Suplementasi Vitamin E pada Level Nutrien Ransum Berbeda untuk Meningkatkan Pertumbuhan dan Mengatasi Cekaman Panas pada Ayam Lokal IPB-D3
Supplementation of vitamin E in the diet containing different nutrition levels to increase growth and overcome heat stress of local chicken IPB-D3
Abstract
This study aimed to evaluate the effect of vitamin E supplementation at different levels of ration nutrition on the variables. 160 IPB-D3 chickens were reared from grower to finisher with 16 experimental units. The experimental design used factorial RAL (2x2) with 4 replications. The first factor was the type of ration namely control rations with nutrient requirements equal to SNI and rations with nutrient requirements more than 10% of SNI (treatment rations) and the second factor was without and with vitamin E supplements 200 ppm vitamin E supplementation. Data were analyzed using ANOVA and Duncan's follow-up test. The variables used included performance, lymphoid organs, blood profile, MDA, and catalase. The results showed that the treatment did not have significant effect on performance, but rations with nutrient content >10% SNI were able to increase body weight gain of IPB-D3 chickens compared to other treatments. The type of ration had a significant effect (p<0.05) on the thymus organ.Vitamin E supplementation was able to increase hemoglobin and basophil levels (p<0.05). There was an interaction between the type of ration and vitamin E supplementation on MDA and catalase (p<0.05). Provision of rations with the nutrient content >10% SNI increased catalase activity. Vitamin E supplementation suppressed the formation of MDA in rations with nutrient content >10% SNI. It can be concluded that supplementation of vitamin E 200 ppm with different rations still maintained lymphoid organs and blood profiles in normal conditions, suppressed MDA formation and increased the antioxidant enzyme activity.
Key words: growth, lokal chicken IPB-D3, heat stress, vitamin E
Downloads
References
Ajakiye JJ, Perez BA & Mollineda TA. 2011. Effects of high temperature on production in layer chickens supplemented with vitamins C and E. Revista. MVZ Córdoba. 16(1): 2283–2291.
Aksu, DS, Aksu T, Ozsoy B, & Baytok E. 2010. The effects of replacing inorganic with a lower level of organically complexed minerals (Cu, Zn and Mn) in broiler diets on lipid peroxidation and antioxidant defense systems. Asian Australasian Journal of Animal Sciences 23 : 1066-1072.
Badan Pusat Statistik. 2011. Survei Sosial Ekonomi Nasional, Pengeluaran untuk Konsumsi Penduduk Indonesia 2010. Jakarta (ID) : Badan Pusat Statistik
Bounous DI & Stedman NL. 2000. Normal Avian Hematology: Chicken and Turkey. Feldman BF, Zinkl JG, Jain NC, eds. Schalm’s Veterinary Hematology. 5th Ed. Philadelphia (United States): Lea and Febiger.
Delles RM, Xiong YL, True AD, Ao T & Dawson KA. 2014. Dietary antioxidant supplementation enhances lipid and protein oxidative stability of chicken broiler meat through promotion of antioxidant enzyme activity. Poultry Science. 93(6):1561–1570.
Gladine C, Morand C, Rock E, Gruffat D, Bauchart D & Durand D. 2007. The antioxidative effect of plant extracts rich in polyphenols differs between liver and muscle tissues in rats fed n-3 PUFA rich diet. Journal of Animal. Feed Science and Technology. 139:257-272.
Guyton AC & Hall JE. 2010. Textbook of Medical Physiology. 12th Ed. Philadelphia (United States): WB Saunders.
Habiburahman R, Darwati S, Sumantri C. 2018. Pola Pertumbuhan Ayam Silangan Pelung Sentul Kampung Ras Pedaging (IPB D1) G4 Umur 1-12 Minggu. Jurnal Jurnal Produksi dan Teknologi Hasil Perernakan. 6(3):81–89.
Halliwell B. 1994. Free Radical, Antioxidant and Human Disease: Curiosity Cause or Consequence. The Lancet 344: 721-724.
Hariyatmi. 2004. Kemampuan vitamin E sebagai antioksidan terhadap radikal bebas pada lanjut usia. Jurnal MIPA UMS. 14(1):52-60.
Hidanah S, Sabdoningrum EK, Wahjuni RS & Chusniati S. 2018. Effects of meniran (Phyllanthus niruri L.) administration on leukocyte profile of broiler chickens infected with Mycoplasma gallisepticum. Veterinary World 11(6):834-839.
Iwai K, Nakaya N, Kawasaki Y & Matsue H. 2002. Antioxidative functions of natto, a kind of fermented soybeans: Effect on LDL oxidation and lipid metabolism in cholesterol-fed rats. Journal of Agricultural and Food Chemistry. 50(12):3597–3601.
Jahejo AR, Rajput N, Rajput NM, Leghari IH & Kaleri RR. 2016. Effects of heat stress on the performance of Hubbard broiler chicken. Cells, Animal and Therapeutics 2(1):1–5.
Jiang SQ, Jiang ZY, Lin YC, Xi PB & Ma XY. 2007. Effect of soy isoflavone on performance, meat quality and antioxidative property of male broilers fed oxidazed fish oil. Asian-Aust. Journal of Animal. Science. 20: 1252-1257.
Kakhki RAM, Bakhshalinejad R & Shafiee M. 2016. Effect of dietary zinc and α-tocopheryl acetate on broiler performance, immune responses, antioxidant enzyme activities, minerals and vitamin concentration in blood and tissues of broilers. Animal Feed Science and Technology. 221:12–26.
Lubis FN, Alfianty R & Sahara E. 2015. Pengaruh suplementasi Se dan vitamin E terhadap performa itik pegagan. Jurnal Peternakan Sriwijaya. 4(1):28–34.
Masum MA, Khan MZI, Nasrin M, Siddiqi MNH & Islam MN. 2014. Detection of immunoglobulins containing plasma cells in the thymus, bursa of Fabricius and spleen of vaccinated broiler chickens with Newcastle disease virus vaccine. Journal International of Veterinary Science and Medicine. 2(2):103–108.
Mointi, DM. 2014. Produktivitas ayam kampung super periode starter yang diberi jenis pakan komersial. In: Tesis. Gorontalo (ID) : Fakultas Peternakan Universitas Negeri Gorontalo.
Mutiara R, Priani SE & Mulyanti D. 2015. Uji aktivitas antioksidan ekstrak batang kayu manis (Cinnamomum burmanni Ness ex Bl) dan formulasinya dalam bentuk sediaan masker gel peel off. Prosiding: Seminar Penelitian Sivitas Akademika Unisba. Bandung (ID): Prodi Farmasi Fakultas MIPA Universitas Islam Bandung.
Mujahid A, Akiba Y & Toyomizu M. 2007. Acute heat stress induces oxidative stress and decreases adaption in young white leg-horn cockerels by down regulation of avian uncoupling protein. Journal of Poultry Science 86 : 364-371.
Park SO, Chae-Min R, Byung-Sung P & Jong H. 2011. The meat quality and growth performance in broiler chickens fed diet with cinnamon powder. Journal of Environmental Biology. 34(1):127–133.
Purswell JL, Dozier WA Olanrewaju HA, Davis JD, Xin H & Gates RS. 2012. Effect of temperature-humidity index on live performance in broiler chickens grown from 49 to 63 days of age. ASABE-9th International Livestock Environment Symposium page 41-49.
Rice-Evans CA, Diplock AT & Symons MCR. 1999. Technique in Free Radical Research, Tokyo (Jepang): Elsevier Amsterdam.
Sastradipradja D, Sikar SS, Wijayakusuma R, Ungerer T, Maad A, Nasution H, Suriawinata R & Hamzah R. 1989. Fisiologi Veteriner. Bogor (ID) : Pusat Antar Universitas Ilmu Hayati Institut Pertanian Bogor.
Samour J. 2013. Diagnostic Value of Hematology. In: Harrison G, Lightfoot T; editors. Clinical Avian Medicine. Florida (United States): Spix Publisher.
Sari C, Isroli I & Atmomarsono U. 2014. Pengaruh penambahan tepung rimpang temu kunci (Boesenbergia pandurata ROXB) dalam ransum terhadap ketahanan tubuh ayam broiler. Journal of Animal and Agriculture. 3(2):106–112.
Schmid MK. & Labiza TP. 2000. Essential of Functional Food.Gaithesburg, Maryland (United States): Aspen Publisher Inc.
Scanes CG. 2016. Biology of stress in poultry with emphasis on glucocorticoids and the heterophil to lymphocyte ratio. Poultry Science 95(9):2208-2215.
Siegel HS. 1995. Stress, strains, and resistance. British Poultry Science. 36:3-22.
Steel RGD & Torrie JH. 1995. Prinsip dan Prosedur Statistika: Suatu Pendekata. Biometrik. Jakarta (ID): Gramedia Pustaka Utama.
Sumantri C & Darwati S. 2017. Pekembangan terkini riset ayam unggul IPB-D1. Prosiding: Seminar Nasional Industri Peternakan. Bogor (ID): Fakultas Peternakan IPB.
Tamzil MH. 2014. Stres panas pada unggas: metabolisme, akibat dan upaya penanggulangannya. Wartazoa. 24(2): 57-66.
Toghyani M, Tohidi M, Gheisari AA & Tabeidian SA. 2010. Performance, immunity, serum biochemical and hematological parameters in broiler chicks fed dietary thyme as alternative for an antibiotic growth promoter. African Journal of Biotechnology. 9(40):6819–6825.
Ullah MS, Pasha TN, Ali Z, Saima, Khattak FM & Hidayat Z. 2012. Effects of different pre-starter dietson broiler performance, gastro intestinal tract morphometry and carcass yield. Journal of Animal Plant Science. 22(3):570–575.
Veliky MM, Vovk OI, Aphonyushkin TA, Zababurina ML, Gurska NI & Drobot LB. 2001. Redox State of Nicotinamide Nucleotides and Antioxidant Enzyme Activities in C-27 Hepatoma Tissue and Liver of Tumor Bearing RAS. Experimen Oncology. 23:30-42.
Xie S, Turrell EJ & McWhorter TJ. 2017. Behavioural responses to heat in captive native Australian birds. Emu-Austral Ornithology. 117(1):51–67.
Copyright (c) 2022 N Salsabila, S Sumiati, T Suryati
This work is licensed under a Creative Commons Attribution 4.0 International License.
The authors of the submitted manuscript have to understand and agree that the copyrights published are held by Jurnal Ilmu Nutrisi dan Teknologi Pakan. Copyrights includes rights in reproducing, distributing and selling every section of articles in all forms and media. The copyright transfer form is signed by the corresponding author. The author”
• Creative Commons Attribution (CC BY)
you are allowed to:
Share – copy and redistribute the material in any medium or format
Adapt – remix, transform, and build upon the material
for any purpose, even commercially.
The licensor cannot revoke these freedoms as long as you follow the license terms.
Jurnal Ilmu Nutrisi dan Teknologi Pakan (Nutrition and Feed Technology Journal)
This work is licensed under a Creative Commons Attribution 4.0 International License.