Examination of the accuracy of SHRIMP U–Pb geochronology based on samples dated by both SHRIMP and CA-TIMS

IF 2.7 Q2 GEOCHEMISTRY & GEOPHYSICS
C.W. Magee Jr, S. Bodorkos, C. Lewis, J. Crowley, C. Wall, R. Friedman
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引用次数: 0

Abstract

Abstract. Estimations of the reproducibility of U–Pb ages from SHRIMP (Sensitive High-Resolution Ion MicroProbe) instruments are based on data from studies that are nearly 2 decades old. Since that time, refinement of analytical procedures and operational improvements have reduced the historically identified uncertainties of SHRIMP U–Pb analysis. This paper investigates 36 SHRIMP thermal ionisation mass spectrometry (TIMS) double-dated “real-world” geologic samples from a variety of igneous rock types to better understand both geological and analytical sources of disagreement between the two dating methods. Geoscience Australia's (GA) use of high-precision chemical abrasion thermal ionisation mass spectrometry (CA-TIMS) for chronostratigraphy in Australian sedimentary basins has produced a substantial selection of precisely dated zircons, which we can use to cross-correlate the SHRIMP and CA-TIMS ages throughout the Phanerozoic. A total of 33 of the 36 ages were reported with external SHRIMP uncertainties less than 1 % (95 % confidence). Six of eight cases where the CA-TIMS age was outside the SHRIMP uncertainty envelope were in samples where the 95 % confidence interval of the reported SHRIMP age was below 0.66 % uncertainty, suggesting that SHRIMP analyses of untreated zircon with smaller uncertainties are probably overoptimistic. The mean age offset between SHRIMP and TIMS ages is 0.095 %, but the distribution appears bimodal. Geological explanations for age discrepancies between SHRIMP and CA-TIMS are suggested by considering intrusive and extrusive age results separately. All but one sample where the SHRIMP age is more than 0.25 % older are volcanic. This offset could be explained by the better single-grain age resolution of TIMS, allowing identification and exclusion of antecrysts from the eruptive population, while SHRIMP does not have a sufficient single-grain precision to deconvolve these populations – leading to an apparent older SHRIMP age. In contrast, SHRIMP ages from plutonic rocks – particularly plutonic rocks from the early Paleozoic – are typically younger than the CA-TIMS ages from the same samples, most likely reflecting Pb loss from non-chemically abraded SHRIMP zircons, while chemical abrasion of zircons prior to TIMS analysis destroyed or corrected these areas of Pb loss.
基于SHRIMP和CA-TIMS测年样品的SHRIMP U-Pb年代学准确性检验
摘要虾(敏感高分辨率离子微探针)仪器对U-Pb年龄的再现性的估计是基于近20年前的研究数据。从那时起,分析程序的改进和操作的改进减少了历史上确定的虾u -分析的不确定性。本文研究了来自各种火成岩类型的36个SHRIMP热电离质谱(TIMS)双重定年的“真实世界”地质样品,以更好地了解两种定年方法之间差异的地质和分析来源。澳大利亚地球科学公司(GA)使用高精度化学磨损热电离质谱(CA-TIMS)对澳大利亚沉积盆地的年代地层学进行了研究,得出了大量精确定年的锆石,我们可以用这些锆石来交叉关联整个显生宙的SHRIMP和CA-TIMS年龄。36例患者中有33例的外部SHRIMP不确定性小于1%(95%置信度)。在8个CA-TIMS年龄超出SHRIMP不确定范围的案例中,有6个是在报告的SHRIMP年龄的95%置信区间低于0.66%不确定度的样本中,这表明具有较小不确定度的未经处理的锆石的SHRIMP分析可能过于乐观。SHRIMP年龄与TIMS年龄的平均差值为0.095%,但呈双峰分布。对SHRIMP和CA-TIMS年龄差异的地质解释分别考虑了侵入年龄和挤压年龄。除了一个样本外,SHRIMP年龄超过0.25%的样本都是火山形成的。这种偏移可以用TIMS更好的单粒年龄分辨率来解释,它可以识别和排除喷发种群中的反结晶,而SHRIMP没有足够的单粒精度来反卷积这些种群,从而导致SHRIMP年龄明显更老。相比之下,来自深成岩的SHRIMP年龄-特别是来自早古生代的深成岩-通常比来自相同样品的CA-TIMS年龄更年轻,这很可能反映了非化学磨损SHRIMP锆石的Pb损失,而在TIMS分析之前锆石的化学磨损破坏或纠正了这些Pb损失区域。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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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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