《岩浆作用与青藏高原形成》团队 · TibetZhu

75. Liu, X.M.*, Liu, L.*, Zhu, D.C., Cawood, P. A., Blum, M. D., Zhang, L.L., Wang, Y., Lu, Y., Wang, Q., Chang, Y.X., & Stockli, D. F. , 2025. Erasure of zircon rims by sediment transport after two orogenic cycles. Geology. [PDF]


74. Liu, Z.*, Jagoutz, O., Molitor, Z., Ramezani, J., & Zhu, D.C. , 2025. Crustal section in the New England Appalachians records polybaric fractional crystallization-driven magma differentiation. Earth and Planetary Science Letters 671, 119647. [PDF]


73. Li, H.J., Hu, Z.Z., Zhang, L.L.*, Xie, J.C., Zhu, D.C., Wang, Q., Xu, W.T., Xu, L.J., Guo, W., Wu, J. , 2025. Two potential natural calcite reference materials for laser in situ Sr isotope analysis. Journal of Analytical Atomic Spectrometry 40(9), 2296-2305. [PDF]


72. Zhou, Z.G., Liu, Z.*, Wang, Q.*, Zhu, D.C., Cawwod, P.A., An, Y., Liu, L., Zhang, L.L., Xie, J.C., 2025. Compositional diversity of continental arc magmatism caused by variable degrees of mantle melting: A Gangdese case study. Lithos 494-495, 107935. [PDF]


71. Xie, J.C.*, Zhu, D.C., Wang, Q., Zhang, L.L., Xu, W.T., Zhang, T.S., 2024. A Natural Tourmaline Reference Material for LA-MC-ICP-MS B and Sr Isotopic Determinations. Atomic Spectroscopy 45(6), 490-497. [PDF]


70. Xie, J.C.*, Zhu, D.C.*, Wang, Q., Cawood, P.A., Zhao, Z.D., Zhan, Q.Y., Fan, J.H., Wang, Y., 2024. Generation of isotopically enriched giant Lincang Batholith by disequilibrium melting of the heterogeneous lower crust. Lithos 488-489,107803. [PDF]


69. Yang, S., Zhang, L.L.*, Wang, R.*, Zhu, D.C., Xie, J.C., Wang, Q., Xu, W.T.,   2024.   Application of high-resolution laser multi collector ICP-MS U–Pb dating to columbite-group minerals with compositional zonation: reassessment of matrix effects among columbite-group minerals. Journal of Analytical Atomic Spectrometry 39, 2421-2432. [PDF]


68. Wang, F., Wang, Q.*, Zhu, D.C., Li, S.M., Cawood, P.A., Wang, R.Q., Yi, J.K., Zhang, L.L., Xie, J.C., 2024. Early Cretaceous intrusive rocks in the Gangdese arc of southern Tibet do not support shallow subduction of the Neo-Tethyan oceanic lithosphere. Lithos 472-473, 107551. [PDF]


67. Lu, Y.,, Zhang, L.L.*, Liu, L.*, Zhu, D.C., Xie, J.C., Wang, Q., 2024. A Zircon LA-ICPMS reverse depth profiling analysis method and its geological application. Journal of Analytical Atomic Spectrometry 39, 829. [PDF]


66. An, Y., Li, S.M.*, Zhu, D.C.*, Cawood, P.A., Wang, Q., Xie, J.C., Zhang, L.L., and Zhao, Z., 2024. Compositional change from high-Mg to low-Mg magmatism at ca. 150 Ma in the central Lhasa terrane, Tibet: Switching from advancing to retreating subduction of the Bangong Tethyan slab.   GSA Bulletin, https://doi.org/10.1130/b36719.1. [PDF]


65. Zhang, L.L.*, Zhu, D.C.*, Xie, J.C., Wang, Q., Kamo, S., Rochın-Bañaga, H., Xiao, Y., 2023. TARIM calcite: a potential reference material for laser ICPMS in situ calcite U-Pb dating. Journal of Analytical Atomic Spectrometry 38, 2302. [PDF]


64. Duan, L.J., Zhang, L.L.*, Zhu, D.C., Xie, J.C., Wang, Q., Wu, S.T., Xu, W.T., Kamo, S., Shi, G.H.*, 2023. MAP-2 apatite: A new young age reference material for U-Pb dating with LA-ICPMS analysis. International Journal of Mass Spectrimetry 493, 117121. [PDF]


63. Zhu, D.C.*, Wang, Q., Weinberg, R.F., Cawood, P.A., Zhao, Z.D., Hou, Z.Q., Mo, X.X., 2023. Continental Crustal Growth Processes Recorded in the Gangdese Batholith, Southern Tibet. Annual Review of Earth and Planetary Sciences 51, 155-188. [PDF]


62. Duan, L.J., Zhang, L.L.*, Zhu, D.C.*, Yang, Y.H., Xie, J.C., Wang, Q., Wu, S.T., Huang, C., Li, C., Xu, W.T., Kamo, S., Xu, L.J., Pan, C.X., Shi, G.H.*, 2023. Apatite MAP-3: a new homogeneous and low common lead natural reference for laser in situ U-Pb dating and Nd isotope analysis. Journal of Analytical Atomic Spectrometry 38, 1478. [PDF]


61. Xie, J.C.*, Zhu, D.C.*, Wang, Q., Zhang, L.L., 2023. Zirconium isotopic composition of zircon reference materials by laser ablation multi-collector inductively coupled plasma mass spectrometry. International Journal of Mass Spectrometry 484, 116995. [PDF]


60. Zhu, D.C.*, Wang, Q., Weinberg, R.F., Cawood, P.A., Chung, S.L., Zheng, Y.F., Zhao, Z.D., Hou, Z.Q., 2022. Interplay between oceanic subduction and continental collision in building continental crust. Nature Communications 13, 7141. [PDF]

59. Xie, J.C.*, Zhu, D.C.*, Wang, Q., Zhang, L.L., Cong, F., Nie, F., Lu, Y.H., Liu, L.,   2022. Ban-1 Zircon: A New Natural Zircon Reference Material for LA-MC-ICP-MS Zr and Hf Isotopic Determinations. Geostandards and Geoanalytical Research, doi: 10.1111/ggr.12468. [PDF]


58. Liu, Z., Zhu, D.C.*, Rezeau, H., Jagoutz, O., Wang, Q., Eyuboglu, Y., 2022. Late Cretaceous Transition From Calc-Alkaline to Alkaline Magmatism in the Eastern Anatolian Plateau: Implications for Microblock Collision Timing. Journal of Petrology 63, 1-24. [PDF]


57. Li, S.M., Wang, Q., Zhu, D.C.*, Cawood, P.A., Stern, R.J., Zhao, Z.D., 2022. Formation of continental crust by diapiric melting of recycled crustal materials in the mantle wedge. Geophysical Research Letters 49, e2021GL097515. [PDF]


56. Liu, L., Zhu, D.C.*, Wang, Q., Cawood, P.A., Stockli, D.F., Stockli, L.D., Lin, C., Zhang, J.J., Zhang, L.L., Zhao, Z.D., 2022. Leucogranite Records Multiple Collisional Orogenies. Geophysical Research Letters 49, e2021GL096817. [PDF]


55. Liu, X., Zhan, Q.Y.*, Zhu, D.C., Weinberg, R.F., Wang, Q., Xie, J.C., Zhang, L.L., Liu, L., Zhao, Z.D., 2022. Large zircon age spans record multi-stage history of batholith assembly: Insights from the Late Triassic Dongcuo batholith in the eastern Tibetan Plateau. Journal of Asian Earth Sciences 23(1),105220. [PDF]


54. Yi, J.K., Zhu, D.C.*, Weinberg, R.F., Wang, Q., Xie, J.C., Zhang, L.L., Zhao, Z.D., 2022. Origin of Tibetan post-collisional high-K adakitic granites: Anatexis of intermediate to felsic arc rocks. Geology 50(7), 771–775 [PDF]


53. Zhan, Q.Y., Zhu, D.C.*, Weinberg, R.F., Wang, Q., Xie, J.C., Zhang, L.L., Zhao, Z.D., 2022. Cumulate granites: A perspective from new apatite MgO partition coefficients. Geology 50(6), 681–685 [PDF]


52. Liu, A.L., Wang, Q.*, Zhu, D.C., Cawood, P.A., Xia, Y., Li, S.M., Liu, S.A., Huang, F., Liu, L., Zhao, Z.D., Mo, X.X., 2022. Temporal and spatial variations of enriched source components in Linzizong volcanic succession, Tibet, and implications for the India-Asia collision. Journal of Petrology 63(2), egab103. [PDF]


51. Zhang, L.L.*, Zhu, D.C.*, Yang, Y.H., Wang, Q., Xie, J.C., Zhao, Z.D., 2021. U–Pb geochronology of carbonate by laser ablation MC-ICPMS: Method improvements and geological applications. Atomic Spectroscopy 42(6), 335348. [PDF]


50. Xu, W., Zhu, D.C.*, Wang, Q., Weinberg, R.F., Wang, R., Li, S.M., Zhang, L.L., Zhao, Z.D., 2021. Cumulate mush hybridization by melt invasion: Evidence from compositionally diverse amphiboles in ultramafic–mafic arc cumulates within the eastern Gangdese batholith, southern Tibet. Journal of Petrology 62(11), egab073. [PDF]


49. Wang, Q.*, Zhu, D.C., Cawood, P.A., Chung, S.L., Zhao, Z.D., 2021. Resolving the paleogeographic puzzle of the Lhasa Terrane in southern Tibet. Geophysical Research Letter 48(15), e2021GL094236. [PDF]

48. Liu, Z., Zhu, D.C.*, Wang, Q., Cawood, P.A., Ma, A.L., Eyuboglu, Y., Wu, F.Y., Zhao, Z.D., 2022. Was there an exchange of detritus between the northern and southern Black Sea terranes in the Mesozoic-early Cenozoic? Gondwana Research 104, 154171. [PDF]


47. Xu, W., Zhu, D.C.*, Wang, Q., Roberto, R.F., Wang, R., Li, S.M., Zhang L.L., Zhao, Z.D., 2020. Mafic microgranular enclaves formed by gas-driven filter pressing during rapid cooling: an example from the Gangdese Batholith in southern Tibet. Journal of Petrology 61(1112), egab003. [PDF]


46. Zhan, Q.Y., Zhu, D.C.*, Wang, Q., Cawood, P.A., Xie, J.C., Liu, X., Li, S.M., Zhang, L.L., Zhao, Z.D., 2021.   Imaging the Late Triassic lithospheric architecture of the Yidun Terrane, eastern Tibetan Plateau: Observations and interpretations. GSA Bulletin 133(1112), 22792290. [PDF]


45. Shuai, X., Li, S.M.*, Zhu, D.C., Wang, Q., Zhang, L.L., Zhao, Z.D., 2021. Tetrad effect of rare earth elements caused by fractional crystallization in high-silica granites: An example from Central Tibet. Lithos 384385, 105968. [PDF]


44. Song, S.W., Zhu, D.C.*, Wang, Q., Cawood, P.A., Zhan, Q.Y., Li, S.M., Zhang, L.L., Zhao, Z.D., 2022. Generation of syn-collisional S-type granites in collision zones: An example from the Late Triassic Tanggula Batholith in northern Tibet. Gondwana Research 104, 185198. [PDF]


43. Chen, S.R., Wang, Q.*, Zhu, D.C., Weinberg, R.F., Zhang, L.L., Zhao, Z.D., 2021. Reheating and magma mixing recorded by zircon and quartz from high-silica rhyolite in the Coqen region, southern Tibet. American Mineralogist 106, 112–122. [PDF]


42. Liu, Z., Zhu, D.C.*, Jagoutz, O., Rezeau, H., Wang, Q., Eyuboglu, Y., 2020. Magmatic evolution following damp tholeiitic and wet calc-alkaline liquid lines of descent: An eastern Pontides (NE Turkey) example. Journal of Petrology 62(5), egaa088. [PDF]


41. Xia, Y., Wang Q., Zhu, D.C.*, Ernst, R.E., Zhang, S.Q., Liu, D., Zhao, Z.D., 2020. Intermediate rocks in the Comei large igneous provinces produced by amphibole crystallization of tholeiitic basaltic magma. Lithos 374–375, 105731. [PDF]


40. Zhan, Q.Y., Zhu, D.C.*, Wang, Q., Weinberg, R.F., Xie, J.C., Li, S.M., Zhang, L.L., Zhao, Z.D. 2020. Source and pressure effects in the genesis of the Late Triassic high Sr/Y granites from the Songpan-Ganzi Fold Belt, eastern Tibetan Plateau. Lithos 368–369, 105584. [PDF]


39. Xie, J.C., Zhu, D.C.*, Wang, Q., Zhao, Z.D., Zhang, S.Q., 2020. Compositional changes of granitoids from the Menglian Batholith in SW China at ca. 122 Ma: Implications for the origin of decoupled Nd-Hf isotopic compositions and crust generation in collision zones. Lithos 364–365,105550. [PDF]







38. Li, S.M., Wang, Q., Zhu, D.C.*, Cawood, P.A., Stern, R.J., Weinberg, R.F., Zhao, Z.D., Mo, X.X., 2020. Reconciling orogenic drivers for the evolution of the Bangong‐Nujiang Tethys during Middle‐Late Jurassic. Tectonics 39, e2019TC005951. [PDF]


37. Xu, W., Zhu, D.C.*, Wang, Q., Weinberg, R.F., Wang, R., Li, S.M., Zhang, L.L., Zhao, Z.D., 2019. Constructing the Early Mesozoic Gangdese crust in southern Tibet by hornblende-dominated magmatic differentiation. Journal of Petrology 60, 515–55. [PDF]


36. Zhang, L.L.*, Zhu, D.C., Wang, Q., Zhao, Z.D., Liu, D., Xie, J.C., 2019. Late Cretaceous volcanic rocks in the Sangri area, southern Lhasa Terrane, Tibet: Evidence for oceanic ridge subduction. Lithos 326–327, 144–157. [PDF]


35. Zhang, L.X., Wang, Q.*, Zhu, D.C., Li, S.M., Zhao, Z.D., Zhang, L.L., Chen, Y., Liu, S.A., Zheng, Y.C., Wang, R., Liao, Z.L., 2019. Generation of leucogranites via fractional crystallization: A case from the Late Triassic Luoza batholith in the Lhasa Terrane, southern Tibet. Gondwana Research 66, 6376. [PDF]


34. Zhan, Q.Y., Zhu, D.C.*, Wang, Q., Cawood, P.A., Xie, J.C., Li, S.M., Wang, R., Zhang, L.L., Zhao, Z.D., Deng, J., 2018. Constructing the eastern margin of the Tibetan Plateau during the Late Triassic. Journal of Geophysical Research: Solid Earth 123, 1044910459. [PDF]


33. Zhu, D.C.*, Wang, Q., Chung, S.L., Cawood, P.A., Zhao, Z.D., 2019. Gangdese magmatism in southern Tibet and India-Asia convergence since 120 Ma. Geological Society, London,Special Publications 483, 583–604. [PDF]


32. Liu, Z., Zhu, D.C.*, Wang, Q., Eyuboglu, Y., Zhao, Z.D., Liu, S.A., Xu, L.J., 2018. Transition from low-K to high-K calc-alkaline magmatism at approximately 84 Ma in the eastern Pontides (NE Turkey): Magmatic response to slab rollback of the Black Sea. Journal of Geophysical Research: Solid Earth 123, 76047628. [PDF]


31. Yi, J.K., Wang, Q.*, Zhu, D.C., Li, S.M., Liu, S.A., Wang, R., Zhang, L.L., Zhao, Z.D., 2018. Westward-younging high-Mg adakitic magmatism in central Tibet: Record of a westward-migrating lithospheric foundering beneath the Lhasa–Qiangtang collision zone during the Late Cretaceous. Lithos 316317, 92103. [PDF]


30. Liu, A.L., Wang, Q.*, Zhu, D.C., Zhao, Z.D., Liu, S.A., Wang, R., Dai, J.G., Zheng, Y.C., Zhang, L.L., 2018. Origin of the ca. 50 Ma Linzizong shoshonitic volcanic rocks in the eastern Gangdese arc, southern Tibet. Lithos 304307, 374387.[PDF]


29. Wang, Q.*, Zhu, D.C., Liu, A.L., Cawood, P.A., Liu, S.A., Xia, Y., Chen, Y., Wang, H., Zhang, L.L., Zhao, Z.D., 2018. Survival of the Lhasa Terrane during its collision with Asia due to crust-mantle coupling revealed by ca. 114 Ma intrusive rocks in western Tibet. Lithos 304307, 200210. [PDF]


28. Li, S.M., Wang, Q., Zhu, D.C.*, Stern, R.J., Cawood, P.A., Sui, Q.L., Zhao, Z.D. 2018. One or two Early Cretaceous arc systems in the Lhasa Terrane, southern Tibet. Journal of Geophysical Research: Solid Earth 123, 3391–3413. [PDF]


27. Zhu, D.C.*, Wang, Q., Zhao, Z.D., 2017. Constraining quantitatively the timing and process of continent-continent collision using magmatic record: Method and examples. Science China - Earth Sciences 60, 10401056. [PDF]


26. Zhu, D.C.*, Wang, Q., Cawood, P.A., Zhao, Z.D., Mo, X.X., 2017. Raising the Gangdese Mountains in southern Tibet. Journal of Geophysical Research - Solid Earth 122, 214–223.[PDF]

25. Li, S.M., Zhu, D.C*., Wang, Q., Zhao, Z.D., Zhang, L.L., Liu, S.A., Chang, Q.S., Lu, Y.H., Dai, J.G., Zheng, Y.C., 2016. Slab-derived adakites and subslab asthenosphere-derived OIB-type rocks at 156 ± 2 Ma from the north of Gerze, central Tibet: Records of the Bangong–Nujiang oceanic ridge subduction during the Late Jurassic. Lithos 262, 456–469. [PDF]


24. Xie, J.C., Zhu, D.C*., Dong, G.C., Zhao, Z.D., Wang, Q., Mo, X.X., 2016. Linking the Tengchong Terrane in SW Yunnan with the Lhasa Terrane in southern Tibet through magmatic correlation. Gondwana Research 39, 217229. [PDF]


23. Zhu, D.C.*, Chung, S.L., Niu, Y.L., 2016. Recent advances on the tectonic and magmatic evolution of the Greater Tibetan Plateau: A special issue in honor of Prof. Guitang Pan. Lithos 245, 16. [PDF]


22. Zhu, D.C.*, Li, S.M., Cawood, P.A., Wang, Q., Zhao, Z.D., Liu, S.A., Wang, L.Q., 2016. Assembly of the Lhasa and Qiangtang terranes in central Tibet by divergent double subduction. Lithos 245, 7–17. [PDF]


21. Zhu, D.C.*, Wang, Q., Zhao, Z.D., Chung, S.L., Cawood, P.A., Niu, Y.L., Liu, S.A., Wu, F.Y., Mo, X.X., 2015. Magmatic record of India-Asia collision. Scientific Reports 5, 14289. [PDF]


20. Wang, Q., Zhu, D.C*., Cawood, P.A., Zhao, Z.D., Liu, S.A., Chung, S.L., Zhang, L.L., Liu, D., Zheng, Y.C., Dai, J.G., 2015. Eocene magmatic processes and crustal thickening in southern Tibet: Insights from strongly fractionated ca. 43 Ma granites in the western Gangdese Batholith. Lithos 239, 128–141. [PDF]


19. Wang, Q., Zhu, D.C*., Zhao, Z.D., Liu, S.A., Chung, S.L., Li, S.M., Liu, D., Dai, J.G., Wang, L.Q., Mo, X.X., 2014. Origin of the ca. 90 Ma magnesia-rich volcanic rocks in SE Nyima, central Tibet: Products of lithospheric delamination underneath the Lhasa-Qiangtang collision zone. Lithos 198199, 2437.[PDF]


18. Li, S.M., Zhu, D.C*., Wang, Q., Zhao, Z.D., Sui, Q.L., Liu, S.A., Liu, D., Mo, X.X., 2014. Northward subduction of Bangong-Nujiang Tethys: Insight from Late Jurassic intrusive rocks from Bangong Tso in western Tibet. Lithos 205, 284–297. [PDF]


17. Chen, Y., Zhu, D.C*., Zhao, Z.D., Meng, F.Y., Wang, Q., Santosh, M., Wang, L.Q., Dong, G.C., Mo, X.X., 2014. Slab breakoff triggered ca. 113 Ma magmatism around Xainza area of the Lhasa Terrane, Tibet. Gondwana Research 26, 449–463. [PDF]


16. Xia, Y., Zhu, D.C*., Wang, Q., Zhao, Z.D., Liu, D., Wang, L.Q., Mo, X.X., 2014. Picritic porphyrites and associated basalts from the remnant Comei Large Igneous Province in SE Tibet: records of mantle-plume activity. Terra Nova 26, 487494. [PDF]


15. Sui, Q.L., Wang, Q., Zhu, D.C*., Zhao, Z.D., Chen, Y., Santosh, M., Hu, Z.C., Yuan, H.L., Mo, X.X., 2013. Compositional diversity of ca. 110 Ma magmatism in the northern Lhasa Terrane, Tibet: Implications for the magmatic origin and crustal growth in a continent-continent collision zone. Lithos 168169, 144159. [PDF]


14. Zhu, D.C.*, Zhao, Z.D., Niu, Y.L., Dilek, Y., Hou, Z.Q., Mo, X.X., 2013. The origin and pre-Cenozoic evolution of the Tibetan Plateau. Gondwana Research 23, 14291454. [PDF]


13. Zhu, D.C.*, Zhao, Z.D., Niu, Y.L., Dilek, Y., Wang, Q., Ji, W.H., Dong, G.C., Sui, Q.L., Liu, Y.S., Yuan, H.L., Mo, X.X., 2012. Cambrian bimodal volcanism in the Lhasa Terrane, southern Tibet: Record of an early Paleozoic Andean-type magmatic arc in the Australian proto-Tethyan margin. Chemical Geology 328, 290308. [PDF]


12. Guan, Q., Zhu, D.C*., Zhao, Z.D., Dong, G.C., Zhang, L.L., Li, X.W., Liu, M., Liu, M.H., Mo, X.X., Liu, Y.S., Yuan, H.L., 2012. Crustal thickening prior to 38 Ma in southern Tibet: Evidence from lower crust-derived adakitic magmatism in the Gangdese Batholith. Gondwana Research 21, 88–99. [PDF]


11. Wang, Q., Zhu, D.C*., Zhao, Z.D., Zhang, X.Q., Guan, Q., Sui, Q.L., Hu, Z.C., Mo, X.X., 2012. Magmatic zircons from I-, S- and A-type granitoids in Tibet: Trace element characteristics and their application to detrital zircon provenance study. Journal of Asian Earth Sciences 53, 59–66.[PDF]


10. Zhu, D.C.*, Zhao, Z.D., Niu, Y.L., Dilek, Y., Mo, X.X., 2011. Lhasa Terrane in southern Tibet came from Australia. Geology 39, 727–730. [PDF]


9. Zhu, D.C.*, Zhao, Z.D., Niu, Y.L., Mo, X.X., Chung, S.L., Hou, Z.Q., Wang, L.Q., Wu, F.Y., 2011. The Lhasa Terrane: Record of a microcontinent and its histories of drift and growth. Earth and Planetary Science Letters 301, 241–255.[PDF]


8. Zhu, D.C.*, Mo, X.X., Zhao, Z.D., Niu, Y.L., Wang, L.Q., Chu, Q.H., Pan, G.T., Xu, J.F., Zhou, C.Y., 2010. Presence of Permian extension- and arc-type magmatism in southern Tibet: Paleogeographic implications. GSA Bulletin 122, 979–993. [PDF]


7. Zhu, D.C.*, Chung, S.L., Mo, X.X.*, Zhao, Z.D., Niu, Y.L., Song, B., Yang, Y.H., 2009. The 132 Ma Comei–Bunbury large igneous province: Remnants identified in present-day SE Tibet and SW Australia. Geology 37, 583–586. [PDF]


6. Zhu, D.C.*, Mo, X.X., Niu, Y.L., Zhao, Z.D., Wang, L.Q., Liu, Y.S., Wu, F.Y., 2009. Geochemical investigation of Early Cretaceous igneous rocks along an east-west traverse throughout the central Lhasa Terrane, Tibet. Chemical Geology 268, 298312. [PDF]


5. Zhu, D.C.*, Mo, X.X., Niu, Y.L., Zhao, Z.D., Wang, L.Q., Pan, G.T., Wu, F.Y., 2009. Zircon U–Pb dating and in-situ Hf isotopic analysis of Permian peraluminous granite in the Lhasa terrane, southern Tibet: Implications for Permian collisional orogeny and paleogeography. Tectonophysics 469, 4860. [PDF]


4. Zhu, D.C.*, Pan, G.T., Zhao, Z.D., Lee, H.Y., Kang, Z.Q., Liao, Z.L., Wang, L.Q., Li, G.M., Dong, G.C., Liu, B., 2009. Early cretaceous subduction-related adakite-like rocks of the Gangdese Belt,southern Tibet: Products of slab melting and subsequent melt–peridotite interaction? Journal of Asian Earth Sciences 34, 298309. [PDF]


3. Zhu, D.C., Mo, X.X.*, Pan, G.T., Zhao, Z.D., Dong, G.C., Shi, Y.R., Liao, Z.L., Zhou, C.Y., 2008. Petrogenesis of the earliest Early Cretaceous mafic rocks from the Cona area of the eastern Tethyan Himalaya in south Tibet: Interaction between the incubating Kerguelen plume and the eastern Greater India lithosphere? Lithos 100, 147173. [PDF]


2. Zhu, D.C.*, Pan, G.T., Chung, S.L., Liao, Z.L., Wang, L.Q., Li, G.M., 2008. SHRIMP zircon age and geochemical constraints on the origin of Early Jurassic volcanic rocks from the Yeba Formation, southern Gangdese in south Tibet. International Geology Review 50, 442–471. [PDF]


1. Zhu, D.C.*, Pan, G.T., Mo, X.X., Liao, Z.L., Jiang, X.S., Wang, L.Q., Zhao, Z.D., 2007. Petrogenesis of volcanic rocks in the Sangxiu Formation, central segment of Tethyan Himalaya: A probable example of plume–lithosphere interaction. Journal of Asian Earth Sciences 29, 320335. [PDF]
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