The Effect of Limestone Particle Size on the Performance of Three Broiler Breeder Purelines
DOI:
https://doi.org/10.3923/ijps.2010.1038.1042Keywords:
Egg production, egg shell quality, limestoneAbstract
A 40-wk study was conducted to assess the effects of limestone particle size on the production performance, skeletal integrity and Ca/P balance of three broiler breeder purelines. A flock of LINE A, LINE B and LINE C broiler breeders were reared according to Cobb 500 guidelines (Cobb-Vantress, 2005) and transferred to a production house at 21 wks of age. Each line was split into two groups consisting of 66, 68 and 62 hens for the LINE A, LINE B and LINE C lines, respectively and fed a diet that differed only in the inclusion of either large (3489.7 microns; 38.5% solubility) or small particle (185.5 microns; 58.8% solubility) limestone. Production performance, egg quality, breeder skeletal integrity, reproductive performance, progeny performance and Ca/P balance were monitored. LINE B produced the most eggs per hen housed and highest egg number, followed by LINE C and LINE A, respectively. Egg weight, specific gravity and shell weight were also superior in LINE B compared to the other purelines. The % P retention did not differ across purelines, but Ca retention was also highest in LINE B. Breeder skeletal integrity and progeny bone quality were higher in LINE C. The addition of large particle limestone in lieu of small particles did not provide a consistent effect in production performance but significantly improved shell quality (P = 0.0013), bone quality (P = 0.0341). The large genetic differences in purelines compared to parent stock may uniquely alter the effects of particulate calcium on production performance; yet large particle limestone provided the boost in shell quality and bone quality reported by others. In summary, LINE A, LINE B and LINE C purelines utilize Ca and P differently and have unique genetic potential for hatching egg production, egg shell quality, breeder bone ash and progeny bone ash.
References
Ahmad, H.A. and R.J. Balander, 2003. Alternative feeding regimen of calcium source and phosphorus level for better eggshell quality in commercial layers. J. Appl. Poult. Res., 12: 509-514.
Bennett, C.D., 1992. The influence of shell thickness in commercial broiler breeder flocks. J. Pure Applied Poult., 1: 61-65.
King, L.M., J.D. Kirby, D.P. Froman, T.S. Sonstegard and D.E. Harry et al., 2000. Efficacy of sperm mobility assessment in commercial flocks and the relationships of sperm mobility and insemination dose with fertility in Turkeys. Poult. Sci., 79: 1797-1802.
Leske, K.L. and C.N. Coon, 1999. A bioassay to determine the effect of phytase on phytate phosphorus hydrolysis and total phosphorus retention of feed ingredients as determined with broilers and laying hens. Poult. Sci., 78: 1151-1157.
Roland, D.A. Sr., 1986. Eggshell quality IV. Oyster shell versus limestone and the importance of particle size or solubility of calcium source. Worlds Poult. Sci., 42: 166-171.
Safaa, H.M., M.P. Serrano, D.G. Valencia, M. Frikha, E. Jimenez-Moreno and G.G. Mateos, 2008. Productive performance and egg quality of brown egg-laying hens in the late phase of production as influenced by level and source of calcium in the diet. Poult. Sci., 87: 2043-2051.
Zhang, B.F. and C.N. Coon, 1997. The relationship of calcium intake, source, size, solubility in vitro and in vivo and gizzard limestone retention in laying hens. Poult. Sci., 76: 1702-1706.
Burrows, W.H. and J.P. Quinn, 1937. The collection of spermatozoa from the domestic fowl and Turkey. Poult. Sci., 16: 19-24.
Downloads
Published
Issue
Section
License
Copyright (c) 2010 Asian Network for Scientific Information
This work is licensed under a Creative Commons Attribution 4.0 International License.
This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution and reproduction in any medium, provided the original author and source are credited.
