Hostname: page-component-cd9895bd7-mkpzs Total loading time: 0 Render date: 2024-12-26T20:07:03.913Z Has data issue: false hasContentIssue false

Supplementation of silage-based diets for finishing lambs

Published online by Cambridge University Press:  02 September 2010

D. M. B. Chestnutt
Affiliation:
Agricultural Research Institute of Northern Ireland, Hillsborough, Co. Down BT26 6DR
Get access

Abstract

In three experiments with 60, 72 and 72 housed Greyface (Border Leicester × Scottish Blackface) and Suffolk × Greyface lambs on silage-based diets, a range of barley and fish-meal supplementation levels was compared. In experiment 1, six barley levels ranging from 0 to 625 glday were offered to lambs on flail-harvested and precision-chopped silages. In each of experiments 2 and 3, three levels of barley, 200, 400 and 600 g/day, were factorially arranged with four levels of fish meal, 0, 40, 80 and 120 g/day. The daily intake of flail-harvested silage was proportionately 0·76 of that of precision-chopped silage but because of a slower rate of gain the total requirement of silage dry matter (DM) per kg carcass gain was greater with flail-harvested than with precision-chopped silage. On average, over all barley supplemented diets in experiment 1, the requirement per kg carcass gain was 9·2 kg silage DM and 4·9 kg barley DM, with flail-harvested silage, compared with 8·2 kg silage DM and 3·4 kg barley DM with precision-chopped silage. Increasing barley supplementation in experiment 1 from 125 to 625 gl day reduced the silage DM requirement for carcass gain by 4·7 kg/kg increase in barley DM given. The corresponding figure over the range 200 to 600 g barley in experiments 2 and 3 was 2·6 kg silage DM per kg increase in barley DM given. The reduction in silage requirement with increasing barley was generally greater at low than at high levels of barley supplementation within the ranges examined. On silage-based diets optimum barley supplementation level was estimated to be in the region of 500 g/day.

Increasing fish-meal supplementation from 0 to 40 g/day, in experiments 2 and 3, reduced the requirement per kg carcass gain by 2·78 kg silage DM and 1·25 kg barley DM for an increase of 0·40 kg in input of fish meal DM. A further increase from 40 to 80 g/day fish meal reduced the silage DM requirement per kg carcass gain by 1·44 kg and the barley DM requirement by 0·50 kg, for an increase in input of 0·26 kg fish meal DM. A further increase to 120 g/day fish meal resulted in increases in both the silage and barley requirement per kg carcass gain. The optimum level of fish-meal supplementation was between 40 and 80 g/day and was not affected by the level of barley given.

There was evidence of an increase in carcass fat at the higher levels of gain achieved through increasing barley supplementation, but no evidence of increase in carcass fat at the higher levels of gain achieved through fish-meal supplementation.

Type
Research Article
Copyright
Copyright © British Society of Animal Science 1992

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

Apolant, S. M. and Chestnutt, D. M. B. 1985. The effect of mechanical treatment of silage on intake and production of sheep. Animal Production 40: 287296.Google Scholar
Black, H. J. and Chestnutt, D. M. B. 1992. Effect of shearing and level of concentrate feeding on the performance of finishing lambs. Animal Production 54: 221228.Google Scholar
Chestnutt, D. M. B. 1990. Effect of early and finishing growth rate of lambs on carcass fat levels at varying slaughter weights. Irish Journal of Agricultural Research 29: 86 (abstr.).Google Scholar
Fitzgerald, S. 1984. Effect of silage chop length on intake and performance of store lambs. Animal Production 38: 522(abstr.).Google Scholar
Fitzgerald, J. J. 1986. Finishing of store lambs on silage- based diets. 3. Effects of formic acid with and without formaldehyde as silage additives and barley supplementation on silage intake and lamb performance. Irish journal of Agricultural Research 25: 363377.Google Scholar
Fitzgerald, J. J. 1987. Finishing store lambs on silage-based diets. 4. Effects of stage of grass growth when ensiled and barley supplementation on silage intake and lamb performance. Irish journal of Agricultural Research 26: 139151.Google Scholar
Povey, G. M., Webster, G. M. and Weekes, T. E. C. 1989. The response of silage-fed Scottish Blackface Iambs to different levels of energy and protein supplementation with or without a store period. Animal Production 48: 645 (abstr.).Google Scholar
Povey, G. M., Webster, G. M. and Weekes, T. E. C. 1990. The response of silage fed Scottish Blackface lambs to increasing level of fish meal supplementation with or without additional barley. In New developments in sheep production (ed. Slade, C. F. R., Lawrence, T. L. J.), occasional publication, British Society of Animal Production no. 14, pp. 157161.Google Scholar
Reed, K. F. M. 1979. A note on the feeding value of grass and grass/clover silages for store lambs. Animal Production 28: 271274.Google Scholar
Steen, R. W. J. 1990. Factors affecting the optimum level and protein content of concentrates for finishing beef cattle. Irish Grassland and Animal Production Association journal 24: 5666.Google Scholar
Stone, C. and Appleton, M. 1984. The effect of silage dry matter concentration and protein supplementation on the intake and performance of housed store lambs. Animal Production 38: 522 (abstr.).Google Scholar
Tayer, S. R. and Bryant, M. J. 1988. The response of store lambs to dietary supplements of fish meal. 3. Effects of the preceding pattern of growth. Animal Production 47: 393399.Google Scholar
Wilkinson, S. C. and Chestnutt, D. M. B. 1988. Effect of unwilted and wilted grass silage on the intake and performance of pregnant ewes at varying levels of concentrate feeding. Animal Production 46: 6370.Google Scholar
Yilala, K. and Bryant, M. J. 1985. The effects upon the intake and performance of store lambs of supplementing grass silage with barley, fish meal and rapeseed meal. Animal Production 40: 111121.Google Scholar