Your search keyword '"Xie, Shiwen"' showing total 8 results

1. Neoproterozoic Diamictite of the Luoquan Formation from the North China Block and Their Implications

Author

Sui, Peishan, Sun, Weidong, Han, Nan, Wang, Lei, Xie, Shiwen, Huang, Zihang, Wang, Xiaohong, Gong, Hongmei, Liu, Jin, Lin, Jinyan, and Xiao, Yuanyuan

Published

2023

2. Late Neoarchean synchronous TTG gneisses and potassic granitoids in southwestern Liaoning Province, North China Craton: Zircon U-Pb-Hf isotopes, geochemistry and tectonic implications.

Author

Xie, Hangqiang, Wan, Yusheng, Dong, Chunyan, Krӧner, Alfred, Xie, Shiwen, Liu, Shoujie, Ma, Minzhu, and Liu, Dunyi

Abstract

Abundant late Neoarchean granitoids occur in southwestern Liaoning Province, part of the Eastern Ancient Terrane of the North China Craton. These rocks include intermediate gneiss, TTG gneisses and potassic granitoids, and we report on the geochemistry and zircon SHRIMP ages as well as Hf-in-zircon isotopes of these granitoids in order to determine their petrogenesis. Field relationships suggest that most of these granitoids experienced widespread metamorphism and deformation, associated with anatexis at some localities. The intermediate gneisses, TTG gneisses and potassic granitoids were all emplaced at the end of the Neoarchean (2.50–2.53 Ga), and CL images document widespread recrystallization in the zircons. The intermediate and TTG gneisses yielded similar Hf isotopic systematics (ε Hf(t) = −3.73 to +6.42) as the associated potassic granitoids (ε Hf(t) = −2.44 to +7.80), and both rock types yielded mean Hf crustal model ages of 2.8–2.9 Ga. Combined with the geochemistry, we propose that the formation of the intermediate and TTG gneisses was related to partial melting of mafic rocks at different depth, whereas the potassic granitoids have variable petrogenesis. The nearly coeval TTG gneisses and potassic granitoids and their widespread metamorphism, deformation and zircon recrystallization suggest that a large-scale heat source must have been present at or near the base of the crust in southwestern Liaoning Province at the end of the Neoarchean. We propose that collision and post-collisional extension is the most likely tectonic environment for generation of the above granitoids, and the formation of widespread potassic granitoids played an important role in the maturation of continental crust in the North China Craton. Unlabelled Image • TTG gneisses and potassic granitoids show indistinguishable formation ages and Hf isotopes. • Widespread zircon recrystallization occurred immediately after formation of these granitoids. • A long-lived heat source is necessary for the formation and metamorphism of these granitoids. • Post-collision extension is the most likely environment for these granitoids. [ABSTRACT FROM AUTHOR]

Published

2019

3. Neoarchean to Paleoproterozoic high-pressure mafic granulite from the Jiaodong Terrain, North China Craton: Petrology, zircon age determination and geological implications.

Author

Liu, Shoujie, Jahn, Bor-ming, Wan, Yusheng, Xie, Hangqiang, Wang, Shijin, Xie, Shiwen, Dong, Chunyan, Ma, Mingzhu, and Liu, Dunyi

Abstract

The North China Craton is an ideal place for studying the transition of the Earth's thermal structure and tectonics at the Archean–Proterozoic boundary due to its good preservation of the ~ 2.5 Ga tectono-thermal events. We report the discovery of a high-pressure mafic granulite from the Jiaodong Terrain in the North China Craton. The mafic granulite occurs as garnet–clinopyroxene–orthopyroxene–hornblende gneiss enclaves within a late-Archean trondhjemite–tonalite–granodiorite (TTG) gneiss. Typical high-pressure mineral assemblage of garnet–clinopyroxene–plagioclase–quartz ± rutile has been identified. Plagioclase + clinopyroxene ± orthopyroxene ± hornblende symplectite surrounding garnet (“white eye”) is also observed. Using the conventional geothermobarometry and the pseudosection modeling, a clockwise metamorphic P–T path with the peak conditions at ~ 17 kbar and ~ 880 °C was determined. Zircon U–Pb analyses (SHRIMP) on the overgrowth rim of zircon grains of two samples from the same outcrop yielded a metamorphic age of 2473 ± 6 Ma (MSWD = 0.8). The analyses on magmatic core gave a probable magmatic age of 2527 ± 12 Ma (MSWD = 1.9). The high-pressure granulite facies metamorphism corresponds to a collisional event between the ~ 2.5 Ga crust and ~ 2.9 Ga crust at the dawn of Paleoproterozoic in the North China Craton. It also represents a new but rare case of a subduction–collision tectonics at the Archean–Proterozoic transition and provides insight into the change of the Earth's thermal structure. [ABSTRACT FROM AUTHOR]

Published

2015

4. Early Neoarchean (∼2.7 Ga) tectono-thermal events in the North China Craton: A synthesis.

Author

Wan, Yusheng, Xie, Shiwen, Yang, Chonghui, Kröner, Alfred, Ma, Mingzhu, Dong, Chunyan, Du, Lilin, Xie, Hangqiang, and Liu, Dunyi

Subjects

*STRUCTURAL geology, *CRATONS, *TONALITE, *CONTINENTAL crust

Abstract

Highlights: [•] ∼2.7 Ga rocks have been identified in eight areas of the North China Craton. [•] They are mainly tonalitic in composition and frequently underwent late alteration. [•] Their formation was a result of juvenile additions to the continental crust. [•] The North China Craton is similar in main period of crustal growth to other cratons. [ABSTRACT FROM AUTHOR]

Published

2014

5. Sr–Nd isotopic and geochemical constraints on provenance of late Paleozoic to early cretaceous sedimentary rocks in the Western Hills of Beijing, North China: Implications for the uplift of the northern North China Craton

Author

Xie, Shiwen, Wu, Yuanbao, Gao, Shan, Liu, Xiaochi, Zhou, Lian, Zhao, Laishi, and Hu, Zhaochu

Subjects

*ISOTOPE geology, *ANALYTICAL geochemistry, *SEDIMENTARY rocks, *CRETACEOUS Period, *PALEOZOIC stratigraphic geology, *CRATONS

Abstract

Abstract: Late Paleozoic to Mesozoic strata, which were deposited in the Western Hills of Beijing, North China, recorded the contemporary tectonic evolution of the northern part of the North China Craton (NCC). Fine-grained sandstones and siltstones of these strata were analyzed for their major and trace element concentrations and Sr–Nd isotope compositions. Their La/Sc, Th/Sc, La/Co, Th/Co and Cr/Th ratios are similar to those of sediments derived from felsic source rocks, indicating that the original source materials were mostly intermediate to acidic rocks. Their εNd(0) values show dramatic shifts, implying changes in provenances from the Late Paleozoic to the Early Cretaceous. The εNd(0) values of the Late Paleozoic and the Late Jurassic to Early Cretaceous formations are very low. Whereas, the εNd(0) values of the Xingshikou and the Xiaoyaopo formations are much higher, indicating that a juvenile component has been added into their sources. Based on the Sr–Nd isotope compositions, the Late Paleozoic and the Late Jurassic to Early Cretaceous samples fall in the Paleozoic to Mesozoic magmatic rocks distributed in the northern part of the NCC. However, the Sr–Nd isotope compositions of the Xingshikou and the Xiayaopo formations vary between the Xing-Meng Orogenic Belt (XMOB) and the north part of the NCC components. These changes can be interpreted by the complex uplift and exhumation history of the northern NCC from the Late Paleozoic to the Early Cretaceous. During the Late Carboniferous, the uplift of the Inner Mongolia Paleo-uplift (IMPU), which probably commenced at the Late Carboniferous, might supply detrital materials to the Late Paleozoic strata. In the Late Triassic, the uplift of the XMOB and IMPU was responsible for the mixing source of the Xingshikou Formation. After that, the northern XMOB became the main source of the Xiayaopo Formation, resulting from the uplift of the XMOB due to the collision of Siberia and North China–Mongolia plates during the Middle to Late Jurassic. Finally, the uplift of the YFTB, which occurred from the Late Jurassic to Early Cretaceous, provided the source materials and blocked the input of the XMOB components. [Copyright &y& Elsevier]

Published

2012

6. The complexities of zircon crystllazition and overprinting during metamorphism and anatexis: An example from the late Archean TTG terrane of western Shandong Province, China.

Author

Dong, Chunyan, Xie, Hangqiang, Kröner, Alfred, Wang, Shijin, Liu, Shoujie, Xie, Shiwen, Song, Zhiyong, Ma, Mingzhu, Liu, Dunyi, and Wan, Yusheng

Subjects

*ZIRCON analysis, *CRATONS, *METAMORPHIC rocks, *METAMORPHISM (Geology), *SEDIMENTATION & deposition

Abstract

There are different viewpoints on metamorphic and anatectic zircons recording ages of 2.45–2.48 Ga or even younger in some areas of the North China Craton where both late Neoarchean and late Paleoproterozoic tectono-thermal events are well developed. These are: 1) partial resetting of the U-Pb isotopic system in the late Neoarchean zircons, 2) metamorphism lasting from the late Neoarchean to the earliest Paleoproterozoic, and 3) earliest Paleoproterozoic metamorphism as separate different event. Western Shandong Province is an area where the late Neoarchean tectono-thermal event is widely developed but the late Paleoproterozoic event has not been identified. This provides an opportunity to understand the geological processes around the Archean-Proterozoic boundary. Based on a field study, we carried out SHRIMP U-Pb zircon dating on seventeen samples of ∼2.5 Ga old metamorphic and anatectic rocks, including tonalite, trondhjemite, granodiorite, gabbro, quartz diorite, granite and paragneiss with primary emplacement or depositional ages of 2.52–2.68 Ga. Anatectic zircons show some textural and compositional features: a) Homogenous or blurred oscillatory zoning, b) high U contents and low in Th/U ratios (commonly <0.3), c) rare idiomorphic morphologies, and d) commonly containing inherited (xenocrystic) cores. We conclude that the strong late Neoarchean event is widespread in western Shandong and is limited between ∼2.50 and 2.54 Ga. In contrast, apparent 2.45–2.48 Ga metamorphic zircon ages in some other areas of the North China Craton may be the result of overprinting and partial recrystallization of Neoarchean metamorphic zircons during the late Paleoproterozoic event. The Archaean rocks of western Shandong can be divided into three belts, namely Belts A, B and C from the northeast to the southwest. The difference between Belts A and B in ∼2.5 Ga metamorphic and anatectic intensity may indicate that the former was elevated to a higher crustal level compared with the latter at the end of the Neoarchean. [ABSTRACT FROM AUTHOR]

Published

2017

7. A ca. 2.60 Ga tectono-thermal event in Western Shandong Province, North China Craton from zircon U–Pb–O isotopic evidence: Plume or convergent plate boundary process.

Author

Ren, Peng, Xie, Hangqiang, Wang, Shijin, Nutman, Allen, Dong, Chunyan, Liu, Shoujie, Xie, Shiwen, Che, Xiaochao, Song, Zhiyong, Ma, Mingzhu, Liu, Dunyi, and Wan, Yusheng

Subjects

*ZIRCON, *CRATONS, *MANTLE plumes, *OXYGEN isotopes, *NEOARCHAEAN

Abstract

Voluminous Neoarchean plutonic and supracrustal rocks are well developed in the Western Shandong Province of the North China Craton, which has been divided into a late Neoarchean crustally-derived granite belt, a middle to early Neoarchean ancient rock belt and a late Neoarchean juvenile rock belt. Earlier studies provided reconnaissance evidence for ∼2.60 Ga metamorphism in some areas. This study presents SHRIMP zircon U–Pb dating and O isotope analysis on nine metamorphosed igneous rock samples (gneissic tonalite, gneissic trondhjemite, gneissic quartz diorite and meta-gabbro) from the ancient rock belt. Magmatic zircons vary in age from 2.74 Ga to 2.60 Ga, whereas metamorphic and anatectic zircons vary in age from 2.63 Ga to 2.59 Ga, with an age peak of 2.61 Ga. In this study, we identified 2.69–2.67 Ga metamorphic zircons for the first time. Most of zircons, whether magmatic or metamorphic, have δ 18 O values of +4.5‰ to +6.5‰ (V-SMOW). However, the oldest tonalite sample with a protolith age of 2735 Ma has zircons showing low δ 18 O (V-SMOW) values, particularly in recrystallized domains and overgrowths. This suggests at least in local crustal extension and influx of meteoric water during the evolution of the rocks. Combined with data from earlier studies, we draw the conclusion that the Western Shandong Province experienced a regional tectono-thermal event at ∼2.60 Ga, as a result of high heat flow and crustal extension, perhaps caused by a mantle plume or mantle overturn activity. Therefore we conclude that 2.60 Ga can be regarded the break between early and late Neoarchean crustal accretion. The O isotope study indicates that in some cases, trondhjemitic leucosome was not derived from nearby gneissic tonalite, although they show a close relationship in outcrop. [ABSTRACT FROM AUTHOR]

Published

2016

8. Middle Neoarchean magmatism in western Shandong, North China Craton: SHRIMP zircon dating and LA-ICP-MS Hf isotope analysis.

Author

Wan, Yusheng, Dong, Chunyan, Wang, Shijin, Kröner, Alfred, Xie, Hangqiang, Ma, Mingzhu, Zhou, Hongying, Xie, Shiwen, and Liu, Dunyi

Subjects

*NEOARCHAEAN, *MAGMATISM, *HAFNIUM isotopes, *PLATE tectonics, *METAMORPHIC rocks, *ZIRCON

Abstract

Western Shandong Province is a typical area of the North China Craton (NCC) where Neoarchean plutonic and supracrustal rocks are widely distributed. Early studies documented that ∼2.7 Ga and ∼2.5 Ga magmato-tectono-thermal events are well developed in the area. Here we report SHRIMP U–Pb ages and Hf-in-zircon isotopic data from ten samples of different magmatic rock types including hornblendite, gneissic tonalite, gneissic trondhjemite and gneissic granite. Magmatic zircon grains have 207 Pb/ 206 Pb ages ranging from 2667 to 2598 Ma. Some rocks contain ∼2.5 Ga metamorphic rims and ∼2.7 Ga zircon cores. The magmatic zircon grains have ɛ Hf ( t ) values and Hf crustal model ages of −1.1 to +11.3 and 3.02–2.4 Ga, respectively. Combined with an earlier study, our main conclusions are that the middle Neoarchean rocks mainly occur together with early Neoarchean rocks in the northeastern portion of the central belt. Juvenile additions to continental crust and crustal recycling played important roles in the middle Neoarchean of western Shandong Province, and the entire Neoarchean tectonic evolution can be divided into middle to early Neoarchean (2.75–2.6 Ga) and late Neoarchean (2.6–2.5 Ga) events. [ABSTRACT FROM AUTHOR]

Published

2014