Utilization of natural biostimulators- secondary metabolits of plants in carrot production was studied. Purified fractions with glycoside content are characterized with extraction and adsorption chromatography from the next plants: linarosides – from Linaria vulgaris Mill. L., melampyrosides - from Melampyrum nemorosum L., genistifoliosides - from Linaria genistifolia L., verbascosides - from Verbascum phlomoides L., melongosides - from Solanum melongena L. and tomatoside – from Solanum lycopersicum L. The former substance was registered under market mark “ecostim”. Prospective preparations for the improvement plant resistance to abiotic and biotic stresses have been identified in laboratory tests. Treatment of carrot seeds with water solutions of such substances accelerates plant growth, increases yield and improves quality of storage roots. We determined regimes of seed treatment (substance concentration, time of exposition) and gave recommends by using of natural regulators in the technologic scheme of carrot cultivation. Using secondary metabolites of higher plants stimulates the energy of germination (on 1,5-6,7%) and increases the field germination of carrot seeds (on 23-40%). It accelerates leaves growth and increases the mass of storage roots, improves biochemical characteristics of storage roots (accumulation the β- carotene and decreasing of nitrates content). Yield of storage roots increases on 4,2-8,5 t/ha, and yield of market quality roots increases on 4-6 t/ha.

Relevance. Currently, the use of secondary plant-orgin metabolites with high biological activity is becoming an important part of a comprehensive plant protection program. The mechanism of their action is aimed at activating molecular biological and physiological systems that increase the ability of the plant organism to withstand the adverse effects of biotic and abiotic nature. The purpose of these studies is to screen the selectivity of the physiological activity of phytoregulators in relation to different varieties of vegetable beans.Methodology. Plants of two mid-ripening varieties of vegetable beans were twice sprayed with solutions of plant biological products of different chemical composition, isolated from 12 plant species of different families. Control – treatment with water, standards - solutions of Pharmayod and Fitolavin. During the growing season, an analysis of the development of diseases of various etiologies on seed crops was carried out. Seed productivity of plants was taken into account after harvesting and threshing the beans, the sowing qualities of the obtained seeds were studied in accordance with the relevant recommendations and GOST 12042-80, and the biological effectiveness (BE) of the action of phytopreparations was calculated.Results. Two-fold treatment of beans with most of the tested preparations reduced the total percentage of affected plants by more than 25%. The protective effect of the studied glycosides differed significantly depending on their chemical structure, disease etiology and cultivar responsiveness. Among them, there are preparations based on steroidal glycosides - Moldstim and Mestim, which have the most pronounced immunomodulatory effect on the resistance of vegetable beans to phytopathogens. Treatment with Mestim in the selected concentration led to a decrease in seed productivity of plants. Other phytopreparations showed a neutral or stimulating effect on this trait, increasing the proportion of germinating seeds in the yield structure by 3-26% relative to control. The certain varietal specificity has been identified by the total effectiveness of the action. Irioid glycosides from Linaria genistifolia and the sum of iridoids and flavonoids from Linaria vulgaris showed the greatest activity on the responsive cultivar Lika. On the SiBemol variety, there is Moldstim, a steroidal glycoside of the furostanol series, isolated from Capsicum annuum. Their biological effectiveness was higher than that of Fitolavin and Pharmayod standards.

Diverse technological methods are widely used in horticulture to improve the energy of seed germination, as well as growth and development of plants and their productivity. Ecologically safe methods to accelerate the plant growth processes are known as a presowing treatment of seeds and foliar feeding by plant growth-stimulating agents of natural origin. Pre-sowing seed treatment is necessary when plants grow and maturate not simultaneously, as noticed in amaranth. The action of growth-stimulating agents is an influence in slight concentration not only on biometrical plant parameters, but also on photosynthetic reactions and whole plant physiology. The seed treatment by preparations containing biologically active substances is not only ecologically safe methods but also an economically profitable. Consequently, improvement of quality in vegetable crops by high content of biologically active substances in them, such as polyphenols can be reached with technologies based on the use of preparations, containing biologically active substances and biogenic chemical elements. It was shown that distinctive feature of red leaf plants of amaranth cultivar ‘Valentina’ was a very variable concentration of phenolic compounds such as flavonoids (quercetin, apigenin and their glycosides), hydroxycinnamic acids, simple phenols, polymeric and condensed polyphenols in different aged leaves at the time of vegetation. Moreover, the metabolite variation, antioxidant in fractions of phenolic compounds, obtained from different aged leaves, was increased by biopreparations of natural origin. It is supposed that those preparations had an effect on stress-action system as in protective plant reaction, increasing the antioxidants content. The data obtained has shown that the plants of amaranth, as a promising source of antioxidants, can be used to develop functional food products and phytopreparations.