Browse > Article
http://dx.doi.org/10.5713/ajas.17.0846

Effect of increasing levels of apparent metabolizable energy on laying hens in barn system  

Kang, Hwan Ku (Poultry Research Institute, Rural Development Administration National Institute of Animal Science)
Park, Seong Bok (Poultry Research Institute, Rural Development Administration National Institute of Animal Science)
Jeon, Jin Joo (Poultry Research Institute, Rural Development Administration National Institute of Animal Science)
Kim, Hyun Soo (Poultry Research Institute, Rural Development Administration National Institute of Animal Science)
Park, Ki Tae (Poultry Research Institute, Rural Development Administration National Institute of Animal Science)
Kim, Sang Ho (Poultry Research Institute, Rural Development Administration National Institute of Animal Science)
Hong, Eui Chul (Poultry Research Institute, Rural Development Administration National Institute of Animal Science)
Kim, Chan Ho (Poultry Research Institute, Rural Development Administration National Institute of Animal Science)
Publication Information
Asian-Australasian Journal of Animal Sciences / v.31, no.11, 2018 , pp. 1766-1772 More about this Journal
Abstract
Objective: This experiment was to investigate the effect of increasing levels of apparent metabolizable energy ($AME_n$) on the laying performance, egg quality, blood parameters, blood biochemistry, intestinal morphology, and apparent total tract digestibility (ATTD) of energy and nutrients in diets fed to laying hens. Methods: A total of three-hundred twenty 33-week-old Hy-Line Brown laying hens (Gallus domesticus) were evenly assigned to four experimental diets of 2,750, 2,850, 2,950, and 3,050 kcal $AME_n/kg$ in pens with floors covered with deep litter of rice hulls. There were four replicates of each treatment, each consisting of 20 birds in a pen. Results: $AME_n$ intake was increased (linear, p<0.05) with inclusion level of $AME_n$ in diets increased. Feed intake and feed conversion ratio were improved (linear, p<0.01), but hen-day egg production tended to be increased with an increasing level of $AME_n$ in diets. During the experiment, leukocyte concentration and blood biochemistry (total cholesterol, triglyceride, glucose, total protein, calcium, asparate aminotransferase, and alanine transferase were not influenced by increasing level of $AME_n$ in diets. Gross energy and ether extract were increased (linear, p<0.01) as the inclusion level of $AME_n$ in diets increased. Conclusion: Laying hens fed high $AME_n$ diet (i.e., 3,050 kcal/kg in the current experiment) tended to overconsume energy with a positive effect on feed intake, feed conversion ratio, nutrient digestibility, and intestinal morphology but not on egg production and egg mass.
Keywords
Feed Intake; Intestinal Morphology; Laying Hen Performance; Metabolizable Energy; Nutrient Digestibility;
Citations & Related Records
연도 인용수 순위
  • Reference
1 Soltan MA. Influence of dietary glutamine supplementation on growth performance, small intestinal morphology, immune response and some blood parameters of broiler chickens. Int J Poult Sci 2009;8:60-8.   DOI
2 Gao J, Zhang HJ, Yu SH, et al. Effects of yeast culture in broiler diet on performance and immunomodulatory functions. Poult Sci 2008;87:1377-84.   DOI
3 Nein S, Renema RA, Zuidhof MJ, Korver DR. Effect of metabolic efficiency and intestinal morphology on variability in n-3 polyunsaturated fatty acid enrichment of eggs. Poult Sci 2012;91:888-98.   DOI
4 Fan YK, Croom J, Christensen VL, et al. Jejunal glucose uptake and oxygen consumption in turkey poults selected for rapid growth. Poult Sci 1997;76:1738-45.   DOI
5 Grobas S, Mendez J, De Blas C, Mantoes GG. Influence of dietary energy, supplemental fat and linoleic acid concentration on performance of laying hens at two ages. Br Poult Sci 1999;40:681-7.   DOI
6 Grobas S, Mendez J, De Blas C, Mantoes GG. Laying hen productivity as affected by energy, supplemental fat, and linoleic acid concentration of the diet. Poult Sci 1999;78:1542-51.   DOI
7 Harms RH, Russell GB, Sloan DR. Performance of four strains of commercial layers with major changes in dietary energy. J Appl Poult Res 2000;9:535-41.   DOI
8 Wu G, Bryant MM, Voitle RA, Roland Sr. DA. Effect of dietary energy on performance and egg composition of Bovans white and Dekalb white hens during phase I. Poult Sci 2005;84:1610-5.   DOI
9 Wu G, Bryant MM, Gunawardana P, Roland Sr DA. Effect of nutrient density on performance, egg components, egg soilds, egg quality, and profits in eight commercial leghorn strain during phase I. Poult Sci 2007;86:691-7.   DOI
10 Peguri A, Coon C. Effect of temperature and dietary energy on layer performance. Poult Sci 1991;70:126-38.   DOI
11 Junqueira OM, de Laurentiz AC, da Silva Filardi R, Rodrigues EA, Casartelli, EM. Effects of energy and protein levels on egg quality and performance of laying hens at early second production cycle. J Appl Poult Res 2006;15:110-5.   DOI
12 Kim JH, Seo SW, Kim CH, et al. Effect of dietary supplementation of crude glycerol or tallow on intestinal transit time and utilization of energy and nutrients in diets fed to broiler chickens. Livest Sci 2013;154:165-8.   DOI
13 Committee on Nutrient Requirements of Poultry, National Research Council. Nutrient requirements of poultry. 9th ed. Washington, DC, USA: National Academy Press; 1994.
14 AOAC International. Official methods of analysis. 18th ed. Arlington, VA, USA: Association of Official Analytical Chemists; 2007.
15 Eisen EJ, Boheren BB, McKean HE. Haugh unit as a measure of egg albumen quality. Poult Sci 1962;41:1361-8.
16 Adeola O. Digestion and balance techniques in pigs. In: Lewis AJ, Southern LL, editors. Swine nutrition. Washington, DC, USA: CRC Press; 2001. pp. 903-16.
17 Swiatkiewicz S, Koreleski J. Effect of crude glycerine level in the diet of laying hens on egg performance and nutrient utilization. Poult Sci 2009;88:615-9   DOI
18 Giannenas I, Taslie E, Chronis E, et al. Consumption of Agaricus bispours mushroom affects the performance, intestinal microbiota compostion and morphology, and antioxidant status of turkey poults. Anim Feed Sci Technol 2011;165:218-29.   DOI
19 SAS, SAS user's guide: Statistics, 9.2 ed. Cary, NC, USA: SAS Inst. Inc.; 2003.
20 Hill FW, Anderson DL, Dansky LM. Studies of the energy requirements of chickens. 3. The effect of dietary energy level on the rate and gross efficiency of egg production. Poult Sci 1956;35:54-9.   DOI
21 Bouvarel I, Nys Y, Panheleux M, Lescoat P. How hens feed influences egg quality. INRA Prod Anim 2010;23:167-82.
22 Sharifi SD, Afzalzadeh A, Bitaraf F, Hashemi M. Effects of blending and inclusion level of soy oil and its acidulated soapstock on broiler performance. 2010;52:147-51.
23 Grobas S, Mendez J, Lazaro R, De Blas C, Mantoes GG. Influence of source and percentage of fat added to diet on performance and fatty acid composition of egg yolks of two strains of laying hens. Poult Sci 2001;80:1171-9.   DOI
24 Masoudi A, Chagi M, Bojaropour M, Mirzadeh K. Effects of different levels of date pits on performance, carcass characteristics and blood parameters of broiler chickens. J Appl Anim Res 2011;39:399-405.   DOI
25 Johnson TS, Zuk M. Parasites, morphology, and blood characters in male red jungle fowl during development. Condor 1998;100:749-52.   DOI
26 Lucas AM, Jamroz C. Atlas of avian hematology. USDA Monograph 25. Washongton DC, USA: USDA; 1961.
27 Mateos GG, Sell JL, Eastwood JA. Rate of food passage (transit time) as influenced by level of supplemental fat. Poult Sci 1982;61:94-100.   DOI
28 Schat K, Myers TJ. Avian intestinal immunity. Crit Rev Poult Biol 1991;3:19-34.
29 Hayat Z, Cherian G, Pasha TN, Khattak FM, Jabber MA. Effect of feeding flax and two types of antioxidants on egg production, egg quality, and lipid composition eggs. J Appl Poult Res 2009;18:541-51.   DOI
30 Yannakopulos AL, Tserveni-Gousi AS. Quality characteristics of quail eggs. Br Poult Sci 1986;27:171-6.   DOI