performance manifested as increased interval to first AI service and ultimately prolonged calving interval. Delayed commencement of luteal activity and abnormal progesterone profiles, with the exception of ‘delayed ovulation type II’ profiles, were not associated with lower conception rates. Assistance at calving was associated with delayed commencement of luteal activity. Delayed commencement of luteal activity and delayed ovulation types I and II profiles were associated with indicators of nutritional stress and poorer production performance in early lactation. Retained foetal membranes were strongly associated with prolonged luteal phases (persistent corpus luteum types I and II profiles). While hormonal therapy may prove useful in treating cows with abnormal milk progesterone profiles, the prevention and treatment of associated diseases and the implementation of good management practices are likely to be more rewarding.

Type
Research Article
Copyright
Copyright © British Society of Animal Science 2006

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

Bajema, D. H., Hoffman, M. P., Aitchison, T. E. and Ford, S. P. 1994. Use of cow-side progesterone tests to improve reproductive-performance of high-producing dairy-cows. Theriogenology 42: 765771.CrossRefGoogle ScholarPubMed
Ball, P. J. H. and McEwan, E. E. A. 1998. The incidence of prolonged luteal function following early resumption of overian activity on post partum dairy cows. Proceedings of the British Society of Animal Science, 1998, p. 187 (abstr.).Google Scholar
Beam, S. W. and Butler, W. R. 1997. Energy balance and ovarian follicle development prior to the first ovulation postpartum in dairy cows receiving three levels of dietary fat. Biology of Reproduction 56: 133142.CrossRefGoogle Scholar
Beam, S. W. and Butler, W. R. 1998. Energy balance, metabolic hormones, and early postpartum follicular development in dairy cows fed prilled lipid. Journal of Dairy Science 81: 121131.CrossRefGoogle ScholarPubMed
Borsberry, S. and Dobson, H. 1989. Periparturient diseases and their effect on reproductive performance in five dairy herds. Veterinary Record 124: 217219.CrossRefGoogle ScholarPubMed
Bulman, D. C. and Lamming, G. E. 1978. Milk progesterone levels in relation to conception, repeat breeding and factors influencing acyclicity in dairy cows. Journal of Reproduction and Fertility 54: 447458.Google Scholar
Butler, W. R. 1998. Review: effect of protein nutrition on ovarian and uterine physiology in dairy cattle. Journal of Dairy Science 81: 25332539.CrossRefGoogle ScholarPubMed
Butler, W. R., Everett, R. W. and Coppock, C. E. 1981. The relationship between energy balance, milk production and ovulation in postpartum Holstein cows. Journal of Animal Science 53: 742748.CrossRefGoogle ScholarPubMed
Butler, W. R. and Smith, R. D. 1989. Interrelationships between energy balance and postpartum reproductive function in dairy cattle. Journal of Dairy Science 72: 767783.CrossRefGoogle ScholarPubMed
Darwash, A. O., Lamming, G. E. and Woolliams, J. A. 1997a. Estimation of genetic variation in the interval from calving to postpartum ovulation of dairy cows. Journal of Dairy Science 80: 12271234.CrossRefGoogle ScholarPubMed
Darwash, A. O., Lamming, G. E. and Woolliams, J. A. 1997b. The phenotypic association between the interval to post-partum ovulation and traditional measures of fertility in dairy cattle. Animal Science 65: 916.CrossRefGoogle Scholar
Darwash, A. O., Lamming, G. E. and Woolliams, J. A. 1999. The potential for identifying heritable endocrine parameters associated with fertility in post-partum dairy cows. Animal Science 68: 333347.CrossRefGoogle Scholar
Dematawewa, C. M. B. and Berger, P. J. 1997. Effect of dystocia on yield, fertility, and cow losses and an economic evaluation of dystocia scores for Holsteins. Journal of Dairy Science 80: 754761.CrossRefGoogle Scholar
De Vries, M. J. and Veerkamp, R. F. 2000. Energy balance of dairy cattle in relation to milk production variables and fertility. Journal of Dairy Science 83: 6269.CrossRefGoogle ScholarPubMed
Eiler, H. 1997. Retained Placenta. In Current therapy in large animal theriogenology (ed. Youngquist, R. S.), pp. 340348, W.B. Saunders Company, Philadelphia.Google Scholar
El-Din. Zain, A., Nakao, T., Abdel Raouf, M., Moriyoshi, M., Kawata, K. and Moritsu, X. 1995. Factors in the resumption of ovarian activity and uterine involution in postpartum dairy cows. Animal Reproduction Science 38: 203214.CrossRefGoogle Scholar
Esslemont, R.J. and Kossaibati, M.A. 2002. Trends in production diseases in UK dairy herds over 10 seasons. In Dairy research report no.5: the costs of poor fertility and disease in UK dairy herds, pp. 4366. Intervet UK Limited, Milton Keynes.Google Scholar
Fagan, J. G. and Roche, J. F. 1986. Reproductive activity in postpartum dairy cows based on progesterone concentrations in milk or rectal examinations. Irish Veterinary Journal 40: 124131.Google Scholar
Fonseca, F. A., Britt, J. H., McDaniel, B. T., Wilk, J. C. and Rakes, A. H. 1983. Reproductive traits of Holsteins and Jerseys. Effects of age, milk yield, and clinical abnormalities on involution of cervix and uterus, ovulation, oestrus cycles, detection of estrus, conception rate and days open. Journal of Dairy Science 66: 11281147.CrossRefGoogle ScholarPubMed
Genstat. 2000. In The guide to Genstat for Windows, 5th edition release 4.2 edition. VSN International Ltd, Oxford.Google Scholar
Grohn, Y. T. and Rajala-Schultz, P. J. 2000. Epidemiology of reproductive performance in dairy cows. Animal Reproductive Science 60–61: 605614.CrossRefGoogle ScholarPubMed
Heap, R. B., Holds worth, R. J., Gadsby, J. E., Laing, J. A. and Walters, D. E. 1976. Pregnancy diagnosis in the cow from milk progesterone concentration. British Veterinary Journal 132: 445464.CrossRefGoogle ScholarPubMed
Heuwieser, W., Tenhagen, B.-A., Tischer, M., Luhr, J. and Blum, H. 2000. Effect of three programmes for the treatment of endometritis on the reproductive performance of a dairy herd. Veterinary Record 146: 338341.Google Scholar
Huszenicza, G., Fodor, M., Gacs, M., Kulcsar, M., Dohmen, M. J. W., Vamos, M., Porkolab, L., Kegl, T., Bartyik, J., Lohuis, J. A. C. M., Janosi, S. and Szita, G. 1999. Uterine bacteriology, resumption of cyclic ovarian activity and fertility in postpartum cows kept in large-scale dairy herds. Reproduction in Domestic Animals 34: 237245.CrossRefGoogle Scholar
Kindahl, H., Bekana, M., Kask, K., Konigsson, K., Gustafsson, H. and Odensvik, K. 1999. Endocrine aspects of uterine involution in the cow. Reproduction in Domestic Animals 34: 261268.CrossRefGoogle Scholar
Lamming, G. E. and Bulman, D. C. 1976. The use of milk progesterone radioimmunoassay in the diagnosis and treatment of subfertility in dairy cows. British Veterinary Journal 132: 507517.Google Scholar
Lamming, G. E. and Darwash, A. O. 1998. The use of milk progesterone profiles to characterise components of subfertility in milked dairy cows. Animal Reproduction Science 52: 175190.CrossRefGoogle ScholarPubMed
Loeffler, S. H., DeVries, M. J. and Schukken, Y. H. 1999. The effects of time of disease occurrence, milk yield and body condition on fertility of dairy cows. Journal of Dairy Science 82: 25892604.Google Scholar
Lopez-Gatius, F., Murugavel, K., Santolaria, P., Yanis, J. and Lopez-Bejar, M. 2003. Effects of presynchronization during the preservice period on subsequent ovarian activity in lactating dairy cows. Theriogenology 60: 545552.Google Scholar
Lucy, M. C. 2001. Reproductive loss in high-producing dairy cattle: where will it end. Journal of Dairy Science 84: 12771293.Google Scholar
McCaughey, W. J. and Cooper, R. J. 1980. An assessment by progesterone assay of the accuracy of oestrus detection in dairy cows. Veterinary Record 107: 508510.Google Scholar
McCoy, M. A., Lennox, S. D., Mayne, C. S., McCaughey, W. J., Verner, M., Catney, D. C., Wylie, A. R. G., Kennedy, B. and Gordon, F. J. 2001. An investigation into the relationship between milk progesterone in fore-milk and composite milk samples. In Fertility in the high producing dairy cow (ed. Diskin, M. G.), British Society of Animal Science occasional publication no. 26, (Vol. 2) pp. 471473.Google Scholar
Mangurkar, B. R., Hayes, J. F. and Moxley, J. E. 1984. Effects of calving ease-calf survival on production and reproduction on Holsteins. Journal of Dairy Science 67: 14961509.CrossRefGoogle ScholarPubMed
Markusfeld, O. 1987. Inactive ovaries in high-yielding dairy cows before service: aetiology and effect on conception. Veterinary Record 121: 149153.Google Scholar
Mayne, C. S., McCoy, M. A., Lennox, S. D., Mackey, D. R., Verner, M., Catney, D. C., McCaughey, W. J., Wylie, A. R. G., Kennedy, B. W. and Gordon, F. J. 2002. An investigation of fertility performance in dairy herds in Northern Ireland. Veterinary Record 150: 707713.Google Scholar
Morton, J. 2000. Section 6: Factors affecting individual cows. In The incalf project: progress report no.2, pp. 4449. Dairy Research and Development Corporation, Melbourne.Google Scholar
Nakao, T., Moriyoshi, M. and Kawata, K. 1992. The effect of postpartum ovarian dysfunction and endometritis on subsequent reproductive-performance in high and medium producing dairy cows. Theriogenology 37: 341349.Google Scholar
Opsomer, G., Coryn, M. and De Kruif, A. 1999. Measurement of ovarian cyclicity in the post partum dairy cow by progesterone analysis. Reproduction in Domestic Animals 34: 297300.CrossRefGoogle Scholar
Opsomer, G., Coryn, M., Deluyker, H. and De Kruif, A. 1998. An analysis of ovarian dysfunction in high yielding dairy cows after calving based on progesterone profiles. Reproduction in Domestic Animals 33: 193204.CrossRefGoogle Scholar
Opsomer, G., Grohn, Y. T., Hertl, J., Coryn, M., Deluyker, H. and De Kruif, A. 2000. Risk factors for post partum ovarian dysfunction in high producing dairy cows in Belgium: a field study. Theriogenology 53: 841857.CrossRefGoogle ScholarPubMed
Peeler, E. J., Otte, M. J. and Esslemont, R. J. 1994. Inter-relationships of periparturient diseases in dairy cows. Veterinary Record 134: 129132.CrossRefGoogle ScholarPubMed
Pope, G. S., Majzlik, I., Ball, P. J. H. and Leaver, J. D. 1976. Use of progesterone concentrations in plasma and milk in the diagnosis of pregnancy in domestic cattle. British Veterinary Journal 132: 497506.CrossRefGoogle ScholarPubMed
Royal, M. D., Darwash, A. O., Flint, A. P. F., Webb, R., Woolliams, J. A. and Lamming, G. E. 2000. Declining fertility in dairy cattle: changes in traditional and endocrine parameters of fertility. Animal Science 70: 487501.CrossRefGoogle Scholar
Royal, M.D., Darwash, A.O. and Lamming, G.E. 1999. Is herd fertility declining in the UK? Dairy herd fertility workshop, 29 and 30 April, 1999 (sponsored by MDC), (abstr.)CrossRefGoogle Scholar
Royal, M. D., Flint, A. P. F. and Woolliams, J. A. 2002. Genetic and phenotypic relationships among endocrine and traditional fertility traits and production traits in holstein-friesian dairy cows. Journal of Dairy Science 85: 958967.CrossRefGoogle ScholarPubMed
Sauer, M. J., Foulkes, J. A., Worsfold, A. and Morris, B. A. 1986. Use of progesterone 11-glucuronide-alkaline phosphatase conjugate in a sensitive microtitre-plate enzymeimmunoassay of progesterone in milk and its application to pregnancy testing in dairy cattle. Journal of Reproduction and Fertility 76: 375391.Google Scholar
Smith, M. C. A. and Wallace, J. M. 1998. Influence of early post partum ovulation on the re-establishment of pregnancy in multiparous and primiparous dairy cattle. Reproduction Fertility and Development 10: 207216.Google Scholar
Staples, C. R., Thatcher, W. W. and Clarke, J. H. 1990. Relationship between ovarian activity and energy status during the early postpartum period of high producing dairy cows. Journal of Dairy Science 73: 938947.CrossRefGoogle ScholarPubMed
Tyrrell, H. F. and Reid, J. T. 1965. Prediction of the energy value of cow's milk. Journal of Dairy Science 48: 12151233.CrossRefGoogle ScholarPubMed
Veerkamp, R. F., Oldenbroek, J. K., Van der Gaast, H. J. and Van der Werf, J. H. J. 2000. Genetic correlation between days until start of luteal activity and milk yield, energy balance and live weights. Journal of Dairy Science 83: 577583.Google Scholar