Paleomagnetic Constraints on the Rapid Plate Shift of North China Block During the Jurassic From ∼155 Ma Dykes and Sills

IF 2.9 2区地球科学 Q2 GEOCHEMISTRY & GEOPHYSICS Geochemistry Geophysics Geosystems Pub Date : 2024-09-28 DOI:10.1029/2024GC011671

Pengfei Wang, Zhiyu Yi, Joseph G. Meert, Yu-Shu Liu, Silin Yang, Fei Wang, Zaijun Li, Baochun Huang

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Abstract

A large-scale apparent polar wander occurred during the Jurassic interval, which is interpreted as true polar wander (TPW). As the motion is nearly orthogonal to the TPW axis, the North China Block (NCB) experienced the largest latitudinal and environmental changes and provides unique constraints on Jurassic TPW. However, due to the lack and uneven quality of paleomagnetic data, TPW records in North China are controversial. Here, we report a new paleomagnetic pole (80.8°N, 13.0°E, A₉₅ = 7.4°) from the late Jurassic sills and dykes that intrude the Nandaling and Xiahuayuan formations in the NCB. The new pole places the NCB at 36.8° ± 7.4°N at 155 ± 3.4 Ma, using Beijing as the reference site. Combined with the reliable Jurassic poles, our study reveals a large, steady southward shift of 37.3° ± 7.2° for the NCB during the Middle and Late Jurassic, and reflects a component of TPW. The position of ∼155 Ma pole also supports significant TPW prior to ∼160 Ma and agrees with proposals attributing the diachronous 165–155 Ma aridification across the Eastern Asian blocks.

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从∼155 Ma岩体和岩屑看侏罗纪时期华北地块快速板块移动的古地磁制约因素

侏罗纪时期发生了大规模的明显极地漂移，被解释为真正的极地漂移（TPW）。由于其运动几乎与TPW轴正交，华北地块（NCB）经历了最大的纬度和环境变化，为侏罗纪TPW提供了独特的约束条件。然而，由于古地磁数据缺乏且质量参差不齐，华北地区的TPW记录存在争议。在此，我们报告了一个新的古地磁极（80.8°N, 13.0°E, A95 = 7.4°），它来自侵入北华北界南大岭地层和下花园地层的晚侏罗世岩屑和岩体。以北京为参照地，新的极点将北西伯利亚大陆置于北纬 36.8° ± 7.4°，年代为 155 ± 3.4 Ma。结合可靠的侏罗纪极点，我们的研究揭示了中侏罗世和晚侏罗世期间北大西洋边界37.3° ± 7.2°的大幅度稳定南移，反映了TPW的一个组成部分。∼155Ma极点的位置也支持在∼160Ma之前的显著TPW，并与东亚地块165-155Ma的非同步干旱化的提议相一致。

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来源期刊

Geochemistry Geophysics Geosystems 地学-地球化学与地球物理

CiteScore

5.90

自引率

11.40%

发文量

252

审稿时长

1 months

期刊介绍： Geochemistry, Geophysics, Geosystems (G3) publishes research papers on Earth and planetary processes with a focus on understanding the Earth as a system. Observational, experimental, and theoretical investigations of the solid Earth, hydrosphere, atmosphere, biosphere, and solar system at all spatial and temporal scales are welcome. Articles should be of broad interest, and interdisciplinary approaches are encouraged. Areas of interest for this peer-reviewed journal include, but are not limited to: The physics and chemistry of the Earth, including its structure, composition, physical properties, dynamics, and evolution Principles and applications of geochemical proxies to studies of Earth history The physical properties, composition, and temporal evolution of the Earth''s major reservoirs and the coupling between them The dynamics of geochemical and biogeochemical cycles at all spatial and temporal scales Physical and cosmochemical constraints on the composition, origin, and evolution of the Earth and other terrestrial planets The chemistry and physics of solar system materials that are relevant to the formation, evolution, and current state of the Earth and the planets Advances in modeling, observation, and experimentation that are of widespread interest in the geosciences.