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References ÁBRAHÁM, É. B. 2010. Cirok ( Sorghum ssp.). In: Gondola I. et al. Az alternatív növények szerepe az Észak-alföldi Régióban, DATE Nyiregyháza 2010, pp. 263-275. ISBN 978-963-473-386-7 ABRHAM, Z. - KOVÁŘOVÁ, M. - KOCÁNOVÁ, V. - HEROUT, M. - SCHEUFLER, V. 2007. Technické a technologické normativy pro zemědělskou výrobu. Praha : VUZT, 2007, 29 s. ISBN 978-86884-26-4 BERÉNYI, J. 2002. Alternatív növények és jövöje a Vajdaságban. In: Tartamkisérletek, tájtermesztés, vidékfejlesztés. Nemzetközi konferencia. Debrecen, 2002, pp. 272 - 278 HANCOCK, D. W. 2009

milk. J. Dairy Res. 66: 73-80. Björck L (1992) Indigenous enzymes in milk Lactoperoxidase. Vol. 1. In Advanced Diary Chemistry, 1st Ed., Fox, P.F. (Ed.), Springer, London, p. 323-338. Bradford MM (1976) A rapid and sensitive method for the quantitation of microgram quantities of protein utilizing the principle of protein dye binding. Analyt. Biochem. 72: 248-254. Chutintrasri B, Noomhorm A (2006) Thermal inactivation of polyphenoloxidase in pineapple puree. Lebensmittel-Wissenschaft. 39: 492-495. Dahlberg J, Berenji J, Sikora V, Latković D (2011) Assessing sorghum

References [1]. Kamath, V. G.; Chandrashekar, A.; Rajini, P. S., Antiradical properties of sorghum ( Sorghum bicolor (L.) Moench) flour extracts, J. Cereal. Sci ., 2004 , 40 ( 3 ), 283-288. [2]. Dlamini, N. R.; Taylor, J. R. N.; Rooney, L. W., The effect of sorghum type and processing on the antioxidant properties of African sorghum-based foods, Food Chem ., 2007 , 105 ( 4 ), 1412-1419. [3]. Chung, I. M.; Kim, E. H.; Yeo, M. A.; Kim, S. J.; Seo, M. C.; Moon, H. I., Antidiabetic effects of three Korean sorghum phenolic extracts in normal and

LITERATURE CITED 1. Chuck-Hernandez, C., Perez-Carrillo, E. & Serna-Saldivar, S.O. (2009). Production of bioethanol from steam-flaked sorghum and maize. J. Cereal Sci. 50(1), 131–137. DOI: 10.1016/j.jcs.2009.04.004. 2. Yamamoto, M., Iakovlev, M., Bankar, S., Tunc, M.S. & van Heiningen, A. (2014). Enzymatic hydrolysis of hardwood and softwood harvest residue fibers released by sulfur dioxide–ethanol–water fractionation. Bioresour. Technol. 167, 530–538. DOI: 10.1016/j.biortech.2014.06.054. 3. Cotana, F., Cavalaglio, G., Gelosia, M., Coccia, V., Petrozzi, A

REFERENCES Ahmad B., 1999 - Effects of different levels of nitrogen and seeding densities on growth, yield and quality of maize fodder. M.Sc.Thesis Dept. Agron.Univ. Agric. Faisalabad, Pakistan. Arshad M., A. Wajid M. Maqsood K. Hussain M. Aslam, M. Ibrahim, 2007 - Response of growth, yield and quality of different cotton cultivars to sowing date. Pak. J. Agri. Sci., 44:208-212. Ashiono G.B., Gatuiku S., Mwangi P., Akuja T.E., 2005 - Effect of nitrogen and phosphorus application on growth and yield of dual-purpose sorghum ( Sorghum bicolor (L.) Monech), E1291

References Amsalu A., Endashaw B., 1998. Geographical patterns of morphological variations in sorghum (Sorghum bicolour (L.) Moench in Hereditas 129: 195-205. Iliescu H., Popescu A., Ionita A., Csep N., Jinga V., Iordache E., 1995. Integrated control measures for sunflower crop as elements included in sustainable agriculture. Breeding and cultivation of wheat, sunflower and legume crops in the Balkan countries. Albena- Bulgaria: 509- 515. Jinga V., Iliescu H., 2005. Control of Orobanche on sunflower and tobacco crops in Romania, COST Action 849, Abs., 52, Reading

References AOAC (2012). Official Methods of Analysis, 19th ed., Association of Official Analytical Chemists, Arlington, VA, USA. Bolsen K.K., Moore K., Coblentz W.K., Siefers M.K., White J.S. (2003). Sorghum silage. In: Silage Science and Technology, L. Al-Amoodi (ed.). Madison, WI, USA, pp. 609–632. Carmi A., Aharoni V., Edelstein M., Umiel N., Hagiladi A., Yosef E., Nikbachat M., Zenou A., Miron J. (2006). Effects of irrigation and plant density on yield, composition and in vitro digestibility of a new forage sorghum variety, Tal, at two maturity stages. Anim

of Biological Sciences, 12, 71-77. Krishnamurthy L, Serraj R, Hash CT, Dakheel AJ, Reddy BVS (2007): Screening sorghum -genotypes for salinity tolerant biomass production. Euphytica, 156(1-2), 15-24. doi:10.1007/s10681-006-9343-9. Mancinelli AL, Yang CH, Lindquist P, Anderson OR, Rabino I (1975): Photocontrol of anthocyanin synthesis III. Tthe action of streptomycin on the synthesis of chlorophyll and anthocyanin. Plant Physiology, 55(2), 251-257. Miteva E, Merakchiyska M (2002): Response of chloroplasts and photosynthetic mechanism of bean plants to excess arsenic

References AOAC (1998). Official Methods of Analysis. Association of Official Analytical Chemists. 16th Edition, Washington D. C., USA. Aydin G., Grant R. J., O'Rear J. (1999). Brown midrib sorghum in diets for lactating dairy cows. J. Dairy Sci., 82 (10): 2127-2135. Berenji J., Dahlberg J. (2004). Perspectives of sorghum in Europe. J. Agron. Crop. Sci., 190: 33-338. Bolsen K. K. (2004). Sorghum Silage: A Summary of 25 Years of Research at Kansas State University. Proc.: The Southwest Dairy Herd Management Conference, Macon, Georgia, USA, pp. 16-17. Cole C. A

Journal of Science Frontier Research Interdisciplinary 12 (1): 4–8. G ideon E.N., Q uarshie A.A., Y eboah A.G. 2016. Biological activity of S. longepeduncula against S. zeamais and C. maculatus . Advances in Agriculture and Agricultural Sciences 2 (2): 33–41. G oftishu M., B elete K. 2014. Susceptibility of sorghum varieties to the maize weevil Sitophilus zeamais M otschulsky (Coleoptera: Curculionidae). African Journal of Agricultural Research 9 (31): 2419–2426. G ovindarajan M., M athivanan T., E lumalai K., K rishnappa K., A nandan A. 2011