44 results on '"Zhang, Xiu-Zheng"'
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2. First identification of Carboniferous mafic dikes during a period of arc magmatic quiescence in the Northern Qiangtang terrane, central Tibet: Back-arc extension and implications for opening of the Xijir Ulan Ocean
3. Sediment recycling by continental subduction indicated by B-Hf-Pb-Nd isotopes from Miocene–Quaternary lavas in the northern margin of Tibet
4. Are low-velocity zones within the Tibetan crust the result of crustal melting from at least 28 Ma?
5. Formation of late Miocene silicic volcanic rocks in the central Tibetan Plateau by crustal anatexis of granulites
6. Extreme Mo isotope variations recorded in high-SiO2 granites: Insights into magmatic differentiation and melt–fluid interaction
7. Petrogenesis of Eocene high-silica granites in the Maliaoshan area, northern Tibet: Implications for the Eocene magmatic flare-up in the Northern Qiangtang Block
8. Late Early Cretaceous magmatic constraints on the timing of closure of the Bangong–Nujiang Tethyan Ocean, Central Tibet
9. Early Paleozoic S-type granites as the basement of Southern Qiantang Terrane, Tibet
10. Oligocene High-MgO Alkali Basalts in Central Tibet: Implications for Magma–Mush Mixing and Mantle Processes
11. Petrogenesis of Early Cretaceous granites and associated microgranular enclaves in the Xiabie Co area, central Tibet: Crust-derived magma mixing and melt extraction
12. Low δ18O magmas in the carboniferous intra-oceanic arc, central Tibet: Implications for felsic magma generation and oceanic arc accretion
13. Rare earth element tetrad effect and negative Ce anomalies of the granite porphyries in southern Qiangtang Terrane, central Tibet: New insights into the genesis of highly evolved granites
14. Magmatic record of Late Devonian arc-continent collision in the northern Qiangtang, Tibet: Implications for the early evolution of East Paleo-Tethys Ocean
15. Petrogenesis of the Late Triassic diorites in the Hoh Xil area, northern Tibet: Insights into the origin of the high-Mg# andesitic signature of continental crust
16. Rapid formation of eclogites during a nearly closed ocean: Revisiting the Pianshishan eclogite in Qiangtang, central Tibetan Plateau
17. Boron and Molybdenum Isotope Evidence for Source‐Controlled Compositional Diversity of Cenozoic Granites in the Eastern Tethyan Himalaya
18. Oligocene High-MgO Alkali Basalts in Central Tibet: Implications for Magma–Mush Mixing and Mantle Processes.
19. Crustal Growth Identified by High-δ18O Zircon and Olivine: A Perspective from Ultramafic Arc Cumulates in Southern Tibet.
20. Tectonic evolution of the Proto-Qiangtang Ocean and its relationship with the Palaeo-Tethys and Rheic oceans
21. Post-Collisional Silica-Undersaturated Bamaoqiongzong Volcanic Rocks from Northern Qiangtang: Indicators of the Mantle Heterogeneity and Geodynamic Evolution of Central Tibet
22. Cambrian−Ordovician magmatic flare-up in NE Gondwana: A silicic large igneous province?
23. Tibetan Plateau insights into >1100 °C crustal melting in the Quaternary
24. Supplemental Material: Tibetan Plateau insights into >1100 °C crustal melting in the Quaternary
25. Eocene adakitic quartz monzonites and granite porphyries from the northern Qiangtang Block, central Tibet: Partial melting of sediment-rich mélange?
26. Locating Lhasa terrane in the Rodinia and Gondwana supercontinents: A key piece of the reconstruction puzzle
27. Tibetan Plateau growth linked to crustal thermal transitions since the Miocene
28. Supplemental Material: Tibetan Plateau growth linked to crustal thermal transitions since the Miocene
29. Post-Collisional Silica-Undersaturated Bamaoqiongzong Volcanic Rocks from Northern Qiangtang: Indicators of the Mantle Heterogeneity and Geodynamic Evolution of Central Tibet.
30. Short duration of Early Permian Qiangtang-Panjal large igneous province: Implications for origin of the Neo-Tethys Ocean
31. Late Eocene post-collisional magmatic rocks from the southern Qiangtang terrane record the melting of pre-collisional enriched lithospheric mantle
32. Passive-margin magmatism caused by enhanced slab-pull forces in central Tibet
33. Syn-collisional magmatic record of Indian steep subduction by 50 Ma
34. Widespread crustal melting since 28 Ma creates the modern flat Tibet
35. An early Paleozoic silicic large igneous province in NE Gondwana: a preliminary synthesis
36. High-Pressure Granulite Facies Overprinting During the Exhumation of Eclogites in the Bangong-Nujiang Suture Zone, Central Tibet: Link to Flat-Slab Subduction
37. Late Permian Bimodal Volcanic Rocks in the Northern Qiangtang Terrane, Central Tibet: Evidence for Interaction Between the Emeishan Plume and the Paleo-Tethyan Subduction System
38. High‐Pressure Granulite Facies Overprinting During the Exhumation of Eclogites in the Bangong‐Nujiang Suture Zone, Central Tibet: Link to Flat‐Slab Subduction
39. Metamorphic records for subduction erosion and subsequent underplating processes revealed by garnet‐staurolite‐muscovite schists in central Qiangtang, Tibet
40. Silurian high-pressure granulites from Central Qiangtang, Tibet: Constraints on early Paleozoic collision along the northeastern margin of Gondwana
41. Carboniferous and Permian evolutionary records for the Paleo-Tethys Ocean constrained by newly discovered Xiangtaohu ophiolites from central Qiangtang, central Tibet
42. Pliocene-Quaternary crustal melting in central and northern Tibet and insights into crustal flow
43. Synthesis and Crystal Structure of a Polynuclear Copper-selenide Cluster [CuI 36(CuIICl)2Se13(SePh)12(dppe)6] · 3EtOH
44. Tibetan Plateau insights into >1100℃ crustal melting in the Quaternary
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