Influence of method of wheat inclusion and pellet diameter on performance, nutrient utilisation, digestive tract measurements and carcass characteristics of broilers
Y. Singh A and V. Ravindran A BA Institute of Veterinary, Animal and Biomedical Sciences, Massey University, Palmerston North 4442, New Zealand.
B Corresponding author. Email: V.Ravindran@massey.ac.nz
Animal Production Science 55(4) 474-483 https://doi.org/10.1071/AN13489
Submitted: 20 November 2013 Accepted: 17 January 2014 Published: 7 March 2014
Abstract
The aim of the present study was to determine the influence of method of wheat inclusion and pellet diameter on performance, nutrient utilisation, digestive tract development and carcass characteristics of broilers. The experimental design was a 3 × 2 factorial arrangement of treatments, which included three diet forms, namely ground wheat (GW) and 200 g/kg whole wheat (WW) replacing GW before or after pelleting, and two pellet diameters (3.0 and 4.76 mm). Experimental diets were offered ad libitum from Day 11 to Day 35 post-hatch. Pellet durability index was higher (P < 0.05) in GW diets and deteriorated (P < 0.05) with pre-pelleting inclusion of WW when the larger die was used. Larger pellet diameter increased (P < 0.05) the weight gain and lowered (P < 0.05) feed per gain of birds fed diets with GW and post-pellet inclusion of WW. However, in birds fed diets with pre-pelleting inclusion of WW, the larger pellet diameter lowered (P < 0.05) feed intake and weight gain, and increased (P < 0.05) feed per gain. Relative gizzard weight was increased (P < 0.05) by larger pellet diameter with pre-pelleting inclusion of WW, but was unaffected (P > 0.05) in diets containing GW or post-pellet inclusion of WW. Irrespective of the method of WW inclusion, larger pellet diameter increased (P < 0.05) the apparent metabolisable energy and ileal starch digestibility. Larger pellet diameter was associated with reductions (P < 0.05) in the relative length and weight of all components of the digestive tract in GW-fed birds, but had no effect (P > 0.05) on these parameters in birds fed WW diets. Larger pellet diameter increased (P < 0.05) carcass yield in the GW group, reduced (P < 0.05) in the pre-pelleting WW group and had no effect in the post-pelleting WW group. Overall, these results showed that the effect of pellet diameter on broiler performance varied depending on the form of wheat and method of WW inclusion. Adverse effects on weight gain in the pre-pelleting WW group were due primarily to reduced feed intake resulting from poor pellet quality.
References
Abdollahi MR, Ravindran V, Svihus B (2013) Pelleting of broiler diets: an overview with emphasis on pellet quality and nutritional value. Animal Feed Science and Technology 179, 1–23.| Pelleting of broiler diets: an overview with emphasis on pellet quality and nutritional value.Crossref | GoogleScholarGoogle Scholar |
Amerah AM, 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.
| Influence of method of whole-wheat feeding on the performance, digestive tract development and carcass traits of broiler chickens.Crossref | GoogleScholarGoogle Scholar |
Amerah AM, Ravindran V, Lentle RG, Thomas DG (2007) Feed particle size: implications on the digestion and performance of poultry. World’s Poultry Science Journal 63, 439–455.
| Feed particle size: implications on the digestion and performance of poultry.Crossref | GoogleScholarGoogle Scholar |
Amerah AM, Ravindran V, Lentle RG (2009) Influence of wheat hardness and xylanase supplementation on the performance, energy utilisation, digestive tract development and digesta parameters of broiler starters. Animal Production Science 49, 71–78.
| Influence of wheat hardness and xylanase supplementation on the performance, energy utilisation, digestive tract development and digesta parameters of broiler starters.Crossref | GoogleScholarGoogle Scholar |
AOAC (2005) ‘Official methods of analysis of the Association of Official Analytical Chemists.’ 18th edn. (AOAC International: Washington, DC)
Banfield MJ, Kwakkel RP, Forbes JM (2002) Effects of wheat structure and viscosity on coccidiosis in broiler chickens. Animal Feed Science and Technology 98, 37–48.
| Effects of wheat structure and viscosity on coccidiosis in broiler chickens.Crossref | GoogleScholarGoogle Scholar |
Bedford MR, Schulze H (1998) Exogenous enzymes for pigs and poultry. Nutrition Research Reviews 11, 91–114.
| Exogenous enzymes for pigs and poultry.Crossref | GoogleScholarGoogle Scholar |
Bennett CD, Classen HL, Riddell C (2002) Feeding broiler chickens wheat and barley diets containing whole, ground and pelleted grain. Poultry Science 81, 995–1003.
| Feeding broiler chickens wheat and barley diets containing whole, ground and pelleted grain.Crossref | GoogleScholarGoogle Scholar |
Gabriel I, Mallet S, Leconte M (2003) 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.
| Differences in the digestive tract characteristics of broiler chickens fed on complete pelleted diet or on whole wheat added to pelleted protein concentrate.Crossref | GoogleScholarGoogle Scholar |
Gentle ML (1979) Sensory control of feed intake. In ‘Food intake regulation in poultry’. (Eds KN Boorman, BN Freeman) pp. 259–273 (British Poultry Science: Edinburg, UK)
Hetland H, Svihus B, Krogdahl Å (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.
| Effects of oat hulls and wood shavings on digestion in broilers and layers fed diets based on whole or ground wheat.Crossref | GoogleScholarGoogle Scholar |
Jones GPD, Taylor RD (2001) The incorporation of whole grain into pelleted broiler chicken diets: production and physiological responses. British Poultry Science 42, 477–483.
| The incorporation of whole grain into pelleted broiler chicken diets: production and physiological responses.Crossref | GoogleScholarGoogle Scholar |
Lentle RG, Ravindran V, Ravindran G, Thomas DV (2006) Influence of feed particle size on the efficiency of broiler chickens fed wheat-based diets. Japanese Poultry Science 43, 135–142.
| Influence of feed particle size on the efficiency of broiler chickens fed wheat-based diets.Crossref | GoogleScholarGoogle Scholar |
McCleary BV, Gibson TS, Mugford DC (1997) Measurement of total starch in cereals products by amyloglucosidase vs. amylase method: collaborative study. Journal of Association of Official Analytical Chemists International 80, 571–579.
McIntosh JI, Slinger SJ, Sibbald IR, Ashton GC (1962) Factors affecting the metabolizable energy content of poultry feeds. 7. The effects of grinding, pelleting and grit feeding on the availability of the energy of wheat, corn, oats and barley. 8. A study on the effects of dietary balance. Poultry Science 41, 445–456.
| Factors affecting the metabolizable energy content of poultry feeds. 7. The effects of grinding, pelleting and grit feeding on the availability of the energy of wheat, corn, oats and barley. 8. A study on the effects of dietary balance.Crossref | GoogleScholarGoogle Scholar |
Nahas J, Lefrancois MR (2001) Effects of feeding locally grown whole barley with or without enzyme addition and whole wheat on broiler performance and carcass traits. Poultry Science 80, 195–202.
| Effects of feeding locally grown whole barley with or without enzyme addition and whole wheat on broiler performance and carcass traits.Crossref | GoogleScholarGoogle Scholar |
Nir I, Shefet G, Aaroni Y (1994) Effect of particle size on performance. 1. Corn. Poultry Science 73, 45–49.
| Effect of particle size on performance. 1. Corn.Crossref | GoogleScholarGoogle Scholar |
Plavnik I, Macovsky B, Sklan D (2002) Effect of feeding whole wheat on performance of broiler chickens. Animal Feed Science and Technology 96, 229–236.
| Effect of feeding whole wheat on performance of broiler chickens.Crossref | GoogleScholarGoogle Scholar |
Portella FJ, Caston LJ, Leeson S (1988) Apparent feed particle size preference by laying hens. Canadian Journal of Animal Science 68, 915–922.
| Apparent feed particle size preference by laying hens.Crossref | GoogleScholarGoogle Scholar |
Preston CM, McCracken KJ, McAllister A (2000) Effect of diet form and enzyme supplementation on growth, efficiency and energy utilisation of wheat-based diets for broilers. British Poultry Science 41, 324–331.
| Effect of diet form and enzyme supplementation on growth, efficiency and energy utilisation of wheat-based diets for broilers.Crossref | GoogleScholarGoogle Scholar |
Proudfoot FG, Sefton AE (1978) Feed texture and light treatment effects on the performance of chicken broilers. Poultry Science 57, 408–416.
| Feed texture and light treatment effects on the performance of chicken broilers.Crossref | GoogleScholarGoogle Scholar |
Ravindran V, Wu YB, Thomas DG, Morel PCH (2006) Influence of whole wheat feeding on the development of digestive organs and performance of broiler chickens. Australian Journal of Agricultural Research 57, 21–26.
| Influence of whole wheat feeding on the development of digestive organs and performance of broiler chickens.Crossref | GoogleScholarGoogle Scholar |
Ross (2007) ‘Ross 308 broiler: nutrition specifications, June 2007.’ (Ross Breeders: Newbridge, Midlothian, UK)
SAS Institute (2004) ‘SAS® qualification tool user’s guide. Version 9.12.’ (SAS Institute Incorporation: Cary, NC)
Schiffman HR (1968) Texture preference in the domestic chick. Journal of Comparative and Physiological Psychology 66, 540
| Texture preference in the domestic chick.Crossref | GoogleScholarGoogle Scholar |
Short FJ, Gorton P, Wiseman J, Boorman KN (1996) Determination of titanium dioxide added as an inert marker in chicken digestibility studies. Animal Feed Science and Technology 59, 215–221.
| Determination of titanium dioxide added as an inert marker in chicken digestibility studies.Crossref | GoogleScholarGoogle Scholar |
Singh Y, Amerah AM, Ravindran V (2014) Whole grain feeding: methodologies and effects on performance, digestive tract development and nutrient utilisation of poultry. Animal Feed Science and Technology
| Whole grain feeding: methodologies and effects on performance, digestive tract development and nutrient utilisation of poultry.Crossref | GoogleScholarGoogle Scholar | in press.
Svihus B (2011) The gizzard: function, influence of diet structure and effects on nutrient availability. World’s Poultry Science Journal 67, 207–224.
| The gizzard: function, influence of diet structure and effects on nutrient availability.Crossref | GoogleScholarGoogle Scholar |
Svihus B, Hetland H (2001) Ileal starch digestibility in growing broiler chickens fed on a wheat-based diet is improved by mash feeding, dilution with cellulose or whole wheat inclusion. British Poultry Science 42, 633–637.
| Ileal starch digestibility in growing broiler chickens fed on a wheat-based diet is improved by mash feeding, dilution with cellulose or whole wheat inclusion.Crossref | GoogleScholarGoogle Scholar |
Svihus B, Juvik E, Hetland H, Krogdahl Å (2004a) Causes for improvement in nutritive value of broiler chicken diets with whole wheat instead of ground wheat. British Poultry Science 45, 55–60.
| Causes for improvement in nutritive value of broiler chicken diets with whole wheat instead of ground wheat.Crossref | GoogleScholarGoogle Scholar |
Svihus B, Kløvstad K, Perez V, Zimonja O, Sahlström S, Schüller RB, Jeksrud WK, Prestløkken E (2004b) Physical and nutritional effects of pelleting of broiler chicken diets made from wheat ground to different coarsenesses by the use of roller mill and hammer mill. Animal Feed Science and Technology 117, 281–293.
| Physical and nutritional effects of pelleting of broiler chicken diets made from wheat ground to different coarsenesses by the use of roller mill and hammer mill.Crossref | GoogleScholarGoogle Scholar |
Taylor RD, Jones GPD (2004) The incorporation of whole grain into pelleted broiler chicken diets. II. Gastrointestinal and digesta characteristics. British Poultry Science 45, 237–246.
| The incorporation of whole grain into pelleted broiler chicken diets. II. Gastrointestinal and digesta characteristics.Crossref | GoogleScholarGoogle Scholar |
Wu YB, 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.
| Influence of whole wheat inclusion and xylanase supplementation on the performance, digestive tract measurements and carcass characteristics of broiler chickens.Crossref | GoogleScholarGoogle Scholar |
Wu Y, Ravindran V, Thomas DG, Birtles MJ, Hendriks WH (2004) Influence of method of whole wheat inclusion and xylanase supplementation on the performance, apparent metabolisable energy, digestive tract measurements and gut morphology of broilers. British Poultry Science 45, 385–394.
| Influence of method of whole wheat inclusion and xylanase supplementation on the performance, apparent metabolisable energy, digestive tract measurements and gut morphology of broilers.Crossref | GoogleScholarGoogle Scholar |
Yasar S (2003) Performance, gut size and ileal digesta viscosity of broiler chickens fed with a whole wheat added diet and the diets with different wheat particle sizes. International Journal of Poultry Science 2, 75–82.
| Performance, gut size and ileal digesta viscosity of broiler chickens fed with a whole wheat added diet and the diets with different wheat particle sizes.Crossref | GoogleScholarGoogle Scholar |