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Effects of nutrition pre-partum and post partum on subsequent productivity and health of N’Dama cows infected with Trypanosoma congolense

Published online by Cambridge University Press:  18 August 2016

J. J. Bennison*
Affiliation:
Natural Resources Institute (NRI), Central Avenue, Chatham Maritime, Chatham, Kent ME4 4TB
O. O. Akinbamijo
Affiliation:
International Trypanotolerance Centre (ITC), MB 14, Banjul, The Gambia
J. Jaitner
Affiliation:
International Trypanotolerance Centre (ITC), MB 14, Banjul, The Gambia
L. Dempfle
Affiliation:
International Trypanotolerance Centre (ITC), MB 14, Banjul, The Gambia
C. R. C. Hendy
Affiliation:
Natural Resources Institute (NRI), Central Avenue, Chatham Maritime, Chatham, Kent ME4 4TB
J. D. Leaver
Affiliation:
Wye College, University of London, Wye, Ashford, Kent TN25 5AH
*
Present address: Agrimin Ltd, The Flarepath, Elsham Wold Industrial Estate, Brigg, North Lincs, DN20 0SP.
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Abstract

This experiment studied the effects of body condition, long- and short-term levels of nutrition and trypanosomosis infection on the productivity of N’Dama cows using a 2 x 2 × 2 factorial cross-over design. Pre-partum, 23 cows received supplements for 6 months (H), the other group of 20 for 2 months (L). Both groups grazed native pastures. Two days post partum, half the cows from each group were placed on a basal (B) or supplemented (S) plane of nutrition. The diet of concentrate, groundnut hay and andropogon hay was the same, only the quantities differed. Four weeks post partum half the animals in each group were inoculated with T. congolense organisms (I), the others acted as controls (C). The trial continued for a further 6 weeks.

Pre-partum nutrition (H, L had no effect on dry-matter intake (DMI) but pre-partum feeding (H) improved post-partum productivity, evident by higher dam live weights (P < 0·05), body condition (P < 0·001), calf birth weight (P < 0·05) and calf live-weight gain (P < 0·01). Post-partum nutrition had no effect on productivity. Trypanosomosis infection caused a reduction (P < 0·05) in total DMI. The decline in groundnut hay and concentrate intake was proportionally (P < 0·001) greater in the S-I group than in the B-I group. A low plane of nutrition pre-partum depressed milk yield but increased fat concentration (P < 0·05). Infection significantly reduced milk offtake (P < 0·05). The reduction in milk offtake (P < 0·01) and calf live weight (P < 0·05) were proportionally larger in the B-I than in the S-I group. Infection caused a decline in milk protein concentration (P < 0·05) and protein yield (P < 0·01) which was independent of dietary effects. Infection reduced (P < 0·01) the packed-cell volume but there were no interactions with diet. None of the cows was pregnant 150 days post partum but seven were cycling, 3(5) in the H-S-I group, 2(7) in the H-B-I group, 1(5) in the L-B-I group and 1(5) in the L-S-C group. These results suggest that S-I cows attempted to maintain milk yield at the expense of live weight whereas the B-I cows had insufficient live-weight reserves that could be mobilized. This suggests the nutritional balance and changes in weight at the time of infection might be more important than historical planes of nutrition.

Type
Research Article
Copyright
Copyright © British Society of Animal Science 1999

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