Marine sediment geochemistry research team
实验室主站  |  南海海洋研究所
张帆 学科组
——海洋计算地球物理学学科组
 Location: hyjs > 发表成果
发表成果

  1. Zhang F., Lin J.*, Zhou Z., & Yang H., Morgan J.P. (2022). Mechanism of progressive broad deformation from oceanic transform valley to off-transform faulting and rifting. The Innovation, doi: 10.1016/j.xinn.2021.100193.
  2. Zhang T., Shen Z.*, Zhang F.*, & Ding M. (2021). Heat flow distribution in the Chukchi Borderland and surrounding regions. Arctic Ocean, Geochemistry, Geophysics, Geosystems, DOI: 10.1029/2021GC010033.
  3. Tian J., Lin J., Zhang F.*, Xu M., Zhang Y., Guo L., & Zeng X. (2021). Time correction of ocean‐bottom seismometers using improved ambient noise cross correlation of multi-components and dual‐frequency bands, Seismological Research Letters, 92: 2004–2014.
  4. Guo L., Lin J.*, Zhang F.*, & Zhou Z. (2021). Transfer of stress by the 2004 Mw9.2 Sumatra subduction quake promoted widespread seismicity and large strike-slip events in the Wharton Basin, Terra Nova, 33: 74-85.
  5. Luo Y., Lin J., Zhang F.*, & Wei M. (2021). Spreading rate dependence of morphological characteristics in global oceanic transform faults, Acta Oceanologica Sinica, 34: 64-95.
  6. Zhang F., Lin J.*, & Zhou Z*. (2020). Flexural bending curvature and yield zone of subducting plates, International Geology Review, 62: 859-886.
  7. Zhang F., Lin J.*, Zhang X., Ding W., Wang T., & Zhu J. (2020). Asymmetry in oceanic crustal structure of the South China Sea basin and its implications on mantle geodynamics, International Geology Review, 62, 840-858.
  8. Zhang F., Lin J.*, Zhou, Z. Intra-trench variations in flexural bending of the subducting Pacific Plate along the Tonga-Kermadec Trench, Acta Oceanologica Sinica, 2019, 38, 81-90.
  9. Zhang F., Lin J., Zhou, Z., Yang, H., & Zhan W. (2018). Intra- and inter-trench variations in flexural bending of the Manila, Mariana and global trenches: Implications on plate weakening in controlling trench dynamics. Geophysical Journal International, 212, 1419-1449.
  10. Zhang F., Lin, J., & Zhan, W. (2014). Variations in oceanic plate bending along the Mariana trench, Earth Planetary Science Letters, 401, 206-214.
  11. Qu, R., Zhu, W., Ji, Y., Xie, C., Zeng, D., & Zhang, F. (2023). Subduction thermal regime, petrological metamorphism and seismicity under the Mariana arc. Scientific Reports, 13, 1948. https://doi.org/10.1038/s41598-023-29004-1.
  12. Li H., Lin J., Zhou Z., Zhang F., & Guo L. (2022). Variations in magmatism and the state of tectonic compensation of the Mariana subduction system. Terra Nova, 34(1): 20-27.
  13. Qiu Q., Zhou Z., Lin J., Zhang F., Chen, Z., & Yang, X. (2022). Great earthquake and tsunami potential in the eastern Makran subduction zone: New insights from geodetic and structural constraints. Tectonophysics, 229462.
  14. Yang X., Qiu Q., Feng W., Lin J., Zhang J., Zhou Z., & Zhang F. (2022). Mechanism of the 2017 Mw 6.3 Pasni earthquake and its significance for future major earthquakes in the eastern Makran. Geophysical Journal International, 231, 1434-1445.
  15. Zha C., Lin J.*, Zhou Z., Zhang X., Xu M., & Zhang F. (2021). Variations in melt supply along an orthogonal supersegment of the Southwest Indian Ridge (16º-25ºE), Acta Oceanologica Sinica, 40(5), 94-104.
  16. Liu S., Lin J., Zhou Z.*, & Zhang F. (2020). Large along-axis variations in magma supply and tectonism of the Southeast Indian Ridge near the Australian-Antarctic Discordance, Acta Oceanologica Sinica, 39: 118-129.
  17. Zhang, J.Y., Yang, H.F*. Zhu G. H., Chen, H., Zhang, F., & Sun, Z. (2023). The effect of along-strike variable plate deflection on bending stress and seismicity at the southern Mariana Trench. Tectonophysics. 850: 229752.
  18. Zhang J., Zhang F.*, Yang H., Lin J., & Sun Z. (2022). The effects of plateau subduction on plate bending, stress and intraplate seismicity, Terra Nova. 34(2): 113-122.
  19. Zhang J., Zhang F.*, Lin J.*, & Yang H. (2021). Yield failure of the subducting plate at the Mariana Trench, Tectonophysics, 228944.
  20. Zhang, J., Sun, Z., Yang, H. & Zhang, F. (2022). A model of plate bending at the transition zone from subduction to collision in northernmost Manila Trench. Geophysical Research Letters. 49 (18), e2022GL100474.
  21. Zhang, J.Y., Xu, M*., and Sun, Z. (2020). Lithospheric flexural modelling of the seaward and trenchward of the subducting oceanic plates. International Geology Review. 62(7-8): 908-923.
  22. Zhang, J.Y., Sun, Z*., Xu, M., Yang, H.F., Zhang, Y.F. & Li, F.C. (2018). Lithospheric 3-D flexural modelling of subducted oceanic plate with variable effective elastic thickness along Manila Trench. Geophysical Journal International, 215(3): 2071-2092.
  23. Chen H., He, X.H., Yang, H.F. & Zhang, J.Y. (2021). Fault-Plane Determination of the 4 January 2020 Offshore Pearl River Delta Earthquake and Its Implication for Seismic Hazard Assessment. Seismol. Res. Lett., 92 (3): 1913–1925.
  24. Zhao, Y., Ding, W., Ren, J., Li, J., Tong, D., & Zhang, J. (2021). Extension discrepancy of the hyper-thinned continental crust in the baiyun rift, northern margin of the South China Sea. Tectonics, 40, e2020TC006547. https://doi.org/10.1029/2020TC006547.
  25. Zhang, C.M*., Sun, Z*., etc. Zhang, J.Y. (2020). Syn-rift magmatic characteristics and evolution at a sediment-rich margin: Insights from high-resolution seismic data from the South China Sea. Gondwana Research. 91: 81-96.
  26. Zhang, C., Manatschal, G., Pang, X., Sun, Z., Zheng, J., Li, H., Sun, L., Zhang, J.Y., Zhao, Y. (2020). Discovery of megasheath folds flooring the Liwan subbasin (South China Sea): Implications for the rheology of hyperextended crust. Geochemistry, Geophysics, Geosystems, 21, e2020GC009023. https://doi.org/ 10.1029/2020GC009023
  27. Zhang, Y.F., Sun, Z*., Zhang, J.Y. & Wang, L.J. (2020). The structure, depositional style and accumulation characteristics of continental margin with diachronous breakup in the northern South China Sea. International Geology Review. 62(7-8): 1006-1018.
  28. Li, F.C., Sun, Z*. & Zhang, J.Y. (2018). Influence of mid-crustal rheology on the deformation behavior of continental crust in the continental subduction zone. Journal of Geodynamics. 117, 89-99.
  29. Liu, J.B., Sun, Z., Wang, Z.F., Sun, Z.P., Zhao, Z.X., Wang, Z.W., Zhang, C.M., Qiu, N. & Zhang, J.Y. (2015). Tectonic differences between eastern and western sub-basins of the Qiongdongnan Basin and their dynamics. Mar. Geophys. Res., 36: 61-79.
  30. Cheng, Z.H., Ding, W.W., Faccenda, M., & Li, J.B. (2019). Geodynamic effects of subducted sea mount at the Manila Trench: Insights from numerical modeling, Tectonophysics, 764: 46-61
  31. Ma L.T., Chen L., Cheng Z.H., Gerya, T., & Li J.B (2022). Bathymetric Highs Control the Along-Strike Variations of the Manila Trench: 2D Numerical Modeling. Frontiers in Earth Science, 10.
  32. Zhang J., Chen L., Cheng Z., & Tang L., (2020). Geological characteristics of the Nankai Trough subduction zone and their tectonic significances. Acta Oceanologica Sinica, 2020, 39(10): 81-95.
  33. Wang, C., Ding, W., Li, J., etc. & Cheng, Z. (2018). Effects of trench-perpendicular ridge subduction on accretionary wedge deformation: Clues from analogue modelling. Geological Journal, 54(4): 2665-2678.
  34. Zhou, P. C., Ellsworth, W. L., Yang, H. F. *, Tan, Y. J., Beroza, G. C., Sheng, M. H., and Chu, R. S. (2021). Machine-learning-facilitated earthquake and anthropogenic source detections near the Weiyuan Shale Gas Blocks, Sichuan, China. Earth Planet. Phys., 5(6), 501–519.
  35. Yang, H.*, Zhou P., N. Fang, G. Zhu, W. Xu, J. Su, F. Meng, & Chu, R. (2020). A shallow shock: The February 2019 ML 4.9 earthquake in the Weiyuan shale gas field in Sichuan, China, Seismological Research Letter, 91(6): 3182–3194.
  36. Zhou, P., Yang H.*, Wang, B., & Zhuang, J. (2019). Seismological investigations of potentially induced earthquakes near the Hutubi underground gas storage facility. Journal of Geophysical Research: Solid Earth, 124: 8753-8770.
  37. 张江阳, 林间, 张帆, 等 (2023. 西太平洋俯冲带岩石圈变形研究. 科技导报. 41(2): 29-34; doi: 10.3981/j.issn.1000-7857.2023.02.003.
  38. 潘谟晗,杨挺,林间,张帆,周志远,李海勇,张旭博,范兴利,程子华. (2021)斑点火山的形成机制和岩石圈-软流圈边界(LAB)的性质,地球科学,46: 817-825.
  39. 林间,孙珍,李家彪,周志远,张帆,罗怡鸣. (2020). 南海成因:岩石圈破裂与俯冲带相互作用新认识,科技导报,202038: 35-39.
  40. 林间, 李家彪, 徐义刚, 孙珍, 夏少红, 黄小龙, 解习农, 李春峰, 丁巍伟, 周志远, 张帆, 罗怡鸣. (2019). 南海大洋钻探及海洋地质与地球物理前沿研究新突破. 海洋学报, 41, 125-140.
  41. 周鹏程张江阳. 2023.汤加火山的地震学研究. 科技导报. 41(2): 51-55
  42. 周鹏程雷军*. (2016). 太平洋大型横波低速带东部边界地幔最下部各向异性研究.地震学报, 38(1):1-14.
  43. 王利杰,孙珍,姚永坚,赵中贤,李学杰,张江阳,卓海腾,杨振. (2021). 南海东南部陆缘 Nido 灰岩发育特征及其构造控制因素.地球科学. https://kns.cnki.net/kcms/detail/42.1874.P.20210409.1425.002.html.
  44. 张江阳,孙珍,邱宁,张云帆,李付成. (2019). 基于粒子群算法的俯冲带三维有效弹性厚度反演. 地球物理学报. 62(12): 4738 - 4749.
  45. 张江阳,孙珍,张素芳. (2014). 珠江口盆地潮汕坳陷中生代构造变形分析. 热带海洋学报. 33(5): 41-49.
  46. 邱宁,姚永坚,张江阳*,王利杰,徐东海. (2019). 南海东南部陆缘地壳结构特征及其构造意义. 地球物理学报. 62(7): 2607-2621.
  47. 李付成,孙珍*张江阳. (2018). 大洋板块运动方向反转控制活动陆缘岩石圈张裂过程数值模拟. 地球科学. 43(10): 3762-3777.
  48. 李付成,孙珍*张江阳. (2016). 海山俯冲过程中的变形特征—物理模拟和数值模拟证据. 热带海洋学报. 35(1): 31-37.

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