Correlating Proterozoic synorogenic metasedimentary successions in southwestern Laurentia: New insights from detrital zircon U-Pb geochronology of Paleoproterozoic quartzite and metaconglomerate in central and northern Colorado, U.S.A.

Q3 Earth and Planetary Sciences

Rocky Mountain Geology Pub Date : 2012-03-01 DOI:10.2113/GSROCKY.47.1.1

James V. Jones, K. Thrane

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引用次数: 17

Abstract

Detrital zircon ages from quartzite and metaconglomerate exposed in the Park Range, Front Range, and Sawatch Range of northern and central Colorado reveal new information about age and provenance trends within the Yavapai province of southwestern Laurentia and provide a critical test of regional correlations. Six samples from the three exposure areas—the Lester Mountain area in the Park Range, Coal Creek area in the Front Range, and Collegiate Peaks area in the Sawatch Range—are dominated by Paleoproterozoic detrital zircon that define a relatively narrow range of peak ages between 1772 and 1701 Ma. The unimodal character of most age spectra and the age of the dominant age-probability peaks indicate that the metasedimentary successions were derived largely from local sources within the ca. 1.78–1.70-Ga Yavapai province. Age-probability peaks between 1830 Ma and 2716 Ma are attributed to older source regions to the north and northeast such as the Trans-Hudson orogen, Black Hills, or Wyoming province. However, the percentage of older grains is relatively minor and decreases to almost zero from north to south. Maximum depositional ages constrained by the youngest age populations are 1763 Ma, 1717 Ma, and 1701 Ma for the respective localities from north to south. All of the metasedimentary successions were deformed and metamorphosed after deposition, and quartzite at one locality is intruded by ca. 1672-Ma plutons. On the basis of similarities between outcrop characteristics, structural style, and comparison of detrital zircon age spectra, we correlate the two southern localities with a regional suite of quartzite successions deposited ca. 1.70 Ga following the culmination of the Yavapai orogeny. The northern succession represents an earlier cycle of sedimentation predating ca. 1750-Ma deformation in the northern Yavapai province. The southward progression of ages is consistent with regional tectonic models for the evolution of the Paleoproterozoic accretionary provinces in southern Laurentia, and the multiple cycles of sedimentation suggest that basin formation and collapse were important processes in the tectonic evolution of the continent.

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Laurentia西南部元古代同生变质沉积层序对比:美国科罗拉多州中北部古元古代石英岩和元砾岩碎屑锆石U-Pb年代学的新见解

在科罗拉多州北部和中部的Park Range、Front Range和Sawatch Range，暴露在石英岩和变质砾岩中的碎屑锆石年龄揭示了劳伦斯西南部Yavapai省年龄和物源趋势的新信息，并提供了区域相关性的关键测试。在帕克山脉的莱斯特山地区、前山脉的煤溪地区和萨沃奇山脉的合众峰地区的三个暴露区中，有6个样品以古元古代碎屑锆石为主，其峰值年龄范围在1772 ~ 1701 Ma之间。大多数年龄谱的单峰特征和优势年龄概率峰的年龄表明，亚瓦派省约1.78 ~ 1.70 ga的元沉积序列主要来源于当地。1830 Ma到2716 Ma之间的年龄概率峰值归因于北部和东北部更古老的源区，如跨哈德逊造山带、黑山或怀俄明州。然而，老颗粒的比例相对较小，从北到南几乎为零。最小年龄群约束的最大沉积年龄由北向南分别为1763 Ma、1717 Ma和1701 Ma。各变质沉积层序沉积后均发生变形变质作用，其中一处石英岩被约1672 ma的岩体侵入。根据露头特征、构造样式和碎屑锆石年龄谱的相似性，我们将这两个南部地区与约1.70 Ga后亚瓦派造山运动结束后沉积的一套区域石英岩序列联系起来。北部演替代表了早于亚瓦派省北部约1750-Ma变形的早期沉积旋回。南向的年龄递进与Laurentia南部古元古代增生省演化的区域构造模式一致，多旋回的沉积作用表明盆地形成和崩塌是大陆构造演化的重要过程。

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来源期刊

Rocky Mountain Geology Earth and Planetary Sciences-Geology

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1.10

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0.00%

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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.