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Effects of dietary supplementation and work stress on ovarian activity in non-lactating Mashona cows in a small-holder farming area of Zimbabwe

Published online by Cambridge University Press:  18 August 2016

M. Chimonyo ,
N. Kusina ,
H. Hamudikuwanda ,
O. Nyoni  and
I. Ncube
M. Chimonyo
Affiliation:
Department of Animal Science, University of Zimbabwe PO Box MP 167, Mt Pleasant, Harare
N. Kusina*
Affiliation:
Department of Animal Science, University of Zimbabwe PO Box MP 167, Mt Pleasant, Harare
H. Hamudikuwanda
Affiliation:
Department of Animal Science, University of Zimbabwe PO Box MP 167, Mt Pleasant, Harare
O. Nyoni
Affiliation:
Department of Animal Science, University of Zimbabwe PO Box MP 167, Mt Pleasant, Harare
I. Ncube
Affiliation:
Department of Biochemistry, University of Zimbabwe PO Box MP 167, Mt Pleasant, Harare
*
Corresponding author.
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Abstract

The effects of work stress and dietary supplementation on ovarian activity were determined in 16 multiparous Mashona cows in Sanyati Communal Area, which lies in a semi-arid environment of Zimbabwe. The cows were assigned to one of four treatments: supplemented working (SW), supplemented non-working (SNW), non-supplemented working (NSW) and non-supplemented non-working (NSNW) cows in a 2 × 2 factorial treatment arrangement with two dietary and two work levels. Cows in the SW and NSW groups pulled a cart with a 200-1 water drum for 18 km (9 km with drum empty, 9 km with drum full) every day for 5 days/week for a total of 12 weeks.

Rectal temperatures were recorded at specific points along the route to and from the river where the water was obtained. Blood samples were collected by jugular venipuncture once a week, before working, for the determination of plasma glucose and non-esterified fatty acids (NEFA). In addition, blood samples were collected once every 3 days for the determination of progesterone concentration. There were no differences (P > 0⋅05) in the rectal temperatures between SW and NSW cows. Cows in the NSW group had the highest decrease in glucose levels and also showed marked increases in NEFA concentrations. The incidence of ovarian activity was similar between SNW and SW cows (P > 0⋅05). The incidence of ovarian activity was least in NSW cows. We conclude that nutritional stress was more important in suppressing ovarian activity than work stress and that dietary supplementation can reduce the negative effects of draught on ovarian activity.

Keywords

cowsmetabolitesovarian activitysupplementary feedingwork stress
Type
Reproduction
Information
Animal Science , Volume 70 , Issue 2 , April 2000 , pp. 317 - 323
Copyright
Copyright © British Society of Animal Science 2000

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References

Adlercreutz, P., Gitlessen, T., Ncube, I. and Read, J.S. 1997. Vernonia lipase: a plant lipase with strong fatty acid selectivity. In Methods in enzymology 284: lipases part A: biotechnology (ed. Rubin, B. and Dennis, E.A.). Academic Press Limited, United Kingdom.Google Scholar
Bucholtz, D.C., Vidwans, N.M., Herbosa, C.G., Shillo, K.K. and Foster, D.L. 1996. Metabolic interfaces between growth and reproduction. V. Pulsatile leutinising hormone secretion is dependant on glucose availability. Endocrinology 137: 601606.CrossRefGoogle Scholar
Central Statistical Office. 1997. Livestock populations in smallscale commercial and communal farms in Zimbabwe. Ministry of Lands and Agriculture, Zimbabwe.Google Scholar
Chimonyo, M. 1998. Effects of work and nutrition on the reproductive performance of cows in a semi-arid communal area. M.Sc. thesis. University of Zimbabwe, Harare.Google Scholar
Francis, J. 1993. Effects of strategic supplementation on work performance and physiological parameters of Mashona oxen. M.Phil, thesis, University of Zimbabwe, Harare.Google Scholar
International Service for National Agricultural Research. 1997. Strengthening the role of universities in the National Agricultural Research System in Zimbabwe, pp. 56 University of Zimbabwe Publications, Harare, Zimbabwe.Google Scholar
Littell, R.C., Henry, P.R. and Ammerman, C.B. 1998. Statistical analysis of repeated measures using SAS procedures. Journal of Animal Science 76: 12161231.Google Scholar
Miller, D.W., Blache, D., Boukhliq, R., Curlewis, J.D. and Martin, G.B. 1998. Central metabolic messengers and the effects of nutrition on gonadotrophin secretion in sheep. Journal of Reproduction and Fertility 112: 347356.Google Scholar
Mutisi, C., Younger, C., Illius, A., Gundry, S. and Kasina, N. 1998. Perception of production and service values for livestock in semi-arid subsistence farming systems. Foods, lands and livelihoods: setting research agendas for animal science. KARI Conference, Nairobi, Kenya.Google Scholar
Odiawo, G.O., Hill, F.W.G., Ogaa, J.S., Nyathi, C.B., Obwolo, M.J., Llewelyn, C.A. and Vickers, D.B. 1992. Studies on indigenous cattle under traditional management in Zimbabwe. 2. Metabolic profile. Zimbabwe Veterinary Journal 23: 107119.Google Scholar
Pearson, R.A., Zerbini, E. and Lawrence, R.R. 1999. Recent advances in research on draught ruminants. Animal Science 68: 117.CrossRefGoogle Scholar
Richards, M.W., Wettermann, R.P. and Schoemann, H.M. 1989. Nutritional anoestrus in beef cows: concentrations of glucose and non-esterified fatty acids in plasma and insulin in serum. Journal of Animal Science 67: 23542362.Google Scholar
Scoones, I. 1992. The economic value of livestock in a communal area in southern Zimbabwe. Agricultural Systems 39: 339359.Google Scholar
Statistical Analysis Systems institute. 1994. SAS guide for personal computers. SAS Institute, Cary, NC.Google Scholar
Teleni, E. and Hogan, J.P. 1989. Nutrition or draught animals. In Draught animals in rural development. ACIAR proceedings no. 27, p. 118. James Cook University. Townsville, Australia.Google Scholar
Topps, J.H. 1977. The relationship between reproduction and undernutrition in beef cattle. World Review of Animal Production XIII: 4349.Google Scholar
Ulrich, P. and Kjaer, S.S. 1994. A systems approach to communal crop-livestock farming. A case study from Zimbabwe. M.Sc. thesis, Royal Veterinary and Agricultural University, Copenhagen, Denmark.Google Scholar
Van Niekerk, A. and Louw, B.P. 1980. Condition scoring in beef cattle. Bulletin N2 (80), Department of Agriculture and Fisheries, Natal Region, South Africa, pp. 3437.Google Scholar
Zerbini, E., Gemeda, T., Tegegne, A., Wold, A.G. and Franceschini, R. 1993. Effects of work and diet on progesterone secretion, short luteal phases and ovulations without oestrus in postpartum F1 crossbred dairy cows. Theriogenology 43: 471484.Google Scholar
Zerbini, E., Gemeda, T., Wold, A.G. and Tegegne, A. 1994. Effect of draught work on the metabolism and reproduction of dairy cows. International Livestock Centre for Africa, Addis Ababa, Ethiopia.Google Scholar