THE STRUCTURE OF THE SEED YIELD OF BROAD BEANS IN THE SOUTH CENTRAL ZONE OF THE SOUTH OF THE CENTRAL BLACK EARTH REGION

Rich in high quality protein, vitamins, carbohydrates, organic acids and trace elements seeds, green fruits and young leaves broad beans (Vicia faba L. var. major Harz) has long been used in the food, and the culture of beans are promising in biological agriculture and horticulture. The aim of this work was to study the structure of seed production of different varieties of broad beans in the South Central zone of the region. At the Botanical garden BelSU (Belgorod) to study the structure of seed production of different varieties of broad beans (Belarusiskie, Velena, Russkie chernie, Aquadul) and determined the biochemical composition of seeds. Optimal height of attachment of the first fruit for mechanical harvesting (20-25 cm) characteristic of plants of all studied varieties. Weight of the fetus, according to the coefficient of variability, equal to 45%, distinguished by a strong variability on grades with a maximum grade of Velena. The length of fruit ranged from 9 to 13 cm and were characterized by moderate variability (V=20%). Seeds production is determinened not only by size of fruits of beans, but and its important components such as 1000 seed weight. Protein content in the seeds at 30% different varieties of broad beans domestic breeding. Contents of nitrogen, potassium, phosphorus and iron is higher in the cotyledons than in the skin. Dark purple color of the seed varieties of Russian black is due to the biosynthesis useful for human organism anthocyanins in seed peel.

1. Pivovarov VF, Gurkina LK. Status and prospects for the development of breeding and seed production of vegetable legumes. Collection of scientific papers.- 2009.-№43.-P.9-27.

2. Balashova IT, Grekov IM, Pronina EP Analysis of the seed material of vegetables Vicia faba L., obtained from samples with non-standard field germination. Vegetables crops of Russia. 2012. -№2. -P.48-53.

3. Singh A.K., Bharati R.C. An assessment of faba bean (Vicia faba L.) current status and future prospect. Naresh Chandra Manibhushan, Anitha Pedpati. African Journal of Agricultural. 2013;8(50):6634-6641.

4. Kurkina Yu.N., Nguyen H., Lazarev A.V. Micromycetes of some legume crops` rhizosphere. Research Journal of Pharmaceutical, Biological and Chemical Sciences. 2015.6(6):1681-1685.

5. The State Program for the Development of Agriculture and Regulation of Agricultural Markets production, raw materials and food for 2013-2020. 2013.-P.28-31.

6. Vaynagiy I.V. On the method of studying the seed productivity of plants. Botanical Journal. No. 197 (No. 6). - P.826-831.

7. Stepanov S.A., Signaevsky V.D., Kasatkin M.Yu., Ivleva M.V. Forming elements productivity of the ear of spring soft wheat. News of the Saratov University. Ser. Chemistry. Biology. Ecology. 2013. - No. 13 (1). - P.65-69.

8. Deineka VI, Makarevich SL, Deineka LA Anthocyans of some fruits Hawthorn (Crataegus L., Rosaceae). Chemistry of plant raw materials. 2014. - No. 1.-P.119-124.

9. Li X, Yang Y. A novel perspective on seed yield of broad bean (Vicia faba L.): differences resulting from pod characteristics. Sci. Rep. 2014;4:6859.

10. Kambal AE. Components of Yield in Field Beans Vicia Faba L. J. Agr. Sci. 1969;72:359-363.

11. Lachenaud P. Variations in the number of beans per pod in Theobroma-Cacao L in the Ivory-coast. 3. Nutritional factors, cropping effects and the role of boron. J. Hortic Sci. 1995;70:7-13.

12. De Haan RL, Barnes DK. Inheritance of pod type, stem color, and dwarf growth habit in Medicago polymorpha. Inheritance Crop Sci. 1998;38:1558-1561.

13. Smith CC, Fretwell SD. The optimal balance between size and number of offspring. Amer. Naturalist. 1974;108:499-506.

14. Lloyd DG. Selection of Offspring Size at Independence and Other Size-Versus-Number Strategies. Am Nat. 1987;129:800-817.

15. McGinley MA, Charnov EL. Multiple resources and the optimal balance between size and number of offspring. Evolutionary Ecology. 1988; 2:77-84.

16. Kurkina Yu.N. Biological features of samples of forage beans and their selection value. 2003. - P.25.

17. Stebakova EH. Substantiation of morphophysiological parameters of perspective grade beans for the central black earth region of Russia. 2007.-P.22.

18. Amelin AV, Kadykov IV, Ikonnikov AV Genetic and physiological aspects selection of lentils. Bulletin of Orel State Agrarian University. 2013. - No. 40 (1).-P.31-38.

19. Lila M.A. Anthocyanins and human health: an in vitro investigative approach. J. Biomed. Biotechnol. 2004;5:306-313.

20. Deineka V., Yaroslava U., Kurkina Yu.N. Anthocyanins of Phaseolus vulgaris and Vicia faba seed coats. International Journal of Pharmacy and Technology. 2016;8(2):14088-14096.