Vegetable growing is one of the priority directions of agricultural production

In recent years, in the agricultural sector there is a tendency to increase the production of crop products. However, its quality is still not high enough. To improve the situation in the vegetable growing industry, an important place is given to improving breeding and seed production, since the variety and high-quality seeds are the main elements of modern crop cultivation zonal technologies. At the Federal State Budgetary Scientific Institution “Federal Scientific Vegetable Center” (FSBSI FSVC), vegetable crop breeding has been put on the innovative path of development, where modern methods are used along with classical ones: molecular markers on the main of economical important plant determinants, accelerated creation of homogeneous lines using the methods of doubled haploids and biotechnology of functional products for healthy nutrition. As a result of purposeful selection work, domestic varieties and hybrids of vegetable crops with fundamentally new qualities were created. The geographical location of the branches of the Center allows you to create breeding achievements for all potential regions of vegetable growing. In 2019, 36 varieties and hybrids of vegetables and melon crops were created, including cabbage, carrot, tomato, onion, onion Shallot, perennial onion, garlic, peas, bean, cowpea, pumpkin, cucumber, sugar corn, green vegetables culture, spicy-flavouring plant and floral crops. In order to provide the industry with pure-grade quality seed material and increase the productivity of crops due to the full use of the potential of the variety in the FSBSI FSVC, constant work is carried out in primary seed production. Zonal cultivation technologies have been developed that will allow growing domestic products in different soil and climatic conditions of the country. Wide introduction of achievements of the Russian vegetable growing science in agricultural production is capable to provide the population of the Russian Federation with high-quality, domestic production.

vegetable crops, genetics, biotechnology, plant immunity and protection, physiology, biochemistry, selection, technology, seed production

1. Report on the results of activities for 2019 of the Federal State Budgetary Scientific Institution “Federal Scientific Vegetable Center”, 167 p. (In Russ.)

2. Gins M.S., Gins V.K., Motyleva S.M. et. al. The composition of organic acids in leaves of different ages Amaranthus tricolor L. varieties Valentina. In the collection: The role of physiology and biochemistry in the introduction and selection of agricultural plants. Collection of materials of the V International scientific and methodological conference: in 2 volumes. RUDN University. 2019: 142-146. (In Russ.)

3. Gins M.S., Gins V.K., Motyleva S.M. et. al. The composition of amino acids in heterotrophic and autotrophic leaves of Amaranthus tricolor L. varieties Early Splendor. In the collection: New and non-traditional plants and prospects for their use collection of scientific papers on the materials of the XIII International Symposium. 2019:52-55. (In Russ.)

4. Gins V.K., Gins M.S., Derkanosova N.M. et. al. Using the potential of amaranth varieties Valentina in the technology of enriched confectionery. In the collection: the Role of physiology and biochemistry in the introduction and selection of agricultural plants proceedings of the V International scientific and methodological conference: in 2 vols. RUDN University. 2019:134-137. (In Russ.)

5. Kryachko T.I., Malkina V.D., Martirosyan V.V. et. al. Study of the chemical composition of broccoli cabbage powder as a raw material for the production of functional food products. IV "Food Technology". 2019;1(367):22-26. (In Russ.)

6. Kondratenko V.V., Lyalina, O.Yu., Osokina N.E. et. al. Study of the influence of the composition of cultural medium on the basis of cabbage on development of Leuconostoc mesenteroides at the pre-fermentation stage. Vegetable crops of Russia. 2018;2(40):80-83. (In Russ.) https://doi.org/10.18619/2072-9146-2018-2-80-83

7. Ushakova O.V., Golubkina N.A., Kashevarov A.A. et. al. Effect of selenium enrichment on the elemental composition of vegetable legume seedlings: Vicia faba L., Phaseolus vulgaris L., Pisum sativum L. In the collection: biogeochemistry the scientific basis for sustainable development and preservation of human health. Proceedings of the XI International Biogeochemical School dedicated to the 120th anniversary of the birth of Viktor Vladislavovich Kovalsky: in 2 volumes. 2019:245-248. (In Russ.)

8. RF patent No 0002673909. Functional bakery product with powder from leaves of plants of the genus Allium enriched with selenium. Golubkina N.A., Malkina V.D., Martirosyan V.V., Kryachko T.I., Seredin T.M., Pavlov L.V., Agamova Z.A. Publ. 03.12.2018. (In Russ.)

9. Shilo L.M., Bespalko L.V., Pavlov L.V., Kharchenko V.A. Monarda fistulosa L. is an object of standardization (greenery). News of FSVC. 2019;(1):170-175. (In Russ.) https://doi.org/10.18619/2658-4832-2019-1-170-175

10. Shilo L.M., Pavlov L.V., Golubkina N.A., Seredin T.M., Baranova E.V., Koshevarov A.A. Standard of organization for garlic powder enriched with selenium. Vegetable crops of Russia. 2019;(1):60-64. (In Russ.) https://doi.org/10.18619/2072-9146-2019-1-60-64.

11. Logunova V.V., Krivenkov L.V., Gurkina L.K., Grashchenkova N.N. Selection of onions for heterosis. News of FSVC. 2019;(2):45-49. (In Russ.) https://doi.org/10.18619/26584832-2019-2-45-49

12. Seredin T.M., Shumilina V.V., Agafonov A.F. et. al. Growing shallots in the conditions of the Non-Black Earth Region and in the south of Western Siberia. Omsk. 2019: 44. (In Russ.)

13. Seredin T.M., Agafonov A.F., Krivenkov L.V. et. al. Isolation of the source material of the onion of the multi-tiered Allium proliferum Schrad. by the level of mineral content in the leaves. In the collection: reports of the TAA. 2019: 549-551. (In Russ.)

14. Mineykina A.I., Bondareva L.L., Shumilina D.V., Domblides E.A., Soldatenko A.V. Improvement of methods of creating hybrids of cabbage. Vegetable crops of Russia. 2019;(4):3-7. (In Russ.) https://doi.org/10.18619/2072-9146-2019-4-3-7

15. Khovrin A.N. White cabbage: the future is in Russian hybrids. Potato and Vegetables. 2019; 9:13. (In Russ.)

16. Yusupova L.A., Sokolova L.M., Kornev A.V., Khovrin A.N. Variety testing of dining carrots in the conditions of Moscow and Rostov regions. Potato and Vegetables. 2019;1:37-38. (In Russ.)

17. Eroshevskaya A.S., Tereshonkova T.A., Farav H., Leunov V.I. Approaches in tomato selection for different types of low-volume technology. Potato and Vegetables. 2019;10: 26-28. (In Russ.)

18. Andreeva N.N., Deryavskaya A.S. Varietal diversity of tomato for open ground in Western Siberia. Agroecological aspects of sustainable development of agriculture: Proceedings of the XVI International scientific conference. Bryansk: publishing house of Bryansk state agricultural University. 2019:580-583. (In Russ.)

19. Kotlyar I.P., Ushakov V.A., Pronina E.P. The nature of inheritance of the number of fertile nodes in the determinant forms of vegetable peas. Russian agricultural science. 2019;6. (In Russ.)

20. Kornilov A.S., Kornilova T.O., Burlyaeva M.O. The initial material for the selection of a new for Russia legume Vighna-Adzuki (Vigna angularis (Willd.)). Bulletin of the far Eastern branch of the Russian Academy of Sciences. 2019;3:22-26. (In Russ.)

21. Kurunina D.P. Nikulina T.M. Selection of pumpkin for productivity, environmental resistance and product quality. Proceedings of the State Agrarian University. 2018; №3(72): 228-232. (In Russ.)

22. Varivoda E. A. Koleboshina T.G. The results of a comparative assessment of heterotic hybrids and varieties of watermelon on economically valuable traits. Proceedings of the State Agrarian University. 2018;3(72):72-76. (In Russ.)

23. Kuksa L.A., Khovrin A.N., Timakova L.N. Summer crops of beetroot in the south of Russia. Potato and Vegetables. 2019;11:18-19. (In Russ.)

24. Borisov V.A., Filroze N.A., Vasyuchkov I.Yu., Uspenskaya O.N. Biochemical quality of domestic and Dutch hybrids of beetroot when grown on alluvial soils of the Moscow Region. Collection of materials of the XVI international scientific and practical conference. In 2 volumes. Volume 1. Barnaul. 2019: 125-127. (In Russ.)

25. Kolomiets A.A., Vasyuchkov I.Yu., Uspenskaya O.N. et. al. Diagnostics of the mineral nutrition of beetroot on floodplain soils of the Non-chernozem zone. Potato and Vegetables. 2018;12:9-10. (In Russ.)

26. Engalychev D.I., Engalycheva N.A., Menshikh A.M., Pastukhova S.S. The effectiveness of the integrated use of fertilizers and drip irrigation when growing tomatoes in the Moscow region. Irrigated agriculture. 2019; 2:15-16. (In Russ.)

27. Andreeva N.N., Deryavskaya A.S. Varietal diversity of tomatoes for open ground in Western Siberia. Agroecological aspects of sustainable agricultural development: proceedings of the XVI International scientific and practical conference. Bryansk: publishing house of Bryansk state agricultural University. 2019:580-583. (In Russ.)

28. Razin A.F., Borisov V.A., Virchenko I.I. et. al. Productivity and quality of new varieties and hybrids of cabbage. Agrarian Russia. 2019;7:7-9. (In Russ.)

29. Borisov V.A., Filroze N.A., Sokolova L.M., Kornev A.V. Promising varieties and hybrids of beetroot for long-term storage. Potato and Vegetables. 2019;4: 23-25. (In Russ.)

30. Borisov V.A., Yanchenko E.V., Filroze N.A. et. al. Technological evaluation of varieties and hybrids of beetroot as a raw material for the production of mashed semi-finished products. Polythematic network electronic scientific journal of the Kuban state agrarian University. 2019;149:116-127. (In Russ.)

31. Pinchuk E.V., Bespalko L.V., Kozar E.G., Balashova I.T., Sirota S.M., Shevchenko T.E. Valuable vegetable green on hydroponics for seasonal use. Vegetable crops of Russia. 2019;(3):45-53. (In Russ.) https://doi.org/10.18619/2072-9146-2019-3-45-53.

32. Irkov I.I., Denisenko A.I., Gadzhikurbanov N.A., Polezhaev A.B. The results of studies on the prevention of downy mildew of onion. Potato and Vegetables. 2019; 1:19-21. (In Russ.)

33. Devochkina N., Nurmetov R., Razin A. Economic assessment of the development potential of mushroom production in the Russian Federation. IOP Conf. Ser.: Earth Environ. Sci. 395. 012076. 2019. (In Russ.)

34. Soldatenko A., Devochkina N., Ivanova M. Efficiency of the newest sterile substrate production technology for oyster cultivation. IOP Conf. Ser.: Earth Environ. Sci. 395. 012086. 2019. (In Russ.)

35. Devochkina N.L., Nurmetov R.J., Pryanishnikova L.N., Mukienko S.V. Innovative technology for preparing the substrate in sterile conditions for the cultivation of oyster mushrooms. Potato and Vegetables. 2019;2:17-19. (In Russ.)

36. Alekseeva K.L., Smetanina L.G. Polar 50 against powdery mildew. Potato and Vegetables. 2019;2:23-24. (In Russ.)

37. Shishkina E.V. Phytolavin and Phytoplasmin against bacterial angular spotting of cucumber. Materials of the III interregional scientific and practical conference. Barnaul: publishing house of the Altai University. 2019: 217-220. (In Russ.)

38. Vanyushkina I.A., Kushnareva N.P., Mikheev Y.G. The effectiveness of protective measures from the disease of carrots. Vegetable crops of Russia. 2018;(6):91-93. (In Russ.) https://doi.org/10.18619/2072-9146-2018-6-91-93

39. Bovsun M.A., Nesterova O.V., Semal V.N., Sakara N.A. Composition and properties of Betula alba bio-coal for use on agricultural lands of the Primorsky territory. Collection of abstracts of the Soil and the noosphere. Materials of the II all-Russian scientific conference. Vladivostok: far Eastern Federal University Federal State Autonomous educational institution. 2019: 19-20. (In Russ.)

40. Bernaz N.I., Ivanova M.I., Menshikh A.A., Azopkov N.I. Efficiency of systems of post-emergence application of herbicides on table beet. Proceedings of the international scientific and practical conference "Science, production, business: current state and ways of innovative development of the agricultural sector on the example of the agricultural Holding "Baiserks-agro". Almaty. 2019: 210-213. (In Russ.)

41. Galichkina E.A., Varvoda E.A., Kobkova N.V. Biochemical parameters of watermelon varieties of different maturity groups and their dynamics as a result of selection selection. Irrigated agriculture. 2019;2:44-45. (In Russ.)

42. Sirota S.M., Shevchenko T.E., Ushakov V.A. Influence of the seeding rate of vegetable pea seeds on the plant's resistance to lodging. In the collection: the Second international forum "Leguminous crops, a developing direction in Russia" FGBOU VO Omsk GAU. 2018:148-151. (In Russ.)

43. Ibragimbekov M.G., Pavlov L.V., Khovrin A.N. Organization standard for a typical technological process for the production of turnip seeds (transplant culture). Potato and Vegetables. 2019;3:28-30. (In Russ.)

44. Polyakov A.V., Alekseeva T.V., Loginov S.V. The effect of organosilicon growth regulators on the yield and quality of winter garlic. News of FSVC. 2019;(1):146-149. (In Russ.) https://doi.org/10.18619/2658-4832-2019-1-146-149