曹现志(教授)

发布者:时振波发布时间:2023-12-01浏览次数:10





一、基本信息

名:曹现志

别:男

出生年月:19901

籍:山东省莒南县

联系地址:山东省青岛市崂山区松岭路238号,邮编266100.

电子邮箱:caoxianzhi@ouc.edu.cn

 

二、简历

1. 学习经历

中国海洋大学,地质学理学学士学位,中国青岛,2011.06

中国海洋大学,构造地质硕士学位,中国青岛,2014.06

中国海洋大学,理学博士学位,中国青岛,2018.06

悉尼大学,联合培养,澳大利亚悉尼,2016. 2-2017.3

 

2. 工作简历

2019.2-2022.2,悉尼大学,博士后

2022.7-至今,中国海洋大学,教授

 

3. 现今学术兼职

Tectonics》、《Journal of Asian Earth Sciences》、《Geological Journal》等学术期刊审稿专家

 

4. 主持及参与的科研项目

1)山东省自然科学基金优秀青年基金项目,板块重建及地幔动力学(2023HWYQ-0652023.01-2025.12),项目负责人

2)科技部国家重点研发计划课题,东亚陆缘中生代构造过程及盆地形成演化(2022YFF08004012022.12-2027.12) ,专题负责人

3)山东省泰山学者青年专家, 地幔柱在超大陆旋回中的演化(tsqn2023061142023.01-2025.12),项目负责人

  

三、主要学术领域 

1. 学科方向

板块重建、地球动力学数值模拟、海洋地质

2. 研究方向

全球板块与深部地幔的系统演化、东亚-西太平洋地区洋陆相互作用、地幔柱动力学

 

四、研究生培养

每年招收对地幔对流数值模拟、板块构造、海洋地质和地幔柱演化等感兴趣的硕士和博士研究生,一起探索固体地球的演化历史和物理规律。

 

五、主要论文和论著目录

1. 论文收录情况

已发表论文30余篇,其中被SCI收录总数23篇。第一作者SCI论文6、通讯作者SCI论文4篇。

 

2. 代表性论文列举如下:

[1]Cao, X.Z., Flament, N., Li, S.Z., Müller, R.D. 2021. Spatio-temporal evolution and dynamic origin of Jurassic-Cretaceous magmatism in the South China Block. Earth-Science Reviews, 217: 103605.

[2]Cao, X.Z., Flament, N., Bodur, O.F., Müller, R.D. 2021. The evolution of basal mantle structure in response to supercontinent aggregation and dispersal. Scientific Reports, 11: 22967.

[3]Cao, X.Z., Flament, N., Müller, R.D. 2021. Coupled Evolution of Plate Tectonics and Basal Mantle Structure. Geochemistry, Geophysics, Geosystems, 22: 2020GC009244.

[4]Cao, X.Z., Zahirovic, S., Li, S.Z., Suo, Y.H., Wang, P.C., Liu, J.P., Müller, R.D. 2022. A deforming plate tectonic model of the South China Block since the Jurassic. Gondwana Research, 102: 3-16.

[5]Cao, X.Z., Flament N., Müller D., Li, S.Z. 2018. The dynamic topography of eastern China since the latest Jurassic Period, Tectonics, 37: 2017TC004830.

[6]Cao, X.Z., Li, S.Z., Xu L. Q., Guo L. L., Liu L. P., Zhao S. J., Liu X. Dai L. M. 2015. Mesozoic–Cenozoic evolution and mechanism of tectonic geomorphology in the central North China Block: constraint from apatite fission track thermochronology. Journal of Asian Earth Sciences, 114: 41-53.

[7]Zhou, J., Li, S.Z., Suo, Y.H., Zhang, L., Du, X.D., Cao, X.Z., Wang, G.Z., Li, F.K., Liu, Z., Liu, J., Wang, P.C., Somerville, I. 2022. NE-trending transtensional faulting in the Pearl River Mouth Basin of the northern South China Sea margin. Gondwana Research, 2022 (in press, 通讯).

[8]Zhang, R.X., Li, S.Z., Suo, Y.H., Liu, J.P., Cao, X.Z., Zhou, J., Jiang, Z.X., Li, X.Y. 2022. A forearc pull-apart basin under oblique arc-continent collision: Insights from the North Luzon Trough. Tectonophysics, 837: 229461 (共同通讯).

[9]Lan, H., Li, S.Z., Guo, L.L., Li, X.Y., Liu, Y.J., Liu, B., Santosh, M., Cao, X.Z., Zhang, R.X., Wang, G.Z. 2022. Mesozoic deformation of the Nadanhada Terrane and its implications on the subduction of the Paleo-Pacific Plate. Journal of Asian Earth Sciences, 232: 105166 (共同通讯).

[10]Wang, P., Suo, Y.H., Cao, X.Z., Zhu, J.J., Liu, B., Wang, G.Z, Zhou, J., Li, X.Y., Li, S.Z., Hui, G.G. 2021. Late Cretaceous-Cenozoic cooling of the southern Lower Yangtze River area: A response to subduction of the Izanagi and Pacific plates. Gondwana Research, 102: 31-45 (共同通讯).

[11]曹现志,  李三忠, 索艳慧,  戴黎明, 杨安, 王鹏程,  刘金平. 2023. 微板块与深部地幔LLSVP的遥相关作用. 岩石学报(出版中).

[12]曹现志, 李三忠, 刘鑫, 索艳慧, 赵淑娟, 许立青, 戴黎明, 王鹏程, 余珊. 2013. 太行山东麓断裂带板内构造地貌反转与机制. 地学前缘, 20(4): 88-103.

[13]曹现志, 许立青, 李三忠, 刘鑫, 索艳慧, 戴黎明, 赵淑娟, 王鹏程. 2018. 华北地块中部新构造运动. 地质科学, 53(3): 835-859.

[14]李三忠,曹现志,王光增,刘博,李玺瑶,索艳慧,姜兆霞,郭玲莉,周洁,王鹏程,朱俊江,汪刚,赵淑娟,刘永江,张国伟. 2019. 太平洋板块中-新生代构造演化及板块重建. 地质力学学报, 25(5)642-677.

[15]薛友辰,曹现志,许立青,李三忠, 赵淑娟, 刘鑫, 索艳慧, 王鹏程, 郭玲莉, 孔祥超,戴黎明. 2015. 遥感技术在断裂研究中的应用——以张家口蓬莱断裂带为例. 地质科学, 50(02): 564-580.

[16]Suo, Y.H., Li, S.Z., Cao, X.Z. 2020. Large-scale asymmetry in thickness of crustal accretion at the Southeast Indian Ridge due to deep mantle anomalies. GSA Bulletin, 133: 1057-1070.

[17]Suo, Y.H., Li, S.Z., Cao, X.Z., Liu, Y.M., Zhu, J.J., Li, X.Y., Somerville, I. 2021. Mantle micro-block beneath the Indian Ocean and its implications on the continental rift-drift-collision of the Tethyan evolution. Earth-Science Reviews, 217: 103622.

[18]Suo, Y.H., Li, S.Z., Cao, X.Z., Wang, X.Y., Somerville, I., Wang, G.Z., Wang, P.C., Liu, B. 2020. Mesozoic-Cenozoic basin inversion and geodynamics in East China: A review. Earth-Science Reviews, 210: 103357.

[19]Suo, Y.H, Li, S.Z., Cao, X. Z., Dong H., Li X. Y., Wang X. Y. 2020. Two-stage eastward diachronous model of India-Eurasia collision: Constraints from the intraplate tectonic records in Northeast Indian Ocean. Gondwana Research, 102: 372-384.

[20]Xu L. Q., Li, S.Z., Cao, X.Z., Somerville I. D., Suo Y.H., Liu X., Dai L. M., Zhao S. J., Guo L. L., Wang P. C., Cao H. H. 2016. Holocene intracontinental deformation of the northern North China Plain: Evidence of tectonic ground fissures. Journal of Asian Earth Sciences, 119: 49-64.

[21]Dmitrienko L.V., Li, S.Z., Cao, X.Z., Suo Y.H., Wang Y. M., Dai L. M., Somerville I. D. 2016. Large-scale morphotectonics of the ocean-continent transition zone between the Western Pacific Ocean and the East Asian Continent: a link of deep process to the Earth's surface system. Geological Journal, 51: 263-285.

[22]索艳慧, 李三忠, 曹现志, 李玺瑶, 刘鑫, 曹花花. 2017. 中国东部中新生代反转构造及其记录的大洋板块俯冲过程. 地学前缘, 24(04): 249-267.

[23]Li, S.Z., Li, X.Y., Wang, G.Z., Liu, Y.M., Wang, ZC., Wang, T.S., Cao, X.Z., Guo, X.Y., Somerville, I., Li, Y., Zhou, J., Dai, L.M., Jiang, S.H., Zhao, H., Wang, Y., Wang, G., Yu, S. 2019. Global Meso-Neoproterozoic plate reconstruction and formation mechanism for Precambrian basins: Constraints from three cratons in China. Earth-Science Reviews, 198: 102946.

[24]Li,S.Z., Suo, Y.H., Li, X.Y., Liu, B., Dai L.M., Wang, G.Z., Wang, G., Zhou, J., Li, Y., Liu, Y.M., Cao, X.Z., Somerville, I., Mu, D.L. Zhao, S.J., Liu, J.P., Zhen, L.B., Zhao, L.T., Zhu, J.J., Yu, S.Y., Liu, Y.J., Zhang, G.W. 2018. Microplate Tectonics: new insights from micro-blocks in the global oceans, continental margins and deep mantle. Earth-Science Reviews, 185: 1029-1064.