Formation of erosion resistance of gray forest soils in the conditions of Carpathian region

Kachmar, Oksana; Vavrynovych, Oksana; Dubytska, Anhelina; Ivaniuk, V.

doi:10.15407/agrisp5.03.047

Cited by 4 publications

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“…It is necessary to define the role and position of every component in the package of erosionpreventive measures. For that purpose, the quantitative assessment of the water control, erosion protection, agronomic and economic efficiency of the erosion prevention package has to be done [Kachmar et al, 2018). It is facilitated by the considerable information database about the intensity of soil wash-off on slopes, the properties of denuded soils, the efficiency of individual erosion control measures and their packages that has been collected by now [Ivanov, 2007;Belolyubcev, 2009;Gomes et al, 2019;Kust et al, 2019;Xie et al, 2019].…”

Section: Introductionmentioning

confidence: 99%

Research Into Soil Resource Management Technologies in Context of Aggravating Exogenic Processes

Kaminskyi,

Kolomiiets,

Bulgakov

et al. 2024

J. Ecol. Eng.

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The erosion of soil falls into the class of landscape destruction processes. It disturbs the balance in the geoecosystem to a significant extent, thus generating the whole spectrum of negative geo-ecological after-effects. The protection of soils against erosion and the improvement of fertility in sloped agricultural landscapes are part of the overall environmental concern that has notably aggravated lately. This has given rise to a number of topical issues for which scientific and practical solutions are urgently required. The paper describes the state of the art in the research into the issue of the protection of soils against erosion. It discusses the regional patterns in the progress of erosion processes. The integrated agro-ecological assessment of the effect that various components of the integrated erosion protection system have on the erosion resistance and properties of soils in agricultural landscapes was outlined for the development and implementation of conservation cropping systems. The study is based on the results of the long-term stationary and expeditionary field research that addressed the following issues: the natural conditions of the territory and the development of erosion processes as a result of snowmelt and rain water runoff, as well as artificial sprinkling. The research was carried out using a combination of geomorphological, cartographic and pedomorphological analysis methods and approaches. By modelling rainfalls on typical eroded chernozem soils in combination with different agricultural crop growing technologies, the quantitative characteristics for the resulting erosion losses were determined. These characteristics are needed to make long-term forecasts of the development of erosion processes in agricultural land areas in the context of intensifying exogenic processes. The tested soil-protecting agronomic technologies (subsurface blade tillage to a depth of 10-12 cm with simultaneous slitting to a depth of 40 cm, subsurface blade tillage to a depth of 20-22 cm) demonstrated their high erosion prevention efficiency. They reduced the surface run-off by a factor of 1.3-2.3, the soil loss by a factor of 1.9-12.7 in comparison to the traditional ploughing to a depth of 20-22 cm. Accordingly, the indices and conditions of the surface run-off water infiltration into the soil were also optimised with these techniques.

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Section: Introductionmentioning

confidence: 99%

Research Into Soil Resource Management Technologies in Context of Aggravating Exogenic Processes

Kaminskyi,

Kolomiiets,

Bulgakov

et al. 2024

J. Ecol. Eng.

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“…Due to intensive use agricultural land is observed their depletion and increasing load on the environment [2,3]. In Ukraine the area of acid soils is 10,3 million ha is 26,3% of the total area, every 4 th hectare of land is acidic, in zones Forest-Steppe and Polissya -almost every 2 nd (49,7 and 47,4%).…”

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confidence: 99%

“…A feature of gray forest soils is violation of the physiological balance of the solution in the soil environment in the direction of increase acidity [1,3,4], low absorption capacity weak buffering, resulting in deteriorating physical and chemical properties [1,5], the activity of soil microorganisms and increasing the intensity of microbiological processes [6]. There is a decrease fertility, contaminated crop production products and deteriorating environmental new [7,8].…”

mentioning

confidence: 99%

“…The ratio of batteries in agricultural plants did not depend on the dose of fertilizer, geographical or soilclimatic conditions, agrotechnical measures [1,3,9,[15][16][17][18]. It is possible argue that the ratio of these is a consequential (genetic) trait and can be taken as a genotypic species ratio and belong to only one biological species, or, as in our variety, variety or hybrid of agricultural culture.…”

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confidence: 99%

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Optimization of nutrition of crops in conditions of physicochemical degradation of acid soils

Tkachenko¹,

Borys²

2021

Visnyk agrarnoi nauky

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Goal. Investigate and identify the features of the formation of physico-chemical degradation of gray forest soil under different anthropogenic load in grain crop rotation. Methods. Field, laboratory, computational, mathematical and statistical. Results. Against the background of a decrease in the aftereffects of radical chemical reclamation by 10-13 years, the application of an annual dose of alkaline earth elements taking into account the physiological characteristics of the crop (average 11,4 kg/ha and 4,6 kg/ha of calcium and magnesium, respectively), provides for 10-12 years close to neutral, and for 13 years of action weakly acid reaction of soil solution. In addition, there is a slight increase in the content of metabolic Ca and Mg in soil absorption complex, their content increases to 6,71-7,00 mg-eq/100 g of soil.The results of research on the impact of different agrochemical loads on gray forest soil with increasing doses of fertilizers, both in combination with and without radical chemical reclamation measures, obtained during 2016-2019, are presented. It is established that the use of intensive fertilizer systems without radical chemical reclamation leads to the deterioration of the physicochemical properties of gray forest soil. Conclusions. The use of a dose of mineral fertilizers on gray forest soil, calculated according to the species genotypic ratio of the content of elements in the biomass of the crop against the background of lime application, provides: optimization of crop nutrition, reduction of phosphorus and potassium, optimization of physicochemical, soil toxicity and soil properties Н + and Al 3+ . The optimal combination of N, P, K, Ca and Mg (216 k/ha in the ratio 1:0,4:0,5:0,3:0,1) in combination with seed inoculation with nitrogen-fixing and phosphorus-mobilizing bacteria, provides an increase in the level of productivity of the grain crop rotation to 5,45 t/ha of grain units and the payback of 1 kg of active substance of fertilizers to 15,6 kg of grain units. Physico-chemical degradation on acid soils with the application of high doses of nitrogen fertilizers can be partially prevented by saturating the soil absorption complex with exchange cations of alkaline earth metals, supplementing the fertilization system by applying small doses of Ca and Mg calculated on the basis of species content based on the recommended dose of nitrogen, an element that is limited to acidic soils.

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The effectiveness of granular chalk use for growing winter wheat on grey forest soil

Tkachenko

Borys

Kovalenko³

2020

Agrobìologìâ

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The research aims to establish the eff ectiveness of granular chalk use produced by «Slavuta-Calcium» Ltd. under growing Poliska–90 winter wheat variety, changing the physicochemical properties of grey forest soil and the wheat productivity. It also aims to establish optimal dosis of «Slavuta-Calcium» granular chalk as the meliorant and mineral fertilizer for grey forest soil in the system of winter wheat fertilization. In the temporary fi eld studies, various doses of nutrients N60–90–120P30–45–60K60–90–120 combined with «Slavuta–Calcium» granular chalk in a dose of Ca230–460–690 kg/ha of the active substance were studied against the background of secondary plowing of rotation products – soybean biomass that averaged 2.34 t/ha. Granular chalk is a modern complex highly eff ective meliorant with the content of Ca – 37.7 and Mg – 0.2 %, the mass fraction of carbonates (CaCO3 + MgCO3) makes at least 95 %. It is characterized by a high level of solubility when interacting with moisture in soil. It has a form of white granules, the mass fraction of 4.0–6.0 mm in size granules makes not less than 90 % and the one of 1.0 mm in size makes less than 5 %. Reactivity – 97 %. The granular chalk is advisable to apply on acidic soils, as a highly concentrated calcium-magnesium fertilizer, with the former as the dominant fertilizer, to optimize the physicochemical properties of the soil, as well as the plant nutrition system, in particular, increasing the availability of an element for assimilation by plants and as long-term ameliorants. The eff ectiveness of the use of mineral fertilizers, in particular acidic nitrogen on highly and medium acidic soils, after chemical reclamation is increased by 30–50 %, and slightly acidic by 15–20 %. The increase in productivity of crops from the combined eff ects of nutrients and chalk granulated is usually higher than when separately applied. The eff ectiveness of the integrated action of these elements is manifested in the growth of plant productivity and the quality of the resulting products, as well as the optimization of physical chemical properties and soil buff ering in the long term. In order to optimize the physicochemical properties of the arable layer of gray forest soil and the productive nutrition of agricultural crops, winter wheat, in particular, biogenic elements should be used in doses N60-90-120P30-45- 60K60-90-120 with granulated chalk «Slavuta-Calcium» in doses of Ca230-460-690 kg/ha of active substance. Granulated chalk obtained as a result of industrial grinding of solid sedimentary carbonate rocks of natural origin, subsequently under the infl uence of the granulation process of the starting material contains Ca and Mg carbonates of at least 95 %, dense granules which facilitates convenient mechanized application, as well as chalk suitable for accurate metered application on the quest map. Key words: granular chalk, gray forest soil, chemical reclamation, crop productivity.

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Formation of erosion resistance of gray forest soils in the conditions of Carpathian region

Cited by 4 publications

References 4 publications

Research Into Soil Resource Management Technologies in Context of Aggravating Exogenic Processes

Research Into Soil Resource Management Technologies in Context of Aggravating Exogenic Processes

Optimization of nutrition of crops in conditions of physicochemical degradation of acid soils

The effectiveness of granular chalk use for growing winter wheat on grey forest soil

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