期刊
CRETACEOUS RESEARCH
卷 55, 期 -, 页码 262-284出版社
ACADEMIC PRESS LTD- ELSEVIER SCIENCE LTD
DOI: 10.1016/j.cretres.2015.01.002
关键词
Late Cretaceous; Pacific dynamics; Plate reorganization; Seamount; East Asia tectonics; Intraplate deformation
资金
- National Key Basic Research Program of China Grants (973 Project) [2012CB822000]
- National Natural Science Foundation of China [41402171]
- National Science and Technology Major Project [2011ZX05009-001]
- Shandong Provincial Natural Science Foundation [ZR2013DQ013]
- High-End Foreign Experts Projects of Shandong Province [370020121005]
- Distinguished Professor Plan & Specialized Fund of China University of Petroleum (East China) [R1301003A]
- Fundamental Research Funds for the Central Universities (China) [13CX040338]
In Turonian/Coniacian time a major plate reorganization occurred in Pacific Ocean that resulted in synchronous climax of compression in Eastern Asia. At this time the spreading rate in the Farallon-Pacific-Izanagi center increased to its maximum, the Kula plate replaced the Izanagi plate, and the convergence angle between the Pacific and Eurasia plates experienced fast rotation. This geodynamic culmination was caused by the peak of overall extension of Pacific lithosphere which could be precisely fixed at similar to 89-87 Ma, based on the age/spatial patterns of the Cretaceous seamounts. The maximum of Pacific stretching induced the coeval westward compression both along subduction boundaries and in intraplate environment of Eastern Asia. We summarize and reevaluate the reliable geochronological data of the main Late Cretaceous geological events in Eastern Asia caused by the peak of Pacific dynamics. Increasing westward subduction and compression produced: (a) maximum of high-pressure metamorphism in the Cretaceous accretion units of Taiwan, Japan and Sakhalin islands, (b) immense subduction related volcanic belts extending along the northeast Asian boundary, (c) vast volumes of granitoids which were emplaced during the 95-85 Ma interval everywhere from Chukotka to Sikhote-Alin in Russia, throughout Japan, Korea and SE China. Thermochronological data suggest that (d) the Pacific-induced compression triggered uplift, exhumation and cooling of East China granites with the peak age of orogeny in Great Xing'an Range at 89-87 Ma. Simultaneously, as thermal history results revealed, (e) subsidence and burial heating in Cretaceous sedimentary basins inverted to cooling. This compressional peak is also well documented by (f) the similar to 88-86 Ma Qingshankou/Yaojia unconformity in the postrift successions of the lacustrine Songliao Basin. Seismostratigraphy study of the main (T11) unconformity shows huge, gentle folds whose apices were truncated by exposure and denudation caused by the westward compression. Thus the Pacific-induced deformation at similar to 87-89 Ma encompassed the whole eastern Asia from subduction boundary into the hinterland. (C) 2015 Elsevier Ltd. All rights reserved.
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