Cement industry contributions to soil heavy metals accumulation: spatial patterns, seasonal trends, and geochemical controls

IF 3.4 4区环境科学与生态学 Q2 ENVIRONMENTAL SCIENCES

International Journal of Environmental Science and Technology Pub Date : 2025-07-19 DOI:10.1007/s13762-025-06633-9

E. Javanmardi, R. Berton

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Abstract

This study examines the spatial and temporal patterns of heavy metals accumulation in soils located downwind of a cement factory in central Iran, focusing on their attenuation trends, geochemical behavior, and environmental influences. A total of 1,728 soil samples were collected over four seasons at three radial distances (1.0, 2.0, and 3.0 km) and analyzed for lead (Pb), Chromium (Cr), Copper (Cu), Zinc (Zn), Manganese (Mn), Cadmium (Cd), Arsenic (As), Nickel (Ni), and Antimony (Sb) across two depth intervals (0–15 cm and 15–30 cm). Heavy metals concentrations generally declined with distance from the factory, confirming its role as a primary pollution source, with Pb and Ni showing the strongest attenuation trends. Pb concentrations in deeper soil decreased by 54% and Ni by 37% between 1.0 km and 3.0 km. Seasonal variations were evident, with summer showing the greatest reductions, such as a 28% decline in Cd in surface soil at 3.0 km compared to 1.0 km, likely due to increased volatilization and reduced atmospheric washout under hot, dry conditions. Hotspot analysis revealed that Pb, As, and Mn accumulated heavily within a 1.0 km radius of the factory, while Cu, Zn, and Sb extended up to 3.0 km, influenced by prevailing wind patterns. Soil pH strongly governs heavy metals mobility; Cr becomes more mobile when pH drops below 6.5, whereas Cd is retained most effectively at pH values above 7.0. These patterns indicate the dominance of adsorption and precipitation processes under near-neutral to alkaline conditions. These findings emphasize the role of cement industry emissions in shaping the geochemical characteristics of surrounding soils and highlight the importance of seasonal and geochemical controls in understanding heavy metals fate and transport. Beyond this case study, the integrated geospatial and environmental approach used here offers a transferable framework for assessing heavy metal contamination in other industrial areas, particularly in arid and semi-arid climates where dry deposition dominates.

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水泥工业对土壤重金属积累的贡献：空间格局、季节趋势和地球化学控制

本研究考察了伊朗中部一家水泥厂下风土壤中重金属积累的时空格局，重点研究了它们的衰减趋势、地球化学行为和环境影响。在四个季节中，在三个径向距离（1.0、2.0和3.0 km）处采集了1728个土壤样品，并在0-15 cm和15-30 cm两个深度区间（0-15 cm）上分析了铅（Pb）、铬（Cr）、铜（Cu）、锌（Zn）、锰（Mn）、镉（Cd）、砷（As）、镍（Ni）和锑（Sb）。随着距离工厂的远近，重金属浓度普遍下降，证实了其作为主要污染源的作用，其中Pb和Ni的衰减趋势最强。在1.0 km ~ 3.0 km范围内，较深层土壤中Pb浓度下降54%，Ni浓度下降37%。季节变化是明显的，夏季表现出最大的减少，例如在3.0 km处表层土壤中的Cd比1.0 km下降了28%，这可能是由于在炎热干燥的条件下挥发增加和大气冲刷减少。热点分析显示，Pb、As、Mn在厂区半径1.0 km范围内富集，而Cu、Zn、Sb受盛行风模式的影响，分布范围可达3.0 km。土壤pH值对重金属迁移有很强的控制作用；当pH值低于6.5时，Cr的流动性更强，而当pH值高于7.0时，Cd的保留效果最好。这些模式表明，在近中性至碱性条件下，吸附和沉淀过程占主导地位。这些发现强调了水泥工业排放在塑造周围土壤地球化学特征方面的作用，并强调了季节和地球化学控制在了解重金属命运和运输方面的重要性。除了本案例研究之外，本文采用的地理空间和环境综合方法为评估其他工业区的重金属污染提供了一个可转移的框架，特别是在干沉积占主导地位的干旱和半干旱气候地区。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

International Journal of Environmental Science and Technology 环境科学-环境科学

CiteScore

5.60

自引率

6.50%

发文量

806

审稿时长

10.8 months

期刊介绍： International Journal of Environmental Science and Technology (IJEST) is an international scholarly refereed research journal which aims to promote the theory and practice of environmental science and technology, innovation, engineering and management. A broad outline of the journal''s scope includes: peer reviewed original research articles, case and technical reports, reviews and analyses papers, short communications and notes to the editor, in interdisciplinary information on the practice and status of research in environmental science and technology, both natural and man made. The main aspects of research areas include, but are not exclusive to; environmental chemistry and biology, environments pollution control and abatement technology, transport and fate of pollutants in the environment, concentrations and dispersion of wastes in air, water, and soil, point and non-point sources pollution, heavy metals and organic compounds in the environment, atmospheric pollutants and trace gases, solid and hazardous waste management; soil biodegradation and bioremediation of contaminated sites; environmental impact assessment, industrial ecology, ecological and human risk assessment; improved energy management and auditing efficiency and environmental standards and criteria.