刘晓光(副教授)

发布者:时振波发布时间:2023-12-01浏览次数:3368


一、基本信息

姓名:刘晓光

性别:男

出生年月:1988.09

籍贯:山东临朐

联系地址:山东省青岛市崂山区松岭路238号中国海洋大学崂山校区地质楼A303,邮编266100

电子邮箱:liuxiaoguang@ouc.edu.cn

二、简历

1. 学习经历

中国石油大学(华东),资源勘查工程,工学学士,中国青岛,2011.06

中国石油大学(华东),地质工程,   专业硕士,中国青岛,2014.06

中国海洋大学,      海洋地质,   理学博士,中国青岛,2018.06

2. 工作经历

2022.04-至今,    中国海洋大学,副教授,硕士研究生导师

2023.10-2023.11,香港大学地球科学系,访问学者,合作者Jian Zhang

2018.10-2022.02,中山大学,科研博士后

3. 学术兼职

Petroleum Science and Technology》《Precambrian Research》《Geological Journal》期刊审稿人

4. 主持的科研项目

[1] 国家自然科学基金面上项目冀东双山子表壳岩带的精细物源分析:对华北晚太古代构造体制新制约423722242024.01.01-2027.12.3153万元),项目负责人

[2] 国家自然科学基金青年基金项目华北北缘化德群精确定年及对哥伦比亚超大陆裂解的新制约420022072021.01.01-2022.12.3116万元),项目负责人

[3] 中山大学高校基本科研业务费-青年教师培育项目燕辽与熊耳地区中元古代盆地演化关系:以太行山地区中元古界地层层序及碎屑锆石年代学特征研究为例” (19lgpy712019.01.01-2021.12.3112万元),项目负责人

5. 参与的科研项目

[1] 国家重点研发计划中新元古代古大陆重建与原型盆地分布预测研究2016YFC06010022016.06-2020.06),项目骨干成员

[2] 国家重大科技专项寒武系-中新元古界盆地原型、烃源岩与成藏条件研究2016ZX05004001-0032016.01-2020.12),项目骨干成员

[3] 中国石油天然气股份有限公司勘探开发研究院超前基础研究项目华北中新元古代原型盆地特征及构造演化研究2015yj-092015.09-2017.12),项目骨干成员

[4] 中国地质科学院项目柴东石炭系页岩地质与地球化学特征研究12120112210452013.06-2014.06),项目骨干成员

[5] 中国地质科学院项目柴东石炭系层序地层与泥页岩及有利储层预测12120113040000-32013.05-2015.03),项目骨干成员

三、主要学术领域

1. 学科方向:前寒武纪地质学、海洋地质

2. 研究方向:沉积大地构造。在沉积学、层序地层学的理论框架下,利用碎屑锆石U-Pb年代学、Lu-Hf同位素地球化学、层序地层学等技术手段,探讨沉积盆地(陆内、陆缘)物源分析及构造演化;地球表层物质循环过程。

3. 近期研究兴趣:

1)沉积盆地物源、层序地层模式定量化分析及大地构造应用

2)新太古代构造体质转换过程中的沉积物源响应及沉积环境演变

3)洋-陆过渡带沉积盆地构造演化以及油气资源效应

四、研究生培养

[1]  2024年拟招收硕士研究生2-3名,欢迎(1)具有地质学背景,想继续深入沉积物源分析、沉积大地构造方向的应用(2)具有较强的数理基础,想结合地质学进行定量化地质过程构建的同学报考。

[2]  录取的硕士研究生可以选择以下课题开展研究:(1)华北克拉通西北缘中元古代沉积物源分析在地块亲缘关系及超大陆重建的应用;(2)冀东地区晚太古代变质表壳岩精细物源分析、沉积环境演变及盆地演化。

五、主要论文及论著目录

1. 论文收录情况:共计发表学术论文31篇,第一作者SCI论文8篇,论文总引用300余次,论文及引用详见:

Google Scholar ID: https://scholar.google.com/citations?user=U8ofb-gAAAAJ&hl=en

2. 代表性文章

第一作者及通讯作者:

[1] Liu, X.G.*, Zhang, J., Li, S.Z., Qian, J.H., Yu, S.Y., Zhao, C., Miao, Y.Z. 2022. Provenance and metamorphism of the Mesoproterozoic Baoyintu Group: Implication for the interaction between the western Central Asian Orogenic Belt and the North China Craton. Journal of Asian Earth Sciences. 239, 105407.

[2] Liu, X.G., Zhang, J.*, Yin, C.Q., Li, S.Z., Liu, J., Qian, J.H., Zhao, C. 2021. A synthetic geochemical and geochronological dataset of the Mesoproterozoic sediments along the southern margin of North China Craton: unraveling a prolonged peripheral subduction involved in breakup of Supercontinent Columbia. Precambrian Research. 357, 106154.

[3] Liu, X.G., Zhang, J.*, Yin, C.Q., Zhao, C. 2021. Geochronological constraints of the Huoshan Formation in the Lüliang area: implication on the Great Unconformity in the central North China Craton. Geological Journal. 56(11), 5564-5578

[4] Liu, X.G.*2021.New geochronological constraints on the duration of the volcanism of the Xiong’er Group. Frontiers in Earth Science. 9:732505

[5] Liu, X.G., Zhang, J.*, Li, S.Z., Li, X.Y., Yin, C.Q. 2020. Tectono-sedimentary evolution of the Mesoproterozoic basins in the southern Yan-Liao and Mianchi-Queshan areas: insights from stratigraphic pattern and detrital zircon geochronology. International Journal of Earth Sciences. 109, 43-62

[6] Liu, X.G., Li, S.Z.*, Zhang, J.*, Li, X.Y., Zhao, S.J., Dai, L.M., Wang, G.Z. 2019.Meso-Neoproterozoic strata and target source rocks in the North China Craton: A review. Precambrian Research. 334, 105458

[7] Liu, X.G., Li, S.Z.*, Li, X.Y., Zhao, S.J., Wang, T.S., Yu, S.Y., Dai, L.M., Zhou, Z.Z., Guo, R.H. 2018. Detrital zircon U-Pb geochronology and provenance of the Sanxiatian Formation (Huade Group) in the North China Craton: Implications for the breakup of the Columbia Supercontinent. Precambrian Research. 310, 305-319.

[8] Liu, X.G., Li, S.Z.*, Zhong, J.H., Li, Y., Liu, X., Ni, L.T., Liu, S.X., Dong, S.T., Guo, R.H., Lan, H.Y., Sun, W.J. 2018. Sedimentary Microfacies and Organic Geochemical Characterization of mudstones in the Keluke Formation in Northeastern Qaidam, China. Geological Journal. 53, 1322-1347

合作者文章:

[1] Zhao, C., Zhang, J., Zhao, G.C., Yin, C.Q., Chen, G.K., Liu, J., Liu, X.G., Chen, W.L. 2022. Kinematics and structural evolution of the Anziling dome-and-keel architecture in east China: Evidence of Neoarchean vertical tectonism in the North China Craton. GSA Bulletin. 134(7-8): 2115-2129.

[2] Cheng, C.Q., Liu, J., Zhang, J., Chen, Y., Yin, C.Q., Liu, X.G., Qian, J.H., Gao, P., Wang, X. 2022. Petrogenesis of newly identified Neoarchean granitoids in the Qingyuan of NE China: Implications on crustal growth and reworking of the North China Craton. Journal of Asian Earth Sciences. 236, 105333.

[3] Chen, Y., Zhang, J., Gao, P., Liu, J., Yin, C.Q., Qian, J.H., Liu, X.G., Wang, X. 2022. Modern-style plate tectonics manifested by the late Neoarchean TTG-sanukitoid suite from the Datong-Huai'an Complex, Trans-North China Orogen. Precambrian Research. 430-431, 106843.

[4] Liu, J., Zhang, J., Liu, Z.H., Liu, X.G., Cheng, C.Q., Wang, Z.G., Zhao, C., Yu, H.C. 2022. Origin of the ca. 3.1 Ga Luanjiajie rock assemblage in the northeastern margin of the North China Craton: New constraints on the Mesoarchean geodynamic regime. Precambrian Research. 376, 106697

[5] Wang, X., Zhang, J., Yin, C.Q., Zhou, H., Liu, J., Liu, X.G., Zhao, C. 2021. Petrogenesis and tectonic implications of TTG granitoids from the Daqingshan Complex of the Khondalite Belt, North China Craton. American Journal of Science. 321 (6) 680-707

[6] Wang, X., Zhang, J., Li. X.P., Yin, C.Q., Zhou, H., Liu, J., Liu, X.G., Zhao, C. 2020. Geochronology and geochemistry of low-grade metamorphic rocks from the Erdaowa Group and its significance on the tectonic evolution of the Paleoproterozoic Khondalite Belt, North China Craton. Precambrian Research. 350, 105923

[7] Chen, Y., Zhang, J., Liu, J., Han, Y.G., Yin, C.Q., Qian, J.H., Liu, X.G.2020.Crustal growth and reworking of the eastern North China Craton: Constraints from the age and geochemistry of the Neoarchean Taishan TTG gneisses. Precambrian Research. 343, 105706

[8] He, L.C., Zhang, J., Zhao, G.C., Yin, C.Q., Qian, J.H., Liu, J., Liu, X.G., Zhao, C. 2021. Macro- and microstructural analysis of the Zhujiafang ductile shear zone, Hengshan Complex: Tectonic nature and geodynamic implications of the evolution of Trans−North China orogen. GSA Bulletin. 133(5-6): 1237-1255

[9] Liu, J., Zhang, J., Hsia, Juiyen., Xian, W.S., Yin, C.Q., Djoko H.N.F.X., Cheng, C.Q., Zhao, C., Liu, X.G., Chen, Y., Wang, X. 2020. Late Miocene to Pliocene crustal extension and lithospheric delamination revealed from the ~5 Ma Palopo granodioritic intrusion in Western Sulawesi, Indonesia. Journal of Asian Earth Sciences. 201, 104506

[10] Li, X.Y., Li, S.Z., Wang, T.S., Dong, Y.P., Liu, X.G., Zhao, S.J., Wang, K., Sun, J.P., Dai, L.M., Suo, Y.H. 2020. Geochemistry and detrital zircon records of the Ruyang-Luoyu groups, southern North China Craton: Provenance, crustal evolution and Paleo–Mesoproterozoic tectonic implications. Geoscience Frontiers. 11(02), 679-696

[11] Liu, J., Zhang, J., Yin, C.Q., Cheng, C.Q., Liu, X.G., Zhao, C., Chen, Y., Wang, X. 2020. Synchronous A-type and adakitic granitic magmatism at ca. 2.2 Ga in the Jiao–Liao–Ji belt, North China Craton: Implications for rifting triggered by lithospheric delamination. Precambrian Research. 342, 105629

[12] Wang, G.Z., Li, S.Z., Li, X.Y., Zhao, W.Z., Zhao, S.J., Suo, Y.H., Liu, X.G., Somerville, I., Liu, Y.M., Zhou, J., Wang, Z.C. 2019. Destruction effect on Meso-Neoproterozoic oil-gas traps derived from Meso-Cenozoic deformation in the North China Craton. Precambrian Research. 333, 105427

[13] Guo, R.H., Li, S.Z., Suo, Y.H., Li, X.Y., Liu, X.G., Zhou, Z.Z., Guo, L.L., Wang, Q., Somerville, I.  2017. Late Triassic Dabie-Sulu Orocline: New exhumation model of the HP-UHP rocks. Geological Journal. 52(S1): 22-31

[14] Zhou, Z.Z., Li, S.Z., Li, X.Y., Guo, L.L., Liu, X.G., Guo, R.H., Somerville, I. 2017. Triassic Orocline in East Asia: Insights from a transition from passive margin to foreland basin in Eastern North China Block. Geological Journal. 52(S1): 59-69

[15] 牟墩玲,李三忠,王倩,赵淑娟,李玺瑶,周在征,刘晓光. 2018. 柴达木盆地东缘早古生代弯山构[J]. 岩石学报,3412:3721-3738

[16] 牟墩玲,李三忠,王倩,李玺瑶,王鹏程,于胜尧,周在征,刘晓光. 2018.塔里木盆地东南缘早古生代弯山构造[J]. 岩石学报,3412:3739-3757

[17] 李三忠,臧艺博,王鹏程,索艳慧,李玺瑶,刘鑫,周在征,刘晓光,王倩.  2017. 华南中生代构造转换和古太平洋俯冲启动[J]. 地学前缘,  244):213–225 (EI)

[18] 郭润华,李三忠,索艳慧,王倩,赵淑娟,王旖旎,刘晓光,周在征,李瑾,兰浩圆,王鹏程,郭玲莉. 2017. 华北地块楔入大华南地块和印支期弯山构造[J]. 地学前缘,244):171–184

[19] 刘圣鑫,钟建华,刘晓光,李勇,邵珠福,刘选, 致密多孔介质气体运移机理[J]. 天然气地球科学2014, 2510):1520–1528

[20] 孙文军,李三忠,王鹏程,李玺瑶,刘晓光,张剑,兰浩圆,李少俊. 2017. 鲁西地区中生代穹盆构造与东亚构造体制转换[J] 海洋地质与第四纪地质,3704):110-125

[21] 李三忠,郑祺亮,李玺瑶,赵淑娟,索艳慧,郭玲莉,王永明,周在征,刘晓光,兰浩圆,张剑,郭润华,李少俊. 2017. 中国东部苏鲁造山带的印支期俯冲极性及其造山过程[J]. 海洋地质与第四纪地质,3704):18-32

[22] 刘圣鑫,钟建华,马寅生,尹成明,刘成林,李宗星,刘选,李勇,刘晓光. 2015. 柴东石炭系页岩微观孔隙结构与页岩气等温吸附研究[J]. 中国石油大学学报:自然科学版,391):33-42

[23] 刘圣鑫,钟建华,马寅生,尹成明,刘成林,李宗星,李勇,刘选,毛毳,刘晓光. 2015. 页岩中气体的超临界等温吸附研究[J]. 煤田地质与勘探,433):45-50

六、学术交流

201710第六届全国沉积学大会,江苏南京,口头报告

201903第二届构造地质学与地球动力学青年学术论坛,江苏南京,口头报告

202009第三届构造地质学与地球动力学青年学术论坛,浙江杭州,口头报告(线上)



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