Cadmium isotopes analysis of environmental samples with high organic matter by dry ashing method under wet plasma conditions†

IF 3.1 2区 化学 Q2 CHEMISTRY, ANALYTICAL Journal of Analytical Atomic Spectrometry Pub Date : 2024-07-14 DOI:10.1039/D4JA00083H
Xian Wu, Zeyu Wang, Guangyi Sun, Yu Lin, Xuewu Fu, Yang Tang and Xinbin Feng
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Abstract

Isotope data of key pollutants are needed for source apportionment analysis in natural ecosystems. Isotope data for cadmium (Cd), a rare and dispersed but toxic element, are very limited mainly due to its low contents in the natural environment. In this study, for samples with low Cd content but high organic matter content, a dry ashing pre-treatment method was proposed to effectively enrich Cd to meet the requirements of its isotope analysis (Cd content > 20 ng). This method was applied to soils, sediments, biological tissues, and coal, with a maximum digestion weight of 1.67 g or more. With the assistance of quartz microfiber filter membranes during dry ashing, good Cd recovery (91.6–108.0%) and significant removal of organic matter were achieved. Mass bias was corrected by combining the silver external standard (Ag-doping) method with the sample-standard-bracketing (SSB) method, and Cd isotope measurements were performed under wet plasma conditions (with an accuracy of 0.060‰). Cd isotopic compositions obtained by the dry ashing method were compared with those obtained by the high-pressure bomb digestion method, and the differences ranged from −0.056 to 0.076‰, indicating that the dry ashing with wrapped membranes method did not cause any fractionation of Cd during the sample pre-treatment process. Meanwhile, the tolerance of tin (Sn) and zinc (Zn) elements provided a significant advantage under wet plasma conditions over dry plasma conditions without reducing the tolerance of molybdenum (Mo) and zirconium (Zr). The method developed in this study should enhance the application of Cd isotopes in investigating Cd cycling in primary ecosystems and organisms.

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在湿等离子体条件下采用干灰化法对有机物含量高的环境样品进行镉同位素分析
自然生态系统中的污染源分配分析需要主要污染物的同位素数据。镉(Cd)是一种稀有、分散但有毒的元素,其同位素数据非常有限,这主要是由于镉在自然环境中的含量较低。本研究针对镉含量低但有机质含量高的样本,提出了一种干灰化预处理方法,以有效富集镉,满足其同位素分析的要求(镉含量为 20 毫微克)。该方法适用于最大消化重量为 1.67 克或以上的土壤、沉积物、生物组织和煤炭。在干灰化过程中,在石英微纤维滤膜的辅助下,实现了良好的镉回收率(91.6-108.0%)和有机物的显著去除。质量偏差通过银外标法(Ag-doping)和样品-标准-配准法(SSB)进行校正,镉同位素测量在湿等离子条件下进行(精度为 0.060‰)。将干灰化法得到的镉同位素组成与高压炸弹消解法得到的镉同位素组成进行比较,两者的差异在-0.056 至 0.076‰之间,表明包裹膜干灰化法在样品预处理过程中没有引起镉的分馏。同时,在湿等离子体条件下,锡(Sn)和锌(Zn)元素的耐受性比干等离子体条件下有明显优势,而钼(Mo)和锆(Zr)的耐受性并没有降低。本研究中开发的方法可提高镉同位素在研究原生生态系统和生物体内镉循环中的应用。
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来源期刊
CiteScore
6.20
自引率
26.50%
发文量
228
审稿时长
1.7 months
期刊介绍: Innovative research on the fundamental theory and application of spectrometric techniques.
期刊最新文献
Quantitative sizing of microplastics up to 20 µm using ICP-TOFMS. Back cover High-precision Sm isotope analysis by thermal ionisation mass spectrometry for large meteorite samples (>1 g). Laser-induced breakdown spectroscopy (LIBS): calibration challenges, combination with other techniques, and spectral analysis using data science High-precision MC-ICP-MS measurements of Cd isotopes using a novel double spike method without Sn isobaric interference†
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