Relevance. Modern vegetable production in greenhouses is based on high tech-advantageous, such as vertical hydroponic technology. Increasing of vertical hydroponic market is conditioned with ensuring the food security of states in conditions instability of food deliveries due to violations of traditional logistic connections. The program of vertical tomato hydroponics was developed and used in practice at the FSBSI FSVC in 2010-2020. Productivity potential of Brassica rapa L. subsp. nipposinica cultivated at vertical hydroponic installation have been studied in connection with the spread of consumption of fresh greens and “yellow-green” vegetables.The goal of the study was: the productivity characteristics and analysis of biochemical composition Brassica rapa L. subsp. nipposinica cultivated at the five-circle vertical hydroponic installation with help of natural immunomodulators.Materials and methods. Materials of study: seeds and leaves (rosette of leaves) from 2 varieties of Brassica rapa L. subsp. nipposinica – Japanese variety Salad Mizuna and new variety Salut Jubileiu (originated from FSBSI FSVC); immune modulators – flavonoid glycoside linarozide and steroid glycosides moldstim and trigonellozide.Methods. Seed treatment with 0,005%-water solutions of immune modulators; cultivation plants Brassica rapa L. subsp. nipposinica at the five-circle vertical hydroponic construction; analytical methods: determination of dry meter; determination the sum of antioxidants in leaves of Brassica rapa L. subsp. nipposinica; biometry; statistical methods: one-factorial dispersion analysis and two-factorial dispersion analysis.Results. Possibility of Brassica rapa L. subsp. nipposinica plants cultivation at multi circle hydroponic installations was established by authors. Seed treatment with water solutions of immune modulators wasn’t influence on seedlings appearing (the quality of seeds was very high -99-100%). Height of plant (of rosette) the variety Mizuna was increased as the reaction on the seed treatment, but the weight of plants wasn’t change. Salut Jubileiu variety reacted with increasing the common weight of plants. Number of leaves was increased. The content of dry matter in leaves didn’t change, but the sum content of antioxidants is rise significantly after seed treatment of immune modulators. The conclusion has been made: applying of immune modulators from glycosides class could to increase the productivity, vitamin value and safety cultivation of Brassica rapa L. subsp. nipposinica plants at multi circle hydroponics installation.

Research conducted at the Institute of Genetics, Physiology and Plant Protection found that when using the peripheral and internal cloves of garlic for planting in comparison with the use of them of different locations without calibrating them by mass, during the growth between the variants differences in the area of the leaf surface of plants were observed. Indicator of the foliage also depends on of the location of the garlic cloves in the bulb. The location of garlic cloves, peripheral and internal, as a planting material, also affects the growth of vegetative mass formation and bulb weight. In the bulb structure the peripheral cloves of garlic have some increase in their quality over internals (the ratio is in the range of 60:40%). Analysis of the obtained productivity data makes it possible to note that in the formation of high yields of non-clotting garlic, the location of the clove of garlic in the bulb is of the leading importance. Differences in gross and commodity yields, between variants (B3) and (B2) are not so great, but the advantage of the first one is everywhere traced. Studies have also found that the use of all garlic cloves for planting at different locations without calibrating them by weight, leads to differently bulbs maturing time, which makes the harvesting process more difficult and leads to additional labor costs, in which case when harvesting - 24% of it consist of small noncommodity bulbs. The use of the same mass garlic cloves of different locations for planting ensures the simultaneous of ripening, a greater proportion of standard bulbs and a high quality of planting material.

The thematic core facilities plan, CCU of Orel state agrarian university "Genetic resources of plants and their use" for a joint program with Shatilovskay of Institute of leguminous and cereal crops, of field and vegetation experiments on the study of specific features of manifestation of the activity of transpiration leaves of soybean are achieved. The object of the study were 10 varieties of soybeans that were grown on plots of 15 m2 in four replications. Seeding was carried out breeding seeder calculated 600 thousand of viable seeds per hectare. the way the plots were allocated systematically with offset. The care of crops was carried out in accordance with the recommended regional events. It was demonstrated that leaf transpiration activity of the culture increases sharply in the transition of plants to the generative period of development, reaching a maximum in the phase of mass fruit formation, when the most active growth and, consequently, the demand for assimilate. The intensity of transpiration of leaves during this period of plant development was by 8.22 mmol H2O/m2c. The highest transpiration activity was typical for the upper leaves located in the generative sphere of plants, the lowest - activity was fount for the lowerst leaves. On the 5th node from the bottom, its value was 2.2 times lower compared to the assimilating leaves at the top of the plants (3-4 knots top). Thus, the most intensive evaporation of the water by leaves are held from 9:00 to 13:00 hours Moscow time. The intensity of transpiration in this period amounted to an average of 5.42 mmol H2O/m2c, which was 19.9% higher than in the morning (from 7:00 to 8:00) and 42.3% in the afternoon (from 15:00 to 17:00).