Publications | 论文

( ˆ indicates graduate student co-author)

27. Cheng, H., Bloch, E.M., Moulas, E.,Vervoort, J.D. 2020. Reconciliation of discrepant U–Pb, Lu–Hf, Sm–Nd, Ar–Ar and U–Th/He dates in an amphibolite from the Cathaysia Block in Southern China. Contributions to Mineralogy and Petrology, 175, 4. [link]

26. Cheng, H., 2019. Garnet Lu–Hf and Sm–Nd geochronology: a time capsule of the metamorphic evolution of orogenic belts. Geological Society London Special Publications, 474, 47-67. [link]

25. Cheng, H., Zhou, Y., Du, K.Y., Zhang, L.M., Lu, T.Y., 2018. Microsampling Lu–Hf geochronology on mm-sized garnet in eclogites constrains early garnet growth and timing of tectonometamorphism in the North Qilian orogenic belt. Journal of Metamorphic Geology, 36, 987-1008. [link]

24. ˆCao, D.D., Cheng, H., Zhang, L.M., Wang, K., 2018. Origin of atoll garnets in ultra-high-pressure eclogites and implications for infiltration of external fluids. Journal of Asian Earth Sciences, 160, 224-238. [link] 

23. Cheng, H., Vervoort, J.D., Dragovic, B., Wilford, D., Zhang, L.M., 2018. Coupled Lu–Hf and Sm–Nd geochronology on a single eclogitic garnet from the Huwan shear zone, China. Chemical Geology. 476, 208-222.[link]

22. ˆCao, D.D., Cheng, H., Zhang, L.M., 2017. Pseudosection modelling and garnet Lu–Hf geochronology of HP amphibole schists constrain the closure of an ocean basin between the northern and southern Lhasa blocks, central Tibet. Journal of Metamorphic Geology. 35, 777-803. [link]

21. ˆCao, D.D., Cheng, H., Zhang, L.M., Wang, K., 2017. Post-peak metamorphic evolution of the Sumdo eclogite from the Lhasa Block of south-east Tibet. Journal of Asian Earth Sciences. 143, 156-170. [link]

20. Cheng, H., Zhou, H.Y., Yang, Q.H., Zhang, L.M., Ji, F.W., Dick, H.J.B., 2016. Jurassic zircons from the Southwest Indian Ridge. Scientific Reports. 6, 26260. [link]

19. Cheng, H., Lu, T.Y., Cao, D.D., 2016. Coupled Lu-Hf and Sm-Nd geochronology constrains blueschist-facies metamorphism and closure timing of the Qilian Ocean in the North Qilian orogen. Gondwana Research. 34, 99-108. [link]

18. Cheng, H., Liu, X.C., Vervoort, J.D., Wilford, D., Cao, D.D., 2016. Micro-sampling Lu–Hf geochronology reveals episodic garnet growth and multiple high-pressure metamorphic events. Journal of Metamorphic Geology. 34, 363-377.[link]

17. Cheng, H., Cao, D.D., 2015. Protracted garnet growth in high-P eclogite: constraints from multiple geochronology and P–T pseudosection. Journal of Metamorphic Geology. 33, 613-632. [link]

16. Cheng, H., Liu, Y.M., Vervoort, J.D., Lu, H.H., 2015. Combined U-Pb, Lu-Hf, Sm-Nd and Ar-Ar multichronometric dating on the Bailang eclogite constrains the closure timing of the Paleo-Tethys Ocean in the Lhasa terrane, Tibet. Gondwana Research. 28, 1482-1499. [link] 

15. Cheng, H., Vervoort, J.D., 2015. Combined geochemistry and geochronology constrains coupled subduction of oceanic and continental crust in the Huwan shear zone, central China. American Mineralogist. 100, 181-194. [link]

14. Cheng, H., Zhang, C., Vervoort, J.D., Zhou, Z.Y., 2013. New Lu-Hf and Sm-Nd geochronology constrains the subduction of oceanic crust during the Carboniferous-Permian in the Dabie orogen. Journal of Asian Earth Sciences. 63, 139–150. [link]

13. Cheng, H., Zhang, C., Vervoort, J.D., Lu, H.H., Wang, C., Cao, D.D., 2012. Corrigendum to “Zircon U–Pb and garnet Lu–Hf geochronology of eclogites from the Lhasa Block, Tibet.”  Lithos. 162–163, 332. [link]

12. Cheng, H., Zhang, C., Vervoort, J.D., Lu, H.H., Wang, C., Cao, D.D., 2012. Zircon U–Pb and garnet Lu–Hf geochronology of eclogites from the Lhasa Block, Tibet. Lithos. 155, 341–359. [link]

11. Cheng, H., Zhang, C., Vervoort, J.D., Li, X.-H., Li, Q.-L., Wu, Y.-B., Zheng, S., 2012. Timing of eclogite facies metamorphism in the North Qinling by U–Pb and Lu–Hf geochronology. Lithos. 136-139,46-59. [link]

10. Cheng, H., Zhang, C., Vervoort, J.D., Li, X.-H., Li, Q.-L., Zheng, S., Cao, D.D., 2011. Geochronology of the transition of eclogite to amphibolite facies metamorphism in the North Qinling orogen of central China. Lithos. 125, 969-983. [link]

9. Cheng, H., Vervoort, J.D., Li, X.-H., Zhang, C., Li, Q.-L., Zheng, S., 2011. The growth interval of garnet in the UHP eclogites from the Dabie orogen, China. American Mineralogist. 96, 1300-1307. [link]

8. Cheng, H., Zhang, C., Vervoort, J.D., Wu, Y.B., Zheng, Y.F., Zheng, S., Zhou, Z.Y., 2011. New Lu–Hf geochronology constrains the onset of continental subduction in the Dabie orogen. Lithos. 121, 41-54. [link]

7. Cheng, H., DuFrane, S.A., Vervoort, J.D., Nakamura, E., Zheng, Y.F., Zhou, Z.Y., 2010. Protracted oceanic subduction prior to continental subduction: new Lu–Hf and Sm–Nd geochronology of oceanic-type high-pressure eclogite in the western Dabie orogen. American Mineralogist. 95, 1214-1223. [link]

6. Cheng, H., DuFrane, S.A., Vervoort, J.D., Nakamura, E., Li, Q.L., Zhou, Z.Y., 2010. The Triassic age for oceanic eclogites in the Dabie orogen: Entrainment of oceanic fragments in the continental subduction. Lithos. 117, 82-98. [link]

5. Cheng, H., King, R.L., Nakamura, E., Vervoort, J.D., Zheng, Y.F., Ota, T., Wu, Y.B., Kobayashi, K., Zhou, Z.Y., 2009. Transitional time of oceanic to continental subduction in the Dabie orogen: constraints from U–Pb, Lu–Hf, Sm–Nd and Ar–Ar multichronometric dating. Lithos. 110, 327-342. [link]

4. Cheng, H., Nakamura, E.,Zhou Z., 2009. Garnet Lu-Hf dating of retrograde fluid activity during ultrahigh-pressure metamorphic eclogites exhumation. Mineralogy and Petrology. 95, 315-326. [link]

3. Cheng, H., King, R.L., Nakamura, E., Vervoort, J.D., Zhou Z., 2008. Coupled Lu-Hf and Sm-Nd geochronology constrains garnet growth in ultra-high-pressure eclogites from the Dabie orogen. Journal of Metamorphic Geology. 26, 741-758. [link]

2. Cheng, H., Zhou, Z., Nakamura, E., 2008. Crystal-size distribution and composition of garnets in eclogites from the Dabie orogen, central China. American Mineralogist. 93, 124-133. [link]

1. Cheng, H., Nakamura, E., Kobayashi, K., Zhou, Z., 2007. Origin of atoll garnets in eclogites and implications for the redistribution of trace elements during slab exhumation in a continental subduction zone. American Mineralogist. 92, 1119-1129. [link]

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