个人简介：

吴扬名，1991年出生，博士。Email: yangmingwu@stu.edu.cn

主要从事大洋俯冲动力学研究，利用地球动力学数值模拟与地质和地球物理相结合手段，探索洋盆消亡过程的深部动力学机制与浅部构造-岩浆响应。

教育与工作经历：

2023-至今 汕头大学，理学院，讲师

2020-2023 中山大学，地球科学与工程学院

2018-2019 澳大利亚科廷大学，联合培养

2014-2020 中科院广州地球化学研究所，博士

2010-2014 南华大学，资源勘查工程，学士

承担项目：

国家自然科学基金青年项目，编号：42104093，2022-2024，主持

中国博士后科学基金面上项目，编号：2020M683026, 2021-2023，主持

广东省自然科学基金面上项目，编号：2023A1515012090，2023-2025，主持

研究成果：

[1]Yangming Wu, Jie Liao*, Jiarong Qing, and Yongqiang Shen. (2023). Subduction development along extinct mid-ocean ridges versus weakened passive continental margins.Gondwana Research, 117, 243-260.

[2]Jie Liao*, Lun Li, Rui Gao, Yongqiang Shen, Jiarong Qing, and Yangming Wu. (2023). Geodynamic modeling on subduction-spreading interaction and implications for the South China Sea and surrounding regions. Geosystems and Geoenvironment, 2.

[3]Yangming Wu, Jie Liao*, Feng Guo, Xuan-Ce Wang, and Yongqiang Shen. (2022). Styles of trench-parallel mid-ocean ridge subduction affect Cenozoic geological evolution in circum-Pacific continental margins. Geophysical Research Letters, 49, e2022GL098428.

[4]Yangming Wu, Feng Guo*, Xuan-Ce Wang, and Jie Liao. (2022). Discovery of Ultra-depleted Melt Inclusion in Late Cretaceous Intracontinental Basaltic Andesites in South China: Implications for Recycling of Lower Oceanic Crust. Journal of Geophysical Research: Solid Earth, 127, e2022JB025324.

[5]Hao Li, Jie Liao*, Yongqiang Shen, Jiarong Qing, Yangming Wu, Zhongxian Zhao, and Xiaobin Shi. (2022). Rifting/spreading propagation interacts with preexisting transform faults: 3D geodynamic modeling. Frontiers in Earth Science, 10: 1054747.

[5]Feng Guo*, Yangming Wu, Bo Zhang, Xiaobing Zhang, Liang Zhao, and Jie Liao. (2021). Magmatic responses to Cretaceous subduction and tearing of the paleo-Pacific Plate in SE China: An overview. Earth-Science Reviews, 212.

[6]Qing-He Yan, He Wang*, Yangming Wu*, and Guoxiang Chi. (2021). Simultaneous development of arc-like and OIB-like mafic dikes in eastern Guangdong, SE China: Implications for late Jurassic–early Cretaceous tectonic setting and deep geodynamic processes of South China. Lithos, 388-389, 106021.

[7]Yangming Wu, Feng Guo*, Xuan-Ce Wang, Bo Zhang, Xiaobing Zhang, Melesse Alemayehu, and Guoqing Wang. (2020). Generation of Late Cretaceous Ji’an basalts through as thenosphere-slab interaction in South China. Geological Society of America Bulletin, 132, 1316-1332.

[8]Yangming Wu, Feng Guo*, Xuan-Ce Wang, Simon A. Wilde, and Weiming Fan. (2020). Derivation of Jurassic HIMU-like intraplate basalts from mantle transition zone in South China: New geochemical constrains from olivine-hosted melt inclusion. Lithos, 354-355, 105337.

[9]Xiaobing Zhang, Feng Guo*, Bo Zhang, Liang Zhao, Yangming Wu, Guoqing Wang, and Melesse Alemayehu. (2020). Magmatic evolution and post-crystallization hydrothermal activity in the early Cretaceous Pingtan intrusive complex, SE China: records from apatite geochemistry. Contributions to Mineralogy and Petrology, 175: 35.

[10]Bo Zhang, Feng Guo*, Xiaobing Zhang, Liang Zhao, Guoqing Wang, and Yangming Wu. (2020). Origin of the early Cretaceous Liucheng OIB-type dolerite sill in Zhejiang Province, coastal region of SE China: Implications for recycling of the Paleo-Pacific slab. Journal of Asian Earth Sciences, 193, 104330.

[11]Bo Zhang, Feng Guo*, Xiaobing Zhang, Yangming Wu, Guoqing Wang, and Liang Zhao. (2019). Early Cretaceous subduction of Paleo-Pacific Ocean in the coastal region of SE China: Petrological and geochemical constraints from the mafic intrusions. Lithos, 334, 8-24.

[12]Qingwen Zhang, Feng Guo*, Liang Zhao, and Yangming Wu. (2017). Geodynamics of divergent double subduction: 3-D numerical modeling of a Cenozoic example in the Molucca Sea region, Indonesia. Journal of Geophysical Research: Solid Earth, 122, 3977-3998.

[13]Liang Zhao, Feng Guo*, Weiming Fan, Qingwen Zhang, Yangming Wu, Jingyan Li, and Wen Yan. (2016). Early Cretaceous potassic volcanic rocks in the Jiangnan Orogenic Belt, East China: Crustal melting in response to subduction of the Pacific–Izanagi ridge? Chemical Geology, 437, 30-43.