Your search keyword '"Natalya Mit"' showing total 5 results

1. Ecological risk assessment and long-term environmental pollution caused by obsolete undisposed organochlorine pesticides

Author

Saule Zaypanova, Anar Tolebaeva, Oksana Cherednichenko, Gulshat Koishekenova, Aizhan Mussayeva, Leyla Djansugurova, Ozada Khamdiyeva, Arshyn Tlenshieva, Asil Nurzhanova, Bakhytzhan Bekmanov, Makpal Amandykova, Mamura Begmanova, Natalya Mit, Aigerim Mamirova, Anastassiya Pilyugina, and Almira Amirgalieva

Subjects

Soil test, 0211 other engineering and technologies, Environmental pollution, 02 engineering and technology, 010501 environmental sciences, Biology, Risk Assessment, 01 natural sciences, Toxicology, Food chain, Hydrocarbons, Chlorinated, Animals, Humans, Pesticides, 0105 earth and related environmental sciences, Pollutant, 021110 strategic, defence & security studies, Organochlorine pesticide, General Medicine, Pesticide, Contamination, Pollution, Soil contamination, Kazakhstan, Environmental Pollutants, Environmental Monitoring, Mutagens, Food Science

Abstract

Obsolete organochlorine pesticides (OSPs) are currently prohibited as persistent organic pollutants that contaminate the environment. If undisposed, they continue to pollute soil and water, to accumulate in the food chain and to harm plants, animals and the human body. The aim of the study was to assess water and soil pollution around the storehouses of undisposed, banned OSPs and their possible genotoxic effect. The storehouses in four villages near Almaty, Kazakhstan were investigated. Chemical analysis confirmed contamination of water and soil around storehouses with OSPs. The genotoxic effect of water and soil samples was evaluated using model objects: S.typhymurium, D.melanogaster, sheep lymphocytes cultures and human lymphocytes cultures. It was found that water and soil samples caused mutagenic effect in all model systems. They increased the frequency of revertants in Salmonella, the frequency of lethal mutations in Drosophila chromosomes, and the frequency of chromosome aberrations in cultures of human and sheep lymphocytes. Although a genotoxic effect was demonstrated for each of these models, various models showed different sensitivity to the effects of pesticides and they varied degree of response. The association between the total content of OCPs in soil and the level of mutations for different model systems was discovered.

Published

2021

2. Complex approaches to assessing the pesticides risk on human health and environment

Author

Erika Djangalina, Nazym Altynova, Natalya Mit, and Leyla Djansugurova

Published

2022

3. Contributors

Author

Zareena Akhter, Mariam Nasser Aljaafari, Nazym Altynova, Jesús Alvarado-Flores, Ahmad Reza Bagheri, João Paulo Bassin, Sami Ullah Bhat, Pankaj Bhatt, Muhammad Bilal, Ana Laura Carbajal-Hernández, Jean Carlos Cardoso, Camila Rodrigues Carmello, Nalini Singh Chauhan, Yong Chen, Oksana Cherednichenko, Sudha Choudhary, Mohd Ashraf Dar, V. Dhananjayan, Erika Djangalina, Leyla Djansugurova, Ahmed El Nemr, Tarik Eldeeb, Carlos Vicente Garza-León, Suresh Ghotekar, João Pedro Neves Goldenstein, Mohamed A. Hassaan, Zhixia He, Edappayil Janeeshma, R. Jayakumar, P. Jayanthi, Sabariswaran Kandasamy, Garima Kaushik, Megha Kumar, Vineet Kumar, Suresh Kumarasamy, Kok Song Lai, Swee Hua Erin Lim, Suramya Malhotra, Junaid Ahmad Malik, Javid Manzoor, null Meenu, Virendra Kumar Mishra, Natalya Mit, Mathiyazhagan Narayanan, Mir Rohi Neelofar, Serikbai Nuraliev, Ignacio Alejandro Pérez-Legaspi, Anastassiya Pilyugina, Abhay Punia, Jos T. Puthur, Umara Qayoom, Manviri Rani, B. Ravichandran, Roberto Rico-Martínez, Olga Lidia Rivera-Dávila, Daniel Robles-Vargas, Arpita Roy, P.P. Sameena, Erimar Pontes Santiago, Gustavo Emilio Santos-Medrano, Nair G. Sarath, Rabiha Seboussi, Steplinpaulselvin Selvinsimpson, Uma Shanker, Ananya Shukla, Anubhuti Singh, Gurudatta Singh, Priyanka Singh, Neha Singla, Náthaly Lacerda Tonon e Rocha, Cristiano Varrone, Mathew Veena, Paula Resende Vieira, Alex Vlaiculescu, Khursheed Ahmad Wani, Kailas L. Wasewar, Polly Soo Xi Yap, and Muhammad Zubair

Published

2022

4. Formation of Solonchak in the Area of the Discharged Ancient Brine Wells (Perm Krai, Russia)

Author

Elena Khayrulina, Natalya Mitrakova, Natalya Poroshina, Elena Menshikova, and Anna Perminova

Subjects

solonchak, alluvial soil, brine wells, halophyte, salinization, gleization, Environmental sciences, GE1-350

Abstract

The change in soil-forming processes and, as a result, in the ecosystem due to nearly 300-year long outflow of highly saline waters from ancient brine wells is considered for Perm Krai in Russia for the first time. The study area is located in the high floodplain of the Usolka River valley. Sodium-chloride ancient brine wells with mineralization of about 30 g/L flow in streams over the soil surface and enter the Usolka River. The paper considers three soil types at various distances from a saline stream. The main pedogenic processes are the sod-forming process and gleying in alluvial soils. Soils in Gleyic Fluvisols (background)—Gleyic Fluvisols (Sulfatic) (transition)—Solonchak (affected by sodium-chloride brines) series were studied in terms of occurring soil-forming processes. All studied soils are formed under hydromorphic conditions. It is evidenced by gleization. However, the morphological and physicochemical properties of the soils differ. The presence of water-soluble ions in the solonchak suggests that salinization is occurring. The sum of toxic salts was 0.94% which was several times higher than in the transition and background soils. The sodium adsorption ratio (SAR) ranged from 10.4 to 21.6, with a рН of 8.3–9.1. The saline soils were more alkaline (pH average 8.8 and 9.3) than the background soil (pH 8.1). SAR decreased significantly in the Solonchak—transition—background soil series from 16.9 to 0.7. The aforementioned observations, as well as physical properties of the saline soil, clearly show the entry of sodium into the solonchak adsorption complex, indicating the solonization process. The study area is characterized by the presence of salt-tolerant species of herbaceous plants and an obligate halophyte. Salicornia perennans Willd, a halophyte, was discovered in the wells’ discharge area at a distance of 0.2–1.5 m from saline streams. The analysis of the long-term impact of highly mineralized waters on the natural environment will aid in revealing and forecasting ecosystem changes caused by potash mining in Perm Krai for environmental risk assessment for new and existing potash enterprises.

Published

2022

5. Properties of Alluvial Soils of Taiga Forest under Anthropogenic Salinisation

Author

Elena Khayrulina, Anna Bogush, Larisa Novoselova, and Natalya Mitrakova

Subjects

potash mining, soil salinity, sulfidisation process, Fe-bearing minerals, leaching, ion exchange processes, Plant ecology, QK900-989

Abstract

The environmental impact of deposit development can be indirect and can cause combined geochemical processes in ecosystems. These must be taken into consideration under environmental forecasting and environmental risk assessment. Soil degradation in the Taiga Forest is considered, within the area of Verkhnekamskoye potash deposit (Russia), as an example of such environmental transformation. Here, the mechanism and characteristics of the anthropogenic salinisation of alluvial soils under potash deposit development are newly described. It was found that there is a strong anthropogenic impact of the potash industry on valley soils where the contaminated Na-Cl groundwater discharges or is close to the surface. The valley soils are characterised by high salinity, and the sum of toxic salts in soils has reached 26%. Alluvial gley humic clay chloride saline soil (Gleyic Fluvisols (Salic, Loamic, Technic)) and secondary solonchak on alluvial humic clay soil sulphate-chloride gypsum-containing surface-gleyed (Chloridic Gleyic Fluvic Solonchak (Hypersalic, Loamic, Technic)) were formed in hydromorphic conditions. Morphological, physicochemical and mineralogical analyses were carried out. Under hydromorphic conditions, Chloridic Gleyic Fluvic Solonchak (Hypersalic, Loamic) was described to show a hydrotroillite layer and reddish-yellow iron-rich precipitates on its surface. The top soil horizon has the highest content of iron minerals (up to 84.9%) and Fe-bearing plant residues (up to 20%). Additionally, the spongy and gel-like organic materials, as well as the siliceous remains of diatoms, are enriched in Ca, Fe, Cl, K, Na, S and P. The lower soil horizon consists of black gel-like phases and hydrogen sulphide settings with a high content of plant residues. The insoluble part of the samples contains up to 84% hydrogoethite. The sources of iron in soils and bottom sediments include the iron-enriched Sheshma sediments speckled rocks, slurry material, halite wastes and soil minerals of alluvial gley soils.

Published

2021