Effect of calcium source and particle size on the true ileal digestibility and total tract retention of calcium in broiler chickens

[1]  M. N. Anwar,et al.  Chapter 12 Measurement of calcium digestibility in feed ingredients for poultry – methodology and challenges , 2016 .

[2]  A. Cowieson,et al.  Effect of limestone particle size and calcium to non-phytate phosphorus ratio on true ileal calcium digestibility of limestone for broiler chickens , 2016, British poultry science.

[3]  V. Ravindran,et al.  Apparent ileal digestibility of calcium in limestone for broiler chickens , 2016 .

[4]  Board on Agriculture,et al.  Nutrient requirements of poultry , 2016 .

[5]  A. Cowieson,et al.  The concentration of strontium and other minerals in animal feed ingredients , 2013 .

[6]  A. Idowu,et al.  Growth response, nutrient and mineral retention, bone mineralisation and walking ability of broiler chickens fed with dietary inclusion of various unconventional mineral sources. , 2011, Journal of animal physiology and animal nutrition.

[7]  D. Korver,et al.  The effect of calcium source and particle size on the production performance and bone quality of laying hens. , 2009, Poultry science.

[8]  M. Frikha,et al.  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. , 2008, Poultry science.

[9]  J. P. Hayes,et al.  Influence of particle size distribution on in vivo and in vitro limestone solubility , 2006 .

[10]  V. Ravindran,et al.  Apparent ileal digestibility of amino acids in dietary ingredients for broiler chickens , 2005 .

[11]  D. Baker,et al.  Phytase improves dietary calcium utilization in chicks, and oyster shell, carbonate, citrate, and citrate-malate forms of calcium are equally bioavailable , 2004 .

[12]  S. Leeson,et al.  Biological availability of calcium in broiler chicks from different calcium sources found in Nigeria , 2003 .

[13]  C. Coon,et al.  The relationship of calcium intake, source, size, solubility in vitro and in vivo, and gizzard limestone retention in laying hens. , 1997, Poultry science.

[14]  C. Coon,et al.  Improved In Vitro Methods for Determining Limestone and Oyster Shell Solubility , 1997 .

[15]  J. Wiseman,et al.  Determination of titanium dioxide added as an inert marker in chicken digestibility studies , 1996 .

[16]  Y. Nys,et al.  Calcium solubilization and retention in the gastrointestinal tract in chicks (Gallus domesticus) as a function of gastric acid secretion inhibition and of calcium carbonate particle size , 1995, British Journal of Nutrition.

[17]  Y. Nys,et al.  The effects of particle size and origin of calcium carbonate on performance and ossification characteristics in broiler chicks. , 1991, Poultry science.

[18]  T. K. Cheng,et al.  Comparison of Various In Vitro Methods for the Determination of Limestone Solubility , 1990 .

[19]  T. K. Cheng,et al.  Effect of calcium source, particle size, limestone solubility in vitro, and calcium intake level on layer bone status and performance. , 1990, Poultry science.

[20]  W. Horwitz Official Methods of Analysis , 1980 .

[21]  C. Weber,et al.  Calcium Availability and Trace Mineral Composition of Feed Grade Calcium Supplements , 1976 .

[22]  J. McNaughton,et al.  Effect of particle size on the utilization of calcium supplements by the chick. , 1974, Poultry science.

[23]  H. T. Peeler Biological availability of nutrients in feeds: availability of major mineral ions. , 1972, Journal of animal science.

[24]  P. English,et al.  Effect of calcium source on calcium retention in the young chick. , 1965, British poultry science.