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Whole grain in turkey nutrition. Part 1: Gastrointestinal development and function

Published online by Cambridge University Press:  31 August 2016

J. JANKOWSKI
Affiliation:
Department of Poultry Science, University of Warmia and Mazury, Oczapowskiego 5, 10-718 Olsztyn, Poland
Z. ZDUNCZYK
Affiliation:
Institute of Animal Reproduction and Food Research, Polish Academy of Sciences, Tuwima 10, 10-748 Olsztyn, Poland
J. JUSKIEWICZ*
Affiliation:
Institute of Animal Reproduction and Food Research, Polish Academy of Sciences, Tuwima 10, 10-748 Olsztyn, Poland
*
Corresponding author: j.juskiewicz@pan.olsztyn.pl
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Abstract

Currently whole grain is incorporated into poultry diets to lower production costs, stimulate the development of the gizzard, prevent potentially pathogenic bacteria from entering the intestine and improve the growth rate and feed conversion of birds. The present review discusses the results of experiments performed on turkeys where whole grain (WG) or large-sized feed particles were incorporated into diets with the use of different processing methods (with pre- or post-pelleting inclusion) and in different quantities. The results of recent experiments indicated that, within the first month, gizzard weight increased significantly when the size of feed particles was increased from 380 to 806 mm, or when turkey diets were supplemented with 20% WG. In older birds, gizzard weight increased when the WG content of pelleted diets exceeded 20%. Dietary dilution with WG did not cause significant changes in the development or functionality of the small intestine, including mucosal enzyme activity. The presence of WG in the diet increased the amount of coarse particles in the digesta leaving the gizzard, which did not lower the apparent digestibility of dry matter and crude fibre or nitrogen retention. The inclusion of WG in turkey diets led to a decrease in the counts of Clostridium spp., Campylobacter and/or Escherichia coli, and an increase in the counts of Lactobacillus spp. and/or Bifidobacterium spp. in the caecal digesta. However the effect of WG inclusion in turkey diets on gut morphology has been investigated in only a few studies to date, and the results are inconclusive.

Type
Reviews
Copyright
Copyright © World's Poultry Science Association 2016 

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References

AMERAH, A.M., RAVINDRAN, V., LENTLE, R.G. and THOMAS, D.G. (2007) Feed particle size: Implication on the digestion and performance of poultry. World's Poultry Science Journal 63: 439-453.Google Scholar
AMERAH, A.M. and RAVINDRAN, V. (2008) Influence of method of whole-wheat feeding on the performance, digestive tract development and carcass traits of broiler chickens. Animal Feed Science and Technology 147: 326-339.CrossRefGoogle Scholar
AMERAH, A.M., RAVINDRAN, V., LENTLE, R.G. and THOMAS, D.G. (2008) Influence of feed particle size on the performance, energy utilisation, digestive tract development, and digesta parameters of broiler starters fed wheat- and corn-based diets. Poultry Science 87: 2320-2328.Google Scholar
AMERAH, A.M., PERON, A., ZAEFARIAN, F. and RAVINDRAN, V. (2011) Influence of whole wheat inclusion and a blend of essential oils on the performance, nutrient utilisation, digestive tract development and ileal microbiota profile of broiler chickens. British Poultry Science 52: 124-132.Google Scholar
BANFIELD, M.J. and FORBES, J.M. (2001) Effects of whole wheat dilution versus substitution on coccidiosis in broiler chickens. British Journal of Nutrition 86: 89-95.CrossRefGoogle Scholar
BENNETT, C.D., CLASSEN, H.L., SCHWEAN, K. and RIDDELL, C. (2002) Influence of whole barley and grit on live performance and health of turkey toms. Poultry Science 81: 1850-1855.Google Scholar
BIGGS, P. and PARSONS., C.M. (2009) The effect of whole grains on nutrient digestibilities, growth performance, and cecal short-chain fatty acid concentrations in young chicks fed ground corn-soybean meal diets. Poultry Science 88: 1893-1905.Google Scholar
BJERRUM, L., PEDERSEN, K. and ENGBERG, R.M. (2005) The influence of whole wheat feeding on Salmonella infection and gut flora composition in broilers. Avian Diseases 49: 9-15.Google Scholar
CHOCT, M. (2009) Managing gut health through nutrition. British Poultry Science 50: 9-15.CrossRefGoogle ScholarPubMed
DUKE, G.E., ECCLESTON, E., KIRKWOOD, S., LOUIS, C.F. and BEDBURY, H.P. (1984) Cellulose digestion by domestic turkeys fed low or high fiber diets. Journal of Nutrition 114: 95-102 Google Scholar
DUKE, G.E. (1992) Recent studies on regulation of gastric motility in turkeys. Poultry Science 71: 1-8 Google Scholar
ENGBERG, R.M., HEDEMANN, M.S., STEENFELDT, S. and JENSEN, B.B. (2004) Influence of whole wheat and xylanase on broiler performance and microflora composition and activity of the digestive tract. Poultry Science 83: 925-938.Google Scholar
FAVERO, A., MAIORKA, A., FISCHER DA SILVA, A.V., DE PAULA VALLE, F.B., DOS SANTOS, S.A. and MURAMATSU, K. (2012) Influence of feed form and corn particles size on nutrient digestibility and energy utilisation by young turkeys. Revista Brasileira de Zootecnia41: 86-90.Google Scholar
FERKET, P. (2000) Feeding whole grains to poultry improves gut health. Feedstuffs 72: 12-16.Google Scholar
FRANCESCH, M. and BRUFAU, J. (2004) Nutritional factors affecting excreta/litter moisture and quality. World's Poultry Science Journal 60: 64-75.Google Scholar
GABRIEL, I., MALLET, S., LECONTE, M., FORT, G. and NACIRI, M. (2003a) Effects of whole wheat feeding on the development of coccidial infection in broiler chickens. Poultry Science 82: 1668-1676.Google Scholar
GABRIEL, I., MALLET, S. and LECONTE, M. (2003b) Differences in the digestive tract characteristics of broiler chickens fed on complete pelleted diet or on whole wheat added to pelleted protein concentrate. British Poultry Science 44: 283-290.CrossRefGoogle ScholarPubMed
GABRIEL, I., MALLET, S., LECONTE, M., FORT, G. and NACIRI, M. (2006) Effects of whole wheat feeding on the development of coccidial infection in broiler chickens until market-age. Animal Feed Science and Technology 129: 279-303.Google Scholar
GABRIEL, I., MALLET, S., LECONTE, M., TRAVEL, A. and LALLES, J.P. (2008) Effect of whole wheat feeding on the digestive tract of broiler chickens. Animal Feed Science and Technology 142: 144-162.Google Scholar
GJEVRE, A.G., KALDHUSDAL, M. and ERIKSON, G.S. (2013) Gizzard erosion and ulceration syndrome in chickens and turkeys: a review of casual or predisposing factors. Avian Pathology 42: 297-303.Google Scholar
HETLAND, H., SVIHUS, B. and OLAISEN, V. (2002) Effect of feeding whole cereals on performance, starch digestibility and duodenal particle size distribution in broiler chickens. British Poultry Science 43: 416-423.Google Scholar
HETLAND, H., SVIHUS, B. and KROGDAHL, A. (2003) Effects of oat hulls and wood shavings on digestion in broilers and layers fed diets based on whole or ground wheat. British Poultry Science 44: 275-282.Google Scholar
JACKSON, S. and DUKE, G.E. (1995) Intestine fullness influences feeding behaviour and crop filling in the domestic turkey. Physiology and Behavior 58: 1027-1034.Google Scholar
JANKOWSKI, J., MIKULSKI, D., ZDUNCZYK, Z. and JUSKIEWICZ, J. (2013a) A note on the particle size distribution of intestinal digesta and nutrient digestibility in growing turkeys fed diets with different whole-grain wheat contents. Journal of Animal and Feed Sciences 22: 364-368.Google Scholar
JANKOWSKI, J., ZDUNCZYK, Z., MIKULSKI, D., PRZYBYLSKA-GORNOWICZ, B., SOSNOWSKA, E. and JUSKIEWICZ, J. (2013b) Effect of whole wheat feeding on gastrointestinal tract development and performance of growing turkeys. Animal Feed Science and Technology 185: 150-159.Google Scholar
JANKOWSKI, J., MIKULSKI, D., ZDUNCZYK, Z., JUSKIEWICZ, J. and LICHTOROWICZ, K. (2014) Gastrointestinal tract response and growth performance of growing turkeys as influenced by the whole wheat content of diets in two feeding programmes. Journal of Animal and Feed Sciences 23: 253-261.Google Scholar
JUSKIEWICZ, J., ZDUNCZYK, Z., JANKOWSKI, J. and KROL, B. (2002) Caecal metabolism in young turkeys fed diets supplemented with oligosaccharides. European Poultry Science 66: 206-210.Google Scholar
JUSKIEWICZ, J., JANKOWSKI, J., ZDUNCZYK, Z. and MIKULSKI, D. (2006) Performance and gastrointestinal tract metabolic of turkeys fed diets with different content of fructooligosaccharide. Poultry Science 85: 886-891.Google Scholar
KALDHUSDAL, M., HETLAND, H. and GJEVRE, A.G. (2012) Non-soluble fibres and narasin reduce spontaneous gizzard erosion and ulceration in broiler chickens. Avian Pathology 41: 227-234.Google Scholar
KONCA, Y., KIRKPINAR, F., MERT, S. and ATAC, C. (2012) Effects of mixed or separate feeding with whole barley or triticale on growth performance, gastrointestinal system, nutrient digestibility and blood constituents in turkeys. Revue De Medecine Veterinaire 163: 522-529.Google Scholar
LENTLE, R.G., RAVINDRAN, V., RAVINDRAN, G. and THOMAS, D.V. (2006) Influence of feed particle size on the efficiency of broiler chickens fed wheat-based diet. Journal of Poultry Science 43: 135-142.Google Scholar
MAYNE, R.K., ELSE, R.W. and HOCKING, P.M. (2007) High litter moisture alone is sufficient to cause footpad dermatitis in growing turkeys. British Poultry Science 48: 538-545.Google Scholar
MCLELLAND, J. (1989) Anatomy of the avian cecum. Journal of Experimental Zoology 3: 2-9.Google Scholar
NRC (1994) Nutrient Requirements of poultry. 9th revised Edition. National Academic Press Washington, DC.Google Scholar
PALANDER, S., NÄSI, M. and JÄRVINEN, S. (2005) Effect of age of growing turkeys on digesta viscosity and nutrient digestibility of maize, wheat, barley and oats fed as such or with enzyme. supplementation. Archives of Animal Nutrition 59: 191-203.CrossRefGoogle ScholarPubMed
PLAVNIK, I., MACOVSKY, D. and SKLAN, D. (2002) Effect of feeding whole wheat on performance of broiler chickens. Animal Feed Science and Technology 96: 229-236.Google Scholar
RAVINDRAN, V., WU, Y.B., THOMAS, D.G. and MOREL, P.C.H. (2006) Influence of whole wheat feeding on the development of gastrointestinal tract and performance of broiler chickens. Australian Journal of Agricultural Research 57: 21-26.Google Scholar
ROCHE, M. (1981) Feeding behaviour and digestive motility of birds. Reproduction Nutrition Development 21: 781-788.Google Scholar
SANTOS, F.B.O., SHELDON, B.W., SANTOS, A.A. and FERKET, P.R. (2008) Influence of housing system, grain type, and particle size on Salmonella colonisation and shedding of broilers fed triticale or corn-soybean meal diets. Poultry Science 87: 405-420.CrossRefGoogle ScholarPubMed
SERRANO, M.O., FRIKHA, M., CORCHERO, J. and MATEOS, G.G. (2013) Influence of feed form and source of soybean meal on growth performance, nutrient retention, and digestive organ size of broilers. 2. Battery study. Poultry Science 92: 693-708.CrossRefGoogle ScholarPubMed
SINGH, Y., AMERAH, A.M. and RAVINDRAN, V. (2014a) Whole grain feeding: Methodologies and effects on performance, digestive tract development and nutrient utilisation of poultry. Animal Feed Science and Technology 190: 1-18.Google Scholar
SINGH, Y., RAVINDRAN, V., WESTER, T.J., MOLAN, A.L. and RAVINDRAN, G. (2014b) Influence of prepelleting inclusion of whole corn on performance, nutrient utilisation, digestive tract measurements, and caecal microbiota of young broilers. Poultry Science 93: 3073-3082.Google Scholar
SVIHUS, B., HERSTAD, O., NEWMAN, C.W. and NEWMAN, R.K. (1997) Comparison of performance and intestinal characteristics of broiler chickens fed on diets containing whole, rolled or ground barley. British Poultry Science 38: 524-529.Google Scholar
SVIHUS, B., HETLAND, H., CHOCT, M. and SUNDBY, F. (2002) Passage rate through the anterior digestive tract of broiler chickens fed on diets with ground or whole wheat. British Poultry Science 43: 662-668.Google Scholar
SVIHUS, B. (2011) The gizzard: function, influence of diet structure and effects on nutrient availability. World's Poultry Science Journal 67: 207-224.Google Scholar
SVIHUS, B., CHOCT, M. and CLASSEN, H.L. (2013) Function and nutritional roles of the avian caeca: A review. World's Poultry Science Journal 69: 249-263.Google Scholar
SVIHUS, B. (2014) Function od digestive system. Journal of Applied Poultry Research 23: 306-314.CrossRefGoogle Scholar
TAYLOR, R.D. and JONES, G.P.D. (2004) The incorporation of whole grain into pelleted broiler chicken diets. II. Gastrointestinal and digesta characteristics. British Poultry Science 45: 237-246.Google Scholar
WU, Y.B. and RAVINDRAN, V. (2004) Influence of whole wheat inclusion and xylanase supplementation on the performance, digestive tract measurements and carcass characteristics of broiler chickens. Animal Feed Science and Technology 116: 129-139.Google Scholar
WU, Y.B., RAVINDRAN, V., THOMAS, D.G., BIRTLES, M.J. and HENDRIKS, W.H. (2004) Influence of method whole wheat inclusion and xylanase supplementation on the performance, apparent metabolisable energy, digestive tract measurements and gut morphology of broiler. British Poultry Science 45: 385-394.Google Scholar
ZDUNCZYK, Z., JANKOWSKI, J., MIKULSKI, D., PRZYBYLSKA-GORNOWICZ, B., SOSNOWSKA, E. and JUSKIEWICZ, J. (2013) Gastrointestinal morphology and function in turkeys fed diet diluted with whole grain wheat. Poultry Science 92: 1799-1811.Google Scholar
XU, Y., STARK, R., FEREKT, P.R., WILLIAMS, C.M. and BRAKE, J. (2015) Effect of feed form and dietary coarse ground corn on broiler live performance, body weight uniformity, relative gizzard weight, excreta nitrogen, and particle size preference behaviors. Poultry Science 94: 1549-1556.Google Scholar