THE USE OF NANO AND BIOTECHNOLOGICAL RAW MATERIALS IN THE CREATION OF DRUGS FOR AGRICULTURE

Abstract

The article is devoted to the consideration of the possibility of using fullerene-containing water as part of humic growth-stimulating preparations for agriculture with the addition of yeast production waste. More recently, the problems of the economy and the environment were perceived as opposite. Currently, there is a need for a mutually dependent and mutually beneficial combination of economic and environmental interests, which was the basis for this study. The analysis of the wastewater of the yeast-producing enterprise shows the presence of a large number of chemical and organic substances that pose a certain danger to the environment, but are useful after processing waste for use in agriculture. The largest number of substances is found in waste, after the stage of production of pure culture. The experiment shows that the use of structured water in combination with biologically active waste from the production of bread yeast obtained on the basis of the Saccharomyces cerevisiae strain increases the yield of grain crops. Based on the established fact of a wide and universal spectrum of biological activity of the water-carbon structure of hydrated fullerenes, according to patent and scientific and technical literature, they have not been widely tested as plant growth regulators. We will investigate the interaction of substances with water structured with fullerenes, the effect of surfactants on the formation and stability of emulsified humates with film-forming agents, the adhesive properties of the components, the effect of concentrated yeast fermentation liquid separated after the stage of growing a pure culture of baking yeast, the effect of both a fullerene-like structure – shungite of natural origin and hydrated fullerenes – highly stable finely dispersed aqueous solutions of native fullerenes (have the properties of lyophobic molecular colloidal systems) on grain yield, protection of vegetative plants. The result of the work will be the substantiation of the principles of the methodology for the application of nanostructured substances for use in biotechnologies of multifunctional highly effective drugs for agriculture with biologically active additives.