Xiaolan Zhao, Yoshio Takahashi, Wangsuo Wu, Changjie Liu and Qiaohui Fan
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引用次数: 1
Abstract
Previous research studies have confirmed that Zn and Cd are the most predominant heavy metals in the Baiyin district, Gansu province, China. Furthermore, the speciation of Zn and Cd is a key factor in controlling the mobility, bioavailability, and toxicity of metals in Zn/Cd co-contaminated soil. In this study, the speciation of Zn and Cd in different types of agricultural soils including the Yellow River irrigated soil (s3) and sewage irrigated soil (s1 and s2) was investigated and compared by a combination of sequential extraction, bulk X-ray absorption fine structure (XAFS), and micro-X-ray fluorescence (μ-XRF) techniques. The results of the speciation quantified by XAFS were in general agreement with those obtained by sequential extraction, and the combination of both approaches allowed a reliable description of Zn/Cd speciation in soil. The speciation of Zn in the s1 soil exposed around the smelter was similar to speciation of Zn in the sewage irrigated s2 soil. In both soils, Zn was predominantly present as Zn–Al LDH (31–36%), Zn adsorbed on calcite (37–47%), and primary minerals (14–18% sphalerite and 9% franklinite). In contrast, the proportions of organic Zn (23%) and Zn–Al LDH (53%) were significantly higher in the Yellow River irrigated s3 soil, while that of Zn-calcite (24%) was lower. This indicated that Zn in s3 was less mobile and bioavailable than that in s1 and s2 soils. The content of bioavailable Zn in s3 was much lower than the background value and Zn did not pose a threat to the Yellow River irrigated soil. In addition, Cd was strongly correlated with Zn content and exhibited a simpler speciation. Cd adsorbed on illite and calcite was found as the major species in both soil types, posing higher migration and toxicity to the environment. Our study reported the speciation and correlation of Zn/Cd in sierozem soil for the first time and provided a significant theoretical basis for remediation actions to minimize Zn/Cd risks.
以往的研究已经证实,锌和Cd是中国甘肃省白银区最主要的重金属。Zn和Cd的形态是控制Zn/Cd共污染土壤中金属的迁移率、生物有效性和毒性的关键因素。采用序贯提取、体x射线吸收精细结构(XAFS)和微x射线荧光(μ-XRF)技术,对黄河灌溉土(s1)和污水灌溉土(s1和s2)不同类型农业土壤中Zn和Cd的形态进行了研究和比较。XAFS定量分析的结果与序贯提取的结果基本一致,两种方法的结合可以可靠地描述土壤中Zn/Cd的形态。暴露在冶炼厂周围的s1土壤中Zn的形态与污水灌溉的s2土壤中Zn的形态相似。在两种土壤中,锌主要以Zn - al LDH形式存在(31-36%),锌吸附在方解石(37-47%)和原生矿物(14-18%闪锌矿和9%法兰克石)上。黄河灌溉s3土壤有机锌(23%)和锌铝LDH(53%)含量显著高于土壤,方解石锌(24%)含量较低。这表明s3土壤中Zn的流动性和生物可利用性低于s1和s2土壤。s3的生物有效态锌含量远低于背景值,对黄河灌区土壤不构成威胁。此外,Cd与Zn含量呈强相关,且形态较简单。两种土壤类型均以吸附在伊利石和方解石上的Cd为主,具有较高的迁移性和对环境的毒性。本研究首次报道了含锌土壤中Zn/Cd的形态和相关性,为降低Zn/Cd风险的修复行动提供了重要的理论依据。
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Environmental Science: Processes & Impacts publishes high quality papers in all areas of the environmental chemical sciences, including chemistry of the air, water, soil and sediment. We welcome studies on the environmental fate and effects of anthropogenic and naturally occurring contaminants, both chemical and microbiological, as well as related natural element cycling processes.
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