High-Precision In Situ [sup.87]Sr/[sup.86]Sr Analyses through Microsampling on Solid Samples: Applications to Earth and Life Sciences

• Published in: Journal of analytical methods in chemistry Vol. 2018
• Main Authors: Salvo, Sara Di, Braschi, Eleonora, Casalini, Ma, Marchionni, Sara, Adani, Teresa, Ulivi, Maurizio, Orlando, Andrea, Tommasini, Simone, Avanzinelli, Riccardo, Mazza, Paul P.A, Conticelli, Sandro, Francalanci, Lorella
• Format: Journal Article
• Language: English
• Published: John Wiley & Sons, Inc 22.04.2018
• Subjects: Archaeology; Case studies; Forensic sciences; Volcanoes
• ISSN: 2090-8865
• DOI: 10.1155/2018/1292954

An analytical protocol for high-precision, in situ microscale isotopic investigations is presented here, which combines the use of a high-performing mechanical microsampling device and high-precision TIMS measurements on micro-Sr samples, allowing for excellent results both in accuracy and precision. The present paper is a detailed methodological description of the whole analytical procedure from sampling to elemental purification and Sr-isotope measurements. The method offers the potential to attain isotope data at the microscale on a wide range of solid materials with the use of minimally invasive sampling. In addition, we present three significant case studies for geological and life sciences, as examples of the various applications of microscale [sup.87]Sr/[sup.86]Sr isotope ratios, concerning (i) the pre-eruptive mechanisms triggering recent eruptions at Nisyros volcano (Greece), (ii) the dynamics involved with the initial magma ascent during Eyjafjallajokull volcano's (Iceland) 2010 eruption, which are usually related to the precursory signals of the eruption, and (iii) the environmental context of a MIS 3 cave bear, Ursus spelaeus. The studied cases show the robustness of the methods, which can be also be applied in other areas, such as cultural heritage, archaeology, petrology, and forensic sciences.