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Effect of cooking wheat and maize on the performance of newly weaned pigs 2. Level of dairy products and sequence of feeding

Published online by Cambridge University Press:  18 August 2016

P.G. Lawlor*
Affiliation:
Pig Production Department, Teagasc, Moorepark Research Centre, Fermoy, Co. Cork, Ireland
P.B. Lynch
Affiliation:
Pig Production Department, Teagasc, Moorepark Research Centre, Fermoy, Co. Cork, Ireland
P.J. Caffrey
Affiliation:
Department of Animal Science and Production, Faculty of Agriculture, University College, Dublin, Ireland
J.V. O’Doherty
Affiliation:
Department of Animal Science and Production, Faculty of Agriculture, University College, Dublin, Ireland
*
Present address: Teagasc, Clonakilty Agricultural College, Darrara, Clonakilty, Co. Cork, Ireland. E-mail: [email protected]
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Abstract

The objective of this study was to assess the effect of feeding steam flaked wheat and maize in diets with high and low levels of dairy products and to examine the effect of sequence of feeding the processed cereals in diets for newly weaned pigs. In experiment 1, 96 pigs were weaned at 27 days of age, blocked on sex and weight and assigned as individually penned pigs to four dietary treatments as follows: (a) high dairy product diet (6 kg of starter diet containing 230 g/kg milk powder followed by a link diet containing 125 g/kg milk powder to 26 days) with uncooked cereal (HDP), (b) high dairy product diet with steam flaked cereal (HDPC), (c) low dairy product diet (6 kg of starter diet containing 125 g/kg milk powder followed by a link diet containing no milk powder to 26 days) with uncooked cereal (LDP) and (d) low dairy product diet with steam flaked cereal (LDPC). In experiment 2, 96 pigs were weaned at 19 to 24 days of age, blocked on sex and weight and assigned as individually penned pigs to four dietary treatments containing: (a) uncooked cereal for 26 days, (b) uncooked cereal for 14 days followed by cooked cereal to 26 days post weaning, (c) cooked cereal for 26 days and (d) cooked cereal for 14 days followed by uncooked cereal to 26 days post weaning. Steaming and flaking of wheat and maize did not significantly affect pig performance during the experimental period or at any subsequent period up to slaughter. Daily gain from day 0 to 26 post weaning was 415 and 453 g/day (s.e.13•5; P < 0•05) for low and high dairy product diets, respectively. Food conversion efficiency (FCE) from day 0 to 14 post weaning on the low and high dairy product diets was 1•86 and 1•33 g/g (s.e. 0•14; P < 0•05), respectively. Pigs given the high dairy product diets during the experimental post-weaning period reached final carcass weight 5 days earlier than pigs given the low dairy product post-weaning diets (P < 0•05). In experiment 2, treatment did not affect food intake (mean = 450 s.e. 13•2 g; P > 0•05), daily gain (mean = 382 s.e. 12•5 g; P > 0•05) or FCE (mean = 1•19 s.e. 0•02 g/g; P > 0•05). In conclusion, feeding steamed flaked wheat and maize in post-weaning diets failed to improve pig performance irrespective of dairy product or sequence of feeding cooked cereals.

Type
Non-ruminant nutrition, behaviour and production
Copyright
Copyright © British Society of Animal Science 2003

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References

Aumaitre, A. 1976. Evaluation de divers traitments technologiques des cereals. I V. Influence du floconnage et de l’expansion de l’orge et du mais sur les performances du porcelet sevre a 21 jours: effets sur la digestibilite des elements de la ration. Annales de Zootechnie 25: 4151.CrossRefGoogle Scholar
Aumaitre, A. and Dumond, R. 1976. Cereals in early-weaning diets for piglets: comparison of barley and wheat and efficacy of some moist heat treatments. Nutrition Abstracts and Reviews 46: 914 (abstr. ).Google Scholar
Campbell, R. G. 1991. The nutritional management of weaner pigs. Feed Compounder 11: 2629.Google Scholar
Chiba, L. I. 1995. Effects of nutritional history on the subsequent and overall growth performance and carcass traits of pigs. Livestock Production Science 41: 151161.Google Scholar
Danielson, D. M. 1988. Influence of starter diet complexity on subsequent performance of growing finishing pigs. Nutrition Reports International 38: 129135.Google Scholar
Department of Agriculture and Food (Ireland). 1994. European communities (pig carcass grading) (amendment) regulations SI 216 . Stationery Office, Dublin.Google Scholar
Dritz, S. S., Owen, K. Q., Nelssen, J. L., Goodband, R. D. and Tokach, M. D. 1996. Influence of weaning age and nursery diet complexity on growth performance and carcass characteristics and composition of high health status pigs from weaning to 109 kilograms. Journal of Animal Science 74: 29752984.CrossRefGoogle ScholarPubMed
English, P. R. 1983. Weaner feeding and management. Proceedings of Pig Health Society, 11th winter symposium, University College Dublin, 24 March, pp. 4354.Google Scholar
English, P. R., Deligeorgis, S. G., Davidson, F. M., Dias, M. F. M., Smith, W. J. and Fowler, V. R. 1978. Evaluation of allternative diets and feeding systems for early weaned piglets. Animal Production 26: 398 (abstr. ).Google Scholar
Hawton, J. D., Johnston, L. J., Pettigrew, J. E. and Shurson, G. C. 1992. A practical evaluation of starter diets in multiphase swine feeding programs. Proceedings of the 53rd Minnesota nutrition conference, 22-23 September, Bloomington, Minnesota, pp. 213241.Google Scholar
Himmelberg, L. V., Peo, E. R. Jr., Lewis, A. J. and Crenshaw, J. D. 1985. Weaning weight response of pigs to simple and complex diets. Journal of Animal Science 61: 826.Google Scholar
Hongtrakul, K., Goodband, R. D., Behnke, K. C., Nelssen, J. L., Tokach, M. D., Bergstrom, J. R., Nessmith, W. B. Jr., and Kim, L. H. 1998. The effects of extrusion processing of carbohydrate sources on weanling pig performance. Journal of Animal Science 76: 30343042.CrossRefGoogle ScholarPubMed
Huang, S. X., Sauer, W. C., Pickard, M., Li, S. and Hardin, R. T. 1997. Effect of micronization on energy, starch and amino acid digestibility in hulless barley for young pigs. Canadian Journal of Animal Science 78: 8187.CrossRefGoogle Scholar
Kidder, D. E. and Manners, M. J. 1978. Digestion in the pig. Scientechnica, Bristol.Google Scholar
Lawlor, P. G., Lynch, P. B., Caffrey, P. J. and O’Doherty, J. V. 2003. Effect of cooking wheat and maize on the performance of newly weaned pigs. 1. Age and weight at weaning. Animal Science 76: 251261.CrossRefGoogle Scholar
Lawrence, T. L.J. 1973. An evaluation of the micronization process for preparing cereals for the growing pig. 1. Effects on digestibility and nitrogen retention. Animal Production 16: 99107.Google Scholar
Lawrence, T. L.J. 1972. High level cereal diets for the growing/finishing pig. VI. An evaluation of flaked maize, wheat and barley when included at high levels in the diet of the weaned pig grown to cutter weight (160 lb). Journal of Agricultural Science, Cambridge 79: 155160.CrossRefGoogle Scholar
Lindemann, M. D., Cornelius, S. G., El Kandelgy, S. M., Moser, R. L. and Pettigrew, J. E. 1986. Effect of age, weaning and diet on digestive enzyme levels in the piglet. Journal of Animal Science 62: 12981307.Google Scholar
Longland, A. C. 1991. Digestive enzyme activities in pigs and poultry. In In vitro digestion for pigs and poultry (ed. Fuller, M. F.), pp. 318. CAB International, Wallingford.Google Scholar
Lynch, P. B. and Zoccarato, I. 1992. Effect of extrusion and steam flaking of cereals on growth rate and food utilization by weaned pigs. Animal Production 54: 452-453 (abstr. ).Google Scholar
McCarthy, J. F., Aherne, F. X. and Okai, D. B. 1974. Use of HCl insoluble ash as an index material for determining apparent digestibility with pigs. Canadian Journal of Animal Science 54: 107109.Google Scholar
McCone, S., English, P. R., Fowler, V. R., Gill, B. P., Birnie, M. and Davidson, F. M. 1991. The effects of cereal flaking and diet pelleting on the voluntary intake and performance of weaned piglets. Animal Production 52: 600 (abstr. ).Google Scholar
Mahan, D. C. 1992. Efficiency of dried whey and its lactalbumin and lactose components at two dietary lysine levels on postweaning pig performance and nitrogen balance. Journal of Animal Science 70: 21822187.CrossRefGoogle Scholar
Mahan, D. C. 1993. Evaluating two sources of dried whey and the effects of replacing the corn and dried whey component with corn gluten meal and lactose in the diets of weanling swine. Journal of Animal Science 71: 28602866.CrossRefGoogle ScholarPubMed
Mahan, D. C., Cromwell, G. L., Ewan, R. C., Hamilton, C. R. and Yen, J. T. 1998. Evaluation of the feeding duration of a phase 1 nursery diet to three-week old pigs of two weaning weights. Journal of Animal Science 76: 578583.CrossRefGoogle ScholarPubMed
Medel, P., Salado, S., Blas, J. C. de and Mateos, G. G. 1999. Processed cereals in diets for early-weaned piglets. Animal Feed Science and Technology 82: 145156.CrossRefGoogle Scholar
Nessmith, W. B. Jr., Nelssen, J. L., Tokach, M. D., Goodband, R. D. and Bergstrom, J. R. 1997. Effects of substituting deproteinized whey and (or) crystalline lactose for dried whey on weanling pig performance. Journal of Animal Science 75: 32223228.CrossRefGoogle ScholarPubMed
Pluske, J. R., Williams, I. H. and Aherne, F. X. 1995. Nutrition of the neonatal pig. In The neonatal pig; development and survival (ed. Varley, M. A.), pp. 187235. CAB International, Wallingford.Google Scholar
Poel, A. F. B. van der, Hartog, L. A. den, Stiphout, W. A. A. van, Bremmers, R. and Huisman, J. 1990. Effects of extrusion of maize on ileal and faecal digestibility of nutrients and performance of young piglets. Animal Feed Science and Technology 29: 309320.Google Scholar
Seve, B. 1985. Physiological basis of nutrient supply to the piglets during the adapting and post-adapting stages of weaning. World Review of Animal Production 21: 714.Google Scholar
Stairs, J., Pettigrew, J. and Johnston, L. 1992. Effects of milk products in starter diets on subsequent performance. In Recent advances in swine production and health, vol. 2, pp. 5559. University of Minnesota.Google Scholar
Stairs, J., Pettigrew, J., Tokach, M. and Wilson, M. 1991. Effects of milk products in starter diets on subsequent performance. In Recent advances in swine production and health, vol. 1, pp. 9299. University of Minnesota.Google Scholar
Statistical Analysis Systems Institute. 1996. User’s guide: statistics. SAS Institute Inc., Cary, NC.Google Scholar
Tokach, M. D., Goodband, R. D., Nelssen, J. L. and Kats, L. J. 1992. Influence of weaning weight and growth during the first week postweaning on subsequent pig performance. Proceedings of Kansas State swine day, pp. 1517.Google Scholar
Tokach, M. D., Nelssen, J. L. and Allee, G. L. 1989. Effect of protein and (or) carbohydrate fractions of dried whey on performance and nutrient digestibility of early weaned pigs. Journal of Animal Science 67: 13071312.Google Scholar
Vestergaard, E. M., Danielsen, V., Jacobsen, E. E. and Rasmussen, V. 1990. Heat-treated cereals for piglets: steam flaking. Report from the National Institute of Animal Science, Denmark, report no. 674.Google Scholar
Wilson, M., Walker, R., Pettigrew, J., Shurson, G. and Johnston, L. 1991. Effect on growth of weanling pigs of additional B vitamins in simple diets or in complex diets containing porcine plasma proteins and milk products. In Recent advances in swine production and health, vol. 1, pp. 7984. University of Minnesota.Google Scholar