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Biogeochemical migration of heavy metals in the soil-plant system of Taraz, Kazakhstan: Effects of phosphorus plant emissions | ||
| Caspian Journal of Environmental Sciences | ||
| دوره 23، شماره 4، دی 2025، صفحه 871-883 اصل مقاله (1.28 M) | ||
| نوع مقاله: Research Paper | ||
| شناسه دیجیتال (DOI): 10.22124/cjes.2025.9204 | ||
| نویسندگان | ||
| Ulbossyn Y. Yerkinbek1؛ Roza M. Bakesova2؛ Gabit A. Sharipov3؛ Ayagoz S. Mendigaliyeva* 4؛ Meruyert M. Zhylkyshybaeva5؛ Karatay Y. Shalabayev1؛ Dinara B. Zhamalova* 6؛ Dauren M. Botbayev7 | ||
| 1Department of Biology, Faculty of Natural Sciences and Geography, Abai Kazakh National Pedagogical University, Almaty, Kazakhstan | ||
| 2West Kazakhstan Innovative Technological University, Uralsk, Kazakhstan | ||
| 3Department of Civil Defense and Military Training, Malik Gabdullin Academy of Civil Protection of the Ministry of Emergency Situations of the Republic of Kazakhstan, Kokshetau, Kazakhstan | ||
| 4West Kazakhstan Innovative Technological University, Institute of education and management, Department of Physical Culture and Informatics, Uralsk, Kazakhstan | ||
| 5Departments “Animal Biology named after N.U. Bazanova”, Faculties “Veterinary and Zooengineering”, Kazakh National Agrarian Research University, Almaty, Kazakhstan | ||
| 6Non-profit limited company Akhmet Baitursyuli Kostanay regional University Faculty of Agricultural Sciences, Kostanay, Kazakhstan | ||
| 7Satbayev University, Almaty, Kazakhstan | ||
| چکیده | ||
| The article discusses the effects of emissions from the Taraz phosphorus plant on soil and vegetation. Analytical data showed that the soils of the investigated sites around the "Kazphosphate" plants, located at various distances from the main plant chimneys, are contaminated with mobile and total forms of zinc, cadmium, and copper. The contamination occurs to a depth of 0–30 cm in all directions according to the wind rose. These elements are the main soil pollutants. According to granulometric indicators, the soil is generally light in texture—sandy, loamy sand, and light loam. In these areas, there is a possibility of heavy metals leaching downward and entering groundwater, posing a threat to the surrounding ecosystem, including humans. Research results showed that the zinc and copper levels in plants were below hazardous thresholds. However, the cadmium and lead levels were several times higher than permissible limits, especially cadmium in the western direction and lead in all directions, particularly east and south. These zones require soil and plant heavy metal monitoring and bioremediation measures. | ||
| کلیدواژهها | ||
| Dominant pollutants؛ Heavy metals؛ Monitoring؛ Soil | ||
| مراجع | ||
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Aidosov, AA & Zaurbekov NS 2016, Study of the environmental condition in the southern industrial regions due to soil pollution. International Experimental Education Journal, 9: 118–121.
Alekseev, YuV 1987, Heavy Metals in Soils and Plants. Leningrad: Agropromizdat, 141 p.
Annual Report 2024, R & D program “Ensuring the rational use of agricultural lands in intensive farming based on new approaches to the preservation and reproduction of soil fertility”. Task 3. Study the soil-ecological conditions of agrocenoses in the research region of Kazakhstan and implement measures to improve their productivity. Almaty, 72 p.
Artyushin, AM, Deryugin, IP et al. 1991, Fertilizers in Intensive Technologies of Agricultural Crops. Moscow, Agropromizdat, 222 p.
Artamonov, VI 1986, Plants and the purity of the natural environment. Moscow, pp. 27-31.
Bondina, N & Nezvankina Yu 2006, Rational use of fertilizers and increasing the efficiency of agricultural production. International Agricultural Journal, 3: 59-60.
Bayseitova, NM & Sartaeva, KhM 2014, Phytotoxic effects of heavy metals under technogenic pollution of the environment. Young Scientist, 2 (61): 382-384.
Chernykh, NA 1991, Changes in the content of several chemical elements in plants under the influence of different amounts of heavy metals in soil. Agrochemistry, Moscow, 3: 68-76.
Dzhuvelikyan, KHA, Shcheglov, DI & Gorbunova, NS 2009, Soil contamination with heavy metals. Methods of control and regulation of contaminated soils. Textbook, Voronezh: Voronezh State University, 22 p.
Ilyin, VB 1991, Heavy metals in the soil accumulation system. Novosibirsk: Nauka, 151 p.
Kabata-Pendias, A 2011, trace elements in soil and plants. Fourth Edition, Boca Raton, Florida: CRC Press, 548 p., DOI: 10.1201/b10158
Kebede AA, Olani DD, Edesa TG, Damtew YT 2016, Heavy metal content and physicochemical properties of soil at solid waste disposal sites. American Journal of Scientific and Industrial Research, 7 (5): 129-136, DOI: 10.5251/ajsir.2016.7.5.129.136.
Korelskiy, DS 2008, Assessment of the contamination level of the surface soil layer in the impact zone of a metallurgical enterprise. Mining Information-Analytical Bulletin, 9: 330-333.
Kabata-Pendias, A & Pendias, H 1989, Trace Elements in Soils and Plants, Moscow, Mir, 439 p.
Filov, VA 1988, Harmful chemical substances: Inorganic compounds of elements I–IV groups. Leningrad: Khimiya, 512 p.
Mikhaleva, AE 1997, Principles of environmentally safe use of floodplain lands. Farming, 5: 16-17.
Misigryan, EM 2006, Medical and environmental expertise and its significance in ecology // Scientific Aspects of Environmental Problems in Russia: Proceedings of the Second All-Russian Conference, Ed. YuA, Izrael, Moscow, pp. 212–213.
Moroz, AV 2000, Agroecologization of agricultural land use under technogenic pollution conditions. Agrarian Science, 6: 11-12.
Moroz, AV 2001, Use of agricultural lands under technogenic pollution conditions. Agrarian Science, 1: 10-11.
Omarkulov, TO 1994, Environmental situation in the republic and main ways to stabilize and improve it. Proceedings of the National Academy of Sciences of the Republic of Kazakhstan, Chemistry Series, Almaty, 4: 87-91.
Pérez-López R, Álvarez-Valero, AM, & Nieto JM 2007, Journal of Hazardous Materials, 148: 745-750.
Perelman, AI, Kasimov, NS 2000, Landscape Geochemistry. Moscow: Astrea, 768 p.
Pobilat AE, Voloshin EI 2017, Features of lead content in soils and plants of Central Siberia. Trace Elements in Medicine, 18(4): 36−40, DOI: 10.19112/2413-6174-2017-18-4-36-40
Seredina, VP 2015, Soil pollution: Textbook, Tomsk: Publishing House of Tomsk State University, 346 p.
Sergeev, MG 1997, Ecology of Anthropogenic Landscapes. Novosibirsk: Novosibirsk State University Press, 150 p.
Tivo PF, Bytsko IG 1996, Heavy Metals and Ecology: Scientific Publication, Minsk: Unipol, 192 p.
Titov AF, Kaznina NM, Talanova VV 2014, Heavy Metals and Plants. Petrozavodsk: Karelian Research Center of the Russian Academy of Sciences, 194 p., ISBN 978-5-9274-0641-8
Vazhenina, EA, Fateeva, NM 1987, Adverse impact of dust-gas emissions of metallurgical enterprises. Chemistry in Agriculture, Moscow, 2: 54-56.
Zyrin, NG 1986, Heavy metals in soils and plants in the area of a copper smelter. Moscow, 81 p. | ||
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