Background Tests and Improvements at LAC-UFF Aiming at Sample Size Reduction in Foraminifera 14C Measurement

Q3 Social Sciences Human Geographies Pub Date : 2023-09-01 DOI:10.3390/geographies3030030
B. Netto, K. Macario, Ayrton Assumpção, Maikel Diaz, Stewart J. Fallon, Xiaomei Xu, I. Chanca, Carla Carvalho
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Abstract

Foraminifera are widely used in paleoclimatic and paleoceanographic studies, providing information about past ocean conditions. However, in order to use these tracers, it is essential to obtain an accurate chronology. Radiocarbon has proven to be a powerful tool in developing robust chronologies. Sample sizes of a few milligrams of carbonate material are needed for precise radiocarbon determination using accelerator mass spectrometry (AMS). In the specific case of paleoceanographic and paleoenvironmental studies, Foraminifera microfossils are the most important indicator of oceanic conditions. However, for establishing the chronology of deposition, sample availability is often limited. In AMS facilities using solid ion sources, such as the Radiocarbon Laboratory of the Universidade Federal Fluminense (LAC-UFF), in Brazil, CO2 samples need to be converted to graphite after physical and chemical pre-treatment to remove contamination. Reducing the sample sizes increases the relative contribution of contamination and can favor increased background levels. In this work, we tested different amounts of 14C-free carbonate samples as a means to evaluate the pattern of contamination. For the sealed tube Zn/TiH2 graphitization method, we tested prebaking the graphitization tubes and compared storage procedures. As a result, the background for regular-sized samples was decreased, and accurate measurement of carbonate samples containing ca. 0.5 mg C could be performed. Prebaked graphitization tubes can safely be stored in desiccator cabinets for up to 4 weeks. Foraminifera samples with mass as low as 1 mg (ca. 0.1 mg C) can now be measured at the LAC-UFF AMS facility, provided that C contamination can be estimated and corrected. The developments presented in this work allowed for the study of species-specific Foraminifera and other small-sized carbonate samples.
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针对有孔虫14C测量减少样本量的LAC-UFF的背景测试和改进
有孔虫广泛应用于古气候和古海洋学研究,提供了有关过去海洋状况的信息。然而,为了使用这些示踪剂,必须获得准确的年表。放射性碳已被证明是开发可靠年表的有力工具。使用加速器质谱法(AMS)精确测定放射性碳需要几毫克碳酸盐物质的样品大小。在古海洋学和古环境研究中,有孔虫微化石是海洋条件最重要的指示物。然而,为了确定沉积的年表,样品的可用性通常是有限的。在使用固体离子源的AMS设施中,例如巴西联邦弗鲁米ense大学放射性碳实验室(LAC-UFF),二氧化碳样品需要经过物理和化学预处理以去除污染后转化为石墨。减少样本量增加了污染的相对贡献,有利于提高背景水平。在这项工作中,我们测试了不同数量的不含14c的碳酸盐样品,作为评估污染模式的一种手段。对于密封管Zn/TiH2石墨化方法,我们测试了预焙石墨化管,并比较了存储方法。因此,降低了常规尺寸样品的背景,可以对含有约0.5 mg C的碳酸盐样品进行精确测量。预焙石墨化管可以安全地储存在干燥柜长达4周。质量低至1mg(约0.1 mg C)的有孔虫样品现在可以在LAC-UFF AMS设备上测量,前提是可以估计和纠正C污染。这项工作的发展为物种特异性有孔虫和其他小型碳酸盐样品的研究提供了条件。
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来源期刊
Human Geographies
Human Geographies Social Sciences-Geography, Planning and Development
CiteScore
1.10
自引率
0.00%
发文量
7
审稿时长
8 weeks
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