The origin of boulders in the Neoproterozoic of Eastern Sayan Ranges, south-west Siberia: Glacial transport versus winnowed concretions

IF 1.9 3区 地球科学 Q1 GEOLOGY
Dmitrii Aleksandrov
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引用次数: 1

Abstract

The Cryogenian geological record of Siberia is scarce and ambiguous. Late Neoproterozoic strata of presumed glaciogenic origin of the Marnya Formation, Oselok Group cropping out along the Uda River in the Eastern Sayan Ranges, south-western Siberia has received considerable attention due to the presence of at least three distinctive diamictite units. The lower diamictite unit (Karapchetui Member) is in subvertical contact (previously interpreted as a glacial valley) with stratigraphically older strata of the Tagul and Ipsit formations of the Karagas Group, and is represented by a wedge-shaped unit of breccia that hosts numerous ellipsoidal sandstone bodies (previously thought to be boulders). The boulders are here reinterpreted as early diagenetic quartz and feldspar-cemented sandstone concretions exhumed and redeposited from the Ipsit Formation when the latter was still uncemented and easily erodible. Tectonic compression, reverse faulting and localised continuous syndepositional uplift led to exhumation of the concretions, whereas subsequent extension, reactivation of the fault and ‘negative inversion’ of the basin produced accommodation space for redeposition of the exhumed concretions. In the process of redeposition, exfoliating concretions produced abundant debris that provided clasts for the breccia deposit. The Karapchetui diamictite, therefore, can serve as a sedimentary archive of late Neoproterozoic tectonic activity at the south-western margin of the Siberian Craton.

Abstract Image

西伯利亚西南部东萨扬山脉新元古代巨石的起源:冰川搬运与风化结核
西伯利亚的成冰纪地质记录稀少且模糊不清。西伯利亚西南部萨扬山脉东部乌达河沿岸的Oselok群Marnya组推测为冰川成因的新元古代晚期地层,由于存在至少三个独特的杂岩单元,受到了相当大的关注。下部杂岩单元(Karapchetui段)与卡拉加斯群的Tagul和Ipsit地层的地层较老地层处于近垂直接触(以前被解释为冰川谷),并以一个楔形角砾岩单元为代表,该单元包含许多椭球状砂岩体(以前被认为是巨石)。在这里,巨石被重新解释为早期成岩石英和长石胶结砂岩结核,它们是从Ipsit组挖掘和重新沉积的,当时后者仍然未胶结且易受侵蚀。构造挤压、逆断层作用和局部连续同沉积隆起导致结核的折返,而随后的伸展、断层的复活和盆地的“负反转”为折返结核的再沉积提供了容纳空间。在再沉积过程中,剥落的结核产生了丰富的碎屑,为角砾岩矿床提供了碎屑。因此,Karapchetui杂岩可以作为西伯利亚克拉通西南边缘新元古代晚期构造活动的沉积档案。
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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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