Preservation of groove mark striae formed by armoured mud clasts: The role of armour sediment size and bed yield stress

IF 1.9 3区 地球科学 Q1 GEOLOGY
Carys Lock, Miranda Reid, Jaco H. Baas, Jeff Peakall
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Abstract

Striated grooves in tool marks are common at the base of sandstones, especially in deep-marine successions, but their use in physical-process and environmental reconstruction is underdeveloped. To fill this gap in knowledge, striations in the central groove of chevron marks and in chevron-less groove marks were formed in the laboratory by dragging tools armoured with silt, sand or gravel across muddy substrates. These experiments simulated the formation of striated grooves by armoured mud clasts carried at the base of quasi-laminar and fully laminar debris flows, aiming to: (1) delineate the bed shear strengths for the formation of striated grooves at different armour sediment sizes; (2) examine how the preservation potential of striated grooves depends on clay bed rheology and size of armour sediment and (3) discuss how the pre-lithification clay bed consolidation state and size of armour sediment can be reconstructed from striated grooves in the geological record. The experimental results revealed that tools with small-diameter silt and sand armours dragged along soft beds lack striations or, at best, leave poorly defined striations, whereas firm beds and gravel armours exhibit well-defined striations. The spacing of striations formed by gravel clasts corresponds well with the clast diameter, implying that striation spacing is a good proxy for the diameter of armoured gravel under natural conditions. In contrast, the spacing of striae formed by sand armours is greater than the grain diameter, suggesting that the spacing of fine striations can only be used to predict a maximum armour sand size. A comparison of different processes of formation of armoured mud clasts demonstrated that the armouring of mud clasts most probably happens after incorporation of the clasts by erosion into the head of the debris flow and subsequent movement across a loose sandy or gravelly bed surface.

Abstract Image

铠装泥块形成的沟痕条纹的保存:铠装沉积物尺寸和床面屈服应力的作用
工具痕迹中的条纹沟槽在砂岩底部很常见,特别是在深海演替中,但它们在物理过程和环境重建中的应用还不成熟。为了填补这一知识空白,我们在实验室中通过在泥质基底上拖动裹有淤泥、沙子或砾石的工具,在楔形印记的中央沟槽和无楔形沟槽印记中形成了条纹。这些实验模拟了准层流和全层流泥石流底部携带的铠装泥质碎屑形成的条纹状沟槽,目的在于(1) 确定不同大小铠装沉积物形成条状沟槽的床面剪切强度;(2) 研究条状沟槽的保存潜力如何取决于粘土床面流变学和铠装沉积物的大小;(3) 讨论如何从地质记录中的条状沟槽重建成岩前的粘土床面固结状态和铠装沉积物的大小。实验结果表明,在软质岩床上拖动直径较小的粉砂和砂质铠装工具时,缺乏条纹或最多留下不甚清晰的条纹,而坚硬的岩床和砾石铠装则表现出清晰的条纹。砾石碎屑形成的条纹间距与碎屑直径非常吻合,这意味着条纹间距可以很好地反映自然条件下铠装砾石的直径。相比之下,沙粒铠甲形成的条纹间距大于沙粒直径,这表明细条纹间距只能用来预测最大铠甲沙粒尺寸。对泥质碎屑铠装的不同形成过程进行比较后发现,泥质碎屑铠装很可能是在碎屑被侵蚀到泥石流头部,然后在松散的砂质或砾质床面上移动后发生的。
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
CiteScore
4.10
自引率
16.70%
发文量
42
审稿时长
16 weeks
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