Your search keyword '"Fan, Jian-Jun"' showing total 170 results

1. Late Jurassic–Early Cretaceous Rebangco ophiolite, Tibet: Constraints on the Meso-Tethys Ocean tectonic evolution

Author

Bai, Jia-Wei, Fan, Jian-Jun, Hao, Yu-Jie, Zhang, Bo-Chuan, and Sun, Si-Lin

Published

2024

2. Hotspot–subduction zone interactions and their resource effects at ∼120 Ma on the central Tibetan Plateau

Author

Bai, Jia-Wei, Fan, Jian-Jun, Zhan, Ye, Zhang, Bo-Chuan, Sun, Si-Lin, and Hao, Yu-Jie

Published

2024

3. The Meso-Tethys Ocean: The nature, extension and spatial-temporal evolution

Author

Fan, Jian-Jun, Zhang, Bo-Chuan, Zhou, Jian-Bo, Niu, Yaoling, Sun, Si-Lin, Lv, Jun-Pu, Wang, Yang, and Hao, Yu-Jie

Published

2024

4. Tectonic evolution of the Meso-Tethys Ocean in the Jurassic: Birth, growth, and demise of a missing intra-oceanic arc

Author

Zhang, Bo-Chuan, Fan, Jian-Jun, Luo, An-Bo, Zeng, Xiao-Wen, Duan, Men-Long, and Sun, Si-Lin

Published

2023

5. Middle−Late Jurassic subduction erosion caused by intra-oceanic arc subduction in central Tibet

Author

Zhang, Bo-Chuan, primary, Fan, Jian-Jun, additional, Luo, An-Bo, additional, Sun, Si-Lin, additional, and Bai, Jia-Wei, additional

Published

2024

6. Cretaceous uplift history of the Tibetan Plateau: Insights from the transition of marine to terrestrial facies in central Tibet

Author

Luo, An-Bo, Fan, Jian-Jun, Zhang, Bo-Chuan, and Hao, Yu-Jie

Published

2022

7. The first identified oceanic core complex in the Bangong–Nujiang suture zone, central Tibet: New insights into the early Mesozoic tectonic evolution of the Meso-Tethys Ocean

Author

Zhang, Bo-Chuan, Fan, Jian-Jun, Luo, An-Bo, and Zeng, Xiao-Wen

Published

2022

8. Terminal stage of divergent double subduction: Insights from Early Cretaceous magmatic rocks in the Gerze area, central Tibet

Author

Luo, An-Bo, Fan, Jian-Jun, Sun, De-You, Wu, Hao, Yu, Yun-Peng, Zhang, Bo-Chuan, and Shen, Di

Published

2022

9. Late Eocene palaeogeomorphology and uplift process of the Central Tibetan Plateau: Constraints from intermediate-felsic magmatic rocks

Author

Zhang, Bo-Chuan, Fan, Jian-Jun, Liu, Hai-Yong, Luo, An-Bo, and Li, Hang

Published

2022

10. From arc-continent collision to ocean closure: Lower Cretaceous Shamuluo Formation in the western segment of the Bangong–Nujiang suture zone, central Tibet

Author

Luo, An-Bo, Fan, Jian-Jun, Zhang, Bo-Chuan, Zhang, Jian-Zhen, Li, Hang, and Duan, Meng-Long

Published

2021

11. Late Jurassic–Early Cretaceous magmatic activity in the Central Lhasa Terrane: Petrogenesis and implications for the initial subduction of the Slainajap oceanic lithosphere

Author

Wu, Hao, Fan, Jian-Jun, Jiang, Zi-Qi, Hao, Yu-Jie, and Luo, An-Bo

Published

2021

12. Middle–late Permian mantle plume/hotspot–ridge interaction in the Sumdo Paleo-Tethys Ocean region, Tibet: Evidence from mafic rocks

Author

Wang, Bin, Xie, Chao-Ming, Dong, Yong-Sheng, Fan, Jian-Jun, Yu, Yun-Peng, and Duan, Meng-Long

Published

2021

13. Timing of the Meso-Tethys Ocean opening: Evidence from Permian sedimentary provenance changes in the South Qiangtang Terrane, Tibetan Plateau

Author

Fan, Jian-Jun, Niu, Yaoling, Luo, An-Bo, Xie, Chao-Ming, Hao, Yu-Jie, and Liu, Hai-Yong

Published

2021

14. Resolving the nature and evolution of the Bangong−Nujiang Tethyan Ocean: New perspectives from the intraplate oceanic-island fragments preserved in Northern Tibet

Author

Fan, Jian-Jun, primary, Zhang, Bo-Chuan, additional, Niu, Yaoling, additional, Luo, An-Bo, additional, and Hao, Yu-Jie, additional

Published

2023

15. Tracing the sedimentary response to the rifting and opening of the Meso‐Tethys Ocean

Author

Fan, Jian‐Jun, primary, Zhang, Bo‐Chuan, additional, Niu, Yaoling, additional, Luo, An‐Bo, additional, and Hao, Yu‐Jie, additional

Published

2023

16. Early Cretaceous Ridge Subduction along the Southern Margin of the Qiangtang Terrane : New Evidence from the Yanqiang Ling Fragmented Ophiolite, Central Tibet

Author

Xu, Wei, Wang, Ming, Li, Cai, Fan, Jian-Jun, Chen, Jing-Wen, Peng, Hu, Zhang, Tian-Yu, and Wang, Wei

Published

2018

17. Petrogenesis of early Late Cretaceous Asa-intrusive rocks in central Tibet, western China: post-collisional partial melting of thickened lower crust

Author

Luo, An-Bo, Wang, Ming, Li, Cai, Xie, Chao-Ming, Fan, Jian-jun, Zhang, Tian-Yu, Liu, Jin-Heng, and Wang, Wei

Published

2019

18. Genesis and tectonic setting of Middle Permian OIB-type mafic rocks in the Sumdo area, southern Lhasa terrane

Author

Wang, Bin, Xie, Chao-Ming, Fan, Jian-Jun, Wang, Ming, Yu, Yun-Peng, Dong, Yu-Chao, and Hao, Yu-Jie

Published

2019

19. Geochemistry and geochronology of gabbros from the Asa Ophiolite, Tibet: Implications for the early Cretaceous evolution of the Meso-Tethys Ocean

Author

Zeng, Xiao-Wen, Wang, Ming, Fan, Jian-Jun, Li, Cai, Xie, Chao-Ming, Liu, Yi-Ming, and Zhang, Tian-Yu

Published

2018

20. Zircon U–Pb geochronology and geochemistry of Early Jurassic granodiorites in Sumdo area, Tibet: Constraints on petrogenesis and the evolution of the Neo-Tethyan Ocean

Author

Yu, Yun-Peng, Xie, Chao-Ming, Fan, Jian-Jun, Wang, Ming, Dong, Yu-Chao, Wang, Bin, and Hao, Yu-Jie

Published

2018

21. Tracing the sedimentary response to the rifting and opening of the Meso‐Tethys Ocean.

Author

Fan, Jian‐Jun, Zhang, Bo‐Chuan, Niu, Yaoling, Luo, An‐Bo, and Hao, Yu‐Jie

Subjects

*OCEAN, *RIFTS (Geology), *SEDIMENTARY rocks, *PETROLOGY, *SEDIMENTOLOGY, GONDWANA (Continent)

Abstract

Knowledge of the rifting and opening process of the Meso‐Tethys Ocean is important for understanding the evolution of the Tethys tectonic domain and for an in‐depth understanding of Tethys dynamics. Sedimentary rocks are faithful recorders of surface expressions of tectonic events and are thus expected to have recorded the rifting and opening of the Meso‐Tethys Ocean. This study presents petrography, sedimentology, zircon U–Pb geochronological data and Hf isotope data for the Carboniferous–Permian Shiquanhe stratigraphic succession in the Lhasa Terrane of the Tibetan Plateau. The data indicate that the 300 to 273 Ma Lagar and Angjie formations in the lower section of the Carboniferous–Permian Shiquanhe succession were deposited in the stable passive margin of northern Gondwana with sediment sources in Gondwanaland. However, the 273 to 252 Ma Xiala Formation in the upper section of the Carboniferous–Permian Shiquanhe succession was deposited in a tectonically active setting characterized by intense magmatic activity. Considering the transition from the Lagar and Angjie formations to the Xiala Formation, a significant change in depositional setting from tectonically stable to tectonically active occurred at ca 273 Ma. Similar Early–Middle Permian changes in depositional setting have also been identified in the South Qiangtang, Baoshan and Oman regions in the Tethyan tectonic domain. These widespread changes in depositional setting, together with Early–Middle Permian tectonic uplift and episodes of subsidence, as well as rift‐related magmatism in the South Qiangtang, Baoshan, Himalayan, Zagros, Oman and Turkey regions once located in northern Gondwana, constitute a complete record of continental rifting–ocean opening associated with the diachronous opening of the Meso‐Tethys Ocean during the Early–Middle Permian. [ABSTRACT FROM AUTHOR]

Published

2024

22. The Middle Triassic evolution of the Bangong–Nujiang Tethyan Ocean: evidence from analyses of OIB-type basalts and OIB-derived phonolites in northern Tibet

Author

Fan, Jian-Jun, Li, Cai, Liu, Jin-Heng, Wang, Ming, Liu, Yi-Ming, and Xie, Chao-Ming

Published

2018

23. Genetic pattern of the Albian volcanic rocks in the Ziruco area, Northern Tibet: Implications for A-type granites

Author

Zhang, Bo-Chuan, primary, Fan, Jian-Jun, additional, and Luo, An-Bo, additional

Published

2023

24. Petrology and U–Pb zircon geochronology of bimodal volcanic rocks from the Maierze Group, northern Tibet: Constraints on the timing of closure of the Banggong–Nujiang Ocean

Author

Fan, Jian-Jun, Li, Cai, Xie, Chao-Ming, Wang, Ming, and Chen, Jing-Wen

Published

2015

25. Editorial preface to special issue: From Prototethys to Neotethys: Deep time paleobiogeographic and paleogeographic evolution of blocks in the Qinghai-Tibet Plateau

Author

Zhang, Yi-chun, primary, Zhai, Qing-guo, additional, Fan, Jian-jun, additional, Song, Pei-ping, additional, and Qie, Wen-kun, additional

Published

2022

26. Reconstructing in space and time the closure of the middle and western segments of the Bangong–Nujiang Tethyan Ocean in the Tibetan Plateau

Author

Fan, Jian-Jun, Li, Cai, Wang, Ming, and Xie, Chao-Ming

Published

2017

27. Study on Power-Enhanced Technology of Global Navigation Satellites

Author

Fan, Jian-jun, Li, Chun-xia, Yuan, Liang, Niu, Fei, Sun, Jiadong, editor, Liu, Jingnan, editor, Yang, Yuanxi, editor, and Fan, Shiwei, editor

Published

2012

28. MiR-335 inhibits migration of breast cancer cells through targeting oncoprotein c-Met

Author

Gao, Yue, Zeng, Fan, Wu, Jia-Yan, Li, Hai-Yu, Fan, Jian-Jun, Mai, Li, Zhang, Ji, Ma, Dong-Mei, Li, Yun, and Song, Fang-zhou

Published

2015

29. Improvement of Sinter Properties With Ultra Fine-Sized Iron Concentrate by HPRG

Author

Fan, Jian-jun, Qiu, Guan-zhou, Jiang, Tao, Guo, Yu-feng, and Mu, Ke-lang

Published

2013

30. Effect of Raw Material Purity on Structure and Properties of Metallic Glasses

Author

Ding, Rui Xian, primary, Kou, Sheng Zhong, additional, Fan, Jian Jun, additional, and Jiang, Ye, additional

Published

2021

31. Process Parameters Study on Structure and Properties of Zr-Based Bulk Metallic Glasses

Author

Fan, Jian Jun, primary, Kou, Sheng Zhong, additional, Ding, Rui Xian, additional, and Jiang, Ye, additional

Published

2021

32. Characterization of the interaction between cationic Erbium (III)–porphyrin complex with bovine serum albumin

Author

Lu, Xi-Liang, Fan, Jian-Jun, Liu, Yi, and Hou, An-Xin

Published

2009

33. Mechanism of high pressure roll grinding on compression strength of oxidized hematite pellets

Author

Fan, Jian-jun / 范建军, Qiu, Guan-zhou / 邱冠周, Jiang, Tao / 姜涛, Guo, Yu-feng / 郭宇峰, Hao, Hai-zheng / 郝海正, and Yang, Yong-bin / 杨永斌

Published

2012

34. Roasting Properties of Pellets With Iron Concentrate of Complex Mineral Composition

Author

Fan, Jian-jun, Qiu, Guan-zhou, Jiang, Tao, Guo, Yu-feng, and Cai, Mei-xia

Published

2011

35. Porphyrin and Galactosyl Conjugated Micelles for Targeting Photodynamic Therapy

Author

Wu, De-Qun, Li, Ze-Yong, Li, Cao, Fan, Jian-Jun, Lu, Bo, Chang, Cong, Cheng, Si-Xue, Zhang, Xian-Zheng, and Zhuo, Ren-Xi

Published

2010

36. Timing of closure of the Meso-Tethys Ocean: Constraints from remnants of a 141–135 Ma ocean island within the Bangong–Nujiang Suture Zone, Tibetan Plateau

Author

Fan, Jian-Jun, primary, Niu, Yaoling, additional, Liu, Yi-Ming, additional, and Hao, Yu-Jie, additional

Published

2021

37. Middle Permian adakitic granite dikes in the Sumdo region, central Lhasa terrane, central Tibet: Implications for the subduction of the Sumdo Paleo-Tethys Ocean

Author

Wang, Bin, primary, Xie, Chao-Ming, additional, Dong, Yong-sheng, additional, Fan, Jian-Jun, additional, Yu, Yun-Peng, additional, and Duan, Meng-long, additional

Published

2021

38. Supplemental Material: Timing of closure of the Meso-Tethys Ocean: Constraints from remnants of a 141–135 Ma ocean island within the Bangong–Nujiang Suture Zone, Tibetan Plateau

Author

Fan, Jian-Jun, primary and al., et, primary

Published

2020

39. Aptian Flysch in Central Tibet: Constraints on the Timing of Closure of the Bangong‐Nujiang Tethyan Ocean

Author

Luo, An‐Bo, primary, Fan, Jian‐Jun, additional, Hao, Yu‐Jie, additional, Li, Hang, additional, and Zhang, Bo‐Chuan, additional

Published

2020

40. Dating of detrital zircon grains and fossils from Late Palaeozoic sediments of the Baruo area, Tibet: constraints on the Late Palaeozoic evolution of the Lhasa terrane

Author

Wang, Ming, Zeng, Xiao-Wen, Xie, Chao-Ming, Awang Danzeng, Li, Cai, Fan, Jian-Jun, and Li, Hang

Abstract

To determine the Late Palaeozoic evolution of the Lhasa terrane, we report the results of field mapping, petrological and fossil investigations, and U–Pb dating of detrital zircon grains (n = 474) from lower-greenschist-facies clastic rocks of the Lagar Formation in the Baruo area, Tibet. Our results indicate that the Lagar Formation was deposited during the Late Carboniferous to Early Permian in a shallow-marine environment on the northern margin of Gondwana. Glacial marine diamictites are common within the Lagar Formation and record glaciation of Gondwana during the Late Palaeozoic. Moreover, the detrital materials of the Lagar formation originated mostly from the collision orogenic belt. The ages of detrital zircon grains from the Lagar Formation make up five main groups with ages of 410–540 Ma, 550–650 Ma, 800–1100 Ma, 1600–1800 Ma, and 2300–2500 Ma, which display three characteristic age peaks at ~1150, 2390 and 2648 Ma. We tentatively suggest that the Lhasa terrane was a shallow-marine basin under the influence of the Gondwanan glaciation during the Late Carboniferous–Early Permian.

Published

2019

41. Late Jurassic I-type rhyolites from the Duobuza region, north-central Tibet: evidence for the occurrence of juvenile lower crust and crustal growth in the Southern Qiangtang Terrane

Author

Dong, Yu-Chao, primary, Wang, Ming, additional, Fan, Jian-Jun, additional, Xie, Chao-Ming, additional, Yu, Yun-Peng, additional, and Hao, Yu-Jie, additional

Published

2019

42. Dating of detrital zircon grains and fossils from Late Palaeozoic sediments of the Baruo area, Tibet: constraints on the Late Palaeozoic evolution of the Lhasa terrane

Author

Wang, Ming, primary, Zeng, Xiao-wen, additional, Xie, Chao-Ming, additional, Danzeng, Awang, additional, Li, Cai, additional, Fan, Jian-Jun, additional, and Li, Hang, additional

Published

2019

43. Petrogenesis of the southern Qiangtang mafic dykes, Tibet: Link to a late Paleozoic mantle plume on the northern margin of Gondwana?

Author

Wang, Ming, primary, Li, Cai, additional, Zeng, Xiao-Wen, additional, Li, Hang, additional, Fan, Jian-Jun, additional, Xie, Chao-Ming, additional, and Hao, Yu-Jie, additional

Published

2019

44. Late Jurassic I-type rhyolites from the Duobuza region, north-central Tibet: evidence for the occurrence of juvenile lower crust and crustal growth in the Southern Qiangtang Terrane.

Author

Dong, Yu-Chao, Wang, Ming, Fan, Jian-Jun, Xie, Chao-Ming, Yu, Yun-Peng, and Hao, Yu-Jie

Subjects

TRACE elements, CONTINENTAL crust, PLAGIOCLASE, ZIRCON, LASER ablation inductively coupled plasma mass spectrometry, HORNBLENDE

Abstract

Previous studies of the Southern Qiangtang (SQ) Terrane in Tibet have shown significant growth of continental crust during the late Mesozoic (ca. 170–120 Ma) through underplating of mantle-derived melts beneath ancient lower crust. However, the mechanism of crustal growth remains defective during the Late Jurassic. In this contribution, we report new zircon U–Pb ages, whole-rock major and trace element concentrations, and zircon Hf isotopic compositions of Late Jurassic rhyolites from the Duobuza area in the SQ Terrane. Zircon LA–ICP–MS U–Pb dating yields concordant ages and weighted mean 206Pb/238U ages of 151–149 Ma, indicating that the rhyolites were erupted during the Late Jurassic. The rhyolite samples yield high SiO2 (69.1–73.4 wt.%) and Na2O (3.82–6.49 wt.%) concentrations, high values of the differentiation index (95.4–98.5), moderate Al2O3 (13.1–15.5 wt.%) and K2O (2.55–3.26 wt.%) concentrations, and relatively low TiO2 (0.34–0.44 wt.%), MgO (0.14–0.67 wt.%), and MnO (0.01–0.10 wt.%) concentrations and Mg# values (8.9–33.5). They are enriched in Rb, Th, Ba, and Pb, depleted in Nb, Ta, Sr, Ti, and P, and yield negative Eu anomalies. These characteristics suggest that the Duobuza rhyolites represent medium- to high-K calc-alkaline, highly fractionated I-type granitoids. Variations in major and trace element concentrations indicate that the rhyolites underwent significant fractionation of Fe–Ti oxides, plagioclase, K-feldspar, hornblende, biotite, and apatite. The samples yield positive zircon εHf(t) values (+0.08 to +10.9) and young TCDM model ages (816–386 Ma), indicating that they were generated through partial melting of juvenile lower crust of the SQ Terrane. These data are distinct from those of Late Jurassic intermediate–felsic plutons in the SQ Terrane that generally yield negative εHf(t) values and ancient TCDM model ages. We suggest that the occurrence of the Duobuza rhyolites is the significant witness. The presence of juvenile lower crust beneath the SQ Terrane during the Late Jurassic (ca. 150 Ma) rather than during the Early Cretaceous (ca. 120Ma). The transition from ancient to juvenile lower crust has already began in the SQ Terrane during the Late Jurassic. [ABSTRACT FROM AUTHOR]

Published

2020

45. Dating of detrital zircon grains and fossils from Late Palaeozoic sediments of the Baruo area, Tibet: constraints on the Late Palaeozoic evolution of the Lhasa terrane.

Author

Wang, Ming, Zeng, Xiao-wen, Xie, Chao-Ming, Danzeng, Awang, Li, Cai, Fan, Jian-Jun, and Li, Hang

Subjects

GONDWANA (Continent), ZIRCON, FOSSILS, CLASTIC rocks, GRAIN, OROGENIC belts, PALEOGEOGRAPHY

Abstract

To determine the Late Palaeozoic evolution of the Lhasa terrane, we report the results of field mapping, petrological and fossil investigations, and U–Pb dating of detrital zircon grains (n = 474) from lower-greenschist-facies clastic rocks of the Lagar Formation in the Baruo area, Tibet. Our results indicate that the Lagar Formation was deposited during the Late Carboniferous to Early Permian in a shallow-marine environment on the northern margin of Gondwana. Glacial marine diamictites are common within the Lagar Formation and record glaciation of Gondwana during the Late Palaeozoic. Moreover, the detrital materials of the Lagar formation originated mostly from the collision orogenic belt. The ages of detrital zircon grains from the Lagar Formation make up five main groups with ages of 410–540 Ma, 550–650 Ma, 800–1100 Ma, 1600–1800 Ma, and 2300–2500 Ma, which display three characteristic age peaks at ~1150, 2390 and 2648 Ma. We tentatively suggest that the Lhasa terrane was a shallow-marine basin under the influence of the Gondwanan glaciation during the Late Carboniferous–Early Permian. [ABSTRACT FROM AUTHOR]

Published

2020

46. Early Cretaceous MORB-type basalt and A-type rhyolite in northern Tibet: Evidence for ridge subduction in the Bangong–Nujiang Tethyan Ocean

Author

Fan, Jian-Jun, primary, Li, Cai, additional, Sun, Zhen-Ming, additional, Xu, Wei, additional, Wang, Ming, additional, and Xie, Chao-Ming, additional

Published

2018

47. The Middle Triassic evolution of the Bangong–Nujiang Tethyan Ocean: evidence from analyses of OIB-type basalts and OIB-derived phonolites in northern Tibet

Author

Fan, Jian-Jun, primary, Li, Cai, additional, Liu, Jin-Heng, additional, Wang, Ming, additional, Liu, Yi-Ming, additional, and Xie, Chao-Ming, additional

Published

2017

48. Early Cretaceous K-rich rhyolites from the Duolong Cu–Au deposit, southern Qiangtang, China: evidence for crustal growth

Author

Wang, Wei, primary, Wang, Ming, additional, Li, Cai, additional, Fan, Jian-Jun, additional, Xu, Wei, additional, and Dong, Yu-Chao, additional

Published

2017

49. Early Carboniferous ophiolite in central Qiangtang, northern Tibet: record of an oceanic back-arc system in the Palaeo-Tethys Ocean

Author

Zhang, Tian-Yu, primary, Fan, Jian-Jun, additional, Li, Cai, additional, Xie, Chao-Ming, additional, Wang, Ming, additional, Wu, Yan-Wang, additional, Xu, Meng-Jing, additional, Xu, Wei, additional, Liu, Jin-Heng, additional, and Luo, An-Bo, additional

Published

2017

50. Ordovician sedimentation and bimodal volcanism in the Southern Qiangtang terrane of northern Tibet: Implications for the evolution of the northern Gondwana margin

Author

Xie, Chao-ming, primary, Li, Cai, additional, Fan, Jian-jun, additional, and Su, Li, additional

Published

2017