- Selected Papers
- 刘静, 汪良谋, 1996, 运用活断层资料评价山西汾渭地震带的中长期地震危险性, 地震学报, 18:427-436.
- Ding R, Wang L, Chen Y, Liu-Zeng, J , et al. The role of monsoon in the long-term topographic evolution of East Asia (North China)[J]. Geomorphology, 2024, 444: 108947.
- Xu Lin, Jing Liu-Zeng, Marc Jolivet, Weiming Liu, et al., 2024.Sedimentary provenance constraints on the Cretaceous to Cenozoic palaeogeography of the western margin of the Jianghan Basin, South China, Gondwana Research, 125(343-358). https://doi.org/10.1016/j.gr.2023.09.001.
- Wang, H., Yang, Z., Liu-Zeng, J. Tong, Y., Jing, X., 2023, Tectonic Rotation Pattern at the Northern End of the Red River Fault System in SE Tibet: New Paleomagnetic Evidence From Cretaceous Red Beds, Tectonics, 42(3): e2021TC007116. https://doi.org/10.1029/2021TC007116
- Shao, Y., van der Woerd, J., Liu‐Zeng, J., Yuan, D., Yao, Y. et al., 2023, Shortening rates and recurrence of large earthquakes from folded and uplifted terraces in the Western Danghe Nan Shan foreland, north Tibet. Journal of Geophysical Research: Solid Earth, 128(1), e2021JB023736. https://doi.org/10.1029/2021JB023736.
- Yuan, X. P., Jiao, R., Liu-Zeng, J., Dupont-Nivet, G., Wolf, S. G., et al., 2023, Downstream propagation of fluvial erosion in Eastern Tibet. Earth and Planetary Science Letters, 605, 118017. https://doi.org/10.1016/j.epsl.2023.118017
- Lin, X., Jolivet, M., Liu-Zeng, J., Cheng, F., Wu, Z., Tian, Y., Li, L., Chen, J., 2022. The Formation of the North Qilian Shan through Time: Clues from Detrital Zircon Fission-Track Data from Modern River Sediments. Geosciences, 12(4), 166, https://doi.org/10.3390/geosciences12040166
- Lu, R., Wang, M., Li, Z., Liu-Zeng, J., 2022. Three-Dimensional Community Active Faults Models of CSES. , China Seismic Experimental Site. Springer, pp. 91-109.
- Peng, Z., Liu-Zeng, J., Deng, Y., Toda, S., 2022. Strong earthquake increases seismic hazard in Qinghai, China, Temblor. http://doi.org/10.32858/temblor.230
- Wang, L., Zheng, L., Wang, T., Liu-Zeng, J., Chen, X., 2022. Development of depth-averaged nonlinear flow model for fractures considering heterogeneity and significant inertial effects. Engineering Geology, 106849. https://doi.org/10.1016/j.enggeo.2022.106849