Constraints on the Palaeoproterozoic tectono-metamorphic evolution of the Lewisian Gneiss Complex, NW Scotland: Implications for Nuna assembly

IF 3.5 2区 地球科学 Q1 GEOLOGY Journal of Metamorphic Geology Pub Date : 2023-10-19 DOI:10.1111/jmg.12748
Silvia Volante, Annika Dziggel, Jesse B. Walters, Noreen J. Evans, Maximilian Herbst, Richard Albert Roper
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Abstract

Despite extensive investigation, the tectono-thermal evolution of the Archean crust in the Lewisian Gneiss Complex in NW Scotland (LGC) is debated. Most U–Pb zircon geochronological and metamorphic studies have focused on rocks from the central region of the mainland LGC, where granulite facies assemblages associated with the oldest (Badcallian) tectono-metamorphic event at c. 2.75 Ga are overprinted by younger amphibolite facies assemblages related to the Inverian (c. 2.5 Ga) and subsequent Laxfordian (c. 1.9–1.65 Ga) tectono-thermal events. In the southern and northern regions of the mainland LGC, deformation and metamorphism associated with the Laxfordian event are pervasive, although the timing and conditions are poorly constrained. Here, we present new field, petrographic and structural data, U–Pb zircon and titanite geochronology and phase equilibrium modelling of amphibolite samples from the northern and southern regions. Our field observations show that in both regions, pre-Laxfordian structures are significantly reworked by steep NW-striking fabrics that are themselves pervasively overprinted by co-axial deformation and amphibolite facies metamorphism related to the Laxfordian event. In situ U–Pb titanite geochronology yields Laxfordian ages of 1853 ± 20 Ma in the southern region (P = 6–8 kbar and T = 640–690°C) and 1750 ± 20 Ma and 1776 ± 10 Ma in the northern region (P = 6–7.5 kbar and T = 740–760°C). While U–Pb dating of zircon rims from felsic gneisses in the central region shows a dominant Inverian metamorphic overprint at c. 2500 Ma, zircon rims in felsic gneisses from the northern and southern regions commonly yield Laxfordian dates as young as c. 1800 Ma. Combined, the results support the idea that, during the Palaeoproterozoic, the central region of the LGC acted as low-strain domain, in which intense deformation and metamorphism were restricted to crustal-scale shear zones. By contrast, in the southern and northern regions, early (c. 1.85 Ga) and late (c. 1.75 Ga) Laxfordian deformation and fluid-mediated metamorphism were much more pervasive and at higher P–T conditions than previously proposed. The diachronous Laxfordian evolution of the southern and northern regions indicate that they reflect early and late snapshots of collisional to transpressional tectonics in the mainland LGC. The long-lasting Laxfordian evolution documents the collision of the Rae and North Atlantic cratons during the Palaeoproterozoic amalgamation of the supercontinent Nuna, with implications for the palaeogeographic configuration of NW Scotland during Palaeoproterozoic Nuna.

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苏格兰西北部路易斯片麻岩群古新生代构造-变质演化的制约因素:对努纳组装的影响
尽管进行了广泛的调查,但苏格兰西北部刘易斯片麻岩群(LGC)的阿基坦地壳构造-热演化仍存在争议。大多数 U-Pb 锆石地质学和变质学研究都集中在 LGC 大陆中部地区的岩石上,在这些地区,与约 2.75 Ga 的最古老(Badcallian)构造-变质事件相关的花岗岩面组合被与 Inverian(约 2.5 Ga)和随后的 Laxfordian(约 1.9-1.65 Ga)构造-热事件相关的较年轻的闪长岩面组合所覆盖。在LGC大陆的南部和北部地区,与Laxfordian事件相关的变形和变质作用十分普遍,但其发生的时间和条件却很难确定。在这里,我们展示了新的野外、岩相学和构造数据,以及北部和南部地区闪长岩样本的铀-铅锆石和榍石地质年代学和相平衡模型。我们的实地观察结果表明,在这两个地区,前拉克斯福德时期的结构被陡峭的西北走向构造所严重改造,而这些构造本身又普遍受到与拉克斯福德时期事件相关的共轴变形和闪长岩面变质作用的影响。现场铀-铅榍石地质年代测定结果显示,南部地区的拉克斯福德时代年龄为 1853 ± 20 Ma(P = 6-8 kbar,T = 640-690°C),北部地区的拉克斯福德时代年龄为 1750 ± 20 Ma 和 1776 ± 10 Ma(P = 6-7.5 kbar,T = 740-760°C)。中部地区长英质片麻岩中锆石边缘的 U-Pb 测定结果表明,在约 2500 Ma 时出现了主要的因维变质叠加,而北部和南部地区长英质片麻岩中锆石边缘的拉克福德年(Laxfordian)年代则普遍早至约 1800 Ma。综合上述结果,我们认为在古近古生代,LGC中部地区是低应变域,强烈的变形和变质作用仅限于地壳尺度的剪切带。相比之下,在南部和北部地区,早期(约1.85 Ga)和晚期(约1.75 Ga)的拉克福德变形和流体介导的变质作用要普遍得多,其P-T条件也比之前提出的要高。南部和北部地区的拉克福德时期异时空演化表明,它们反映了LGC大陆碰撞构造到换位构造的早期和晚期快照。持久的拉克斯福德演化记录了古新生代超大陆努纳合并期间瑞伊和北大西洋陨石坑的碰撞,对古新生代努纳合并期间苏格兰西北部的古地理格局产生了影响。
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来源期刊
CiteScore
6.60
自引率
11.80%
发文量
57
审稿时长
6-12 weeks
期刊介绍: The journal, which is published nine times a year, encompasses the entire range of metamorphic studies, from the scale of the individual crystal to that of lithospheric plates, including regional studies of metamorphic terranes, modelling of metamorphic processes, microstructural and deformation studies in relation to metamorphism, geochronology and geochemistry in metamorphic systems, the experimental study of metamorphic reactions, properties of metamorphic minerals and rocks and the economic aspects of metamorphic terranes.
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Issue Information Zircon Coupled Dissolution–Precipitation Replacement During Melt–Rock Interaction Modifies Chemical Signatures Resulting in Misleading Ages Pressure–Temperature–Time Evolution of a Polymetamorphic Paragneiss With Pseudomorphs After Jadeite From the HP–UHP Gneiss-Eclogite Unit of the Variscan Erzgebirge Crystalline Complex, Germany Issue Information Experimental Replacement of Zircon by Melt-Mediated Coupled Dissolution-Precipitation Causes Dispersion in U–Pb Ages
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