Late Jurassic paleogeography of the U.S. Cordillera from detrital zircon age and hafnium analysis of the Galice Formation, Klamath Mountains, Oregon and California, USA

IF 3.9 1区 地球科学 Q1 GEOSCIENCES, MULTIDISCIPLINARY
K. Surpless, Ryan W. Alford, Calvin G. Barnes, A. Yoshinobu, Natalee E. Weis
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引用次数: 1

Abstract

The Upper Jurassic Galice Formation, a metasedimentary unit in the Western Klamath Mountains, formed within an intra-arc basin prior to and during the Nevadan orogeny. New detrital zircon U-Pb age analyses (N = 11; n = 2792) yield maximum depositional ages (MDA) ranging from ca. 160 Ma to 151 Ma, which span Oxfordian to Kimmeridgian time and overlap Nevadan contractional deformation that began by ca. 157 Ma. Zircon ages indicate a significant North American continental provenance component that is consistent with tectonic models placing the Western Klamath terrane on the continental margin in Late Jurassic time. Hf isotopic analysis of Mesozoic detrital zircon (n = 603) from Galice samples reveals wide-ranging εHf values for Jurassic and Triassic grains, many of which cannot be explained by a proximal source in the Klamath Mountains, thus indicating a complex provenance. New U-Pb ages and Hf data from Jurassic plutons within the Klamath Mountains match some of the Galice Formation detrital zircon, but these data cannot account for the most non-radiogenic Jurassic detrital grains. In fact, the in situ Cordilleran arc record does not provide a clear match for the wide-ranging isotopic signature of Triassic and Jurassic grains. When compiled, Galice samples indicate sources in the Sierra Nevada pre-batholithic framework and retroarc region, older Klamath terranes, and possibly overlap strata from the Blue Mountains and the Insular superterrane. Detrital zircon age spectra from strata of the Upper Jurassic Great Valley Group and Mariposa Formation contain similar age modes, which suggests shared sediment sources. Inferred Galice provenance within the Klamath Mountains and more distal sources suggest that the Galice basin received siliciclastic turbidites fed by rivers that traversed the Klamath-Sierran arc from headwaters in the retroarc region. Thus, the Galice Formation contains a record of active Jurassic magmatism in the continental arc, with significant detrital input from continental sediment sources within and east of the active arc. These westward-flowing river systems remained active throughout the shift in Cordilleran arc tectonics from a transtensional system to the Nevadan contractional system, which is characterized by sediment sourced in uplifts within and east of the arc and the thrusting of older Galice sediments beneath older Klamath terranes to the east.
美国俄勒冈州和加利福尼亚州克拉马斯山脉加利斯组晚侏罗世古地理的碎屑锆石年龄和铪分析
上侏罗统加利斯组是克拉马斯山脉西部的一个变质沉积单元,形成于内华达造山运动之前和期间的弧内盆地内。新碎屑锆石U-Pb年龄分析(N = 11);n = 2792)产生的最大沉积年龄(MDA)约为160 ~ 151 Ma,跨越牛津纪至基默里吉纪,重叠于约157 Ma开始的内华达收缩变形。锆石年龄显示了一个重要的北美大陆物源成分,这与将西克拉马斯地体置于晚侏罗世大陆边缘的构造模式相一致。Galice样品中中生代碎屑锆石(n = 603)的Hf同位素分析表明,侏罗纪和三叠纪颗粒的εHf值范围广泛,其中许多不能用克拉玛斯山脉的近源来解释,因此表明物源复杂。来自克拉马斯山脉侏罗纪岩体的新U-Pb年龄和Hf数据与一些加利斯组碎屑锆石相匹配,但这些数据不能解释大多数非放射性成因的侏罗纪碎屑颗粒。事实上,科迪勒拉弧的原位记录与三叠纪和侏罗纪颗粒的广泛同位素特征并没有提供明确的匹配。Galice样品表明,其来源可能来自内华达山脉前基底时代框架和弧后地区,以及更古老的克拉莫斯地体,并可能来自蓝山和岛超地体的重叠地层。上侏罗统大峡谷群和马里波萨组地层的碎屑锆石年龄谱具有相似的年龄模式,表明沉积物来源相同。克拉马斯山脉内推断的加利斯物源和更远的物源表明,加利斯盆地接受了来自弧后地区源头穿越克拉马斯-西兰弧的河流的硅质浊积岩。因此,加利斯组包含了大陆弧中活跃的侏罗纪岩浆活动的记录,在活动弧内部和以东有大量来自大陆沉积物源的碎屑输入。这些向西流动的河流系统在科迪勒拉弧构造从张拉系统转变为内华达收缩系统的整个过程中保持活跃,其特征是沉积物来源于弧内和弧东部的隆起,以及较老的加利斯沉积物在较老的克拉莫斯地体下向东冲。
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来源期刊
Geological Society of America Bulletin
Geological Society of America Bulletin 地学-地球科学综合
CiteScore
9.30
自引率
8.20%
发文量
159
审稿时长
4-8 weeks
期刊介绍: The GSA Bulletin is the Society''s premier scholarly journal, published continuously since 1890. Its first editor was William John (WJ) McGee, who was responsible for establishing much of its original style and format. Fully refereed, each bimonthly issue includes 16-20 papers focusing on the most definitive, timely, and classic-style research in all earth-science disciplines. The Bulletin welcomes most contributions that are data-rich, mature studies of broad interest (i.e., of interest to more than one sub-discipline of earth science) and of lasting, archival quality. These include (but are not limited to) studies related to tectonics, structural geology, geochemistry, geophysics, hydrogeology, marine geology, paleoclimatology, planetary geology, quaternary geology/geomorphology, sedimentary geology, stratigraphy, and volcanology. The journal is committed to further developing both the scope of its content and its international profile so that it publishes the most current earth science research that will be of wide interest to geoscientists.
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