蒙大拿州麦迪逊山脉西北部怀俄明州太古代高温糜棱岩的结构发育

Q3 Earth and Planetary Sciences

Rocky Mountain Geology Pub Date : 2009-09-21 DOI:10.2113/GSROCKY.44.2.85

K. Kellogg, D. Mogk

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引用次数: 7

摘要

位于美国蒙大拿州西南部麦迪逊山脉西北部的克罗克溪mylonite，是由几个高非同轴应变的弯曲透镜所定义的，这些透镜暴露在7公里宽的东北方向的带状上。该地区的岩石是怀俄明州太古宙的一部分，主要是长闪质到花岗质正长岩，次为角闪岩、石英岩、铝质片麻岩和变质岩(镁质麻粒岩)。本文提供的数据支持一种解释，即糜棱岩形成于由西北-东南方向的变形引起的早期变形事件(D1)中，在近峰值变质条件下形成的快速非均匀应变时期。糜棱岩具有发育良好的L-S构造岩结构和细粒重结晶(花岗粒状)结构。坚固的线性结构被解释为拉伸方向，由细长的成分“鱼”、折叠轴、排列的细长矿物和竖棱轴来定义。糜棱岩带的边缘与未糜棱岩化片麻岩区一致，并渐变为未糜棱岩化片麻岩区。第二次变形事件(D2)使糜棱岩表面发生褶皱，在糜棱岩和乡村岩石中产生米至公里尺度的、紧致至等斜的、平缓的俯冲褶皱，代表了西北-东南的缩短事件。与D2相关的平面或线状组织明显缺失。第三个区域变形事件(D3)产生了开放的、千米规模的褶皱，褶皱轴通常是缓慢北倾的。本文给出的热气压测量结果表明，在D1期间，糜棱岩和乡村片麻岩的变质条件相同，达到上角闪岩到下麻粒岩相的条件:700±50°C, 8.5±0.5 kb。先前对克鲁克溪糜棱岩以东的杰罗姆岩湖地区糜棱岩和横切岩的年代学研究表明，这种高变质作用和糜棱岩化的时间在2.78 - 2.56 Ga之间，比1.78 Ga的大天造山运动早了近10亿年，后者覆盖了在怀俄明州邻近山脉暴露的基底岩石。

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Structural development of high-temperature mylonites in the Archean Wyoming province, northwestern Madison Range, Montana

The Crooked Creek mylonite, in the northwestern Madison Range, southwestern Montana, is defined by several curved lenses of high non-coaxial strain exposed over a 7-km-wide, northeast-trending strip. The country rocks, part of the Archean Wyoming province, are dominantly trondhjemitic to granitic orthogneiss with subordinate amphibolite, quartzite, aluminous gneiss, and sills of metabasite (mafic granulite). Data presented here support an interpretation that the mylonite formed during a period of rapid, heterogeneous strain at near-peak metamorphic conditions during an early deformational event (D1) caused by northwest–southeast-directed transpression. The mylonite has a well-developed L-S tectonite fabric and a fine-grained, recrystallized (granoblastic) texture. The strong linear fabric, interpreted as the stretching direction, is defined by elongate compositional “fish,” fold axes, aligned elongate minerals, and mullion axes. The margins of the mylonitic zones are concordant with and grade into regions of unmylonitized gneiss. A second deformational event (D2) has folded the mylonite surface to produce meter- to kilometer-scale, tight-to-isoclinal, gently plunging folds in both the mylonite and country rock, and represents a northwest–southeast shortening event. Planar or linear fabrics associated with D2 are remarkably absent. A third regional deformational event (D3) produced open, kilometer-scale folds generally with gently north-plunging fold axes. Thermobarometric measurements presented here indicate that metamorphic conditions during D1 were the same in both the mylonite and the country gneiss, reaching upper amphibolite- to lower granulite-facies conditions: 700 ± 50° C and 8.5 ± 0.5 kb. Previous geochronological studies of mylonitic and cross-cutting rocks in the Jerome Rock Lake area, east of the Crooked Creek mylonite, bracket the timing of this high-grade metamorphism and mylonitization between 2.78 and 2.56 Ga, nearly a billion years before the 1.78-Ga Big Sky orogeny, which overprinted the basement rocks exposed in adjacent ranges of the Wyoming province.

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来源期刊

Rocky Mountain Geology Earth and Planetary Sciences-Geology

CiteScore

1.10

自引率

0.00%

发文量

期刊介绍： Rocky Mountain Geology (formerly Contributions to Geology) is published twice yearly by the Department of Geology and Geophysics at the University of Wyoming. The focus of the journal is regional geology and paleontology of the Rocky Mountains and adjacent areas of western North America. This high-impact, scholarly journal, is an important resource for professional earth scientists. The high-quality, refereed articles report original research by top specialists in all aspects of geology and paleontology in the greater Rocky Mountain region.