南塔津湖剪切带的构造演化;劳伦西亚西南部雷伊克拉通的主要箭石时代(约 2.36 Ga)构造

IF 3.2 2区 地球科学 Q2 GEOSCIENCES, MULTIDISCIPLINARY
Jordan M.K. Deane , Kathryn M. Bethune , Ken E. Ashton , Michael A. Cloutier
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引用次数: 0

摘要

雷伊省记录了沿两侧边缘多次交错造山运动的影响,在主要地壳尺度剪切带内留下了复杂的构造记录。虽然目前已知 2.5-2.3 Ga 的阿罗史密斯造山运动影响了雷伊省西部的大片地区,但相关的构造却鲜有描述。在本文中,我们首次详细研究了这样一个构造--"南塔津湖剪切带",它位于瑞西南部诺兰-泽姆拉克岩石构造域边界沿线。本文进行的多尺度构造分析记录了整个构造的岩性构造分带和应变进展,并对其在区域构造演化中的背景进行了评估。应变强度自北向南急剧增加,开始出现厚而连续的原闪长岩至超闪长岩,走向并进入一条 3-5 公里宽的走廊,该走廊横跨诺兰-泽姆拉克岩域边界,构成剪切带的核心。新的U-Pb锆石火成岩结晶年龄与之前对横跨诺兰-泽姆拉克岩域边界单元的研究结果一致,而角闪石和生物橄榄石的40Ar-39Ar热年代学则提供了对变形的时间约束以及比之前研究更详细的热演化。角闪石的40Ar-39Ar年代为2361±12Ma,它覆盖了爆破闪长岩中剪切和重结晶基质,从而确定了D2绵延化的最低年代。这与剪切带核心区平行褶皱角闪石的类似年龄一起,明确地将南塔津湖剪切带沿线的韧性剪切和相关的S2构造与Arrowsmith成因联系起来。冷却速度表明,Arrowsmith 后的掘起经历了一个初始加速阶段(2360-2350 Ma),但由于缺乏延伸剪切感应指标,这意味着受到了邻近地区以外构造的控制;或被较年轻(Taltson 时代)的构造所掩盖。在此之后很可能是一个与侵蚀相关的更为缓慢的阶段(≤2.35 Ga)。总而言之,南塔津湖剪切带代表了一个重要的箭竹纪构造前沿,在约1.93 Ga的塔尔逊纪或2.35 Ga的塔尔逊纪时期,在韧性-脆性条件下仅沿其南缘重新激活。在约 1.93 Ga 的塔尔寺造山运动中,该构造前沿仅在其南缘在韧性-脆性条件下被重新激活。在约 1.93 Ga 的塔尔逊造山运动期间,这些双重前沿后来与沿黑湾断层的变形一起向东北方向转移。1.90Ga雪鸟造山运动期间沿黑湾断层的变形向东北方向移位。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Tectonic evolution of the South Tazin Lake shear zone; a major Arrowsmith-age (ca. 2.36 Ga) structure in the SW Rae craton, Laurentia

The Rae Province records the effects of multiple, staggered orogenies along both margins, leaving a complex record of tectonism within major crustal-scale shear zones. While the recently recognized 2.5–2.3 Ga Arrowsmith orogeny is now known to have affected a large tract of the western Rae, few related structures have been described. In this paper, we present the first detailed investigation of such a structure, the ‘South Tazin Lake shear zone’, localized along the Nolan-Zemlak lithotectonic domain boundary in the SW Rae. Multi-scale structural analysis undertaken herein documents the lithostructural zonation and strain progression across this structure and evaluates its context in the regional tectonic evolution. Strain intensity increases dramatically from north to south, with onset of thick, continuous intervals of protomylonite to ultramylonite toward and into a 3–5 km wide corridor that straddles the Nolan-Zemlak domain boundary and constitutes the core of the shear zone. New U-Pb zircon igneous crystallization ages are consistent with previous results for units across the Nolan-Zemlak domain boundary while 40Ar-39Ar thermochronology of hornblende and biotite provides temporal constraints on deformation and a more detailed thermal evolution than previous studies. An 40Ar-39Ar date of 2361 ± 12 Ma for hornblende overgrowing the sheared and recrystallized matrix in blastomylonitic rocks places a minimum age on D2 mylonitization. This, together with similar ages in the core of the shear zone from foliation-parallel hornblende, definitively links ductile shearing and the related S2 fabric along the South Tazin Lake shear zone with Arrowsmith orogenesis. Cooling rates suggest an initial accelerated phase (∼2360–2350 Ma) of post-Arrowsmith exhumation, but the absence of extensional shear-sense indicators implies control by structures outside of the immediate area; or masking by younger (Taltson-age) structures. This was likely followed by a much slower erosion-related (≤2.35 Ga) phase. All-told, the South Tazin Lake shear zone represents a significant Arrowsmith-age tectonic front that was reactivated only along its southern margin under ductile–brittle conditions during the ca. 1.93 Ga Taltson orogeny. These dual fronts were later transposed to the northeast in concert with deformation along the Black Bay fault during the ca. 1.90 Ga Snowbird orogeny.

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来源期刊
Precambrian Research
Precambrian Research 地学-地球科学综合
CiteScore
7.20
自引率
28.90%
发文量
325
审稿时长
12 months
期刊介绍: Precambrian Research publishes studies on all aspects of the early stages of the composition, structure and evolution of the Earth and its planetary neighbours. With a focus on process-oriented and comparative studies, it covers, but is not restricted to, subjects such as: (1) Chemical, biological, biochemical and cosmochemical evolution; the origin of life; the evolution of the oceans and atmosphere; the early fossil record; palaeobiology; (2) Geochronology and isotope and elemental geochemistry; (3) Precambrian mineral deposits; (4) Geophysical aspects of the early Earth and Precambrian terrains; (5) Nature, formation and evolution of the Precambrian lithosphere and mantle including magmatic, depositional, metamorphic and tectonic processes. In addition, the editors particularly welcome integrated process-oriented studies that involve a combination of the above fields and comparative studies that demonstrate the effect of Precambrian evolution on Phanerozoic earth system processes. Regional and localised studies of Precambrian phenomena are considered appropriate only when the detail and quality allow illustration of a wider process, or when significant gaps in basic knowledge of a particular area can be filled.
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