Early-warning ecological risk assessments of multi-element pollution in the surface soil of karst basins in southwest China based on the delayed geochemical hazard model

IF 12.2 1区环境科学与生态学 Q1 ENGINEERING, ENVIRONMENTAL

Journal of Hazardous Materials Pub Date : 2024-12-18 DOI:10.1016/j.jhazmat.2024.136935

Jie Luo, Jie Li, Siyao Feng, Xinying Ke

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Abstract

Soil potentially toxic element (PTE) pollution, especially in karst regions, poses significant ecological risks due to the unique geological features and environmental conditions. This study focuses on the delayed geochemical hazard (DGH) model to assess the progressive risks of cadmium (Cd) and lead (Pb) contamination in the surface soils of karst regions in southwestern China. The study found that Pb and Cd pollution in karst areas presents ecological risks, with the region's high porosity and alkaline soils facilitating the transformation of pollutants from stable to mobile forms. The analysis revealed that Pb underwent multidirectional transformations, with 28.3% of the soil showing a transition from carbonate-bound Pb (Pb_C) to exchangeable Pb (Pb_E). However, Cd primarily transformed into carbonate-bound (Cd_C) and oxide-bound (Cd_O) forms, with 3.77% of samples exhibiting the highest outbreak probability for the pathway from sum Cd (Cd_E+C+F+O+R) to Cd_C+O. In Pb-Cd co-contamination, Cd predominates, altering risk pathways by triggering transformations at iron-manganese oxide and organic matter binding sites, thereby increasing pollutant mobility. The most prominent combined risk pathway in Pb-Cd contamination was the shift from M_E+O to M_C (outbreak probability: 5.66%), indicating enhanced mobility of both PTEs. New pathways also emerged, such as the transition from M_E+C+F+O to M_E+C, suggesting that Pb and Cd interactions accelerate the risk evolution, favoring highly mobile forms. These findings highlight the importance of not only considering total PTE concentrations but also their speciation and potential transformations in risk assessments. The DGH model effectively predicts evolutionary risks in co-contaminated karst areas, providing insights for early warning of multi-element pollution, particularly in vulnerable karst landscapes.

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由于独特的地质特征和环境条件，土壤潜在有毒元素（PTE）污染，尤其是岩溶地区的土壤潜在有毒元素（PTE）污染，对生态环境构成了巨大的风险。本研究主要采用延迟地球化学危害（DGH）模型来评估中国西南岩溶地区表层土壤镉（Cd）和铅（Pb）污染的渐进风险。研究发现，岩溶地区的铅和镉污染具有生态风险，该地区的高孔隙率和碱性土壤有利于污染物从稳定形式向移动形式转化。分析表明，铅发生了多向转化，28.3%的土壤从碳酸盐结合型铅（PbC）转化为可交换型铅（PbE）。然而，镉主要转化为碳酸盐结合态（CdC）和氧化物结合态（CdO），3.77%的样本显示出从总镉 (CdE+C+F+O+R) 到 CdC+O 的最高爆发概率。在铅镉联合污染中，镉占主导地位，通过引发铁锰氧化物和有机物结合位点的转化，从而增加污染物的流动性，改变风险途径。铅-镉污染中最突出的综合风险途径是从 ME+O 到 MC 的转变（爆发概率：5.66%），表明这两种 PTE 的流动性都增强了。此外还出现了新的途径，如从 ME+C+F+O 到 ME+C，这表明铅和镉的相互作用加速了风险演变，有利于高流动性形式。这些发现突出表明，在风险评估中不仅要考虑 PTE 的总浓度，还要考虑其形态和潜在的转化。DGH 模型能有效预测共污染岩溶地区的演化风险，为多元素污染预警，尤其是脆弱岩溶地貌的多元素污染预警提供启示。

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来源期刊

Journal of Hazardous Materials 工程技术-工程：环境

CiteScore

25.40

自引率

5.90%

发文量

3059

审稿时长

58 days

期刊介绍： The Journal of Hazardous Materials serves as a global platform for promoting cutting-edge research in the field of Environmental Science and Engineering. Our publication features a wide range of articles, including full-length research papers, review articles, and perspectives, with the aim of enhancing our understanding of the dangers and risks associated with various materials concerning public health and the environment. It is important to note that the term "environmental contaminants" refers specifically to substances that pose hazardous effects through contamination, while excluding those that do not have such impacts on the environment or human health. Moreover, we emphasize the distinction between wastes and hazardous materials in order to provide further clarity on the scope of the journal. We have a keen interest in exploring specific compounds and microbial agents that have adverse effects on the environment.