同行审议论文:

†表示课题组学生或博士后,*表示通讯作者

  1. Hu, J., Rudi, J., Gurnis, M., & Stadler, G. (2024). Constraining Earth‘s nonlinear mantle viscosity using plate-boundary resolving global adjoint inversions, Proceedings of National Academy of Sciences, https://www.pnas.org/doi/10.1073/pnas.2318706121.
  2. Zhang, J.†, Hu, J.*, & Sun, D. (2024). Segregation of a thermochemical anomaly and coalescence with a large low-velocity province. Nature Geoscience, 1-8.
  3. Xi, J., Yu, Y., Zhao, D., & Hu, J. (2024). Modification of Archean cratons in southern Africa with foundered segments dropped into the shallow lower mantle. Geology, 52(6), 468-472.
  4. Wu, X.†, Hu, J.*, Chen, L., Liu, L., & Liu, L.* Paleogene India-Eurasia collision constrained by observed plate rotation, Nature Communications, 14(1), 7272.
  5. Jian, H., Yang, T., Chen, Z., Ye, L., Hu, J., Guo, P. Slab pull drives IBM Trench advance despite the weakened Philippine Sea Plate, Geophysical Research Letters, 50(21), e2023GL106554.
  6. 王泽伟,胡佳顺,包雪阳,俞春泉,杨英杰,陈晓非 (2023). 全球地震层析成像揭示深部地幔特提斯洋俯冲板片残留. 中国科学-地球科学,doi:10.1360/SSTe-2023-0030.
  7. Luo, H., Zeng, H., Shi, Q., Wang, T., Liao, M., Hu, J., & Wei, S. (2022). Could thermal pressurization have induced the frequency-dependent rupture during the 2019 Mw8. 0 Peru intermediate-depth earthquake?. Geophysical Journal International.
  8. 胡佳顺 (2022). 夏威夷-皇帝海山链弯折的形成与Kronotsky古俯冲的联系. 地球与行星物理评论,53(2): 240-242. doi: 10.19975/j.dqyxx.2022-009 (invited).
  9. Hu, J., Gurnis, M., Rudi, J., Stadler, G. & Muller D. (2022). Dynamics of the abrupt change in Pacific Plate motion around 50 Ma, Nature Geoscience, 15(74-78).
  10. Hu, J., Liu, L., & Gurnis, M. (2021) Southward expanding plate coupling due to climate-tectonic interaction as a cause of Andean growth, Nature Communications, 12(7271).
  11. Peng, D., Liu, L., Hu, J., Li, S., & Liu, Y. (2021). Formation of East Asian Stagnant Slabs Due To a Pressure‐Driven Cenozoic Mantle Wind Following Mesozoic Subduction. Geophysical Research Letters, 48(18), e2021GL094638.
  12. Hu, J., & Gurnis, M. (2020). Subduction Duration and Slab Dip. Geochemistry, Geophysics, Geosystems21(4), e2019GC008862.
  13. Rajaonarison, T. A., Stamps, D. S., Fishwick, S., Brune, S., Glerum, A., & Hu, J. (2020). Numerical Modeling of Mantle Flow Beneath Madagascar to Constrain Upper Mantle Rheology Beneath Continental Regions. Journal of Geophysical Research. Solid Earth125(2).
  14. Hu, J., Liu, L. & Zhou, Q. (2018). Reproducing Past Subduction Using High-resolution Global Convection Models. Earth and Planetary Physics, 2(3), 189-207.
  15. Hu, J., & Liu, L., Faccenda M., Zhou Q., Fischer K. M., Marshak S., Lundstrom C. (2018). Western Gondwana craton modification by plume-lithosphere interaction. Nature Geoscience, 11(3), 203.
  16. Zhou, Q., Hu, J., Liu, L., Chaparro, T., Stegman, D. R., & Faccenda, M. (2018). Western US seismic anisotropy revealing complex mantle dynamics. Earth and Planetary Science Letters, 500, 156-167.
  17. Zhou, Q., Liu, L., & Hu, J. (2018). Formation of the Yellowstone Volcanic Province due to Intruding Hot Oceanic Asthenosphere. Nature Geoscience, 11(1), 70.
  18. Hu, J., Faccenda, M., & Liu, L. (2017). Subduction-controlled mantle flow and seismic anisotropy in South America. Earth and Planetary Science Letters, 470, 13-24.
  19. Hu, J., & Liu, L. (2016). Abnormal seismological and magmatic processes controlled by the tearing South American flat slabs. Earth and Planetary Science Letters, 450, 40-51.
  20. Hu, J., Liu, L., Hermosillo, A., & Zhou, Q. (2016). Simulation of late Cenozoic South American flat-slab subduction using geodynamic models with data assimilation. Earth and Planetary Science Letters, 438, 1-13.