Image Analysis for Spectroscopic Elemental Dot Maps: P, Al, and Ca Associations in Water Treatment Residuals as a Case Study

I. Zohar, P. Haruzi
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引用次数: 0

Abstract

The associations of elements upon a heterogeneous surface may control nutrients or pollutants sorption and release, having agricultural and environmental implications. This chemical behavior can be elucidated by spatial spectroscopy, followed by image analysis. The purpose of this paper is to present a working procedure for image analysis using the free program ImageJ that can be applied for dot maps of three or more elements produced by solid-state spectroscopy. Detailed step-by-step instructions lead to visual and quantitative information regarding elements associations. The working procedure was demonstrated for P, Al and Ca dot maps produced by scanning electron microscopy energy dispersive spectroscopy (SEM-EDS) for surfaces of Al-based water treatment residuals (Al-WTRs), a by-product of drinking water pretreatment with alum coagulant. Al-WTR was reused to adsorb the macro-nutrient P from polluted soil leach and dairy wastewater (WW). Surficial P onto Al-WTR, SL-Al/O-WTR, and WW-Al/O-WTR (0.56, 0.93, and 2.15%, respectively) displayed sorption dynamics, mostly with Al and Ca. Quantification of the spatial proportions of individual elements and their associations indicated P-Al pool > P-Ca pool (45–24% and 17–7%, respectively). Upon introducing P-rich dairy wastewater, the behavior of P sorption by Al and Ca changed and became more clustered. A ternary phase of P-Al-Ca covered 38% of the area with signal, compared to 4.3 and 4.6% of the area in Al-WTR and SL-Al-WTR, where it was limited to particles edges only. Thus, the presented protocol may promote employing image analysis for geochemical applications, elucidating chemical behavior and affinities. Advantages and pitfalls are discussed.
光谱元素点图的图像分析:以水处理残渣中的P、Al和Ca缔合物为例
非均质表面上元素的结合可能控制养分或污染物的吸收和释放,具有农业和环境影响。这种化学行为可以通过空间光谱分析和图像分析来阐明。本文的目的是提出一个使用免费程序ImageJ进行图像分析的工作程序,该程序可以应用于固态光谱学产生的三个或更多元素的点图。详细的分步说明提供了有关元素关联的可视化和定量信息。用扫描电子显微镜能谱(SEM-EDS)对饮用水用明矾混凝剂预处理的副产物Al基水处理残渣(Al- wtrs)表面生成P、Al和Ca点图。利用Al-WTR吸附污染土壤浸出液和乳业废水中的大量营养元素P。表层P对Al- wtr、SL-Al/O-WTR和WW-Al/O-WTR的吸附分别为0.56、0.93和2.15%,主要吸附Al和Ca。定量分析各元素的空间比例及其关联表明,P-Al池> P-Ca池分别为45-24%和17-7%。引入富磷乳废水后,Al和Ca对磷的吸附行为发生了变化,变得更加聚集。P-Al-Ca三元相的信号覆盖面积为38%,而Al-WTR和SL-Al-WTR的信号覆盖面积分别为4.3%和4.6%,仅局限于颗粒边缘。因此,所提出的协议可能促进将图像分析用于地球化学应用,阐明化学行为和亲和力。讨论了其优点和缺点。
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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