Constraining the aggradation mode of Pleistocene river deposits based on cosmogenic radionuclide depth profiling and numerical modelling

IF 2.7 Q2 GEOCHEMISTRY & GEOPHYSICS
Nathan Vandermaelen, K. Beerten, François Clapuyt, M. Christl, V. Vanacker
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引用次数: 1

Abstract

Abstract. Pleistocene braided-river deposits commonly represent long periods of non-deposition or erosion that are interrupted by rapid and short aggradation phases. When dating these sedimentary sequences with in situ-produced cosmic radionuclides (CRNs), simple concentration depth profiling approaches often fall short, as they assume that the alluvial sedimentary sequence has been deposited with a constant and rapid aggradation rate and been exposed to cosmic radiations afterwards. Numerical modelling of the evolution of CRNs in alluvial sequences permits one to account for aggradation, non-deposition and erosion phases and can simulate which scenarios of aggradation and preservation most likely represent the river dynamics. In this study, such a model was developed and applied to a Middle Pleistocene gravel sheet (Zutendaal gravels) exposed in NE Belgium. The model parameters were optimised to the observed 10Be and 26Al concentrations of 17 sediment samples taken over a depth interval of 7 m that constitutes the top of a gravel sheet up to 20 m thick. In the studied sedimentary sequence, (at least) three individual aggradation phases that were interrupted by non-deposition or erosion can be distinguished, each interruption lasting ∼ 40 kyr. The age for the onset of aggradation of the upper 7 m of the gravel sheet was further constrained to 654-62+218 ka. This age, within error limits, does not invalidate previous correlations of the gravel sheet with the Cromerian Glacial B and Marine Isotope Stage (MIS) 16. The deposition of the entire gravel sheet likely represents more than one climatic cycle and demonstrates the importance of accounting for the depositional modes of braided rivers when applying in situ cosmogenic radionuclide techniques.
基于宇宙成因放射性核素深度剖面和数值模拟的更新世河流沉积沉积模式约束
摘要更新世辫状河沉积通常表现为长时期的非沉积或侵蚀,被快速和短暂的沉积阶段所打断。当用现场产生的宇宙放射性核素(crn)测定这些沉积序列的年代时,简单的浓度深度剖面方法往往是不够的,因为它们假设冲积沉积序列是以恒定和快速的沉积速率沉积的,然后暴露在宇宙辐射中。冲积层序中crn演化的数值模拟允许人们考虑沉积、非沉积和侵蚀阶段,并可以模拟哪些沉积和保存情景最可能代表河流动力学。本研究建立了该模型,并将其应用于比利时东北部的中更新世(Zutendaal)砾石层。模型参数被优化到17个沉积物样本的10Be和26al浓积量,这些样本采集的深度为7米,构成了20米厚的砾石片的顶部。在所研究的沉积序列中,(至少)可以区分出三个单独的沉积阶段,这些阶段被非沉积或侵蚀中断,每个中断持续约40 kyr。砾石片层上部7 m开始堆积的年龄进一步限定为654 ~ 62+218 ka。在误差范围内,这个年龄并没有使砾石片与克罗默期冰期B和海洋同位素阶段(MIS) 16的先前相关性无效。整个砾石片的沉积可能代表了不止一个气候循环,并证明了在应用原位宇宙成因放射性核素技术时考虑辫状河沉积模式的重要性。
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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