Your search keyword '"Li, Jinyi"' showing total 6 results

1. Destruction of the Northern Margin of the North China Craton in Mid‐Late Triassic: Evidence from Asthenosphere‐derived Mafic Enclaves in the Jiefangyingzi Granitic Pluton from the Chifeng Area, Southern Inner Mongolia.

Author

LIU, Jianfeng, LI, Jinyi, CHI, Xiaoguo, ZHENG, Peixi, HU, Zhaochu, and ZHANG, Xiaowei

Subjects

*RARE earth metals, *IGNEOUS intrusions, *MAFIC rocks, *PETROLOGY, *GEOCHEMISTRY, *TRACE elements

Abstract

The petrology, geochronology and geochemistry of the mafic enclaves in the Mid‐Late Triassic Jiefangyingzi pluton from Chifeng area, southern Inner Mongolia, in China are studied to reveal their petrogenetic relationship with the host pluton. Furthermore, the coeval magmatic assemblage and its petrogenesis on the northern margin of the North China craton (NCC) are studied synthetically to elucidate their tectonic setting and the implications for the destruction of the NCC. Zircon U‐Pb dating reveals that the mafic enclaves formed at 230.4 ± 2.2 Ma, which is similar to the age of the host pluton. The most basic mafic enclaves belong to weak alkaline rocks, and they display rare earth element (REE) and trace element normalized patterns and trace element compositions similar to those of ocean island basalt (OIB). In addition, they have positive ∊Nd(t) values (+3.84 to +4.94) similar to those of the Cenozoic basalts on the northern margin of the NCC. All of these geochemical characteristics suggest that the basic mafic rocks originated from the asthenosphere. Petrological and geochemical studies suggest that the Jiefangyingzi pluton and the intermediate mafic enclaves were formed by the mixing of the asthenosphere‐derived and crust‐derived magmas in different degrees. The Mid‐Late Triassic magmatic rocks on the northern margin of the NCC could be classified into three assemblages according to their geochemical compositions: alkaline series, weak alkaline–sub‐alkaline series and sub‐alkaline series rocks. Petrogenetic analyses suggest that the upwelling of the asthenosphere played an important role in the formation of these Mid‐Late Triassic magmatic rocks. Basing on an analysis of regional geological data, we suggest that the northern margin of the NCC underwent destruction due to the upwelling of the asthenosphere during the Mid‐Late Triassic, which was induced by the delamination of the root of the collisional orogeny between Sino‐Korean and Siberian paleoplates in Late Permian. [ABSTRACT FROM AUTHOR]

Published

2020

2. Early Carboniferous High Ba‐Sr Granitoid in Southern Langshan of Northeastern Alxa: Implications for Accretionary Tectonics along the Southern Central Asian Orogenic Belt.

Author

ZHENG, Rongguo, LI, Jinyi, ZHANG, Jin, XIAO, Wenjiao, and LI, Yi

Subjects

*CONTINENTAL margins, *OROGENIC belts, *IGNEOUS intrusions, *GARNET, *ZIRCON, *MAGMAS

Abstract

Voluminous granitoids are widely distributed in the Langshan region, northeast of the Alxa block, and record the evolutionary processes of the southern Central Asian Orogenic Belt. The Dabashan pluton was emplaced into the Paleoproterozoic Diebusige complex. Early Carboniferous zircon LA‐ICP MS U‐Pb ages were from 327 Ma to 346 Ma. The Dabashan pluton can be classified as monzogranite and syenogranite, and exhibits high K2O contents and K2O/Na2O ratios, which reveal a high‐K calc‐alkaline nature. The samples display strongly fractionated REE patterns, and are enriched in large ion lithophile elements (LILE) relative to high field strength elements (HFSE). The Dabashan plutons display unusually high Ba (823–2817 ppm) and Sr (166–520 ppm) contents and K/Rb ratios (315–627), but low Rb/Ba ratios (0.02–0.14), and exhibit fertile zircon Hf isotopic compositions [εHf(t)=–14 to –20], which are comparable to those of typical high Ba–Sr granitoids. Based on the geochemical compositions of the samples, we suggest that subducted sediments and ancient crustal materials both played important roles in their generation. Basaltic melts were derived from partial melting of subcontinental lithophile mantle metasomatized by subducted sediment‐related melts with residual garnet in the source, which caused partial melting of ancient lower crust. Magmas derived from underplating ascended and emplaced in the middle–upper crust at different depths. The resultant magmas experienced some degree of fractional crystallization during their ascent. Given these geochemical characteristics, together with regional tectonic, magmatic, and structure analysis data, an active continental margin environment is proposed for the generation of these rocks. [ABSTRACT FROM AUTHOR]

Published

2019

3. Mesozoic-Cenozoic Multi-Stage Intraplate Deformation Events in the Langshan Region and their Tectonic Implications.

Author

ZHANG, Jin, LI, Jinyi, LI, Yanfeng, QI, Wenhua, and ZHANG, Yiping

Subjects

*CENOZOIC Era, *MESOZOIC Era, *CONGLOMERATE, *DEFORMATIONS (Mechanics), *THRUST

Abstract

In the Langshan region, northwestern China, marked multi-stage intraplate deformation events have occurred since the Mesozoic, including (1) northeast-striking ductile left-lateral strike slip during the Middle-Late Triassic, which is closely related to the collision between the North China and the Yangtze plates; (2) top-to-the-southeast thrust with northwest-southeast trending maximum compression during the Late Jurassic; (3) nearly eastward detachment during the Early Cretaceous; (4) top-to-the-northwest thrust with northwest-southeast trending maximum compression during the Late Cretaceous and Early Cenozoic; (5) northeast-striking brittle left-lateral strike slip with nearly north-south trending maximum compression; and (6) northwest-southeast extension during the Middle-Late Cenozoic. All these deformation events belong to the intraplate deformation across the entire Central Asian region and respond to the tectonic events along the plate boundaries or deep tectonics. The structures developed in early events in the crust were the most important factors controlling the later deformation styles, and few new structures have later developed. Based on previous research and our results, the paleostress inversion in the Langshan region shows that the Mesozoic intraplate deformations in the study region mainly resulted from the tectonic events from the Paleo-Pacific region and have no or a weak relation to the Tethys region. During the Late Jurassic, the maximum compression from the Mongolia-Okhotsk region cannot be excluded. The Langshan region is the bridge between southern Mongolia and the western Ordos tectonic belt and is thus important to understand the nature and relationship between both regions. [ABSTRACT FROM AUTHOR]

Published

2014

4. Structural Traces of Secondary Faults (Fractures) along the Main Faults and Their Reliability as Kinematic Indicators.

Author

ZHANG, Jin, LI, Jinyi, MA, Zongjin, and REN, Wenjun

Subjects

*SURFACE fault ruptures, *STATISTICAL reliability, *KINEMATICS, *SHEAR (Mechanics), *EARTH movements

Abstract

Secondary/minor structures occurring along the main fault surfaces are important indicators for judging the kinematic characteristics of faults. However, many factors can lead to the formation of these structures, which results in the difficulty for rapid judgment and application in the fields. A series of secondary faults/fractures developed due to the movement of main faults are the most important and widespread phenomena in the scope of brittle deformation. The morphology of the main fault surfaces is various, and former researchers mainly discussed the structures on the main even fault surfaces. However, the fluctuation of fault surfaces is the intrinsic character of the faults, and the intersection between the main fault and secondary faults/fractures can produce a series of kinematic indicators on the main fault surfaces. Based on previous studies and our observations, i.e. the structural traces of the P, R, R′, T and X shears/faults along the main faults, some indicators which are rarely reported previously, are described in the paper. Furthermore, their reliabilities are also discussed, and more practical and reliable criteria are brought forward. We suggest that the simple application of congruous and incongruous steps without knowing their exact origins should be abandoned in the fields, and several types of indicators along one fault surface should be checked with each other as much as possible. Meanwhile, the origins of some other arcuate indicators on the fault surfaces are also discussed, and new models are brought forward. [ABSTRACT FROM AUTHOR]

Published

2011

5. Petrology, Geochronology and Geochemistry of the Xar Moron River Ophiolite: Implications for the Tectonic Evolution of the Paleo‐Asian Ocean.

Author

LIU, Jianfeng, LI, Jinyi, ZHANG, Wenlong, and YIN, Dongfang

Subjects

*GEOCHEMISTRY, *PETROLOGY, *GEOLOGICAL time scales, *ISLAND arcs, *OROGENIC belts, *ACCRETIONARY wedges (Geology), *GEOLOGICAL surveys

Abstract

As the largest accretionary orogen, the crustal tectonic framework and evolution of the Central Asian Orogenic Belt (CAOB) have always been one of the hot topics among geologists (Sengör et al., 1993, 1996; Jahn et al., 2000a; Badarch et al., 2002; Windley et al., 2007; Li et al., 2009). The formation of the main part of the crust in the CAOB involved continuous lateral accretion of island arcs and accretionary complexes along the margins of the Siberian, Sino‐Korean and Tarim paleo‐continents and the final collision between these continental margins because of the subduction of the Paleo‐Asian Ocean plate since Mesoproterozoic. The ophiolites, which represent the fragments of ancient oceanic lithosphere, are the direct evidence for the study of the evolution of orogenic belts. Based on field geological survey, the mantle peridotite (serpentinite), gabbro, basalt and radiolarian bedded chert, which were deemed as the "ophiolite trinity", were identified as isolated blocks in the matrix of pelitic siltstone and silty mudstone in the Kedanshan, Xingshuwa and Jiujingzi areas along the Xar Monron River in southeast Inner Mongolia of China. Besides, there were plenty of other exotic blocks, such as limestone and sandstone, in the matrix. Both of the matrix and blocks underwent strong foliated deformation. All of these rocks above constitute a tectonic mélange. Zircon U‐Pb dating for the gabbro blocks in the Xingshuwa and Jiujingzi ophiolites reveals that they were formed in early Permian (275–280 Ma). The ages of the gabbros, together with the middle Permian radiolaria fossils in the chert reported by Wang and Fan (1997), indicate that the oceanic basin was not closed in early‐middle Permian. The geochemical compositions of the basaltic blocks distributed in different locations in the Xingshuwa tectonic mélange display different genetic types of normal mid‐ocean ridge basalt (N‐MORB), enriched mid‐ocean ridge basalts (E‐MORB), oceanic island basalt (OIB), island arc basalt and continental marginal arc basalt, which indicates what they represented is a complex oceanic basin. Combining with the studies on regional magmatism, strata and structure data, it is suggested that the Xar Moron River Ophiolite belt represented the final suture zone of the Paleo‐Asian Ocean in the southeast Inner Mongolia, and the ocean did not close before late Permian. [ABSTRACT FROM AUTHOR]

Published

2020

6. The Spatial-Temporal Distribution Patterns of Dyke Swarms in Central Asia and their Tectonic Significance: Case Studies in Eastern Tianshan and Western Junggar.

Author

FENG, Qianwen, LI, Jinyi, and LIU, Jianfeng

Subjects

*DIKES (Geology), *IGNEOUS intrusions, *MAGMAS, *REMOTE sensing

Abstract

The article discusses the formation of dykes, which is a special kind of intrusive rocks and are formed by deep magma intruded into the existing brittle fractures in the crust. It discusses the relevance between the distribution of dykes and regional tectonic boundaries in some regions including west and north coast of Balkhash Lake and Chingis-Taerbahatai which was revealed by remote sensing interpretation and field survey.

Published

2016