Comparative analysis of the use of biostimulants on the main types of soil

O. Chernikova¹*, Yu. Mazhaysky², S. Buryak², T. Seregina¹ and L. Ampleeva²

¹Academy of law management of the federal penal service of Russia, Sennaya street 1, RU390036 Ryazan, Russia
²Ryazan State Agrotechnological University named after P.A. Kostychev, Kostychev street 1, RU390044 Ryazan, Russia
*Correspondence: chernikova_olga@inbox.ru

Abstract:

A plant requires certain physiological conditions for normal and productive development. The determining vital factor is the nutritional status of the soil and the environment. At present, the biologization of agriculture is becoming increasingly important. The use of biostimulants is one of the rapidly developing areas in the world practice of crop production and, in the cultivation of agricultural crops, contributes to the production of environmentally friendly products and the improvement of the environment.Such substances can be metal nanoparticles, as well as preparations with a high level of biogenicity, nutritional value and physiology,they are used to improve the growth and development of plants, as well as to activate soil-microbiological processes, which is a liquid-phase biological product (LPBP). The purpose of this work is to identify the effectiveness of the use of a liquid-phase biological product and cobalt nanoparticles in pre-sowing seed treatment against the background of a minimum dose of organic fertilizers, the effect on the productivity and quality indicators of green mass when growing a grass mixture with over-sowing oats on three main types of soil: sod-podzolic, gray forest and black soil.Used cobalt nanoparticles have the following characteristics 40–60 nm, phase composition – Co – 100%. A suspension of nanoparticles was obtained by dispersing with ultrasound in an aqueous solution. LPBP is a dark brown liquid with a specific odor, pH =6.5–7.5, contains N, C, P, K, Ca, Mg, tryptophan, microorganisms. Cobalt nanopowder in solution contained 0.01 g per hectare seeding rate; LPBP concentration was 1%. The seeds were soaked 30 min before sowing in double distilled water (control), in a suspension of nanoparticles and LPBP. The research was carried out according to generally accepted methods. Presowing seed treatment in combination with organic fertilizers in minimal doses provided an increase in yield on soddy-podzolic soil – by 5.69–21.71%, gray forest soil – 2.64–7.50%, black soil – 9.18–18.28%, while no decrease in nutritional value was observed: metabolizable energy, feed units, digestible protein. It is noted that the use of cobalt nanoparticles leads to an increase in the carotene content.

Key words:

chernozem, cobalt nanoparticles, grass mixture, gray forest soil, liquid-phase biological product, oats, sod-podzolic soil

Influence of regional technologies of varying intensity on the bioproductivity of sod-podzolic medium loamy soil in the Central region of the Russian Federation

S.M. Viyugin¹*, A.V. Kuchumov², G.V. Viyugina³, S.E. Terentyev⁴ and I.A. Karamulina¹

¹Smolensk State Agricultural Academy, Faculty of Engineering and Technology, Department of Agronomy, Land Management and Ecology, 10/2 B. Sovetskaya Str., RU214000 Smolensk, Russia
²Smolensk State Agricultural Academy, Faculty of Economics, Department of Production Management, 10/2 B. Sovetskaya Str., RU214000 Smolensk, Russia
³Smolensk State University, Faculty of Natural Geography, Department of Biology and Ornamental Crop Production, 4 Przhevalskogo Str., RU214000 Smolensk, Russia
⁴Smolensk State Agricultural Academy, Faculty of Engineering and Technology, Department of Agricultural Processing Technology, 10/2 B. Sovetskaya Str., RU214000 Smolensk, Russia
*Correspondence: vyugin_sm@mail.ru

Abstract:

This study is oriented to elucidating the role of the basic elements of regional farming systems in soil-crop complex using agricultural technologies of different levels of cultivation of field crops in the Smolensk Region.
As a result of monitoring carried out in 1991–2008 on a reference site located in the Smolensk Region, negative changes of soil profile were revealed. Degree of soil podzolization increased what contributed to its degradation. All genetic horizons demonstrated deterioration in the basic parameters of soil fertility.
Many years of experience showed a significant influence of the elements of studied technologies on soil acidity parameters, on the level of available phosphorus and exchangeable potassium; the amount of humic compounds was, however, characterized by relative stability.
According to the total grain harvest of winter rye, spring soft wheat and barley, as well as of the green mass of perennial and annual herbs, studied variants were ranged in the following order: intensive, organic, adaptive, and extensive. Organic technology is suitable for getting environmentally friendly products.
Obtained results are recommended to be used in the development of regional technologies of various intensity for the bio-productivity of sod-podzolic medium loamy soil in the Central region of the Russian Federation, as well as in regions with similar soil and climatic conditions. Choice of particular variant is in each case determined by the baseline characteristics of soil, planned level of productivity and harvest quality, availability of material and monetary resources in the economy.

Key words: