Constraining the geothermal parameters of in situ Rb–Sr dating on Proterozoic shales and their subsequent applications

IF 2.7 Q2 GEOCHEMISTRY & GEOPHYSICS
D. Subarkah, A. Nixon, Monica Jimenez, A. Collins, M. Blades, J. Farkas, Sarah E. Gilbert, S. Holford, A. Jarrett
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引用次数: 3

Abstract

Abstract. Recent developments in tandem laser ablation mass spectrometer technology have demonstrated the capacity for separating parent and daughter isotopes of the same mass online. As a result, beta-decay chronometers can now be applied to the geological archive in situ as opposed to through traditional whole-rock digestions. One novel application of this technique is the in situ Rb–Sr dating of Proterozoic shales that are dominated by authigenic clays such as illite. This method can provide a depositional window for shales by differentiating signatures of early diagenetic processes versus late-stage secondary alteration. However, the hydrothermal sensitivity of the Rb–Sr isotopic system across geological timescales in shale-hosted clay minerals is not well understood. As such, we dated the Mesoproterozoic Velkerri Formation from the Altree 2 well in the Beetaloo Sub-basin (greater McArthur Basin), northern Australia, using this approach. We then constrained the thermal history of these units using common hydrocarbon maturity indicators and modelled effects of contact heating due to the intrusion of the Derim Derim Dolerite. In situ Rb–Sr dating of mature, oil-prone shales in the diagenetic zone from the Velkerri Formation yielded ages of 1448 ± 81, 1434 ± 19, and 1421 ± 139 Ma. These results agree with previous Re–Os dating of the unit and are interpreted as recording the timing of an early diagenetic event soon after deposition. Conversely, overmature, gas-prone shales in the anchizone sourced from deeper within the borehole were dated at 1322 ± 93 and 1336 ± 40 Ma. These ages are younger than the expected depositional window for the Velkerri Formation. Instead, they are consistent with the age of the Derim Derim Dolerite mafic intrusion intersected 800 m below the Velkerri Formation. Thermal modelling suggests that a single intrusion of 75 m thickness would have been capable of producing a significant hydrothermal perturbation radiating from the sill top. The intrusion width proposed by this model is consistent with similar Derim Derim Dolerite sill thicknesses found elsewhere in the McArthur Basin. The extent of the hydrothermal aureole induced by this intrusion coincides with the window in which kerogen from the Velkerri Formation becomes overmature. As a result, the mafic intrusion intersected here is interpreted to have caused kerogen in these shales to enter the gas window, induced fluids that mobilize trace elements, and reset the Rb–Sr chronometer. Consequently, we propose that the Rb–Sr chronometer in shales may be sensitive to temperatures of ca. 120 ∘C in hydrothermal reactions but can withstand temperatures of more than 190 ∘C in thermal systems not dominated by fluids. Importantly, this study demonstrates a framework for the combined use of in situ Rb–Sr dating and kerogen maturation indicators to help reveal the thermochronological history of Proterozoic sedimentary basins. As such, this approach can be a powerful tool for identifying the hydrocarbon potential of source rocks in similar geological settings.
元古代页岩原位Rb-Sr定年地热参数约束及其后续应用
摘要串联激光烧蚀质谱技术的最新发展已经证明了在线分离相同质量的母同位素和子同位素的能力。因此,β衰变计时器现在可以应用于原位地质档案,而不是通过传统的整块岩石消化。该技术的一个新应用是元古代页岩的原位rb - sr定年,这些页岩主要由自生粘土(如硅质岩)组成。该方法通过区分早期成岩作用和晚期次生蚀变特征,为页岩提供了一个沉积窗口。然而,Rb-Srisotopic系统在页岩黏土矿物作用中跨地质时间尺度的热液敏感性尚不清楚。因此,我们使用这种方法对澳大利亚北部Beetaloo次盆地(greater McArthur盆地)的Altree 2井的中元古代VelkerriFormation进行了年代测定。然后,我们使用常见的烃成熟度指标限制了这些单元的热历史,并模拟了由于Derim - Derim白云岩侵入而产生的接触加热效应。Velkerri组成岩带成熟易油页岩的原位Rb-Sr测年结果显示,页岩年龄分别为1448±81、1434±19和1421±139 Ma。这些结果与以前的re - o测年结果一致,并被解释为记录了沉积后不久的早期成岩事件的时间。相反,来自井内深处的超成熟、易气页岩的年代为1322±93 Ma和1336±40 Ma。这些年龄比Velkerri组的预期沉积窗期要年轻。相反,它们与Velkerri组下方800米处相交的Derim - Derim白云岩基性侵入物的年龄一致。热模拟表明,一个厚度为75米的单一侵入将能够产生从岩顶辐射的显著热液扰动。该模型提出的侵入宽度与在麦克阿瑟盆地其他地方发现的相似的DerimDerim白云岩基层厚度一致。这种侵入引起的热液光晕的范围与Velkerri组干酪根过成熟的窗口期相吻合。因此,在这里相交的基性侵入被解释为导致这些页岩中的干酪根进入气窗,诱导流体将微量元素气化,并重置Rb-Sr计时器。因此,我们认为页岩中的Rb-Sr计时器可能对热液反应中约120°C的温度敏感,但在非流体主导的热系统中却能承受190°C以上的温度。重要的是,本研究展示了一个结合原位Rb-Sr测年和干酪根成熟指标的框架,有助于揭示元古代沉积盆地的热年代史。因此,这种方法可以成为在类似地质环境中识别烃源岩油气潜力的有力工具。
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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