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Hamed, B. I, Nafaa, H. H, Hussain, F. M. (1402). Effects of Dietary Supplementation of Arginine-Silicate- Inositol and Phytase Complex on Performance and Blood Biochemical Traits of Laying Hens. سامانه مدیریت نشریات علمی, 78(2), 539-547. doi: 10.22092/ari.2022.359332.2404
B. I Hamed; H. H Nafaa; F. M Hussain. "Effects of Dietary Supplementation of Arginine-Silicate- Inositol and Phytase Complex on Performance and Blood Biochemical Traits of Laying Hens". سامانه مدیریت نشریات علمی, 78, 2, 1402, 539-547. doi: 10.22092/ari.2022.359332.2404
Hamed, B. I, Nafaa, H. H, Hussain, F. M. (1402). 'Effects of Dietary Supplementation of Arginine-Silicate- Inositol and Phytase Complex on Performance and Blood Biochemical Traits of Laying Hens', سامانه مدیریت نشریات علمی, 78(2), pp. 539-547. doi: 10.22092/ari.2022.359332.2404
Hamed, B. I, Nafaa, H. H, Hussain, F. M. Effects of Dietary Supplementation of Arginine-Silicate- Inositol and Phytase Complex on Performance and Blood Biochemical Traits of Laying Hens. سامانه مدیریت نشریات علمی, 1402; 78(2): 539-547. doi: 10.22092/ari.2022.359332.2404

Effects of Dietary Supplementation of Arginine-Silicate- Inositol and Phytase Complex on Performance and Blood Biochemical Traits of Laying Hens

Archives of Razi Institute
مقاله 6، دوره 78، شماره 2، خرداد و تیر 2023، صفحه 539-547    اصل مقاله (565.56 K)
نوع مقاله: Original Articles
شناسه دیجیتال (DOI): 10.22092/ari.2022.359332.2404
نویسندگان
B. I Hamed* 1؛ H. H Nafaa2؛ F. M Hussain1
1College of Agriculture, University of Anbar, Baghdad, Iraq
2Office of Agricultural Research, Ministry of Agriculture, Iraq
چکیده
Arginine silicate inositol complex (ASI; Arg = 49.47%, silicone = 8.2%, inositol = 25%) is a novel, bioavailable source of Si and Arg and may offer potential benefits for laying hens' performance. The aim of this study was to evaluate the effect of Arginine-Silicate and inositol/phytase on the performance of laying hens. A total of 90 laying hens, 25 weeks old, were randomly assigned to 6 treatments with 3 replicates (5 birds per replicate). The treatments were as follows: 1ST treatment PC: positive Control group (basal diet without additives (, 2nd treatment: basal diet +1000 mg/kg arginine-silicate complex (49.5±8.2 % respectively), 3d treatment: basal diet +1000 mg/kg arginine-silicate- inositol (ASI) complex (49.5, 8.2 , 25 % respectively) , 4th treatment: T 2 +500   FTU/kg , 5th treatment: T2 +1000 FTU/kg and 6th treatment :T2+2000   FTU/kg . Results indicate a significant increase (P<0.05) in hen house production (H.H. pro.%) of T5 (95.06 %)compared with  T1(91.67%)  and no significant differences between T2, T3, T4, T6 (91.84, 93.21, 93.46, 92.98%) and compared with T1 and T5. were no significant difference observed in average egg weight and egg mass between the experimental treatments all over the period. Daily feed intake (DFI) significantly decreased (P<0.05) with supplementing diets with deferent levels of phytase with arginine–silicate mixture T4, T5, andT6 (113.56،113.06، 112.10 g) compared with T1 (114.34 g ) which has no significant differences compared with T2 and T3 (113.96, 113.92 g). Phytase supplementation significantly (P<0.05) improved FCR g feed/egg in T5 (119.02)   compared with T1 and T2 (124.89, 124.32), while no significant differences between T3.T4.T6 treatments (122.39, 121.80, 120.69) respectively and compared with other treatments. The experimental treatments observed no significant difference in g feed/ g egg.
کلیدواژه‌ها
Arginine-Silicate؛ Inositol؛ Phytase Enzyme؛ Blood biochemical traits؛ Laying Hens
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مراجع
  1. Sahin K, Orhan C, Tuzcu M, Hayirli A, Komorowski JR, Sahin N. Effects of dietary supplementation of arginine-silicate-inositol complex on absorption and metabolism of calcium of laying hens. PloS One. 2018;13(1):0189329.
  2. Yuan C, Ding Y, He Q, Azzam M, Lu J, Zou X. L-arginine upregulates the gene expression of target of rapamycin signaling pathway and stimulates protein synthesis in chicken intestinal epithelial cells. Poult Sci. 2015;94(5):1043-51.
  3. Khajali F, Wideman R. Nutritional approaches to ameliorate pulmonary hypertension in broiler chickens. J Anim Physiol Anim Nutr. 2016;100(1):3-14.
  4. Duan X, Li F, Mou S, Feng J, Liu P, Xu L. Effects of dietary L-arginine on laying performance and anti-oxidant capacity of broiler breeder hens, eggs, and offspring during the late laying period. Poult Sci. 2015;94(12):2938-43.
  5. Croissant JG, Fatieiev Y, Almalik A, Khashab NM. Mesoporous silica and organosilica nanoparticles: physical chemistry, biosafety, delivery strategies, and biomedical applications. Adv Healthc Mater. 2018;7(4):1700831.
  6. Gonzalez-Uarquin F, Rodehutscord M, Huber K. Myo-inositol: its metabolism and potential implications for poultry nutrition—a review. Poult Sci. 2020;99(2):893-905.
  7. Gautier A, Walk C, Dilger R. Effects of a high level of phytase on broiler performance, bone ash, phosphorus utilization, and phytate dephosphorylation to inositol. Poult Sci. 2018;97(1):211-8.
  8. Higgins NF, Crittenden PD. Phytase activity in lichens. New Phytologist. 2015;208(2):544-54.
  9. Englmaierova M, Skrivan M, Skrivanova E, Bubancova I, Cermak L, Vlckova J. Effects of a low-phosphorus diet and exogenous phytase on performance, egg quality, and bacterial colonisation and digestibility of minerals in the digestive tract of laying hens. Czech J Anim Sci. 2015;60(12):542-9.
  10. Council N-NR. Nutrient requirements of poultry. National Academy Press Washington; 1994.
  11. Mountney GJ, Parkhurst CR. Poultry products technology: Routledge; 2017.
  12. Moss D, Baron D, Walker P, Wilkinson J. Practical clinical biochemistry. William Heinemann Medical, London; 1980.
  13. Toro G, Ackermann PG. Practical clinical chemistry: Little Brown & Company; 1975.
  14. Richmond W. Preparation and properties of a cholesterol oxidase from Nocardia sp. and its application to the enzymatic assay of total cholesterol in serum. Clin Chem. 1973;19(12):1350-6.
  15. Al-Jubori O. Synergistic effect of ginger, propolis added to concentrated diet on some production and physiological characteristics of the Awassi ewes. Iraqi J Agric Sci. 2017;48(2).
  16. SAS J. Statistical Analysis System, v. 10.0. 2. Cary, North Carolina USA. 2012.
  17. Duncan DB. Multiple range and multiple F tests. Biometrics. 1955;11(1):1-42.
  18. Kalvandi O, Sadeghi A, Karimi A. Arginine supplementation improves reproductive performance, antioxidant status, immunity and maternal antibody transmission in breeder Japanese quail under heat stress conditions. Ital J Anim Sci. 2022;21(1):8-17.
  19. Ahmed M, Salad E. Effect of Dietary Supplementation with L-Arginine and Vitamin C on Reproduction Performance and Economical Efficiency for Matrouh Strain Hens under Egyptian Summer Conditions. Ann Agric Sci Moshtohor. 2021;59(3):417-24.
  20. Fernández S, Chárraga S, Avila-Gonzalez E. Evaluation of a new generation phytase on phytate phosphorus release for egg production and tibia strength in hens fed a corn-soybean meal diet. Poult Sci. 2019;98(5):2087-93.
  21. Lim CI, Park JE, Kim SE, Choe HS, Ryu KS. Effects of dietary silicate based complex mineral on performance, egg quality and immunological competence in laying hens. Korean J Poult Sci. 2017;44(4):267-74.
  22. Onderci M, Sahin N, Sahin K, Balci T, Gursu M, Juturu V, et al. Dietary arginine silicate inositol complex during the late laying period of quail at different environmental temperatures. Br Poult Sci. 2006;47(2):209-15.
  23. Ren Z, Sun W, Cheng X, Liu Y, Han D, Yan J, et al. The adaptability of Hy-Line Brown laying hens to low-phosphorus diets supplemented with phytase. Poult Sci. 2020;99(7):3525-31.
  24. Herwig E, Walk C, Bedford M, Schwean-Lardner K, Classen H. Contrasting the effects of phytase and pure myo-inositol on the performance, digestibility, blood and egg yolk inositol levels and digestion physiology of laying hens. Br Poult Sci. 2021;62(4):517-27.
  25. Fascina VB, Pasquali GAM, Berto DA, Silva AdL, Garcia EA, Pezzato AC, et al. Effects of arginine and phytogenic additive supplementation on performance and health of brown-egg layers. Revista Brasileira de Zootecnia. 2017;46:502-14.
  26. Johnson A. Ovarian follicle selection and granulosa cell differentiation. Poultry science. 2015;94(4):781-5.
  27. Zhang X, Zhu M, Yuan C, Zou X. Proteomic analysis of hypothalamus and liver proteins affected by dietary l‐arginine supplementation in laying hens. J Anim Physiol Anim Nutr. 2018;102(6):1553-63.
  28. Kim JH, Pitargue FM, Jung H, Han GP, Choi HS, Kil DY. Effect of superdosing phytase on productive performance and egg quality in laying hens. Asian-Australas J Anim Sci. 2017;30(7):994.
  29. Matuszewski A, Łukasiewicz M, Niemiec J. Calcium and phosphorus and their nanoparticle forms in poultry nutrition. Worlds Poult Sci J. 2020;76(2):328-45.
  30. Yuan C, Bu X, Yan H, Lu J, Zou X. Dietary L-arginine levels affect the liver protein turnover and alter the expression of genes related to protein synthesis and proteolysis of laying hens. Poult Sci. 2016;95(2):261-7.
  31. Baghban-Kanani P, Hosseintabar-Ghasemabad B, Azimi-Youvalari S, Seidavi A, Laudadio V, Mazzei D, et al. Effect of dietary sesame (Sesame indicum L) seed meal level supplemented with lysine and phytase on performance traits and antioxidant status of late-phase laying hens. Asian-Australas J Anim Sci. 2020;33(2):277.
  32. Żyła K, Mika M, Duliński R, Świątkiewicz S, Koreleski J, Pustkowiak H, et al. Effects of inositol, inositol-generating phytase B applied alone, and in combination with 6-phytase A to phosphorus-deficient diets on laying performance, eggshell quality, yolk cholesterol, and fatty acid deposition in laying hens. Poult Sci. 2012;91(8):1915-27.
  33. Pereira AA, Junqueira OM, Griep DN, Lima DMd, Sgavioli S, Moraes SdS. Phytase in diets with crude protein levels for commercial layers. Acta Sci - Anim Sci. 2017;39:163-8.
  34. Dersjant-Li Y, Evans C, Kumar A. Effect of phytase dose and reduction in dietary calcium on performance, nutrient digestibility, bone ash and mineralization in broilers fed corn-soybean meal-based diets with reduced nutrient density. Anim Feed Sci Technol. 2018;242:95-110.
  35. Chatree S, Thongmaen N, Tantivejkul K, Sitticharoon C, Vucenik I. Role of inositols and inositol phosphates in energy metabolism. Molecules. 2020;25(21):5079.
  36. Xiao J, Wu S, Zhang H, Yue H, Wang J, Ji F, et al. Bioefficacy comparison of organic manganese with inorganic manganese for eggshell quality in Hy-Line Brown laying hens. Poult Sci. 2015;94(8):1871-8.
  37. Pongmanee K, Kühn I, Korver DR. Effects of phytase supplementation on eggshell and bone quality, and phosphorus and calcium digestibility in laying hens from 25 to 37 wk of age. Poult Sci. 2020;99(5):2595-607.
  38. Cowieson A, Ptak A, Maćkowiak P, Sassek M, Pruszyńska-Oszmałek E, Żyła K, et al. The effect of microbial phytase and myo-inositol on performance and blood biochemistry of broiler chickens fed wheat/corn-based diets. Poult Sci. 2013;92(8):2124-34.
  1. Phillippy BQ, Graf E. Antioxidant functions of inositol 1, 2, 3-trisphosphate and inositol 1, 2, 3, 6-tetrakisphosphate. Free Radic Biol Med. 1997;22(6):939-46.
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