Publications

Paleoecology and paleobiogeography

1. Zhang, S.H.*, Shen, S.Z. and Erwin, D.H., 2022a. Latitudinal diversity gradient dynamics during Carboniferous to Triassic icehouse and greenhouse climates. Geology, 50(10): 1166-1171.
   (石炭纪至三叠纪海洋无脊椎动物纬向多样性梯度) 【报道news 1】 【报道news 2】 【报道news 3】

2. Zhang, S.H.*, Shen, S.Z. and Erwin, D.H., 2022b. Two cosmopolitanism events driven by different extreme paleoclimate regimes. Global and Planetary Change, 216.103899. (石炭纪至三叠纪两次海洋无脊椎动物生物地理均一化事件)

3. 张书涵, 沈树忠*, 王向东, 张华, 樊隽轩, 重建深时地球生物多样性时空分布模式的思考, 科学通报, 2024, 69: 3252–3267. (Zhang S.H., Shen S.Z., Wang X.D., et al. A perspective on reconstructing the spatial and temporal patterns of Earth′s biodiversity in deep time (in Chinese). Chin Sci Bull, 2024, 69: 3252–3267) (深时生物多样性重建综述) 【报道news 1】

Quantitative stratigraphy and geological timeline

1. Zhang, S.H.*, Fan, J.X., Morgan, C.A., Henderson, C.M. and Shen, S.Z.*, 2021. Quantifying the middle-late Cambrian trilobite diversity pattern in South China. Palaeogeography Palaeoclimatology Palaeoecology, 570.110361. (中晚寒武华南三叶虫多样性)

2. Zhang, S.H.*, Yuan, D.X. and Shen, S.Z., 2024. Global correlation of the Guadalupian–Lopingian transition and associated events using a quantitative conodont-based biostratigraphic scheme. Palaeogeography, Palaeoclimatology, Palaeoecology, 655: 112502. (中晚二叠全球牙形化石带）

1. Tang, Q., Zheng, W.T., Zhang, S.H., Fan, J.X., Riedman, L.A., Hou, X.D., Muscente, A.D., Bykova, N., Sadler, P.M., Wang, X.D., Zhang, F.F., Yuan, X.L., Zhou, C.M., Wan, B., Pang, K., Ouyang, Q., McKenzie, N.R., Zhao, G.C., Shen, S.Z. and Xiao, S.H., 2024. Quantifying the global biodiversity of Proterozoic eukaryotes. Science, 386(6728): eadm9137.
2. Wu, Q., Zhang, H., Ramezani, J., Zhang, F.F., Erwin, D.H., Feng, Z., Shao, L.Y., Cai, Y.F., Zhang, S.H., Xu, Y.G. and Shen, S.Z*., 2024. The terrestrial end-Permian mass extinction in the paleotropics postdates the marine extinction. Science Advances, 10(5): eadi7284.
3. Deng, Y.Y., Fan, J.X.*, Zhang, S.H., Fang, X., Chen, Z.Y., Shi, Y.K., Wang, H.W., Wang, X.B., Yang, J., Hou, X.D., Wang, Y., Zhang, Y.D., Chen, Q., Yang, A.H., Fan, R., Dong, S.C., Xu, H.Q. and Shen, S.Z., 2021. Timing and patterns of the Great Ordovician Biodiversification Event and Late Ordovician mass extinction: Perspectives from South China. Earth-Science Reviews, 220. 103743.
4. Shen, S.Z.*, Fan, J.X., Wang, X.D., Zhang, F.F., Shi, Y.K. and Zhang, S.H., 2022. How to Build a High-Resolution Digital Geological Timeline? Journal of Earth Science, 33(6): 1629-1632.
5. 沈树忠*, 樊隽轩, 王向东, 张飞飞, 史宇坤, 张书涵. 如何打造高精度地质时间轴？[J]. 地球科学, 2022, 47(10): 3766-3769.

Traditional stratigraphy

1. Shen, S.Z.*, Yuan, D.X., Zhang, Y.C., Henderson, C.M., Zheng, Q.F., Zhang, H., Zhang, M., Dai, Y., Xu, H.P., Wang, W.Q., Li, Q., Wang, Y., Wang, X.D., Mu, L., Ramezani, J., Erwin, D.H., Angiolini, L., Zhang, F.F., Hou, Z.S., Chen, J., Zhang, X.Y., Zhang, S.H., Wu, Q., Pan, Y.X., Stephenson, M. and Mei, S.L., 2024. Redefinition of the Global Stratotype Section and Point (GSSP) and new Standard Auxiliary Boundary Stratotype (SABS) for the base of Wuchiapingian Stage (Lopingian Series, Permian) in South China. Episodes.47(1): 147-177.

2. Shen, S.Z.*, Yuan, D.X., Zhang, Y.C., Henderson, C.M., Zheng, Q.F., Zhang, H., Zhang, M., Dai, X., Xu, H.P., Wang, W.Q., Li, Q., Wang, Y., Wang, X.D., Ramezani, J., Erwin, D.H., Angiolini, L., Zhang, F.F., Hou, Z.S., Zhang, X.Y., Zhang, S.H., Pan, Y.X., Stenphenson, M. and Mei, S.L., 2023. Redefinition of the Global Stratotype Section and Point (GSSP) and new Standard Auxiliary Boundary Stratotype (SABS) for the base of Wuchiapingian Stage (Lopingian Series, Permian) in South China. Permophiles, 74: 9-37.

Other

1. 宋思存，张书涵，张子航，史宇坤*. 2021. 定量古生物学常用R型多变量线性回归方法例析. 微体古生物学报，38(3)：292-300.

2. Deng, Y.Y., Song, S.C., Fan, J.X., Luo, M., Yao, L., Dong, S.C., Shi, Y.K., Zhang, L.N., Wang, Y., Xu, H., Xu, H.P., Zhao, Y.Y., Pan, Z.H., Hou, Z.S., Li, X.M., Shen, B.H., Chen, X.R., Zhang, S.H., Wu, X.J., Xing, L.D., Liang, Q.Q. and Wang, E.Z., 2024. Paleontology Knowledge Graph for Data-Driven Discovery. Journal of Earth Science, 35(3): 1024-1034.