Your search keyword '"Pikhtirova, Alina"' showing total 4 results

1. The Effect of Saponite Clay on Ruminal Fermentation Parameters during In Vitro Studies.

Author

Pikhtirova, Alina, Pecka-Kiełb, Ewa, Króliczewska, Bożena, Zachwieja, Andrzej, Króliczewski, Jarosław, and Kupczyński, Robert

Subjects

*BUTYRIC acid, *SAPONITE, *GREENHOUSE gases, *FERMENTATION, *CLAY, *PROPIONIC acid

Abstract

Simple Summary: The use of various fermentation modifiers in ruminant diets is one of the best strategies for regulating greenhouse gas emissions, primarily carbon dioxide and methane (CH4). Feeding complex mineral substances of natural origin can provide a quick and safe result. Our in vitro studies confirmed these expectations, and saponite clay, due to its high adsorption properties, significantly reduced the production of CH4 and other gases. Reducing the emission of global warming gases currently remains one of the strategic tasks. Therefore, the objective of our work was to determine the effect of saponite clay on fermentation in the rumen of cows. The pH, total gas production, CH4, and volatile fatty acid (VFA) production in ruminal fluid was determined in vitro. Saponite clay from the Tashkiv deposit (Ukraine) has a high content of silicon, iron, aluminum, and magnesium. The addition of 0.15 and 0.25 g of saponite clay to the incubated mixture did not change the pH but reduced the total production (19% and 31%, respectively) and CH4 (24% and 46%, respectively) in the ruminal fluid compared to the control group and had no significant effect on the total VFA levels, but propionic acid increased by 15% and 21% and butyric acid decreased by 39% and 32%, respectively. We observed a decrease in the fermentation rates, with a simultaneous increase in the P:B ratio and an increase in the fermentation efficiency (FE) in the groups fermented with saponite clay, probably a consequence of the high efficiency in the breakdown of starch in the rumen. Therefore, further in vivo studies to determine the effective dose and effect of saponite clay on cow productivity and the reduction of gas emissions are promising and important. [ABSTRACT FROM AUTHOR]

Published

2024

2. USE OF PROBIOTIC BACILLUS MEGATERIUM NCH 55 FOR TREATMENT OF SUBCLINICAL MASTITIS IN COWS - PRELIMINARY STUDY.

Author

Shkromada, Oksana, Pikhtirova, Alina, Pecka-Kiełb, Ewa, Skliar, Oleksandr, and Musiienko, Yurii

Subjects

*BACILLUS megaterium, *MASTITIS, *PROBIOTICS, *ANIMAL tracks, *COWS, *MILK yield

Abstract

The development and implementation of new and safe means of treating subclinical mastitis (SM) in the production process remains a pressing problem. Our study aimed to investigate the therapeutic effect of the Bacillus megaterium NCH 55 strain on cow SM. All animals with signs of SM were fed with a basic diet with probiotic's addition of 15 g/per day. The experiment was conveyed in 30 consecutive days. Milk and blood were collected on the 7th, 15th, and 30th day of the experiment. Daily milk yield was increased by 32.2% and somatic cell count was decreased from 290.00±32.12 to 96.80±39.03 ths/cm³. A decrease in inflammation was indicated by a decrease in POM370 (by 2.2 times) and POM430 (by 2.8 times). No significant changes in the blood serum indices of cows were observed. A probiotic's positive effect has been established on the treatment of SM. The probiotic B. megaterium N-H 55 can be considered as an alternative to antibiotics and other chemotherapeutic drugs for treating SM in cows. [ABSTRACT FROM AUTHOR]

Published

2022

3. DETECTION OF THE SYNERGETIC INFLUENCE OF CHEMICAL AND MICROBIOLOGICAL FACTORS ON THE PROPERTIES OF CONCRETE CONSTRUCTIONS AT CHEMICAL PLANTS DURING THE LONG-TERM SERVICE.

Author

Shkromada, Oksana, Pikhtirova, Alina, Chivanov, Vadym, Ivchenko, Viktoriia, Sribniak, Nataliia, Shvets, Olha, and Litsman, Yuliia

Subjects

*CHEMICAL plants, *CONCRETE construction, *SYNERGETICS, *CORROSION & anti-corrosives, *CALCIUM carbonate

Abstract

Long-term operation of reinforced concrete structures in the conditions of chemical enterprises has a powerful negative impact on the physical and chemical properties of concrete, which leads to its destruction. The aim of this research is to determine the effect of biological and chemical corrosion on concrete structures in the workshop for the production of titanium dioxide by the sulphate method and the storage of finished products. In particular, chemical production for the synthesis of titanium dioxide by the sulfate method causes the rapid course of chemical (acid and sulfate) and microbiological (thionic bacteria and microscopic fungi) corrosion processes. These corrosion processes reinforce each other according to a synergistic principle. As a result, temperature-programmed desorption mass spectrometry (TPD MS) and scanning electron microscopy have experimentally proven the presence and spatial localization of colonies of thionic bacteria and microscopic fungi in concrete structures. Correlations between the intensity of biochemical corrosion and the depth of damage to the microstructures of concrete structures have been established. Moreover, a change in the chemical composition of concrete in the workshop for the production of titanium dioxide (increased SO2 content and reduced CO2) and the formation of gypsum crystals (CaSO4·2H2O) as a result of the dissimilation of microorganisms was established. Also, in the storage room for finished products, calcium citrate crystals and a violation of the formation of calcium carbonate are formed in the surface layers of concrete. In addition, the results of the study can be used to develop antimicrobial and anticorrosive protective agents to stop the biochemical corrosion of concrete in a chemical plant. [ABSTRACT FROM AUTHOR]

Published

2022

4. USE OF PROBIOTIC BACILLUS MEGATERIUM NCH 55 FOR TREATMENT OF SUBCLINICAL MASTITIS IN COWS - PRELIMINARY STUDY.

Author

Shkromada, Oksana, Pikhtirova, Alina, Pecka-Kiełb, Ewa, Skliar, Oleksandr, and Musiienko, Yurii

Subjects

*BACILLUS megaterium, *MASTITIS, *PROBIOTICS, *ANIMAL tracks, *COWS, *MILK yield

Abstract

The development and implementation of new and safe means of treating subclinical mastitis (SM) in the production process remains a pressing problem. Our study aimed to investigate the therapeutic effect of the Bacillus megaterium NCH 55 strain on cow SM. All animals with signs of SM were fed with a basic diet with probiotic's addition of 15 g/per day. The experiment was conveyed in 30 consecutive days. Milk and blood were collected on the 7th, 15th, and 30th day of the experiment. Daily milk yield was increased by 32.2% and somatic cell count was decreased from 290.00±32.12 to 96.80±39.03 ths/cm3. A decrease in inflammation was indicated by a decrease in POM370 (by 2.2 times) and POM430 (by 2.8 times). No significant changes in the blood serum indices of cows were observed. A probiotic's positive effect has been established on the treatment of SM. The probiotic B. megaterium NCH 55 can be considered as an alternative to antibiotics and other chemotherapeutic drugs for treating SM in cows. [ABSTRACT FROM AUTHOR]

Published

2022