Erosion rates in a wet, temperate climate derived from rock luminescence techniques

IF 2.7 Q2 GEOCHEMISTRY & GEOPHYSICS Geochronology Pub Date : 2021-10-29 DOI:10.5194/gchron-3-525-2021
R. Smedley, D. Small, Richard S. Jones, S. Brough, J. Bradley, Geraint T. H. Jenkins
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引用次数: 3

Abstract

Abstract. A new luminescence erosion meter has huge potential for inferring erosion rates on sub-millennial scales for both steady and transient states of erosion, which is not currently possible with any existing techniques capable of measuring erosion. This study applies new rock luminescence techniques to a well-constrained scenario provided by the Beinn Alligin rock avalanche, NW Scotland. Boulders in this deposit are lithologically consistent and have known cosmogenic nuclide ages and independently derived Holocene erosion rates. We find that luminescence-derived exposure ages for the Beinn Alligin rock avalanche were an order of magnitude younger than existing cosmogenic nuclide exposure ages, suggestive of high erosion rates (as supported by field evidence of quartz grain protrusions on the rock surfaces). Erosion rates determined by luminescence were consistent with independently derived rates measured from boulder edge roundness. Inversion modelling indicates a transient state of erosion reflecting the stochastic nature of erosional processes over the last ∼4.5 kyr in the wet, temperate climate of NW Scotland. Erosion was likely modulated by known fluctuations in moisture availability and to a lesser extent temperature, which controlled the extent of chemical weathering of these highly lithified rocks prior to erosion. The use of a multi-elevated temperature, post-infra-red, infra-red stimulated luminescence (MET-pIRIR) protocol (50, 150 and 225 ∘C) was advantageous as it identified samples with complexities that would not have been observed using only the standard infra-red stimulated luminescence (IRSL) signal measured at 50 ∘C, such as that introduced by within-sample variability (e.g. surficial coatings). This study demonstrates that the luminescence erosion meter can infer accurate erosion rates on sub-millennial scales and identify transient states of erosion (i.e. stochastic processes) in agreement with independently derived erosion rates for the same deposit.
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由岩石发光技术得出的湿润温带气候下的侵蚀速率
摘要一种新的发光侵蚀计在推断亚千年尺度的稳定和瞬时侵蚀状态的侵蚀速率方面具有巨大的潜力,这是目前任何现有的能够测量侵蚀的技术都无法做到的。这项研究将新的岩石发光技术应用于苏格兰西北部的Beinn短吻鳄岩石雪崩提供的良好约束场景。该矿床中的巨石岩性一致,具有已知的宇宙成因核素年龄和独立派生的全新世侵蚀速率。我们发现,Beinn短剑岩崩的发光暴露年龄比现有的宇宙核素暴露年龄年轻一个数量级,这表明岩石表面的石英颗粒突出物具有较高的侵蚀速率。由发光测定的侵蚀速率与由巨石边缘圆度测定的独立得出的速率一致。反演模型表明,在过去的~ 4.5 kyr里,在苏格兰西北部潮湿、温和的气候中,侵蚀过程的随机性质反映了短暂的侵蚀状态。侵蚀可能受到已知的水分可用性波动的调节,在较小程度上也受到温度的调节,温度控制了这些高度岩化的岩石在侵蚀之前的化学风化程度。使用多重高温、红外后、红外激发发光法(MET-pIRIR)(50、150和225°C)是有利的,因为它能识别出在50°C时仅使用标准红外激发发光(IRSL)信号无法观察到的复杂样品,例如由样品内变异(如表面涂层)引起的复杂样品。该研究表明,发光侵蚀计可以在亚千年尺度上推断出准确的侵蚀速率,并根据同一沉积物独立导出的侵蚀速率识别出瞬时侵蚀状态(即随机过程)。
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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
期刊最新文献
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