[Abd El-Samee, L. D., El-Wardany, I., Abdel-Fattah, S. A., Abd El-Azeem, N. A., & Elsharkawy, M. S., 2019. Dietary omega-3 and antioxidants improve long-chain omega-3 and lipid oxidation of broiler meat. Bulletin of the National Research Centre. 43(1), 45.10.1186/s42269-019-0085-y]Search in Google Scholar
[Dev, K., Mir, N. A., Biswas, A., Kannoujia, J., Begum, J., Kant, R., & Mandal, A., 2020. Dietary synbiotic supplementation improves the growth performance, body antioxidant pool, serum biochemistry, meat quality, and lipid oxidative stability in broiler chickens. Animal Nutrition. 6, 325-332.10.1016/j.aninu.2020.03.002750308033005766]Search in Google Scholar
[Fascina, V. B., Pasquali, G. A. M., Carvalho, F. B., Muro, E. M., Vercese, F., Aoyagi, M. M., & Sartori, J. R., 2017. Effects of phytogenic additives and organic acids, alone or in combination, on the performance, intestinal quality and immune responses of broiler chickens. Brazilian Journal of Poultry Science. 19(3), 497-508.10.1590/1806-9061-2016-0422]Search in Google Scholar
[Galli, G. M., Aniecevski, E., Petrolli, T. G., da Rosa, G., Boiago, M. M., Simões, C. A., Marcon, H. (2020). Growth performance and meat quality of broilers fed with microencapsulated organic acids. Animal Feed Science and Technology, 114706.]Search in Google Scholar
[Garciá, V., Catalá-Gregori, P., HernáNdez, F., Megiás, M.D., Madrid, J., 2007. Effect of formic acid and plant extracts on growth, nutrient digestibility, intestine mucosa morphology, and meat yield of broilers. J Appl Poultry Res. 16:555–562.10.3382/japr.2006-00116]Search in Google Scholar
[Ghasemi, H. A., Shivazad, M., Mirzapour Rezaei, S. S., & Karimi Torshizi, M. A., 2016. Effect of synbiotic supplementation and dietary fat sources on broiler performance, serum lipids, muscle fatty acid profile and meat quality. British poultry science. 57(1), 71-83.10.1080/00071668.2015.109876626654967]Search in Google Scholar
[Ghasemi, H. A., Shivazad, M., Mirzapour Rezaei, S. S., & Karimi Torshizi, M. A., 2016. Effect of synbiotic supplementation and dietary fat sources on broiler performance, serum lipids, muscle fatty acid profile and meat quality. British poultry science. 57(1), 71-83.10.1080/00071668.2015.1098766]Search in Google Scholar
[Hassanpour, H., Moghaddam, A.Z., Khosravi, M., Mayahi, M., 2013. Effects of synbiotic on theintestinal morphology and humoral immune response in broiler chickens. Livest Sci. 153 (13), 116e22.10.1016/j.livsci.2013.02.004]Search in Google Scholar
[Khan, S. H., & Iqbal, J., 2016. Recent advances in the role of organic acids in poultry nutrition. Journal of applied animal research. 44(1), 359-369.10.1080/09712119.2015.1079527]Search in Google Scholar
[Liong, M.T., Dunshea, F.R., & Shah, N.P., 2007. Effects of a synbiotic containing Lactobacillus acidophilus ATCC 4962 on plasma lipid profiles and morphology of erythrocytes in hypercholesterolaemic pigs on high-and low-fat diets. British Journal of Nutrition. 98(4), 736-744.10.1017/S000711450774780317490507]Search in Google Scholar
[Min, B. and Ahn, D.U. 2005. Mechanism of lipid peroxidation in meat and meat products – A review. Food Science and Biotechnology 14, 152–163.]Search in Google Scholar
[Ren, J., Liu, J., Dong, F. & Guo, Z., 2011. Highly efficient synthesis and antioxidant activity of O-(aminoethyl) inulin. Carbohydrate Polymers. 83: 1240-1244.10.1016/j.carbpol.2010.09.030]Search in Google Scholar
[Rodríguez-Lecompte, J.C., Yitbarek, A., Brady, J., Sharif, S., Cavanagh, M.D., Crow, G., Guenter, W., House, J.D., Camelo-Jaimes, G., 2012. The effect of microbial-nutrient interaction on the immune system of young chicks after early probiotic and organic acid administration. J Animal Sci. 90:2246–2254.10.2527/jas.2011-4184]Search in Google Scholar
[Sahin K and Kucuk O 2003. Zinc supplementation alleviates heat stress in laying Japanese quail. The Journal of Nutrition 133, 2808–2811.10.1093/jn/133.9.2808]Search in Google Scholar
[Salah, A.S., El-Tarabany, M.S., & Ali, M.A., 2019. Impact of dietary supplementation with a synbiotic, organic acids or their combination on growth performance, carcass traits, economic efficiency, jejunum histomorphometry and some blood indices of broiler chickens. Animal Production Science. 59(7), 1318-1326.10.1071/AN18156]Search in Google Scholar
[Shahidi, S., Maziar, Y., Delaram, N.Z., 2014. Influence of dietary organic acids supplementation on reproductive performance of freshwater Angelfish (Pterophyllum scalare). Global Vet. 13,373–377.]Search in Google Scholar
[Scholz-Ahrens, K.E., Ade, P., Marten, B., Weber, P., Timm, W., Açil, Y. & Schrezenmeir, J. 2007. Prebiotics, probiotics, and synbiotics affect mineral absorption, bone mineral content, and bone structure. The Journal of nutrition, 137 (3 Suppl 2), 838S.10.1093/jn/137.3.838S]Search in Google Scholar
[Stamilla, A., Russo, N., Messina, A., Spadaro, C., Natalello, A., Caggia, C., & Lanza, M., 2020. Effects of Microencapsulated Blend of Organic Acids and Essential Oils as a Feed Additive on Quality of Chicken Breast Meat. Animals. 10(4), 640.10.3390/ani10040640]Search in Google Scholar
[Taranu, I., Marin, D.E., Untea, A., Janczyk, P., Motiu, M., Criste, R. D., & Souffrant, W.B., 2012. Effect of dietary natural supplements on immune response and mineral bioavailability in piglets after weaning. Czech J Anim Sci, 57(7), 332-343.10.17221/6008-CJAS]Search in Google Scholar
[Untea, A. E., & Panaite, T. D., 2016. Effects of dietary symbiotics and organic acids on the mineral composition of broiler meat. Archiva Zootechnica. 19(2), 27.]Search in Google Scholar
[Untea, A. E., Panaite, T. D., Dragomir, C., Ropota, M., Olteanu, M., & Varzaru, I., 2019. Effect of dietary chromium supplementation on meat nutritional quality and antioxidant status from broilers fed with Camelina-meal-supplemented diets. Animal. 13(12), 2939-2947.10.1017/S1751731119001162]Search in Google Scholar
[Viana, F.M., Canto, A., Costa-Lima, B.R.C., Salim, A. & Junior, C.C., 2017. Color stability and lipid oxidation of broiler breast meat from animals raised on organic versus non-organic production systems. Poultry science. 96(3), 747-753.10.3382/ps/pew331]Search in Google Scholar
[Vieira, B. S., Caramori, J. G., Oliveira, C. F. S., & Correa, G. S. S. (2018). Combination of phytase and organic acid for broilers: role in mineral digestibility and phytic acid degradation. World's Poultry Science Journal, 74(4), 711-726.10.1017/S0043933918000697]Search in Google Scholar
[Zago, M.P. and Oteiza, P.I., 2001. The antioxidant properties of zinc: interactions with iron and antioxidants. Free Radical Biology and Medicine 31, 266–274.10.1016/S0891-5849(01)00583-4]Search in Google Scholar