Departamento de Cristalografía, Mineralogía y Química Agrícola. Universidad de Sevilla. Ctra. de Utrera, km. 1. 4013, Sevilla, Spain.
Talanta. 2011 May 15;84(3):853-8. doi: 10.1016/j.talanta.2011.02.010. Epub 2011 Feb 19.
In this paper we studied the As content in natural contaminated soils, classified as Dystric Leptosol, Chromic Luvisol, Eutric Cambisol and Mollic Leptosol. In soil samples, sieved (<2mm), total As was determined by XRF and chemical speciation by sequential extraction. As-bearing minerals were concentrated from fine sand fraction of soil (200-20 μm) using heavy liquid. In this fraction, mineralogical speciation was studied by X-ray microfluorescence, XRD with Göbbel mirror and SEM-BEI-EDX. Total As contents ranging from 61.00 to 131.00 mg kg(-1). The results of the sequential extraction showed that As was, mainly, in the residual fraction (52.51-98.76 mg kg(-1)) and in the fraction bound to iron oxyhydroxides (0-36.5 mg kg(-1)). Mapping of As with X-ray microfluorescence show strongly relationship between Fe and As. Iron (III) oxyhydroxides (FeOHs) (lepidocrocite and goethite), scorodite, angelellite, schultenite and dussertite were identified by XRD analysis as most likely mineral phases. The contents of As, Fe, Pb and Ba obtained with EDX-microprobe, confirmed the results of XRD. The results of sequential extraction and X-ray microfluorescence indicate that As is strongly bound to the soils because the identified As-bearing mineral phases are very stable at the pH conditions of studied soils. Consequently, a low mobility of As can be assumed in these soils.
本文研究了天然污染土壤中的砷含量,这些土壤分别被归类为贫瘠潜育土、富铁酸性土、淋溶富铁土和淡薄软土。在土壤样品中,通过 X 射线荧光(XRF)测定了经过筛分(<2mm)的总砷含量,并通过连续提取法进行了化学形态分析。含砷矿物从土壤细砂部分(200-20μm)用重液浓缩。在该部分中,通过 X 射线微荧光、带有 Göbbel 镜的 XRD 和 SEM-BEI-EDX 研究了矿物形态。总砷含量范围为 61.00 至 131.00mg/kg。连续提取的结果表明,砷主要存在于残渣(52.51-98.76mg/kg)和与铁氢氧化物结合的部分(0-36.5mg/kg)。X 射线微荧光对砷的映射表明,铁与砷之间存在强烈的关系。铁(III)氢氧化物(针铁矿和水铁矿)、硫砷铁矿、纤铁矿、硫砷铅矿和钡砷矿被 XRD 分析鉴定为最有可能的矿物相。EDX 微探针获得的砷、铁、铅和钡含量,证实了 XRD 的结果。连续提取和 X 射线微荧光的结果表明,由于所鉴定的含砷矿物相在研究土壤的 pH 条件下非常稳定,因此砷与土壤结合紧密。因此,可以假设这些土壤中砷的迁移性较低。
