Wyniki wyszukiwania - Biblioteka Nauki

1

Post-Harvest Siderates and Soil Hardness

100%

Mishchenko Y. , Kovalenko I. , Butenko A. , Danko Y. , Trotsenko V. , Masyk I. , Zakharchenko E. , Hotvianska A. , Kyrsanova G. , Datsko O.

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tom Vol. 23, iss. 3

54--63

EN

The results of researches of the perspective direction of solving the problem of growth of hardness of typical chernozem, which consisted in enrichment of the soil with fresh organic matter of postharvest greens, are presented. During the years of our research it was found that growing of post-harvest siderates contributed to a significant reduction in hardness of 0-30 cm soil layer. Among the studied siderates the lowest hardness of 0-30 cm soil layer was under crops of Raphanus sativum in all years of research - 10.9-16.8 kg/cm2. In the variants of potato growing without fertilizers was found close reverse relation between hardness and productive moisture reserves - r = -0.74. These dependences confirm positive effect of siderate Raphanus sativum as a factor of biological loosening of soil. After all, it was just the variant where reduction of productive moisture reserves had the smallest share of impact - 22% on the growth of soil hardness. At the same time, this share of influence increased to 27-41% on the background of other siderates and manure, and up to 54% in the control without application of organic fertilizers. The highest yield of potato tubers was obtained on the plots with the lowest soil hardness, where Raphanus sativum was used as a post-harvest siderate, followed by the variants with manure, Phacelia tanacetifolia and Fagopyrum esculentum.

2

Study of the Impact of Changes in the Acid-Base Buffering Capacity of Surface Sod-Podzolic Soils

100%

Hryhoriv Y. , Butenko A. , Solovei H. , Filon V. , Skydan M. , Kravchenko N. , Masyk I. , Zakharchenko E. , Tykhonova O. , Polyvanyi A.

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tom Vol. 25, nr 6

73--79

EN

The results of scientific research aimed at studying the impact of land use on the acid–base buffering capacity of gleyed sod–podzolic soils in the Carpathian region were analyzed. The transformation of these indicators was investigated using a comprehensive approach that encompasses the influence of various factors, such as agrotechnological methods and atmospheric precipitation, on the acidity and alkalinity parameters of soil solution. The research results confirm a significant influence of these factors on the acid–base characteristics, emphasizing the need for the development of a scientifically grounded approach to managing fertility and stability of the soil environment in agricultural ecosystems of the Carpathians. The study opens the perspectives for optimizing agrotechnologies and developing effective measures for the rational use of soil resources in this region.

3

The Influence of Organic Growing of Maize Hybrids on the Formation of Leaf Surface Area and Chlorophyl Concentration

100%

Zakharchenko E. , Datsko O. , Butenko S. , Mishchenko Y. , Bakumenko O. , Prasol V. , Dudka A. , Tymchuk N. , Leshchenko D. , Novikova A.

Journal of Ecological Engineering

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2024

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tom Vol. 25, nr 5

156--164

EN

The goal of this study is to establish the impact of tillage (reversible to a depth of 25–28 cm and irreversible to a depth of 25–28, 15–18 and 5–8 cm) and the fertilizing products such as LEANUM and VITAMIN O7 (liquid and powdered, respectively) for growing Hemingway and Harmonium hybrids with FAO 280 and 380 on the leaf area duration (LAD) and the concentration of chlorophyll а and b. The leaf area duration was measured by the method of M. I. Orlovskyi and calculated using the formula. The content of chlorophyll a and b in maize leaves was determined using the ULAB 102 Spectrophotometer. In general, the effect of biofertilizer treatment on the leaf can be noted by increasing the leaf area duration. Thus, for Harmonium, with any variant of tillage, the leaf area duration increased on the variants of foliar treatment. And on irreversible tillage for three years, an increase in the leaf area duration was noted with the use of pre-sowing inoculation with the studied fertilizing products, one treatment with LEANUM foliar, and a combined treatment with LEANUM + 1 LEANUM. It is worth noting that disking to a depth of 5–8 cm only led to a decrease in the leaf area duration during the cultivation of Harmonium. However, when growing Hemingway, almost all variants had a positive effect on the leaf area duration, with the exception of inoculation (when using both fertilizing products). An interesting fact is that in most cases, an increase in the leaf area duration led to a decrease in the concentration of chlorophyll a, but did not lead to a decrease in the total concentration of chlorophylls a and b, due to an increase in the concentration of chlorophyll b. It should be noted that biofertilizer treatment and tillage significantly affected the concentration of chlorophyll a and chlorophylls a and b, but chlorophyll b was not affected by tillage. When growing Hemingway, neither biologics nor tillage had any effect, while other pigments had a significant effect.

4

Α Dynamics of Macro Elements Content in Eutric Podzoluvisols for Separation of Wastewater under Jerusalem Artichokes

100%

Lopushniak V. , Hrytsuliak H. , Gamayunova V. , Kozan N. , Zakharchenko E. , Voloshin Y. , Lopushniak H. , Polutrenko M. , Kotsyubynska Y.

Journal of Ecological Engineering

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2022

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tom Vol. 23, nr 4

33--42

EN

The application of fertilizers based on sewage sludge significantly affects the formation of the nitrogen fund of sod-podzolic soil, as well as changes in the content of mobile compounds of phosphorus and potassium exchange. The application of such fertilizer under Jerusalem artichoke has a positive effect on the nitrogen content of alkaline hydrolyzed compounds, in particular on increasing the content of mineral and alkaline hydrolyzed nitrogen fractions. The application of sewage sludge at a dose of 20–40 t/ha and the appropriate compensatory dose of mineral fertilizers at the rate of N90P90K90 helps to increase the content of ammonium nitrogen compounds from 16 to 20–22 mg/kg of soil in the upper (0–20 cm) layer – 28% prevails over the control variant, as well as the content of nitrate nitrogen compounds in the layer 0–40 cm from 1.70 to 2.52–2.64 mg/kg of soil. The ratio of the content of alkaline hydrolyzed nitrogen compounds to the nitrogen content of mineral compounds in the experimental conditions changes insignificantly, which indirectly indicates a relatively stable value of this indicator, which changes little under the influence of fertilizers. The application of sewage sludge as a fertilizer significantly affects the change in the content of mobile phosphorus compounds and potassium exchange compounds in the upper (0–40 cm) layer of the soil. However, from a depth of 60 cm, their content decreases sharply and approaches the initial values of the control version. Depending on the application of fertilizers, the indicators of the coefficient of concentration of macronutrients in the soil change significantly, which reflects the ratio of the content of the element in the soil to its content in the control variant. As the rate of sewage sludge increases, the element concentration coefficient increases from 1.27 in the variant with the application of only mineral fertilizers to 2.36 for potassium and for phosphorus – from 1.02 to 1.31. There is a close correlation between the content of phosphorus and potassium in the soil and the coefficients of their concentration. This relationship reflects the multiple coefficient of determination, which for phosphorus and potassium is R2 = 0.69 and R2 = 0.90, respectively. The use of fertilizers in the form of compost with sewage sludge and straw of cereals causes similar trends as the introduction of uncomposted sewage sludge. However, this effect has less radical impact with lower absolute nutrient content compared to the introduction of fresh sewage sludge. The application of sewage sludge in the form of compost and uncomposted form contributes to a significant increase in the content of macronutrients in the soil, providing an improvement in the mineral nutrition of cultivated plants, including Jerusalem artichokes.

5

Spatial Heterogeneity of Soil Silicon in Ukrainian Phaozems and Chernozems

100%

Tonkha O. , Butenko A. , Bykova O. , Kravchenko Y. , Pikovska O. , Kovalenko V. , Evpak I. , Masyk I. , Zakharchenko E.

Journal of Ecological Engineering

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2021

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tom Vol. 22, nr 2

111--119

EN

This study investigated the spatial variability of the soil silicon content in relation with topography, parent materials, soil texture, soil organic matter, exchangeable cations and pH. Using the experimental data from two longterm sites in the Forest-Steppe area of Ukraine, the SiO2 content was estimated in 60 samples taken from a soil depth 0–25 cm. The accumulation of SiO2 was significantly greater in the soils formed in footslopes. A content of extractable silicon fraction significantly increased from a sandy loam(366–465 mg•kg-1) to medium(670–697 mg•kg-1) and heavy(506–849 mg•kg-1) textured soils. The highest amount of available silicon content was found in the soils containing: 35.0–39.9% of physical clay fraction (< 0.01 mm dia) in Hrytsiv area – 143.0 ± 46 mg•kg-1 and < 25.0% of physical clay fraction in Khrolyn area – 125.0 ±6 mg•kg-1. A significant relationship was found between pHKCl, P2O5, K2O, Mg and both forms of SiO2. There was almost no correlation between available/ extractable SiO2 and exchangeable Ca and ∑ Ca+Mg. Our studies found the best correlation between extractable SiO2 and spring barley yield (r = 0.651; P = 0.041), as well assoluble SiO2 and corn for grain yield (r = 0.514; P = 0.128). No significant relationships were found for sugar beet, winter wheat, sunflower.