Free Standard AU & NZ Shipping For All Book Orders Over $80!
Register      Login
Animal Production Science Animal Production Science Society
Food, fibre and pharmaceuticals from animals
RESEARCH ARTICLE

Effect of copper source on phytase stability in the premix of weanling piglets

Lin Lu A , Shoufeng Hao A , Liyang Zhang A and Xugang Luo A B
+ Author Affiliations
- Author Affiliations

A Mineral Nutrition Research Division, Institute of Animal Science, Chinese Academy of Agricultural Sciences, Beijing 100193, PR China.

B Corresponding author. Email: wlysz@263.net

Animal Production Science 53(2) 142-145 https://doi.org/10.1071/AN12123
Submitted: 10 April 2012  Accepted: 26 July 2012   Published: 13 December 2012

Abstract

An in vitro experiment was conducted to investigate the effect of tribasic copper (Cu) chloride [TBCC, Cu2(OH)3Cl] on phytase stability in the premix of weanling piglets at different temperatures in comparison with Cu sulfate. The 225-kg 1% premixes were supplemented with phytase at 50 000 PU/kg and divided into three parts of 75 kg each. One part was supplemented with 6 mg Cu/kg as Cu sulfate (the control), and the other two parts were supplemented with 250 mg Cu/kg either as TBCC or as Cu sulfate. Either 6 or 250 mg Cu/kg is based on the complete diet of weanling piglets. The three premixes were stored at room temperature (20−25°C), natural high temperature (28−36°C), or artificial high temperature (38 ± 2°C) for 0, 10, 20, 30, or 40 days. Copper source, storage temperature and duration of storage, the interaction between Cu source and duration of storage, and the interaction between temperature and duration of storage affected (P < 0.01) phytase activities in the 1% premixes. Phytase activities in the premixes supplemented with TBCC were significantly higher (P < 0.001) than those in the premixes supplemented with CuSO4 at 10 or 20 days of storage. Phytase activities in premixes decreased (P < 0.001) exponentially with duration of storage regardless of Cu source or storage temperature. When the premixes were stored at different duration of storage, phytase activities in the premixes decreased (P < 0.001) linearly as temperature increased. The results from this study indicate that TBCC could maintain the stability of phytase in the piglet premix much more effectively than Cu sulfate regardless of temperature and storage duration.


References

Applegate TJ, Angel R, Classen HL (2003) Effect of dietary calcium, 25-hydroxycholecalciferol, or bird strain on small intestinal phytase activity in broiler chickens. Poultry Science 82, 1140–1148.

Braude R (1967) Copper as a stimulant in pig feeding (Cuprum propecunia). World Review of Animal Production 3, 69–81.

Cromwell GL (1991) Antimicrobial agents. In ‘Swine nutrition’. (Eds ER Miller, DE Ullrey, AJ Lewis) pp. 297–314. (Butterworth-Heinemann: Stoneham, MA)

Cromwell GL (1997) Copper as a nutrient for animals. In ‘Handbook of copper compounds and applications’. (Ed. HW Richardson) pp. 177–202. (Marcel Dekker Inc.: New York)

Cromwell GL, Lindemann MD, Monegue HJ, Hall DD, Orr DE (1998) Tribasic copper chloride and copper sulfate as copper sources for weanling pigs. Journal of Animal Science 76, 118–123.

Davies MI, Ritcey GM, Motzok I (1970) Intestinal phytase and alkaline phosphatase of chicks: influence of dietary calcium, inorganic and phytate phosphorus and vitamin D3. Poultry Science 49, 1280–1286.
Intestinal phytase and alkaline phosphatase of chicks: influence of dietary calcium, inorganic and phytate phosphorus and vitamin D3.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DyaE3MXitVyrtQ%3D%3D&md5=23d2078b66f8e29464dd8058e1d936c3CAS |

Davis GK, Mertz W (1987) Copper. In ‘Trace elements in human and animal nutrition’. 5th edn. Vol. 42. (Ed. W Mertz) pp. 301–364. (Academic Press: New York)

Edmonds MS, Izquierdo OA, Baker DH (1985) Feed additive studies with newly weaned pigs: efficacy of supplemental copper, antibiotics and organic acids. Journal of Animal Science 60, 462–469.

Engelen AJ, Van der Heeft FC, Randsdorp PHG, Smit ELC (1994) Simple and rapid determination of phytase activity. The Journal of AOAC International 77, 760–764.

Liu Z, Bryant MM, Roland DA (2005) Layer performance and phytase retention as influenced by copper sulfate pentahydrate and tribasic copper chloride. Journal of Applied Poultry Research 14, 499–505.

Lu L, Wang RL, Zhang ZJ, Steward FA, Luo XG, Liu B (2010) Effect of dietary supplementation with copper sulfate or tribasic copper chloride on the growth performance, liver copper concentrations of broilers fed in floor pens, and stabilities of vitamin E and phytase in feeds. Biological Trace Element Research 138, 181–189.
Effect of dietary supplementation with copper sulfate or tribasic copper chloride on the growth performance, liver copper concentrations of broilers fed in floor pens, and stabilities of vitamin E and phytase in feeds.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BC3cXhtlyhu77P&md5=d075f5783a6b207d566c9ec32a3681f1CAS |

Luo XG, Ji F, Lin YX, Steward FA, Lu L, Liu B, Yu SX (2005) Effects of dietary supplementation with copper sulfate or tribasic copper chloride on broiler performance, relative copper bioavailability and oxidation stability of vitamin E in feed. Poultry Science 84, 888–893.

McCuaig LW, Davies MI, Motzak I (1972) Intestinal alkaline phosphatase and phytase of chicks: effect of dietary magnesium, calcium, phosphorus and thyroactive casein. Poultry Science 51, 526–530.
Intestinal alkaline phosphatase and phytase of chicks: effect of dietary magnesium, calcium, phosphorus and thyroactive casein.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DyaE38XksFOisbs%3D&md5=63aac5a7ba996ce2fd844e9491688151CAS |

Miles RD, O’keefe SFP, Henry R, Ammerman CB, Luo XG (1998) The effect of dietary supplementation with copper sulfate or tribasic copper chloride on broiler performance, relative copper bioavailability and dietary prooxidant actixity. Poultry Science 77, 416–425.

National Research Council (1998) ‘Nutrient requirements of swine.’ (National Academy Press: Washington, DC)

PARC Institute (1997) ‘Evaluation of TBCC impact on vitamin loss during pelleting.’ (PARC Institute: Easton, MD)

SAS (2002) ‘SAS user’s guide: statistics.’ (SAS Institute Inc.: Cary, NC)