Qin Wang

Address:

School of Earth Sciences and Engineering           E-mail: qwang@nju.edu.cn

Nanjing University                                               Tel:  +86 25  83596887(o)

163 Xianlin Avenue                                              Fax:  +86 25 83680616

Nanjing 210023                                                    Mobile: +86 13705171970

China

Education:

Jan. 2001-Nov.2004:Département des génies civil, géologique et des mines, École Polytechnique de Montréal, Canada, Ph.D. degree in mineral engineering.

Sep.1996-Jun. 1999: Department of Earth Sciences, NanjingUniversity, China, Master in structural geology.

Sep. 1992-Jun.1996: Department of Earth Sciences, NanjingUniversity, China, Bachelor in geology.

Appointment:

Dec. 2011 – present: Professor of structural geology, Department of Earth and Planetary Sciences, School of Earth Sciences and Engineering, Nanjing University.

Dec. 2006 – Dec. 2011: Associate professor of structural geology, School of Earth Sciences and Engineering, Nanjing University.

Dec. 2004  –  Dec. 2006: Assistant professor of structural geology, Department of Earth Sciences, Nanjing University.

Academic awards and honors:

· DuPont Young Faculty Grant, DuPont Company, 2008

· Program for New Century Excellent Talents in University, honoredby the Ministry of Education of China., 2008

· Houdefeng Young Scientist, honored by the Society of Chinese Mineralogy, Petrology and Geochemistry, 2006

Recent projects as PI:

· Rheology and Rock Physics (The National Science Fund for Distinguished Young Scholars of NSFC, 2019.1-2023.12)

· Influence of water on rheological properties of common minerals and rocks and earthquake mechanisms in subduction zones (NSFC project, Jan. 2016–Dec. 2020)

· Structure of the continental crust and upper mantle in China and Yanshanian ore-forming geodynamics (July 2017-June 2021, funded by the Ministry of Science and Technology in China)

· Eruption of Late Permian continental flood basalts and a link with end-Permian massive extinction: From mantle to atmosphere (NSFC-RS international cooperation project, 2019.4-2021.3)

Scientific focus areas:

Rock physics and structural geology, especially in craton evolution, continental subduction and growth of the Tibetan plateau

International service:

Member of Science Advisory Group of International Continental Drilling Program (ICDP) (2013-2016)

Editorial member of Tectonophysics, Journal of Geodynamics since 2016

Associate editor of Journal of Geophysical Research-Solid Earth since 2019

Publication list (papers in English):

64. Wang, H. B., Huang, Z. C., Wang, Q., Zhao, D. P., Hu, X. M., 2026. New insights into plateau-craton interactions from P and S wave tomography beneath the northeastern Tibetan plateau. Earth and Planetary Science Letters, 684, 120004, https://doi.org/10.1016/j.epsl.2026.120004

63.  Wei, H. Z., Palmer, M. R., Xu, Z. Q., Zhu, W. B., Xu, X.S., Williams-Jones, A., Zheng, B. H., Gao, J. G., Wang, Q., Ma, J., Yang, K., Lin, H. F., Zuo D. S., 2026. Coupled anatexis and extreme differentiation are the keys for producing giant lithium-rich pegmatites. PNAS, 123, e2517372123, https://doi.org/10.1073/pnas.2517372123.

62. Koptev, A., Lavecchia, A., Cloetingh, S., Pons, M., Marzotto, E., Brune, S., Kovács, I., Tesauro M., Beekman, F., Wang, Q., Sobolev, S. V., Faccenna, C., Jolivet, L., 2026. Numerical modeling of purely active (plume‐produced) continental rifting and break‐up. Journal of Geophysical Research: Solid Earth, 131, e2025JB033048. https://doi.org/10.1029/2025JB033048

61. Wang, L., Wang, Q., Ruan, Y.*, 2025. Monitoring dynamic magma movement in the lower crust during the 2015 eruption of Axial Seamount. Journal of Geophysical Research: Solid Earth, 130, e2024JB030481. https://doi.org/10.1029/2024JB030481

60. Zhao, J., Wang, Q.*, Ruan, Y., Jiang, W., Webb, A. A. G., 2025. Structure,serpentinization and seismic reflectivity ofthe crust‐mantle boundary at fast‐ andintermediate‐spreading ridges. Journal ofGeophysical Research: Solid Earth, 130,e2025JB032120. https://doi.org/10.1029/2025JB032120.

59. Hurlow, R., Su, W., Zhou, W.Y., Lin, F., Miyagi, L., Officer, T., Yu, T., Wang Y. B., Wu, M., Wang, Q., Zhang, J. S.*, 2025. In situ deformation of antigorite-olivine two-phase mixtures: Implications for dynamics and seismic anisotropy in the mantle wedge. Earth and Planetary Science Letters, 672, 119719. https://doi.org/10.1016/j.epsl.2025.119719

58. Zhu, H. H.*, Wang, J., Ruan, Y. Y., Wang, Q., Cheng, G., Tan, D. Y., Yang, J. X., Shi, B., 2025. Real-time campus resilience monitoring with distributed acoustic sensing: A case study. Science China Technological Sciences, 68(10): 2020704, https://doi.org/10.1007/s11431-025-3030-7

57. Zhang, L.S., Hui, H. J., Wang, Q.*, Ionov, D. A., 2025. Partial melting-controlled water concentrations in the non-cratonic continental lithospheric mantle (Tariat region, Mongolia). Lithos, 516-517, 108258, https://doi.org/10.1016/j.lithos.2025.108258

56. Deng, X., Wang, Q. *, Lu, S., Wang, H., Lu, Z., Guo, X. Y., Li, H. Q., Gao, R.*, 2025. Fossil subduction zone beneath the eastern Yangtze Craton: Evidence from seismic reflections in the upper mantle. Geophysical Research Letters, 52, e2025GL114975. https://doi.org/10.1029/2025GL114975

55. Wu, M., Wang, Q.*, Wang, H., 2025. Thermal structure, fluid activity and earthquake mechanisms of oceanic subduction zones. Science China Earth Sciences, 68, https://doi.org/10.1007/s11430-024-1514-4

54. Wang, Q., Kopylova, M.G.*, Chen, Y., Yan, H., Kilgore, M. L., Peslier, A. H., Yang, J. 2025. Fabric transition of olivine as the cause for an anisotropic seismic discontinuity in the mantle of the northern Slave craton, Canada. Tectonophysics, 903, 230704, https://doi.org/10.1016/j.tecto.2025.230704

53. Xu, Z. Q.*, Yin, A., Xiang, H., Wang, Q.*, Li, G. W., Dong, H. W., Cao, H., Gao, J. G., 2025. Top-to-south shear at the base of the eastern Tethyan Himalayan Sequence during the Eocene-Oligocene Himalayan orogeny. Tectonophysics, 895, 230552. https://doi.org/10.1016/j.tecto.2024.230552

52. Xu, Z. Q.*, Li, H. B., Tian, Y. T., Wang, Q.*, Yu, C. Q., Li, G. W., Ji, S. C., Faure, M., Chevalier, M. L., 2024. Formation, reactivation and exhumation of the extruded basement wedge in the southern Longmen Shan, eastern Tibetan plateau. Journal of the Geological Society, 181,https://doi.org/10.1144/jgs2023-088

51. Deng, T., Hu, X. M.*, Chew, D., Wang, Q., Yu, J. H., Drakou, F., 2024. Sedimentological Evidence for Pre-Early Permian Continental Subduction in the Dabie Orogen, Central-East China. Tectonics, 43, doi: 10.1029/2023TC007839

50. Shatsky, V. S., Wang, Q., Ragozin, A. L., Su, W. H., Ilyin, A. A. 2024. Connection between tectonothermal events of the Yakutian kimberlite province and assembly of the Siberian craton. Precambrian Research, 405, doi: 10.1016/j.precamres.2024.107379

49. Demouchy, S., Wang, Q., Tommasi, A., 2023. Deforming the upper mantle – Olivine mechanical properties and anisotropy. Elements, 19, 151-157.

48. Su, W.H., Wang, Q.*, Kang, J., Song, X. Y., 2023. Proterozoic evolution of the Alxa block in western China: A wandering terrane during supercontinent cycles. Precambrian Research, 389, 107002, https://doi.org/10.1016/j.precamres.2023.107002.

47. Wang, Q.,* Sun, W. D., Faure, M., Li, H., 2023. From the Yanshan orogeny to Late Mesozoic multi-plate convergence in East Asia. Tectonophysics, 856, 229839, https://doi.org/10.1016/j.tecto.2023.229839.

46. Zhang, Z., Zheng, Q. F., Zhang, H., Wang, Q., Shi, Y. L., 2022. Late Mesozoic multi-plate convergence in East Asia: Insights from 3-D global mantle flow models. Tectonophysics 845, 229636, https://doi.org/10.1016/j.tecto.2022.229636

45. Ramírez-Salazar, A., Zuo, J., Muller, T., Webb, A. A.G., Sorger, D., Piazolo, S., Haproff, P., Harvey, J., Wang, Q., Hauzenberger, C., Wong, T. K., 2022. Reply to Comment by A.P. Nutman et al. on “Tectonics of the Isua Supracrustal Belt 1: P-T-X-d Constraints of a Poly-Metamorphic Terrane” by A. Ramírez-Salazar et al. and “Tectonics of the Isua Supracrustal Belt 2: Microstructures Reveal Distributed Strain in the Absence of Major Fault Structures” by J. Zuo et al. Tectonics, e2021TC007148. https://doi.org/10.1029/2021TC007148.

44. Shatsky, V. S.*, Ragozi, A. L.,Wang, Q., Wu, M.Q., 2022. Evidence of Eoarchean crustal remnants beneath the Yakutian kimberlite province in the Siberian craton. Precambrian Res., 106512

43. Jin, T. L., Wang, Q.*, Shatsky, V., Liao, Y., 2021. Water Content and Deformation of the Lower Crust beneath the Siberian Craton: Evidence from Granulite Xenoliths. Journal of Geology, 129, doi: 10.1086/716514

42. Xu, Z.*, Wang, Q.*, Dong, H., Cao, H., Li, G., Liang, F., Rai, S. M., Kylander-Clark, A., Adhikari, S., Ji, S., 2021. Middle Eocene-Oligocene anatexis and exhumation of the Greater Himalayan Sequence in central Nepal. Terra Nova, 00, 1–12. https://doi.org/10.1111/ter.12551

41. Hao, M., Zhang, J., Zhou, W.-Y., Wang, Q., 2021. Seismic visibility of eclogite in the Earth’s upper mantle—Implications from high pressure-temperature single-crystal elastic properties of omphacite. Journal of Geophysical Research: Solid Earth, 126, e2021JB021683. https://doi.org/10.1029/2021JB021683

40. Skuzovatov, S. Y., Shatsky, V. S., Wang, Q., Ragozin, A.L., Kostrovitsky, S. I., 2021. Multiple tectonomagmatic reactivation of the unexposed basement in the northern Siberian craton: from Paleoproterozoic orogeny to Phanerozoic kimberlite magmatism. International Geology Review, doi: 10.1080/00206814.2021.1916784

39. Zuo, J., Webb, A. A. G., Piazolo, S., Wang, Q., Müller, T., Ramírez-Salazar, A., Haproff, P. J., 2021. Tectonics of the Isua supracrustal belt 2: Microstructures reveal distributed strain in the absence of major fault structures. Tectonics, 40, e2020TC006514. https://doi.org/10.1029/2020TC006514

38. Gou, Y.R., Wang, Q.*, Li, Y., Wirth, R., 2020. Water Content in Garnet from Eclogites: Implications for Water Cycle in Subduction Channels. Minerals, 10, 410; doi:10.3390/min10050410.

37. Zhang, Y., Cai, Y. F., Qu, Y., Wang, Q., Gu, L., Li, G. J., 2020. Two-stage fluid pathways generated by volume expansion reactions: insights from the replacement of pyrite by chalcopyrite. Scientific Reports, https://doi.org/10.1038/s41598-020-76813-9.

36. Yu, M., Wang, Q*, Yang, J.S., 2019. Fabrics and water contents of peridotites in the Neotethyan Luobusa ophiolite, southern Tibet: implications for mantle recycling in supra-subduction zones. Journal of Geological Society, 176: 975-991. https://doi.org/10.1144/jgs2018-152.

35. Yao, Z., Qin, K., Wang, Q., Xue, S., 2019. Weak B‐type olivine fabric induced by fast compaction of crystal mush in a crustal magma reservoir. Journal of Geophysical Research: Solid Earth, 124. https://doi.org/10.1029/2018JB016728

34. Shatsky, V.S., Wang, Q., Skuzovatov, S.Yu., Ragozin, A.L., 2019. The crust-mantle evolution of the Anabar tectonic province in the Siberian Craton: Coupled or decoupled? Precambrian Research 332, 105388. https://doi.org/10.1016/j.precamres.2019.105388.

33. Ji, S., Wang, Q., Li, L., 2019. Seismic velocities, Poisson's ratios and potential auxetic behavior of volcanic rocks. Tectonophysics, 766, 270-282.

32. Machev, P., O’Bannon, E.F., Bozhilov, K.N., Wang, Q., Dobrzhinetskaya, L., 2018. Not all moissanites are created equal: New constraints on moissanite from metamorphic rocks of Bulgaria. Earth and Planetary Science Letters, 498, 387-396.

31. Dobrzhinetskaya, L., Mukhin, P., Wang, Q., Wirth, R., O'Bannon, E., Zhao, W., 2018. Moissanite (SiC) with metal-silicide and silicon inclusions from tuff of Israel: Raman spectroscopy and electron microscope studies. Lithos, 310-311, 355-368.

30. Zhang, W., Wang, Q.*, 2018. Permeability anisotropy and gas slippage of shales from the Sichuan Basin in South China. International Journal of Coal Geology 194, 22-32.

29. Shatsky, V.S., Malkovets, V.G., Belousova, E.A., Tretiakova, I. G., Griffin, W.L., Ragozin, A.L., Wang, Q., Gibsher, A.A., O’Reilly, S.Y., 2018. Multi-stage modification of Paleoarchean crust beneath the Anbar tectonic province (Siberia craton). Precambrian Research 305, 125-144.

28. Ni, H.W., Zheng, Y.F., Mao, Z., Wang, Q., Chen, R.X., Zhang, L., 2017. Distribution, cycling and impact of water in the Earth’s interior. National Science Review, 4, 879–891.

27. Zhang, W., Wang, Q.*, Ye, J., Zhou, J., 2017. Fracture development and fluid pathways in shales during granite intrusion. International Journal of Coal Geology, 183, 25-37.

26. Liao, J., Wang, Q., Gerya, T., Ballmer, M. D., 2017. Modeling craton destruction by hydration-induced weakening of the upper mantle. Journal of Geophysical Research: Solid Earth, 122, doi.org/10.1002/2017JB014157

25. Xu, Z.Q., Yang, J.S., Wang, C.S., An, Z.S., Li, H.B., Wang, Q.*, Su, D.*, 2017. Fifteen years of the Chinese Continental Scientific Drilling Program. Scientific Drilling, 22, 1–18.

24. Webb, A. A.G., Guo, H., Clift, P.D., Husson, L., Müller, T., Costantino, D., Yin, A., Xu, Z.Q., Cao, H., Wang, Q., 2017. The Himalaya in 3D: Slab dynamics controlled mountain building and monsoon intensification. Lithosphere, doi:10.1130/L636.1.

23. Wang, Q.*, 2016. Homologous temperature of olivine: Implications for creep of the upper mantle and fabric transition in olivine. Science China Earth Sciences, doi: 10.1007/s11430-016-5310-z.

22. Wang, Q.*, Bagdassarov, N., Shatsky, V.S., 2016. Origin of high-velocity anomalies beneath the Siberian craton: A fingerprint of multistage magma underplating since the Neoarchean. Russian Geology and Geophysics, 57, 713-722.

21. Shen, L.W., Yu, J.H., O’Reilly, S.Y., Griffin, W.L., Wang, Q., 2016. Widespread Paleoproterozoic basement in the eastern Cathaysia Block: Evidence from metasedimentary rocks of the Pingtan–Dongshan metamorphic belt, in southeastern China. Precambrian Research, 285, 91-108.

20. Li, X., Wang, Q.*, Zhang, W., Yin, H., 2016. Contact metamorphism of shales intruded by a granite dike: implications for shale gas preservation. International Journal of Coal Geology, 159, 96-106.

19. Xu, Z.*, Wang, Q.*, Cai, Z., Dong, H., Li, H., Chen, X., Duan, X., Cao, H., Li, J., Burg, J.-P., 2015. Kinematics of the Tengchong Terrane in SE Tibet from the late Eocene to early Miocene: Insights from coeval mid-crustal detachments and strike-slip shear zones. Tectonophysics 665, 127-148.

18. Wang, Q.*, Bagdassarov, N., Xia, Q., Zhu, B., 2014. Water contents and electrical conductivity of peridotite xenoliths from the North China Craton: Implications for water distribution in the upper mantle. Lithos, 189, 105-126.

17. Liao, J., Gerya, T., Wang, Q., 2013. Layered structure of the lithospheric mantle changes dynamics of craton extension. Geophysical Research Letters, 40, 5861–5866, doi:10.1002/2013GL058081.

16. Wang, Q.*, Bagdassarov, N., Ji, S., 2013. The Moho as a transition zone: A revisit from seismic and electrical properties of minerals and rocks. Tectonophysics, 609, 395-422.

15. Wang, Q.*, Xia, Q.K., O’Reilly, S.Y., Griffin, G.L., Beyer, E.E., Brueckner, H. K., 2013. Pressure- and stress-induced fabric transition in olivine from peridotites in the Western Gneiss Region (Norway): implications for mantle seismic anisotropy. Journal of Metamorphic Geology, 31, 91-111.

14. Xu, Z.Q.*, Wang, Q.*, Pêcher, A., Liang, F.H., Qi, X.X., Cai, Z.H., Li, H.Q., Zeng, L.S., Cao, H., 2013. Orogen-parallel extension and extrusion of the Greater Himalaya in the late Oligocene and Miocene. Tectonics, 32, doi:10.1002/tect.20021.

13. Yu, J.-H., Liu, Q., Hu, X.M., Wang, Q., O’Reilly, S.Y., 2013. Late Paleozoic magmatism in South China: Oceanic subduction or intracontinental orogeny? Chinese Science Bulletin 58, 788-795.

12. Mao, X.L., Wang, Q.*, Liu, S.W.*, Xu, M.J., Wang, L.S., 2012. Effective elastic thickness and mechanical anisotropy of South China and surrounding regions. Tectonophysics, 550-553, 47-56.

11. Liu, Q., Yu, J.-H., Wang, Q., Su, B., Zhou, M.-F., Xu, H., Cui, X., 2012. Ages and geochemistry of granites in the Pingtan–Dongshan Metamorphic Belt, Coastal South China: New constraints on Late Mesozoic magmatic evolution. Lithos 150, 268-286.

10. Wang, Q., 2010. A review of water contents and ductile deformation mechanisms of olivine: implications for the lithosphere–asthenosphere boundary of continents. Lithos 120, 30-41.

9. Wang, Q.*, Burlini, L., Mainprice, D., Xu, Z.Q., 2009. Geochemistry, petrofabrics and seismic properties of eclogites from the Chinese Continental Scientific Drilling boreholes in the Sulu UHP terrane, eastern China. Tectonophysics, 475, 251-266.

8. Xu, Z.Q., Wang, Q.*, Tang, Z.M., Chen, F.Y., 2009. Fabric kinematics of ultrahigh-pressure metamorphic rocks from the main borehole of the Chinese Continental Scientific Drilling Project: implications for continental subduction and exhumation. Tectonophysics, 475, 235-250.

7. Xu, Z.Q., Yang, W.C., Ji, S.C., Zhang, Z.M., Yang, J.S., Wang, Q., Tang, Z.M., 2009. Deep root of a continent–continent collision belt: Evidence from the Chinese Continental Scientific Drilling (CCSD) deep borehole in the Sulu ultrahigh-pressure (HP–UHP) metamorphic terrane, China. Tectonophysics, 475, 204-219.

6. Ji, S.C., Wang, Q., Xu, Z.Q., 2007. Reply to the comments of S. Karato on “Petrofabrics and seismic properties of garnet peridotites from the UHP Sulu terrane (China)”. Tectonophysics, 429, 291-296.

5. Xu, Z.Q., Wang, Q., Ji, S.C., Chen, J., Zeng, L.S., Yang, J.S., Chen, F.Y., Liang, F.H., Wenk, H.R., 2006. Petrofabrics and seismic properties of garnet peridotite from the UHP Sulu terrane (China): Implications for olivine deformation mechanism in a cold and dry subducting continental slab. Tectonophysics, 421, 111-127.

4. Wang, Q., Ji, S.C., Salisbury, M., Xia, B., Pan, M., Xu, Z.Q., 2005. Shear wave properties and Poisson’s ratios of ultrahigh-pressure metamorphic rocks from the Dabie-Sulu orogenic belt, China: implications for the crustal composition. Journal of Geophysical Research, 110, doi:10.1029/2004JB003435.

3. Wang, Q., Ji, S.C., Salisbury, M., Pan, M., Xia, B., Xu, Z.Q., 2005. Pressure dependence and anisotropy of P-wave velocities in ultrahigh-pressure metamorphic rocks from the Dabie-Sulu orogenic belt (China): implications for seismic properties of subducted slabs and origin of mantle reflections. Tectonophysics, 398, 67-99.

2. Ji, S.C., Wang, Q., Xia, B., Marcotte, D., 2004. Mechanical properties of multiphase materials and rocks: a phenomenological approach using generalized means. Journal of Structural Geology, 26, 1377-1390.

1. Ji, S.C., Wang, Q., Xia, B. 2003. P-wave velocities of polymineralic rocks: comparison of theory and experiment and test of elastic mixture rules. Tectonophysics,366, 165-185.

Publication in Chinese with English abstract:

1. Yao Y, Wang Q. 2026. Effects of large igneous provinces on the continental crustal structure, continental break-up and global climate changes[J]. Reviews of Geophysics and Planetary Physics, 57(1): 27-50 (in Chinese). DOI: 10.19975/j.dqyxx.2024-021

2. JI Yinlin, ZHANG Supeng, ZHU Honghu, ZHANG Zhenyu，SONG Xianzhi，WANG Qin. Mechanisms and control techniques of friction-permeability coupling of rock discontinuities in deep underground engineering: state of the art and future perspectives[J]. Journal of Mining and Strata Control Engineering, 2025, 7(6): 063541. DOI:  10.13532/j.jmsce.cn10-1638/td.2025-1186

3. ZUO Dasheng, YANG Ke,WEI Haizhen, WANG Qin, JIANG Shaoyong, LIN Hefeng,HUAN Chun, XU Zhiqin,2024.Crystallization kinetics and thermodynamics of granitic pegmatite and metallogenic mechanisms of rare metals in pegmatite. Acta Geologica Sinica. 98(5), 1489-1506.

4. ZHANG JinHan, WANG Qin. 2024. Experimental progress on elastic wave properties of sandstones and shales. Progress in Geophysics, 39(1):141-161. doi: 10.6038/pg2024HH0058

5. LI Peidong, WANG Qin, WU Meiqian.2024. Heterogeneous strain distribution in a continental subduction channel: Records from ultrahigh- pressure metamorphic rocks in the Dabie Mountains[J]. Acta Geologica Sinica,98(1):50-78.

6. ZHENG QunFan, ZHANG Huai, WANG Qin, ZHANG Zhen, SHI YaoLin. 2023. Upper mantle anisotropy and dynamics beneath Cenozoic South China and its surroundings: insights from numerical simulation. Chinese Journal of Geophysics (in Chinese), 66(5): 2007-2018, doi: 10.6038/cjg2022P0780

7. Bin Shi, Baoshan Wang, Chengcheng Zhang, Kai Gu, Youyi Ruan, Guangwei Li, Qin Wang, Guangqing Wei, Dan Zhang, Honghu Zhu, Gang Cheng, Yong Chen,2022.Multi-physical distributed fiber optic observation in a 3211-m-deep scientific borehole at Jiajika lithium mine,western Sichuan. Chinese Science Bulletin,67,2719-2726.

8. Lu Jingwen, Wang Qin, Liu Chun. 2022. Numerical modelling of fracture development and thermal structure of host rocks during emplacement of granitic magma. Acta Geologica Sinica, 96(10): 3619~3638.

9. CHEN Yao, WANG Qin. Calculating Equilibrium Temperatures and Pressures of Peridotite Xenoliths from the Slave Craton in Canada[J]. Geological Journal of China Universities, 2022, 28(4): 457-472.

10. Yan Weihao, Wang Qin, Li Weiqiang. 2022. Behavior of Mg-Fe-C-O isotopes at the contact zone between marble and eclogite in subduction zones. Acta Geologica Sinica, 96(2): 500~516.

11. XU Zhiqin, ZHENG Bihai, WANG Qin.2021. From accretion to collision: situation and outlook[J]. Acta Geologica Sinica,95(1):75-97．

12. Jin Tianlong，Wang Qin,2021. Deformation mechanisms and frictional properties of rocks in active faults:Insights from the San Andreas Fault. Journal of Geology, 45, 375-383.

13. GU Xiaotong, WANG Qin. Microstructure and Effective Viscosity of Ultrahigh-Pressure Metamorphic Rocks from the Dabie Mountains[J]. Geological Journal of China Universities, 2020, 26(6): 601-616.

14. ZHENG Zhong，WANG Qin. Research Progress on Ordering and Rheological Properties of Dolomite[J]. Acta Metallurgica Sinica, 2020, 26(2): 197-208.

15. Xu, X., Wang, Q., 2019. The Hualiangting-Mituo ductile shear zone in the Dabie Mountains: Implications for oblique and differential Exhumation of ultrahigh-pressure metamorphic slices. Geological Journal of China Universities, 25, 182–196.

16. Xu, Z.Q., Wang, Q., Sun, W.D., Li, Z.H., 2018. The spherical structure of the Earth and across-sphere structures. Geological Review, 64, 261-282.

17. Yan, H.J., Wang, Q., 2018. In situ water contents of olivine from combined electron backscatter diffraction and Fourier transform infrared analysis. Geological Journal of China Universities, 24, 1-12.

18. Xu, Z.Q., Wang, Q., Li, Z.H., et al., 2016. Indo-Asian collision: Tectonic transition from compression to strike slip. Acta Geologica Sinica 90, 1-23.

19. Zhang, W., Wang, Q.*, Yang, X.S., Duan, Q.B., Ye, J. G., Li, X., Zhou, J., 2015. Porosity and permeability of Paleozoic mudstone and shale in the Yangtze block. Natural Gas Geosciences, 26, 1534-1539

20. LI Xia, WANG Qin, HUANG Zhi-cheng,2015. A review of pore structures of shales and characteristics of pores in the Paleozoic shales from the Lower Yangtze region. Journal of Geology, 39, 13-24.

21. Men, Q., Wang, Q.*, Bagdassarov, N., Xia, Q.-K., Fan, Q.-C., 2013. The electrical conductivity of garnet pyroxenite: Implications for magmatic underplating. Acta Petrologica et Mineralogica, 32, 652-662.

22. XU Zhiqin, WANG Qin, ZENG Lingsen, LIANG Fenghua, LI Huaqi, QI Xuexiang, CAI Zhihui, LI Zonghai, CAO Hui, 2013.Three-dimensional extrusion model of the Great Himalaya slice. GEOLOGY IN CHINA, 3, 671-680.

23. Xu, H., Wang, Q.*, Ma Z., Zhou, F., Wang, L., 2011. Seismic Properties of Typical Rocks in South China. Geological Journal of China Universities, 17, 469-478.

24. Liu, Q., Yu, J.H., Su, B., Wang, Q., Tang, H.F, Xu, H., Cui, X., 2011. Discovery of the 187 Ma granite in Jincheng area, Fujian Province: Constraint on Early Jurassic tectonic evolution of southeastern China. Acta Petrologica Sinica, 27, 3575-3589.

25. Xu, Z.Q., Wang, Q., Liang, F.H., Chen, F.Y., Xu, C.P., 2009. Electron backscatter diffraction (EBSD) technique and its application to study of continental dynamics. Acta Petrologica Sinica, 25, 1721-1736.

26. Zhu, B.B., Wang, Q.*, Wang, L.S., Chen, L.H., Zhang, H.F., 2009. Water content of peridotite xenoliths from Cenozoic basalt in Yangyuan, Hebei Province. Geological Journal of China Universities, 15, 263-272.

27. Wang, Q.*, Ji, S.C., Xu, Z.Q., 2007. Lattice-preferred orientation, water content and seismic anisotropy of olivine: implications for deformation environment of continental subduction zones. Acta Petrologica Sinica, 23(12), 3065-3077.

28. Ji, S.C., Wang, Q., Wang, Q., Xu, Z.Q., 2007. Correlation between elastic properties and density for Sulu-Dabie UHP metamorphic rocks. Acta Petrologica Sinica, 23(12), 3054-3064.

29. Wang, Q., 2007. Experimental and theoretical study on seismic properties of rocks. Bulletin of Mineralogy, Petrology and Geochemistry, 26 (2), 118-126.

30. Xu, Z.Q., Wang, Q., Chen, F.Y., Liang, F.H., Tang, Z.M., 2006. Fabric kinematics of eclogite and deep continental subduction: EBSD study of eclogite from the main hole of the Chinese Continental Scientific Drilling Project. Acta Petrologica Sinica, 22, 1799-1809.

31. Wang, Q., Ji, S.C., Xu, Z.Q., Salisbury, M., Xia, B., Pan, M., 2005. Seismic properties of eclogites: implications on crustal composition and exhumation mechanism of the Sulu ultrahigh-pressure metamorphic belt. Acta Petrologica Sinica, 21, 451-464.

32. Xu, Z.Q., Chen, J., Wang Q., Zeng, L.S., Yang, J.S., Chen, F.Y., Li, T.F., Liang, F.H., 2005. Type-C olivine fabric in the Zhimafang garnet peridotite of the southern Sulu ultrahigh-pressure metamorphic terrane: Formation conditions and tectonic implications. Acta Petrologica Sinica, 21, 389-398.

33. Wang, Q., Lu, H., Wang, L., Xu, M., Hu, D., Ji, S.C., 2004. 2-D gravity modeling and integrated interpretation of the Kuqa Foreland Basin, Northwest China. Geological Journal of China Universities, 10, 227-238.

34. WANG Liangshu, LI Cheng, LIU Shaowen, LI Hua, XU Mingjie, WANG Qin,GE Rui, JIA Chengza, WEI Guoqi, 2003. GEOTEMPERATURE GRADIENT DISTRIBUTION OF KUQA FORELAND BASIN, NORTHOFTARIM, CHINA. Chinese Journal of Geophysics (in Chinese), 2003, 46(3): 403-407.

35. Wang, Q., Xu, M., He, S. Hu, D., 2000. Magnetic anomaly inversion of Kuqa-Tazhong-Tanan profile and the basement evolution in the Tarim basin. Geological Journal of Chinese Universities, 6, 34-39.

Book:

Ji, S.C., Wang, Q., Xia, B. 2002. Handbook of Seismic Properties of Minerals, Rocks and Ores.Polytechnic International Press, Montreal, Canada, 630 pp.

Ji, S. C., Wang, Q., 2025. Atlas of Deformation Structures for Common Minerals and Rocks. Geological Publishing House, 261pp. in Chinese.