Validation of X-Ray Fluorescence Spectrometer Technique to Determine Heavy Metal Concentrations in Soil Samples

J. Briffa, R. Blundell, E. Sinagra, Joseph Grech
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引用次数: 1

Abstract

Heavy metal soil pollution had increased in recent years and this has produced adverse effects to human wellbeing’s health by being up taken in the food chain. A potential threat of heavy metal pollution was suspected at the Government Farm in Għammieri. This is due to heavy traffic and fireworks causing concern to the farmers who cultivate fruit and vegetables in these fields. Soil sampling with an instrument that can give rapid results was needed to analyse the data and give the real-time in-situ mapping of heavy metal pollution in the soil. Comparison between an X-Ray Fluorescent (XRF) spectrometer and an Inductively Coupled Plasma –Mass Spectrometer (ICP-MS), both of which are conventional analytical techniques, was performed to measure the heavy metals in the soil by using laboratory and field work. This was performed to make sure that the XRF that was being used, would give accurate results before testing larger sample size. The XRF used was situated at the Department of Chemistry, at the University of Malta, whilst the ICP-MS was situated in Germany, at an accredited laboratory. Five samples were collected from around the whole field, where each sample was split into 2 identical batches.
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x射线荧光光谱仪技术测定土壤样品中重金属浓度的验证
近年来,土壤重金属污染有所增加,在食物链中被吸收,对人类健康产生了不利影响。位于Għammieri的政府农场怀疑存在重金属污染的潜在威胁。这是由于繁忙的交通和烟花引起了在这些田地里种植水果和蔬菜的农民的担忧。需要使用一种能够快速得出结果的仪器进行土壤采样,以分析数据并实时绘制土壤重金属污染的现场地图。比较了传统的分析技术——x射线荧光光谱仪(XRF)和电感耦合等离子体质谱仪(ICP-MS)在土壤重金属测量中的应用。这样做是为了确保所使用的XRF在测试更大的样本量之前能给出准确的结果。所使用的XRF位于马耳他大学化学系,而ICP-MS位于德国的一个认可实验室。从整个田间采集5个样本,每个样本分成2个相同的批次。
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