The Effects of Complex Enzymes on Production Performance, Egg Quality, Hatchability and Intestinal Morphometry in Khaki Campbell Duck
محورهای موضوعی : CamelT.K. Das 1 , M.C. Pakhira 2 , B.C. Debnath 3 , B. Debroy 4
1 - Department of Livestock Farm Complex, College of Veterinary Science and A.H., R.K. Nagar, Tripura, India
2 - Department of Avian Science, West Bengal University of Animal and Fishery Science, West Bengal, India
3 - Department of Animal Nutrition, College of Veterinary Science and A.H., R.K. Nagar, Tripura, India
4 - Department of Veterinary Pathology, College of Veterinary Science and A.H., R.K. Nagar, Tripura, India
کلید واژه: egg production, egg quality, hatchability, duck, complex enzymes,
چکیده مقاله :
A total 480 female and 80 male Khaki Campbell ducks were used to investigate the effect of enzyme complex on production performance and intestinal morphology in 24 weeks trial on wheat-based layer diets. There were four dietary treatment groups with 5 replicates in each. In T1 group, ducks were fed basal diet and in T2, T3 and T4 enzyme complex were supplemented at the level of 0.04%, 0.05% and 0.06%. Results showed that there were no significant differences among experimental diets on body weight (BW) and feed intake. However, a significant difference (P≤0.05) on feed conversion ratio (FCR) were observed between T4 and T1. Hen day egg production (HDEP) and hen house egg production (HHEP) were significantly (P≤0.05) improved in T4 compared to other groups. Egg mass was significantly improved (P≤0.05) in T4 than other groups. Dead germ and dead in-shells% were not affected by adding enzyme supplementation. Whereas, significant differences (P≤0.05) in fertility rate and infertile egg % were recorded between enzyme supplemented and T1 group. Hatchability % of total eggs set was significantly different (P≤0.05) in T4 whereas hatching % of fertile egg was unaffected by dietary treatments. Egg quality traits in terms of yolk weight, albumen width, shell weight, egg width, egg length, shape index and shell thickness did not differ significantly (P>0.05) among groups. Villi height (µm) and villi area (mm2) have significantly (P≤0.05) increased in the T3 and T4. The results indicated that 0.06% enzyme complex supplementation in the diet may be beneficial for egg production, hatchability, intestinal morphometry but have no effect on egg quality traits in Khaki Campbel duck.
Acamovic T. (2001). Commercial application of enzyme technology for poultry production. World's Poult. Sci. J. 57, 225-242.
Adubados M.A. (2011). Effect of enzyme supplementation and wheat middlings as an alternative to corn on laying hens performance. Italian J. Anim. Sci. 10, 254-259.
Anandh A.M., Jagatheesan P.N.R., Kumar P.S., Rajarajan G. and Paramsivam A. (2012). Effect of egg weight on egg traits and hatching performance of Turkey (Meleagris gallopavo) eggs. Iranian J. Appl. Anim. Sci. 2, 391-95.
Awad A.L., Fahim H.N., Ibrahim A.F. and Beshara M.M. (2014). Effect of dietary betaine supplementation on productive and reproductive performance of domyati ducks under summer conditions. Animal Production Research Institute, Agricultural Research Center, Ministry of Agriultural, Dokki, Giza. Egyptian Poult. Sci. 34, 453-474.
Ayoola A.A., Malheiros R.D., Grimes J.L. and Ferket P.R. (2015). Effect of dietary exogenous enzyme supplementation on enteric mucosal morphological development and adherent mucin thickness in Turkeys. Front. Vet. Sci. 2, 45-52.
Bain M.M. (1991). A reinterpretation of egg shell strength. Pp. 131-145 in Egg and Eggshell Quality. S.E. Solomon, Ed., Wolfe Publishing Limited, Aylesbury, United Kingdom.
Biyatmoko D. and Rostini T. (2016). The effect of protease enzyme supplementation to productivity eggs of alabio duck. Int. J. Biosci. 8, 203-208.
Chakravathi P.V. and Mohan B. (2014). Comparison of performance of Khaki Campbell Ducks under organized farm and field conditions, Shanlax Inter. J. Vet. Sci. 2, 1-3.
Choct M., Dersjant-Li Y., McLeish J. and Peisker M. (2010). Soy oligosaccharides and soluble non-starch polysaccharides: a review of digestion, nutritive and anti-nutritive effects in pigs and poultry. Asian-Australian J. Anim. Sci. 23, 1386-1398.
Dauda G., Momoh O.M., Dim N.I. and Ogah D.M. (2014). Growth, production and reproductive performance of Japanese quails (Coturnix coturnix japonica) in humid environment. Egyptian Poult. Sci. 34, 381-395.
Elemenawey M.A., Ali A.H.R., Galal M.A.A. and Stino F.K.R. (2010). Influence of enzyme supplementation in the diet on egg production, egg quality and some blood constituents of matrouh hens. Egyptian Poult. Sci. 30, 661-678.
Filho J.A.V., Geraldo A., Machado L.C., Brito J.A., Bertechini A.G. and Murakami E.S.F. (2015). Effect of protease supplementation on production performance of laying hens. Acta Scientiarum. Anim. Sci. 37, 29-33.
Galik B. and Horniakova E. (2010). The effect of enzymatic additives on the productivity of laying hens Isa Brown. J. Cent. Eur. Agric. 11, 381-386.
Gentilini F.P., Silva R.A.G., Nunes P.M., Gonçalves F.M., Kuhn C., Anciuti M.A. and Rutz F. (2009). Performance and bone resistance of laying hens supplemented with Allzyme® SSF in the diets. Arch. Zootec. 58, 645-653.
Geraldo A., Gomes K.R.A., Fassani E.J., Bertechini A.G., Simão S.D. and Nogueira F.S. (2014). Carbohydrase and phytase supplementation in diets for semi-heavy laying hens. Acta Scientiarum. 36, 285-290.
Hajati H. and Rezaei M. (2010). The application of prebiotics in poultry production. Int. J. Poult. Sci. 9, 298-304.
Hasan M.R., Islam S., Rahman M.M., Kabir M.H., Shahriar M.S., Ali M.S. and Howlader M.M.R. (2017). Effects of feed additives on productive and reproductive performance of Khaki Campbell Duck in Bangladesh. J. Poult. Sci. Technol. 5, 12-17.
Horn N.L., Donkin S.S., Applegate T.J. and Adeola O. (2009). Intestinal mucin dynamics: Response of broiler chicks and White Pekin ducklings to dietary threonine. Poult. Sci. 88, 1906-1914.
Iji P.A., Khumalo K., Slippers S. and Gous R.M. (2003). Intestinal function and body growth of broiler chickens on diets based on maize dried at different temperatures and supplemented with a microbial enzyme. Reprod. Nutr. Dev. 43, 77-90.
Jalal M.A. and Scheideler S.E. (2001). Effect of supplementation of two different sources of phytase on egg production parameters in laying hens and nutrient digestibility. Poult. Sci. 80, 1463-1471.
Khan S.H., Atif M., Mukhtar N., Rehman A. and Fareed G. (2011). Effects of supplementation of multi-enzyme and multi-species probiotic on production performance, egg quality, cholesterol level and immune system in laying hens. J. Appl. Anim. Res. 39, 386-398.
Law G.K., Bertolo R.F., Adjiri-Awere A., Pencharz P.B. and Ball R.O. (2007). Adequate oral threonine is critical for mucin production and gut function in neonatal piglet. Am. J. Physiol. Gastrointest. Liver Physiol. 292, 1293-1301.
Luo D., Yanga F., Yang X., Yao J., Shi B. and Zhou Z. (2009). Effects of xylanase on performance, blood parameters, intestinal morphology, microflora and digestive enzyme activities of broilers fed wheat-based diets. Asian-Australasian J. Anim. Sci. 22, 1288-1295.
Mahato D.K., Lee K.E., Kamle M., Devi S., Dewangan K.N., Kumar P. and Kang S.G. (2019). Aflatoxins in food and feed: An overview on prevalence, detection and control strategies. Front. Microbiol. 10, 2266-2276.
Malekian G.H., Zamani Moghaddam A.K. and Khajali F. (2013). Effect of using enzyme complex on productivity and hatchability of broiler breeders fed a corn-soybean meal diet. Poult. Sci. J. 1, 43-52.
Mathlouthi N., Mohamed M.A. and Larbier M. (2003). Effect of enzyme preparation containing xylanase and β-glucanase on performance of laying hens fed wheat/barley-or maize/soybean meal-based diets. British Poult. Sci. 44, 60-66.
Mohammed K.A., Toson M.A., Hassanien H.H.M., Soliman M.A.H. and Ei-Nagar S.H.M. (2010). Effect of barley replacement and enzyme supplementation on performance and egg quality of laying hens. Egyptian Poult. Sci. 30, 731-745.
Narasimha J., Nagalakshmi D., Viroji Rao S.T. and Ramana Reddy Y. (2013). Additive effect of NSP enzymes and phytase on performance, egg quality, nutrient retention and gut health of laying hens fed corn-soybean meal based low energy diets. IOSR J. Agric. Vet. Sci. 6, 22-28.
Novak C.L., Yakout H.M. and Remus J. (2008). Response to varying dietary energy and protein with or without enzyme supplementation on leghorn performance and economics. 2. Laying period. J. Appl. Poult. Res. 17, 17-33.
Pandian C., Sundaresan A., Omprakash A.V. and Babu M. (2017). Effect of supplementation of multi enzyme on production performance of White Leghorn layers. Acta Sci. Agric. 1, 20-21.
Resende V.C., Almeida Brainer M.M., Modesto K.P., Sá da Costa Leite P.R. and Freitas P.V.D.X. (2017). Effects of enzyme supplementation on diets of medium-heavy laying hens at 28 to 40 weeks. Rev. Ciência Agronôm. 48, 683-689.
Salleh F., Ohtsuka A. and Hayashi K. (2005). Effect of dietary enzymes on the ileal digestibility and abdominal fat content in broiler. Anim. Sci. J. 76, 475-478.
Singh R.P. and Panda B. (1987). Effect of seasons on physical quality and component yields of eggs. Indian J. Anim. Sci. 57, 50-55.
Tansakul N., Phakam J., Choochuay S. and Paochoosak N. (2017). Toxicological evaluation of low dietary aflatoxin B1 concentrations on performance and residues in laying ducks. Livest. Res. Rural Dev. 29, 207-215.
Torki M., Zangiabadi H. and Ghasemi H.A. (2014). Effects of enzyme supplementation on productive performance and egg quality of laying hens fed diets containing graded levels of whole date waste. Poult. Sci. J. 2, 139-151.
Um J.S., Ahn S.H. and Paik I.K. (1998). Effects of a microbial enzyme supplementation on the performance of hens fed diets containing different levels of wheat. Asian-Australasian J. Anim. Sci. 11, 702-707.
Viana M.T.S., Albino L.F.T., Rostagno H.S., Silva E.A., Vieira R.A. and Junior V.R. (2011). Use of xylanase in diets composed of corn and soybean meal for commercial laying hens. Rev. Bras. Zootec. 40, 385-390.
Wu G., Bryant M.M., Voitle R.A. and Roland Sr D.A. (2005). Effects of beta-mannanase in corn-soy diets on commercial leghorns in second-cycle hens. Poult. Sci. 84, 894-897.
Yaghobfar A., Boldaji F. and Shrifi S.D. (2007). Effect of enzyme supplement on nutrient digestibility, metabolizable energy, egg production, egg quality and intestinal morphology of the broiler chicks and layer hens fed hull-less barley-based diets. Pakistan J. Biol. Sci. 10, 2257-2266.
Yörük M.A. and Bolat D. (2003). The effect of different enzyme supplementations on the performance of laying hens fed with diets based on corn and barley. Türkish J. Vet. Anim. Sci. 27, 789-796.
