Effect of Different Levels of Date Waste Powder on Laying Hens Performance

Document Type : Poultry Nutrition

Authors

1 Department of Animal Science, Animal Science and Food Technology Faculty, Agricultural Sciences and Natural Resources University of Khuzestan, Mollasani, Iran.

2 Department of Animal Science, Animal Science and Food Technology Faculty, Agricultural Sciences and Natural Resources University of Khuzestan, Mollasani, Iran

Abstract

Introduction It has been estimated that feed is the major cost associated with commercial poultry production. Hence, inclusion of non-conventional feed resource becomes of primary importance in livestock production to maintain the productivity at a lower cost. Date palm fruit is one of the most important products of Middle East countries and its byproduct can help to lowering the feed cost in livestock nutrition.
There are a few studies about use of date palm byproduct in poultry nutrition and especially in laying hens diets, therefore, in this study, we considered the effect of different levels of date waste powder on laying hens performance.
Materials and Methods Two independent experiments were conducted to determine the nutritional value of date waste powder (DWP) and its effects on performance and egg qualitative traits of laying hens. In the first experiment, AOAC method was used for determination of proximate analysis of DWP. In the second experiment, a total of 144 Hy-Line W-36 leghorn hens (at 46 wk old) were housed in cages and randomly allocated to 6 treatment groups for 6 weeks. Each group was divided in to 4 replicates. Feed and water were provided ad libitum. The hens received basal diet (corn and soy based diet with 15.00 % crude protein and 2820 kcal/ kg ME) that was formulated to meet the Hy-line W36 requirements recommended for nutrients. The diet did not have any antibiotics and coccidiostats. Treatments were included 0, 5, 10, 15, 20 and 25 percentage of date waste powder by expense of corn in basal diet. Experiment was designed in a completely randomized design. Egg weight (gr), egg production (%) and egg mass (gr/hen/day) were recorded daily. Feed consumption was measured weekly and feed conversion ratio (FCR) (grams of feed: grams of egg mass) was calculated weekly too. At the end of weeks 2, 4 and 6 of the experiment, two eggs from each replicate were randomly selected for measurement the egg qualitative traits.
Results and Discussion The results of these experiments showed that gross energy (GE), crude protein (CP), ether extract (EE), crude fiber (CF), calcium and ash of DWP were 4663 (Kcal/Kg), 7.17 (%) 11.45 (%), 30.64 (%), 0.63 (%) and 2.06 (%) of dry matter, respectively. Feed intake, egg weight and feed conversion ratio of the laying hens were not affected by inclusion different levels of dietary DWP. Egg production and egg mass were highest in 25% of DWP inclusion. This result may be related to the high levels of vegetable oil in this diet to maintenance the energy level. Adding vegetable oil to the diet increase the palatability of the diet, reduce dust and improve food texture and consequently increased nutrient utilization. Dietary inclusion of 25% DWP significantly decreased haugh unit of eggs compared to the 5, 10 and 15% inclusion level. Low availability of amino acids in this level may reduce albumen height. Egg yolk color decreased significantly at 10 and 15 % DWP rather than control group and increased in higher levels of DWP. Plant oils contain carotenoids, which can increase yolk color. Therefore, based on the results of this experiment, it could be concluded that inclusion of DWP in 20 and 25% can improve egg production of laying hens, and economically, the cost spent for producing one Kg egg, when using high levels of DWP was comparable with conventional commercial diets.

Keywords

References

1- Abedelnoor, T. M., N. H. Talib., A. A. Mabrouk., M. A. Mohamed., M. I. El-Mahi., H. H. Abu-Eisa., Z. Fre, and H. Bokrezion. 2009. The use of alternative animal feeds to enhance food security and environmental protection in Sudan. Available at http://www.penhanetwork.org.
2- Adrizal, A., Y. Yusrizal., S. Fakhri., W. Haris., E. Ali, and C. R. Angel. 2011. Feeding native laying hens diets containing palm kernel meal with or without enzyme supplementations: 1. Feed conversion ratio and egg production. Journal of Applied Poultry Research, 20(1): 40-49.
3- Afolabi, K. D., A. O. Akinsoyinu., A. B. Omojola, and O. A. Abu. 2012. The performance and egg quality traits of Nigerian local hens fed varying dietary levels of palm kernel cake with added palm oil. Journal of Applied Poultry Research, 21(3): 588-594.
4- Al-Hiti, M. K, and J. Rous. 1978. Date waste without stone in broiler diets. British Poultry Science, 19: 17-19.
5- Al-Hooti, S., J. S. Sidhu, and H. Qabazard. 1998. Chemical composition of seeds of date fruit cultivars of United Arab Emirates. Journal Food Science and Technology, 35(1): 44-46.
6- Al-Masri, M. R. 2005. Nutritive value of some agricultural wastes as affected by relatively low gamma irradiation levels and chemical treatments. Biotechnology, 96: 1737-1741.
7- AOAC. 1995. Association of official analytical chemists. Official methods of AOAC International, 16th ed. Virgiinia. USA.
8- Ashraf Jahani, A. 2003. Dates are the Fruit of Life. Publication of Agricultural Sciences, Tehran. (In Persian).
9- Barreld, W. H. 1993. Date Palm Products. FAO Agricultural services bulletin No.101.
10- Chong, C. H., I. Zulkifli, and R. Blair. 2008. Effects of dietary inclusion of palm kernel cake and palm oil, and enzyme supplementation on performance of laying hens. Asian-Australasian Journal of Animal Science, 21(7): 1053-1058.
11- Connell, A. M. 1981. Dietary fiber. Pages 1291–1299 in Physiology of Gastrointestinal Tract. L. R. Johnson, ed. Raven Press, New York.
12- Deaton, J. W., L. F. Kubena., F. N. Reece, and B. D. Lott. 1977. Effect of dietary fiber on the performance of laying hens. British Poultry Science, 18:711–714.
13- FAO. 2014. Available at http://faostat.fao.org/site/339/default.aspx.
14- Gillespie, J. R. 1998. Animal Science. 1st ed. Delmar Publishers ITP, Albany, New York.
15- Hashempour, D. 1378. Date Treasures. Agricultural Education Press, Tehran. (In Persian).
16- Hussein, A. S., G. A. Alhadrami, and Y. H. Khalil. 1998. The use of date pits in broiler starter and finisher diets. Biotechnology, 66: 219-223.
17- Husseini Vashan, S. J., A. Golian, and N. Afzali. 2011. Effect of different levels of date waste on performance, egg quality characteristics and blood parameters of laying hens. Iranian Journal of Animal Science Research, 3(1):31-37. (In Persian).
18- Hy-Line Variety W-36. 2008. Commercial Management Guide. Available at http://www.hyline.com.
19- Jumah, H. F., L. L. Al Azzawi, and S. A. Al Hashini. 1973. Some nutritional aspects of feeding ground date pits for broilers. Mesopotamia Journal Agriculture, 8(2): 139-146.
20- Kelsay, J. L. 1986. Update on fiber and mineral availability. Pages 361-372 in Dietary fiber: Basic and Clinical aspects. G. Vahouny, and D. Kritchevsky, ed. Plenum Press, New York.
21- Kheiri, F., J. Pourreza., M. Faghni, and Y. Rahimian. 2012. The effect of different levels of palm kernel meal on Performance of broiler male chicks. Iranian Journal of Veterinary Medicine, 2 (1): 1075-1082. (In Persian).
22- Lee, J. Y., S. Y. Kim., J. H. Lee., J. H. Lee, and S. J. Ohh. 2013. Effect of dietary β-Mannanase Supplementation and palm kernel meal inclusion on laying performance and egg quality in 73 weeks old hens. Journal of Animal Science and Technology, 55(2): 115-122.
23- Lesson, S., and J.D. Summers. 2001. Scott’s nutrition of the chicken, 4th edition. Nottingham, UK, Nottingham University Press.
24- McDonald, P., R. A. Edwards, and J. F. D. Greenhalgh. 1982. Animal Nutrition, 3rd ed. Longman, Harlow, U.K.
25- Onifade, A. A, and G. M. Babatunde. 1998. Comparison of the utilization of palm kernel meal, brewers’ dried grains and maize offal by broiler chicks. British Poultry Science, 39: 245–250.
26- Onwudike, O. C. 1986. Palm kernel meal as a feed for poultry. 1. Composition of palm kernel meal and availability of its amino acids to chicks. Animal Feed Science and Technology, 16(3): 179-186.
27- Osei, S. A, and J. Amo. 1987. Research note: Palm kernel cake as a broiler feed ingredient. Poultry science, 66(11): 1870-1873.
28- Parsons, C. M., L. M. Potter, and R. D. Brown. 1983. Effect of dietary carbohydrates and of intestinal microflora on excretion of endogenous amino acids by poultry. Poultry science, 62: 483–489.
29- Perez, J. F., A. G. Gernat, and J. G. Murillo. 2000. Research notes: The effect of different levels of palm kernel meal in layer diets. Poultry Science, 79(1): 77-79.
30- Roberts, J, and W. Ball. 2004. Diet type, apparent metabolizable energy and digesta viscosity in laying hens of two different ages. Pages 59-62 in Proc. Australian Poultry Science Symposium.
31- SAS Institute .2005. SAS Users guide: Statistics. Version 9.1. SAS Institute Inc., Cary, NC.
32- Sharifi, S. D. 1998. Determination of metabolizable energy of feed resources in Kermanshah province. MSc Thesis, Tarbiat Modares University, Tehran, Iran. (In Persian).
33- Silversides, F.G, and P. Villeneuve. 1994. Is the Haugh unit correction for egg weight valid for eggs stored at room temperature? Poultry Science, 73: 50-55.
34- Temperton, H, and F. S. Dudly. 1939. Feed and Feeding. 22nd ed., The Morrison publishing Co., Ithaca, New York.
35- Torki, M., H. Zangiabadi, and H. A. Ghasemi. 2014. Effects of enzyme supplementation on productive performance and egg quality of laying hens fed diets containing graded levels of whole date waste. Poultry Science, 2(2): 139-151.
36- Vandepopuliere, J. M., Y. Al-Yousef, and J. Lyons. 1995. Dates and date pits as ingredients in broiler starting and coturnix quail breeder diets. Poultry Science, 74: 1134-1142.
37- Zaid, A, and P. F. Dewet. 2002. Date Palm Cultivation. FAO, plant production and protection, paper 156. Rev 1.
38- Zanu, H. K., J. Abangiba., W. Arthur-Badoo., A. D. Akparibo, and R. Sam. 2012. Laying chickens’ response to various levels of palm kernel cake in diets. International Journal of Livestock Production, 3(1): 12-16.
39- Zita, L., Z. Ledvinka., E. Tumova, and L. Klesalova. 2012. Technological quality of eggs in relation to the age of laying hens and Japanese quails. Revista Brasileira de Zootecnia, 41: 2079-2084.
Send comment about this article
CAPTCHA Image

Files

History

  • Receive Date: 23 May 2016
  • Accept Date: 23 May 2016
  • First Publish Date: 22 June 2017

Share

How to cite

Statistics