美国科罗拉多州西南部Uncompahgre组四个元古代构造期和约1705 Ma时代的独居石和xentime岩石年代学约束

IF 1.7 3区 地球科学 Q3 GEOSCIENCES, MULTIDISCIPLINARY Geosphere Pub Date : 2023-06-23 DOI:10.1130/ges02631.1
Ian W. Hillenbrand, M. L. Williams, K. Karlstrom, A. Gilmer, H. Lowers, M. Jercinovic, Kaitlyn A. Suarez, A. K. Souders
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引用次数: 1

摘要

由于构造变质阶段的时间和条件以及变质沉积序列的沉积年龄的限制,美国西南部的元古代构造演化仍不完全清楚。我们整合了多尺度成分测绘、岩石学建模和原位地质年代学,以约束美国科罗拉多州西南部古元古代基底片麻岩和上覆石英岩样本的压力-温度-时间路径。针岭西部基底片麻岩记录了1764±9 Ma时0.75 GPa 600°C和1741±10 Ma时~575°C的变质条件。从科罗拉多州帕戈萨斯普林斯附近的岩芯中取样的片麻岩记录了1748±9 Ma时700°C、1650±40 Ma时1.1 GPa时800°C、1570±36 Ma时540°C和1424±12 Ma时440°C的条件。Unpahgre组沉积于约1705 Ma,受碎屑独居石(1707±8 Ma)和异长岩(1692±401725±50 Ma)、变质异长岩,并发表了40Ar/39Ar和碎屑锆石数据。约1705 Ma碎屑独居石和捕虏体的成分与亚瓦派造山腹地含石榴石来源的来源一致。Vallecito砾岩和Unpahgre组记录了1650±10 Ma的宏观褶皱和绿片岩相变质作用,1470–1400 Ma的温度为270°C至>570°C。激光烧蚀-电感耦合等离子体-质谱(LA-ICP-MS)锆石地质年代测定得出,暮光片麻岩的日期为1775±18 Ma,贝克斯桥花岗岩的日期为1696±7 Ma,支持先前的同位素稀释-热电离质谱(ID-TIMS)日期。Eolus花岗岩的日期为1463±6 Ma,比之前的1.44–1.43 Ga ID-TIMS日期更早。白内障峡谷最新测年的花岗岩为1421±12 Ma。碎屑和变质独居石和异长岩、火成锆石的原位分析和定量热压测量,结合先前发表的限制条件,表明1800–1760 Ma弧相关岩石侵位后发生了多个构造事件。从1760 Ma到1740 Ma,该地区经历了绿片岩相到角闪岩相变质作用(M1),随后在1730–1695 Ma发生了花岗岩侵入,并在约1705 Ma沉积了Unpahgre组,与Yavapai造山运动同期。1680–1600 Ma的变质作用以科罗拉多州Ouray附近的绿片岩相条件和Mazatzal造山运动期间Pagosa Springs(M2)附近的麻粒岩相条件为特征。从1470 Ma到1400 Ma,在长期的Picuris造山运动中发生了绿片岩相到角闪岩相变质作用(M3)和主要的花岗岩深成作用。这些结果证明了独居石和异源时间分析对沉积年龄、物源和压力-温度-时间(P-T-T)路径的约束能力,以解决大多数造山带特有的复合造山史。
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Monazite and xenotime petrochronologic constraints on four Proterozoic tectonic episodes and ca. 1705 Ma age of the Uncompahgre Formation, southwestern Colorado, USA
The Proterozoic tectonic evolution of the south-western USA remains incompletely understood due to limited constraints on the timing and conditions of the tectono-metamorphic phases and depositional age of metasedimentary successions. We integrated multi-scale compositional mapping, petrologic modeling, and in situ geochronology to constrain pressure-temperature-time paths from samples of Paleoproterozoic basement gneisses and overlying quartzites in southwestern Colorado, USA. Basement gneiss from the western Needle Mountains records metamorphic conditions of 600 °C at 0.75 GPa at 1764 ± 9 Ma and ~575 °C at 1741 ± 10 Ma. Gneiss sampled from drill core near Pagosa Springs, Colorado, records conditions of 700 °C at 1748 ± 9 Ma, 800 °C at 1.1 GPa at 1650 ± 40 Ma, 540 °C at 1570 ± 36 Ma, and 440 °C at 1424 ± 12 Ma. The Uncompahgre Formation was deposited at ca. 1705 Ma, as constrained by detrital monazite (1707 ± 8 Ma) and xenotime (1692 ± 40, 1725 ± 50 Ma), metamorphic xenotime (1650 ± 10 Ma), and published 40Ar/39Ar and detrital zircon data. Compositions of ca. 1705 Ma detrital monazite and xenotime are consistent with derivation from a garnet-bearing source in the Yavapai orogenic hinterland. The Vallecito Conglomerate and Uncompahgre Formation record macroscopic folding and greenschist-facies metamorphism at 1650 ± 10 Ma and temperatures of 270 °C to >570 °C at 1470–1400 Ma. Laser ablation–inductively coupled plasma–mass spectrometry (LA-ICP-MS) zircon geochronology yielded dates of 1775 ± 18 Ma from the Twilight Gneiss and 1696 ± 7 Ma from the Bakers Bridge Granite, supporting previous isotope dilution–thermal ionization mass spectrometry (ID-TIMS) dates. The Eolus Granite yielded a date of 1463 ± 6 Ma, which is older than previous 1.44–1.43 Ga ID-TIMS dates. The newly dated granite of Cataract Gulch is 1421 ± 12 Ma. In situ analysis of detrital and metamorphic monazite and xenotime, igneous zircon, and quantitative thermobarometry, integrated with previously published constraints, indicate multiple tectonic episodes after the emplacement of 1800–1760 Ma arc-related rocks. The region experienced greenschist- to amphibolite-facies metamorphism (M1) from 1760 Ma to 1740 Ma, which was followed by the intrusion of granites at 1730–1695 Ma and deposition of the Uncompahgre Formation at ca. 1705 Ma, contemporaneous with the Yavapai orogeny. Metamorphism at 1680–1600 Ma was characterized by greenschist-facies conditions near Ouray, Colorado, and granulite-facies conditions near Pagosa Springs (M2) during the Mazatzal orogeny. From 1470 Ma to 1400 Ma, greenschist- to amphibolite-facies metamorphism (M3) and largely granitic plutonism occurred during the protracted Picuris orogeny. These results demonstrate the power of monazite and xenotime analyses to constrain depositional ages, provenance, and pressure-temperature-time (P-T-t) paths to resolve the compound orogenic history that is characteristic of most mountain belts.
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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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