High-precision low-level Cd isotopic analysis using MC-ICP-MS and its application to marine samples from Terra Nova Bay (Antarctica)†

IF 3.1 2区 化学 Q2 CHEMISTRY, ANALYTICAL Journal of Analytical Atomic Spectrometry Pub Date : 2024-09-12 DOI:10.1039/D4JA00214H
Maria Alessia Vecchio, Lana Abou-Zeid, Marco Grotti and Frank Vanhaecke
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Abstract

This study presents the development, validation and use of an approach for precise and accurate cadmium (Cd) isotopic analysis at low concentration levels using multi-collector inductively coupled plasma-mass spectrometry (MC-ICP-MS). The MC-ICP-MS unit used was equipped with a standard sample introduction system, thus using an ICP operated under wet plasma conditions, and Faraday cup amplifiers equipped with a 1013 Ω resistor. One-column anion exchange chromatography allowed isolation of Cd with 80–99% recovery and absence of an effect of potential on-column fractionation on the isotope ratio results was demonstrated. Use of both an internal (using Ag) and an external (measured in a sample-standard bracketing sequence) standard was relied on for correction of the bias introduced by instrumental mass discrimination. A long-term precision of 0.09‰ (2SD) for δ114/110Cd was achieved at a Cd concentration of 10 ng mL−1. The method developed was validated by analysing NIST SRM 2711a (Montana soil) and NRC TORT-3 (Lobster hepatopancreas) reference materials, yielding results consistent with literature values. Subsequently, the method was applied to two Antarctic marine organisms Adamussium colbecki and Trematomus bernacchii, collected during both the 1990s and 2020s, to investigate its potential for identifying changes in the biogeochemical cycle of Cd over time and reveal natural or anthropogenic sources. A preferential uptake of the lighter Cd isotopes in both species was observed, indicated by negative δ114/110Cd values ranging between −0.24 and −0.09‰. This finding is consistent with previous studies that have reported Cd fractionation during its uptake by marine organisms, with a preference for the lighter isotopes. No significant differences in δ114/110Cd values were observed between organs of the same species or between the same species collected in the different decades, suggesting minimal Cd isotope fractionation during internal transfer and consistent Cd sources over time. Comparison with literature data suggests that the Cd source in Antarctic biota may be predominantly of natural origin, with δ114/110Cd values indicating isotopically heavier Cd than that found in Cd-polluted areas. However, further Cd isotope ratio data from various Antarctic sample types are necessary to further evaluate the Cd sources in marine samples.

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利用 MC-ICP-MS 进行高精度低浓度镉同位素分析及其在 Terra Nova 海湾(南极洲)海洋样本中的应用
本研究介绍了一种利用多收集器电感耦合等离子体质谱仪(MC-ICP-MS)在低浓度水平下进行精确镉(Cd)同位素分析的方法的开发、验证和使用情况,该质谱仪配备了标准样品导入系统、在湿等离子体条件下运行的 ICP 以及配备 10^13 Ω 电阻器的法拉第杯放大器。单柱阴离子交换色谱法可分离出回收率≥ 80% 的镉,并证明柱上分馏对同位素比值结果没有潜在影响。使用内部标准(使用 Ag)和外部标准(在样品标准括弧序列中测量)对仪器质量分辨进行校正。在镉浓度为 10 纳克 mL-1 时,δ114/110Cd 的长期精度为 0.09‰(2SD)。通过分析 NIST 2711a(蒙大拿土壤)和 TORT-3(龙虾肝胰脏)参考材料,对所开发的方法进行了验证,结果与文献值一致。随后,将该方法应用于 20 世纪 90 年代和 2020 年代采集的两种南极海洋生物 Adamussium colbecki 和 Trematomus bernacchii,以研究镉的生物地球化学循环随时间推移可能发生的变化,并评估确定潜在自然或人为来源的潜力。观察发现,这两个物种都优先吸收较轻的镉同位素,δ114/110Cd 的负值在-0.24 和-0.09‰之间。这一发现与之前的研究结果一致,即海洋生物在吸收镉的过程中,会对轻同位素产生偏好。在同一物种的不同器官之间或在不同年代采集的同一物种之间,δ114/110Cd‰值没有明显差异,这表明镉在内部转移过程中的同位素分馏极小,且镉的来源随着时间的推移保持一致。与文献数据的比较表明,南极生物群的镉来源可能主要来自自然界,δ114/110Cd‰值表明镉的同位素含量高于镉污染地区的含量。不过,要进一步评估海洋样本中的镉来源,还需要从各种南极样本类型中获得更多的镉同位素比率数据。
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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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