71

                     Krstic, B., Z. Jokic, Z. Pavlovic, and D. Zivkovic. 2012. Options for the production of

                            selenized chicken meat. Biological Trace Element Research. 146: 68-72.
                     Laika, M., and R. Jahanian. 2015. Dietary supplementation of organic selenium could

                            improve performance, antibody response, and yolk oxidative stability in laying
                            hens fed on diets containing oxidized fat. Biological Trace Element Research.

                            165: 195-205.

                     Li, J.L., L. Zhang, Z.Y. Yang, Z.Y. Zhang, Y. Jiang, F. Gao, and G.H. Zhou. 2017. Effects of
                            different selenium sources on growth performance, antioxidant capacity  and

                            meat quality of local Chinese Subei chickens. Biological Trace Element Research.

                            181: 340-346.
                     Li, K.X., J.S. Wang,  D.  Yuan, R.X. Zhao,  Y.X. Wang,  and  X.A.  Zhan. 2018.  Effects of

                            different selenium sources and levels on antioxidant status in broiler breeders.

                            Asian-Australasian Journal of Animal Sciences. 31: 1939-1945.
                     Liao, C.D., W.L.  Hung, K.C. Jan, A.I. Yeh, C.T. Ho,  and  L.S.  Hwang. 2010. Nano/sub-

                            microsized  lignan  glycosides from sesame meal  exhibit  higher  transport  and

                            absorption efficiency in Caco-2 cell monolayer. Food Chemistry. 119: 896-902.
                     Lin, X., T. Yang, H. Li, Y. Ji, Y. Zhao, and J. He. 2020. Interactions between different

                            selenium compounds and essential trace elements involved in the anioxidant
                            system of laying hens. Biological Trace Element Research. 193: 252-260.

                     Lipiec,  E., G.  Siara,  K. Bierla,  L. Ouerdane,  and J. Szpunar.  2010.  Determination of

                            selenomethionine,  selenocysteine, and inorganic selenium  in  egg by  HPLC-
                            inductively  coupled  plasma  mass  spectrometry. Analytical and  Bioanalycal

                            Chemistry. 397: 731-741.

                     Lu, J., L. Qu, M.M. Shen, Y.P. Hu, J. Guo, T.C. Dou, and K.H. Wang. 2018. Comparison of
                            dynamic change of egg selenium deposition after feeding sodium selenite or

                            selenium-enriched yeast. Poultry Science. 97: 3102-3108.
                     Lu, J., L. Qu, M.M. Shen, X.G. Wang, J. Guo, Y.P. Hu, T.C. Dou, and K.H. Wang. 2019.

                            Effects of high-dose selenium-enriched yeast on laying performance, egg quality,

                            clinical blood  parameters, organ  development, and selenium deposition in
                            laying hens. Poultry Science. 98: 2522-2530.










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