Effect of Indigofera zollingeriana Top Leaf Meal Supplementation as Natural Antioxidant Source on Production and Quality of Pegagan Duck Eggs
Rizki Palupi(1*), Fitri Novaliya Lubis(2), Rismawati Rismawati(3), Iwan Sudibyo(4), Ramadhan Al Rafi Siddiq(5)
(1) Department of Technology and Livestock Industry, Faculty of Agriculture, Sriwijaya University, Inderalaya, South Sumatera, 30662, Indonesia
(2) Department of Technology and Livestock Industry, Faculty of Agriculture, Sriwijaya University, Inderalaya, South Sumatera, 30662, Indonesia
(3) Department of Technology and Livestock Industry, Faculty of Agriculture, Sriwijaya University, Inderalaya, South Sumatera, 30662, Indonesia
(4) Department of Technology and Livestock Industry, Faculty of Agriculture, Sriwijaya University, Inderalaya, South Sumatera, 30662, Indonesia
(5) Department of Technology and Livestock Industry, Faculty of Agriculture, Sriwijaya University, Inderalaya, South Sumatera, 30662, Indonesia
(*) Corresponding Author
Abstract
This study aims to produce Pegagan duck eggs which is high in antioxidants to be used as functional comestibles. Efforts to achieve these goals can be done by adding a source of natural antioxidants in the form of legume leaves of Indigofera zollingeriana which contain active compounds of β-carotene. The study used a completely randomized design (CRD) consisting of 5 treatments (4 replications each), which were levels of Indigofera zollingeriana top leaf meal supplementation (R0 = 0%, R2 = 1%, R2 = 2%, R3 = 3% and R4 = 4%) in Pegagan duck rations. The observed variables are production performance; egg quality, both physically and chemically. Physical quality includes egg weight, eggshell percentage, egg white weight percentage (albumen), and weight percentage of egg yolk and egg yolk color. The quality of egg chemistry includes the content of vitamin A, β-carotene, cholesterol, and antioxidant activity of eggs. The data obtained were analyzed by variance analysis, followed by the Duncan Multiple Range Test. The results showed that supplementation of Indigofera zollingeriana top leaf meal in rations could improve egg quality and contain antioxidants. Supplementation of Indigofera zollingeriana top leaf meal with a dose of 4% in rations can increase the color of the yolk by 43.40%, reduce the inhibition rate by 11.38%, with an increase in the content of β-carotene by 75.23% and can maintain normal cholesterol in eggs.
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Agro, L. B., Tristiarti, and I. Manigisah. 2013. Kualitas ayam arab fase I dengan berbagai level Azolla microphilla. Animal Agricultural J. 2: 445 – 447.
Ahmed, S., A. Khalique, T. N. Pasha, S. Mehmood, K. Hessain, S. Ahmad, M. S. Shaheen, M. Naeem, and M. Shafiq. 2017. Effect of Moringa oleifera (Lam) pod as feed additive on egg antioxidants, chemical composition and performance of commercial layer. S. Afr. J. Anim Sci. 47: 864-874. http://doi: org/10.4314/sajas.v4716.14.
Akbarillah, T., Kususiyah, and Hidayat. 2010. Pengaruh penggunaan daun Indigofera segar sebagai suplementasi pakan terhadap produksi dan warna yolk itik. J. Sain dan Peternakan Indonesia 5: 27 – 33.
Akdemir, F., C. Orhan, N. Sahin, K. Sahin, and A. Hayirli. 2012. Tomato powder in laying. hen diets: effect on concentrations of yolk and lipid peroxidation. Br. Poult. Sci. 53: 675-680. http://doi: 10.1080/00071668.2012.729142.
Bar, A. 2008. Calcium homeostasis and vitamin D metabolism and expression in strongly calcifying laying birds. Comp. Biochem. Physiol. A Mol. Integr. Physiol. 151: 477-490. http://doi: 10.1016/j.cbpa.2008.07.006.
Coon, N. C. 2002. Feeding commercial egg-type layers in Commercial chicken meat and egg production.. 5th edn. Springer Science, Business Media, Inc. New York.
Bortolotti, G. R., J. J. Negro, P. F. Surai and P. Prieto. 2003. Carotenoids in eggs and plasma of Red-Legged partridges: Effects of diet and reproductive output. Physiol. Biochem. Zool. 76: 367-374. http://doi: 10.1086/375432.
Chidambara, M. K. M., A. Vanitha, J, Rajesha, S. M. Mahadewa, P. R. Sowya, and G. A. Ravishankar. 2005. In vivo antioxidant anctivuty of carotenoids from Dunaliella salina a green microalga. J. Lifesci. 4: 1381 – 1390.
Creswell, D. 2012. Feeding meat and laying ducks for maximum performance. Proceeding of Poultry Feed and Quality Conference - Bangkok. July 9-10, 2012
Doucha, J., K. Livansky, V. Kotrbacek, and V. Zachleder. 2009. Production of chlorella biomass enriched by selenium and its use in animal nutrition : a review. App. Microbiol. Biotechnol. 83: 1001 - 1008. http://doi: 10.1007/s00253-009-2058-9.
Johri, T. S. 2005. Endogenous and exogenous feed toxins. In Poultry Nutrition Research in India and its Perspective. Central Avian Research Institute
Izatnagar - 243 122, Distt.Bareilly (U.P.)
Hammershøj, M., U. Kidmose, and S. Steenfeldt. 2010. Deposition of carotenoids in egg yolk by short-term supplement of coloured carrot (Daucus carota) varieties as forage material for egg-laying hens. J. Sci. Food Agric. 90: 1163 - 1171. http://doi: 10.1002/jsfa.3937.
Ismoyowati, L. 2008. Study of detection of egg production of tegal ducks through blood protein polymorphism. Anim. Prod. 10 : 122- 128.
Kaewmanee, T., S. Benjakul, and W. Visessanguan. 2009. Changes in chemical composition, physical properties and microstructure of duck egg as influenced by salting. Food Chem. 112: 560 - 569. http://doi.org/10.1016/j.foodchem.2008.06.011.
Kotrbacek, V., M. Skrivan, J. Kopecky, O. Penkava, P. Hudekova, I. Uhrikova, and J. Doubek. 2013. Retention of carotenoid in egg yolk of laying hens supplemented with heterotropic chlorella. Czech. J. Anim. Sci. 58: 193 - 200.
Kumar, V., A. V. Elangovan, and A. B. Mandal. 2005. Utilization of reconstituted high-tannin sorghum in the diets of broiler chickens. Asian-Aust J. Anim. Sci. 18: 538 - 544.
Leeson, S. and J. D. Summers. 2005. Commercial poultry nutrition. 3rd edn. Manor Farm, Churh Lane, Thrumpton, Nottingham University Press. Nottingham.
Liu, Y. Q., C. R. Davis, S. T. Schmaelzle, T. Rocheford, M. E. Cook, and S. A. Tanumihardjo. 2012. Β-Cryptoxanthin biofortified maize (zeamays) increases Β-Cryptoxanthin cincentration and enhaces the color of chiken egg yolk. J. Poult. Sci. 91: 432 - 438.
Liu, X., Y. Zhang, P. Yan, T. Shi, and X. Wei. 2017. Effect of conjugated linoleic on the performance of laying hens, lipid composition of egg yolk, egg flavor, and serum components. Asian-Australas. J. Anim Sci. 30: 417-423. http://doi: 10.5713/ajas.15.1036.
Mayes, P. A. 2002. Lipids of physiologic significance. In : Harper’s biochemistry. McGraw-Hill Education (Asia). New Delhi. pp. 148-281.
Na, J. C., J. Y. Song, B. D. Lee, S. J. Lee, C. Y. Lee and G. H. An. 2004. Effects of polarity on absorption and accumulation of carotenoids by laying hens. Anim. Feed Sci. Technol. 117: 305 - 315.
Nys, Y. and N. Guyot. 2011. Egg formation and chemistry. Improving the safety and quality of eggs and egg products. Woodhead Publishing - Cambridge UK. pp. 88 -132.
Palupi, R., L. Abdullah, D. A. Astuti and Sumiati. 2014a. High antioxidant egg production through substitution of soybean meal by Indigofera sp., top leaf meal in laying hen diets. Int. J. Poult. Sci. 13 : 198 - 203.
Palupi, R., L. Abdullah, D. A. Astuti, and Sumiati. 2014b. Potensi dan pemanfaatan tepung pucuk Indigofera sp. sebagai bahan pakan substitusi bungkil kedelai dalam ransum ayam petelur. JITV. 19: 210-219.
Pundir, C. S., M. Bhambi and N. S. Chauhan. 2009. Chemical activation of egg shell membrane for covalent immobilization of enzymes and Its evaluation as inert support in urinary oxalate determination. Talanta. 77: 1688 - 1693.
Rosa, A., A. Scher, J. Sorbara, L. Boemo, J. Forgiarini and A. Londero. 2012. Effects of canthaxanthin on the productive and reproductive performance of broiler breeders. Poult. Sci. 91: 660 - 666.
Sangeetha, R. K. and V. Baskaran. 2010. Retinol deficient rats can convert a pharmacological dose of astaxanthin to retinol : Antioxidant potential of astaxanthin, lutein and β carotene. J. Physiopharma. 88: 977 - 985. http://doi: 10.1139/y10 – 074.
Shim, K. S., G. H. Park, C. B. Choi and C. S. Na. 2004. Decreased triglyceride and cholesterol levels in serum, liver and breast muscle in broiler by the supplementation of dietary Codonopsis lanceolata root. Asian-Australas. J. Anim. Sci. 17:511 - 513.
Sinurat, A. P. 2000. Penyusunan Ransum Ayam Buras dan Itik. Balai Penelitian Ternak, Ciawi.
Steel, R. G. and J. H.Torrie. 1995. Prinsip dan Prosedur Statistika : Suatu Pendekatan Biometrik. Terjemahan: Bambang Sumantri. PT. Gramedia Pustaka Utama, Jakarta.
Surai, P. F. 2003. Natural antioxidant in avian nutrition and production. Nottingham University Press, Nottingham.
Wahju, J. 2004. Ilmu Nutrisi Unggas. 4th edn. Universitas Gadjah Mada Press, Yogyakarta.
Winarsi, H. 2007. Antioksidan Alami dan Radikal Bebas. Penerbit Kanisius, Yogjakarta.
Wu, G., M. M. Bryant, R. A. Voitle, and D. A. Roland. 2005. Effect of dietary energy on performance and egg composition of Bovans White and Dekalb White hens during phase I. J. Poult. Sci. 84: 1610–1615.
Yamamoto, T., L. R. Juneja, H. Hatta, and M. Kim. 2007. Hen eggs: Basic and Applied Science. University of Alberta, Canada.
Yuwanta, T. 2010. Telur dan Kualitas Telur. Gadjah Mada University Press, Yogyakarta.
DOI: https://doi.org/10.21059/buletinpeternak.v42i4.22881
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