Towards in situ U–Pb dating of dolomite

IF 2.7 Q2 GEOCHEMISTRY & GEOPHYSICS Geochronology Pub Date : 2021-05-26 DOI:10.5194/GCHRON-3-337-2021
Bar Elisha, P. Nuriel, A. Kylander‐Clark, R. Weinberger
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引用次数: 13

Abstract

Abstract. Recent U–Pb dating by laser ablation inductively coupled plasma mass spectrometry (LA-ICP-MS) has demonstrated that reasonable precision (3 %–10 %, 2σ) can be achieved for high-resolution dating of texturally distinct calcite phases. Absolute dating of dolomite, for which biostratigraphy and traditional dating techniques are very limited, remains challenging, although it may resolve many fundamental questions related to the timing of mineral-rock formation by syngenetic, diagenesis, hydrothermal, and epigenetic processes. In this study we explore the possibility of dating dolomitic rocks via recent LA-ICP-MS dating techniques developed for calcite. The in situ U–Pb dating was tested on a range of dolomitic rocks of various origins from the Cambrian to Pliocene age – all of which are from well-constrained stratigraphic sections in Israel. We present imaging and chemical characterization techniques that provide useful information on interpreting the resulting U–Pb ages and discuss the complexity of in situ dolomite dating in terms of textural features that may affect the results. Textural examinations indicate zonation and mixing of different phases at the sub-millimeter scale (< 1 µm), and thus Tera–Wasserburg ages represent mixed dates of early diagenesis and some later epigenetic dolomitization event(s). We conclude that age mixing at the sub-millimeter scale is a major challenge in dolomite dating that needs to be further studied and note the importance of matrix-matched standards for reducing uncertainties of the dated material.
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白云岩的原位U-Pb定年研究
摘要最近用激光烧蚀电感耦合等离子体质谱法(LA-ICP-MS)测定U-Pb年龄表明,对于结构不同的方解石相,可以达到合理的精度(3% - 10%,2σ)。白云岩的绝对定年仍然具有挑战性,因为生物地层学和传统的定年技术非常有限,尽管它可以解决许多与矿物-岩石形成时间有关的基本问题,包括同生、成岩、热液和表观成因过程。在这项研究中,我们探索了用方解石LA-ICP-MS测年技术测定白云岩年代的可能性。原位U-Pb测年是在从寒武纪到上新世的一系列不同起源的白云岩上进行的,所有这些岩石都来自以色列的严格限制的地层剖面。我们提出了成像和化学表征技术,这些技术为解释所得的au - pb年龄提供了有用的信息,并从可能影响结果的结构特征方面讨论了原位白云岩定年的复杂性。在亚毫米尺度(< 1µm)上,结构检查显示不同阶段的分带和混合,因此,terra - wasserburg年龄代表了早期成岩作用和一些后期表观成因白云化事件的混合日期。我们得出结论,亚毫米尺度的年龄混合是白云石定年的主要挑战,需要进一步研究,并注意基质匹配标准对于减少定年材料的不确定性的重要性。
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来源期刊
Geochronology
Geochronology Earth and Planetary Sciences-Paleontology
CiteScore
6.60
自引率
0.00%
发文量
35
审稿时长
19 weeks
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