野外证据表明,加拿大古元古代Gowganda组起源于非冰川

IF 0.9 Q3 GEOLOGY
Geologos Pub Date : 2021-08-01 DOI:10.2478/logos-2021-0009
Mats O. Molén
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引用次数: 3

摘要

摘要自最初鉴定以来的一个多世纪里,加拿大安大略省的Gowganda组逐渐被重新解释,从主要代表冰下tillite到次生重力流和冰川盐层。最近的文章中提出的有利于冰川作用的主要地质证据是,在Cobalt的一个小面积区域内,被解释为水滴石和杂岩斑块的超大碎屑,该区域仍被解释为显示冰下基底tillite。本研究根据与构造有关的重力流的最新研究,考虑了Gowganda组的野外证据。详细研究表明,被解释为落石的碎屑很少穿透薄层,通常被沉积物覆盖,其外观类似于重力流中的孤独石。Cobalt的“冰下区域”显示了构造和重力流的证据,这些证据可以从下伏基岩追踪到,然后在上覆的杂岩和韵律岩序列中进一步追踪到。地质特征的总和显示出与主要冰川成因不一致的外观,并且没有明确的冰川作用证据。数据表明,非冰川重力流的沉积,包括较致密单元的粘性泥石流,可能是由构造位移引发的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Field evidence suggests that the Palaeoproterozoic Gowganda Formation in Canada is non-glacial in origin
Abstract During more than a century since its original identification, the Gowganda Formation in Ontario (Canada) has gradually been reinterpreted from representing mainly subglacial tillites to secondary gravity flow and glaciomarine deposits. The main pieces of geological evidence advanced in favour of glaciation in recent articles are outsized clasts that have been interpreted as dropstones and patches of diamictites in a single small-sized area at Cobalt which is still interpreted as displaying subglacial basal tillites. The present research considers field evidence in the Gowganda Formation in the light of more recent work on gravity flows linked to tectonics. Detailed studies have demonstrated that the clasts which are interpreted to be dropstones rarely penetrate laminae and are commonly draped by sediments the appearance of which is similar to lonestones in gravity flows. The “subglacial area” at Cobalt displays evidence of tectonics and gravity flows, which can be traced from the underlying bedrock, and then further in the overlying sequence of diamictites and rhythmites. The sum of geological features displays appearances at odds with a primary glaciogenic origin, and there is no unequivocal evidence present of glaciation. The data indicate deposition by non-glaciogenic gravity flows, including cohesive debris flows for the more compact units, probably triggered by tectonic displacements.
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来源期刊
Geologos
Geologos GEOLOGY-
CiteScore
1.70
自引率
0.00%
发文量
7
审稿时长
12 weeks
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