Andean-type, bivergent crustal shortening in the Rinkian orogen: New constraints on the tectonic evolution of Laurentia–West Greenland in the Paleoproterozoic

IF 1.7 3区 地球科学 Q3 GEOSCIENCES, MULTIDISCIPLINARY Geosphere Pub Date : 2023-07-27 DOI:10.1130/ges02614.1
J. Grocott, K. Thrane, K. McCaffrey, Phoebe R. Sleath, A. Dziggel
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Abstract

The “Rinkian belt” of West Greenland is a metamorphic terrain of Paleoproterozoic age comprising: (1) the north Rinkian fold-thrust belt (FTB)—a pro- or fore-arc domain, highly deformed and metamorphosed with widespread anatexis; (2) the Prøven Igneous Complex—a magmatic arc characterized by hypersthene granitic rocks (“charnockites”); (3) the south Rinkian FTB—an inverted back-arc basin; and 4) a continental margin or foreland. Recognition of this tectonic architecture demonstrates that the “Rinkian” is a bona fide orogenic belt—the Rinkian orogen—and not simply the imbricated lower plate of the Nagssugtoqidian orogen. Arc plutons of the Prøven Igneous Complex were emplaced into the Karrat Group at ca. 1.90–1.85 Ga, dividing a back arc basin into pro- and retro-arc domains. In the former—the north Rinkian FTB—WSW-directed thrusting (deformation events D1-D2) and high-grade metamorphism were taking place by ca. 1.875 Ga and were continuous through ca. 1.850 Ga with a peak temperature at ca. 1.830 Ma accompanied by anatexis in the Karrat Group and lower units of the Prøven Igneous Complex. In the retro-arc domain—the south Rinkian FTB—thrusting to the E (D1) began at ca. 1.870 Ma followed by thrusting to the W (D2) at ca. 1.830–1.820 Ga with displacement focused into a major high-temperature ductile shear zone which carried the Prøven Igneous Complex in the hanging wall of an Andean-type, crustal-scale, “pop-up” structure. High-temperature deformation continued during D3 when the pro-arc, arc, and retro-arc domains were shortened by bivergent detachment folding and thrusting at ca. 1.820–1.810 Ga.
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林基安造山带安第斯型双发地壳缩短:古元古代劳伦斯-西格陵兰构造演化的新制约因素
格陵兰岛西部的“林基安带”是一个古元古代的变质地形,包括:(1)北林基安褶皱冲断带(FTB)——一个弧前或弧前区域,高度变形和变质,具有广泛的锐钛矿;(2) Prøven火成岩杂岩——以紫苏花岗岩(“紫苏花岗岩”)为特征的岩浆弧;(3) 林基安南部FTB——一个倒转的弧后盆地;和4)大陆边缘或前陆。对这种构造结构的认识表明,“林基安”是一个真正的造山带——林基安造山带——而不仅仅是Nagssungtoqidian造山带的叠瓦状下板块。Prøven火成岩杂岩的弧深成岩体在约1.90–1.85 Ga侵位到Karrat群中,将弧后盆地划分为弧前和弧后域。在前者——北林基安FTB——WSW定向逆冲(变形事件D1-D2)和高级变质作用发生在约1.875 Ga,并在约1.850 Ga持续,峰值温度约为1.830 Ma,伴随着Karrat群和Prøven火成岩杂岩下部单元的锐钛矿。在弧后域——林基安南部FTB——向E(D1)方向的逆冲始于约1.870 Ma,随后在约1.830–1.820 Ga向W(D2)方向逆冲,位移集中在一个主要的高温韧性剪切带中,该剪切带在安第斯型地壳规模的“弹出”结构的上盘中携带Prøven火成岩杂岩。在D3期间,高温变形仍在继续,当时弧前、弧后和弧后区域因在约1.820–1.810 Ga处的二次剥离褶皱和逆冲而缩短。
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来源期刊
Geosphere
Geosphere 地学-地球科学综合
CiteScore
4.40
自引率
12.00%
发文量
71
审稿时长
6-12 weeks
期刊介绍: Geosphere is GSA''s ambitious, online-only publication that addresses the growing need for timely publication of research results, data, software, and educational developments in ways that cannot be addressed by traditional formats. The journal''s rigorously peer-reviewed, high-quality research papers target an international audience in all geoscience fields. Its innovative format encourages extensive use of color, animations, interactivity, and oversize figures (maps, cross sections, etc.), and provides easy access to resources such as GIS databases, data archives, and modeling results. Geosphere''s broad scope and variety of contributions is a refreshing addition to traditional journals.
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