Remagnetization of the Jurassic limestones in the Zaduo area, Eastern Qiangtang Terrane (Tibetan Plateau, China): implications for the India–Eurasia collision
Fu, Qiang; Yan, Maodu; Dekkers, Mark; Guan, Chong; Yu, Liang; Xu, Wanlong; Li, Bingshuai; Feng, Zhantao; Xu, Zunbo; Shen, Miaomiao; Zhang, Dawen
(2022) Geophysical Journal International, volume 228, issue 3, pp. 2073 - 2091
(Article)
Abstract
A series of terranes were accreted to Eurasia in the region of what is now the Tibetan Plateau, including the Qaidam-Qilian, the Songpan-Ganzi, the Qiangtang, the Lhasa and the Tethyan Himalaya terranes. The drift history of the Qiangtang Terrane and the timing of the Lhasa–Qiangtang collision are controversial. To contribute
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to this topic, here, we palaeomagnetically investigate the Middle-Upper Jurassic limestones of the Yanshiping group in the Zaduo area (32.5°N, 95.2°E), in the Estern Qiangtang Terrane. Twelve sites (133 samples) were processed. A major challenge in palaeomagnetism is the possibility of remagnetization that interferes with palaeogeographic reconstructions. Both thermal and alternating field demagnetizations were carried out to isolate the characteristic remanent magnetization (ChRM). Despite the positive reversals test, rock magnetic information points to a remagnetized ChRM. The ChRM is residing in stable single-domain (SSD) magnetite grains with cogenetic superparamagnetic (SP) particles. The co-occurreance of SSD and SP magnetites generates distinct rock-magnetic properties often refer to as the ‘remagnetized fingerprint’ in limestones. This remagnetization process is also manifested by the widespread occurrence of gypsum veinlets in the limestones. The site-mean direction of the 12 sites after tilt-correction is Ds = 30.6°, Is = 35.6°, κs = 182.9, α95 = 3.2°, corresponding to a palaeolatitude of ∼19.7°± 2.8°N for the study area. The corresponding palaeopole (59.8°N, 202.7°E with A95 = 2.8°) points to an NRM acquired after the India–Eurasia collision. The original sediments were likely anoxic because of the high organic carbon fluxes that prevailed during their deposition. After the India–Eurasia collision, it is envisaged that conditions became more oxic, giving rise to oxidation of iron sulphides to authigenic magnetite and the CRM acquisition. The Zaduo area in the Eastern Qiangtang Terrane has experienced ∼15.7° ± 3.2° (∼1740 ± 350 km) of latitudinal crustal shortening since the Eocene. In addition, the clockwise rotation responding to the India–Eurasia collision is also detected in the Zaduo area.
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Keywords: Asia, Magnetic properties, Palaeomagnetism, Remagnetization, Rock and mineral magnetism, Taverne, Geophysics, Geochemistry and Petrology
ISSN: 0956-540X
Publisher: Wiley-Blackwell
Note: Funding Information: This work was co-supported by the the Second Tibetan Plateau Scientific Expedition Program (Grant 2019QZKK0707), the Strategic Priority Research Program of Chinese Academy of Sciences (Grant XDA20070201), the Natural Science Foundation of China (Grants 41974080 and 41804065), the Basic Science Center for Tibetan Plateau Earth System (CTPES, Grant 41988101-01), and China Scholarship Council. The authors thankWeilin Zhang, Jinbo Zan, Tao Zhang, Yi Chen, Zengguang Guo, Mengqi Tan, Liye Yang, Yaofei Chen, and Zhongyu Xiong for their assistance in the laboratory work. We sincerely thank Editor Eduard Petrovsky, Assistant Editor Fern Storey, Professor Richard Elmore and another anonymous reviewer for their insightful comments and suggestions that greatly improved this paper. Publisher Copyright: © 2021 The Author(s).
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