Germination of common winter wheat (Triticum aestivum L.) treated with unconventional preparations

[1]. Afzal, I, Basara, S., Farooq, M. & Nawaz A. Alleviation of salinity stress in spring wheat by hormonal priming with ABA, salicylic acid and ascorbic acid. International Journal of Agriculture and Biology, 2006, 8, 23-28. Search in Google Scholar

[2]. Alloway BJ Zinc in Soils and Crop Nutrition. International Zinc Association Communications. IZA Publications, Brussel, 2004. Search in Google Scholar

[3]. Cakmak I, Kalayci M, Ekiz H, Braun HJ, Yilmaz A. Zinc deficiency as an actual problem in plant and human nutrition in Turkey: a NATOScience for Stability Project. Field Crops Res, 1999, 60, 175-188.10.1016/S0378-4290(98)00139-7 Search in Google Scholar

[4]. Ceylan Y. et al., Magnesium applications to growth medium and foliage affect the starch distribution, increase the grain size and improve the seed germination in wheat. Plant and Soil, 2016, 406, 145-156.10.1007/s11104-016-2871-8 Search in Google Scholar

[5]. Delchev G., A. Stoyanova, I. Petrova, M. Radevska, Impact of some mixtures between stimulators and antibroadleaved herbicides on the sowing properties of the durum wheat sowing-seeds. Science & Technologies, 2014, 4(6), 93-97. Search in Google Scholar

[6]. Delchev G., A. Stoyanova, I. Petrova, Impact of some stimulators on the sowing properties of the sowing-seeds of two durum wheat cultivars. Science & Technologies, 2015, 5(6), 220-225. Search in Google Scholar

[7]. Graham RD, Welch RM. Breeding for staplefood crops with high micronutrient density: Working Papers on Agricultural Strategies for Micronutrients, No.3. International Food Policy Institute, Washington D.C., 1996. Search in Google Scholar

[8]. Hotz C, Brown KH. Assessment of the risk of zinc deficiency in populations and options for its control. Food Nutr Bull, 2004, 25, 94-204. Search in Google Scholar

[9]. Lutts, S., Benincasa, P., Wojtyla, L., Kubala S., Pace, R.,. Lechowska, K., Quinet, M. & Garnczarska M. Seed priming: new comprehensive approaches for an old empirical technique, new challenges in seed biology. In: Susana Araújo S, Balestrazzi A (eds) Basic and translational research driving seed technology. InTech, Open, Rijeka, 2016. Search in Google Scholar

[10].Marinov-Serafimov Pl. Golubinova I., Effect of Modus Evo on the germination capacity of the seeds and initial development from Sorghum bicolor (L.) Moench and Sorghum vulgare var. technicum Körn. accessions. Field Crop Studies, 2019, 12(3), 59-70. Search in Google Scholar

[11]. Pirasteh-Anosheh, H., Emam, Y & Khaliq, A. Response of cereals to cycocel application. Iran Agricultural Research, 2016, 35(1), 1-12. Search in Google Scholar

[12]. Pourmohammad, A., Shekari F., Soltaniband, V. Effects of cycocel priming on growth and early development of rapeseed under drought stress. Acta Universitatis Sapientiae Agriculture and Environment, 2013, 5, 5-18.10.2478/ausae-2014-0001 Search in Google Scholar

[13]. Radišič, M., D. Stajkovič, K. Kolev. Influence of natural growth regulator Agrostemine on the wheat seed germination. Casopis za procesnu tehniku i energetiku u poljoprivredi, 1997, 1(1-2), 34-35. Search in Google Scholar

[14]. Rapparini, G., D. Benussi, F. Bassi. Verifica dell`inpiego di fitoregulatori di crescida sui cereali vernini. Informatore Agrario, 1987, 43(5), 29-35. Search in Google Scholar

[15]. Sharma, S., R. Kumar. Effects of DCD on growth and yield of wheat. Journal of Agricultural Science, 1998, 131(4), 389-394.10.1017/S002185969800598X Search in Google Scholar

[16]. Stankov St., Valchev Dr., Valcheva D. Influence of trauma on the seeds of the brewing variety of barley Obzor on their growth activity. Field Crops Studies, 2010, 6(1), 59-66 (in Bulgarian). Search in Google Scholar

[17]. Stankov St., Savova T., Valchev Dr., Valcheva D. Establishing the degree of trauma to oat seeds during harvest and the impact of microtraumas on their growth activity. Plant Sciences, 2010, 3, 262-268 (in Bulgarian). Search in Google Scholar

[18]. Sheveluha V.S. Plant growth and its regulation in ontogenesis. Moscow, Kolos, 1992, 594 p. (in Russian). Search in Google Scholar

[19]. Sheveluha V.S. Plant growth patterns as a possible breeding reserve. Physiological foundations of plant breeding. Theoretical Foundations of Breeding, 1995, VIR, 202-221 (in Russian). Search in Google Scholar

[20]. Taniguchi, Y., M. Fujita, A. Sasaki, K. Ujihara, M. Ohnushi. Effect of top dressing of growth regulators at booting stage on crude protein content of wheat in Kyushu district. Japanese Journal of Crop Science, 1999, 68(1), 48-53.10.1626/jcs.68.48 Search in Google Scholar

[21]. Productivity and quality of spring wheat with the joint application of mineral fertilizers, microelements and new growth regulators. Proceedings of International Scientific Conference, Minsk, Belarus, 1999, 84-85 (in Russian). Search in Google Scholar

[22]. Wu, Z. L., Y. H. Shi, Z. G. He, Y. I. Li. Studies grain yields and physiological effects of the plant growth regulator Harmaline on wheat. Acta Agronomica Sinica, 1993, 19(4), 380-383. Search in Google Scholar

[23]. Zheng, M, Tao, Y., Hussain, S., Jiang, Q., Peng, S., Huang, J., Cui, K. & Nie L. Seed priming in dry direct-seeded rice: consequences for emergence, seedling growth and associated metabolic events under drought stress. Plant Growth Regulation, 2016, 78, 167-178. DOI: 0.1007/s10725-015-0083-5.10.1007/s10725-015-0083-5 Search in Google Scholar