姓名:宋鹰 | 系属:地质系 | |
学位:博士 | 职称:副教授 | |
专业:地质学 | 导师类别:硕士研究生导师 | |
电子邮箱:yingsong@upc.edu.cn | ||
联系电话: | ||
通讯地址:山东省青岛市黄岛区长江西路66号石油大学地质系工科楼C647 | ||
概况 | ||
团队特色:纯净学术环境,聚焦由0到1的基础科学问题研究,国际化培养模式,鼓励学科交叉、良好经费支持
招生要求:(1)热爱自然,(2)具备自我管理能力,(3)大地学类学科、交叉学科背景(数理化、计算机信息类、机械类、材料类、生命科学、哲学类、外语类等)
研究方向: (1)沉积盆地动力学 (2)同位素热年代学技术方法及应用 (3)宝石学 (4)透明矿物(宝石)识别技术及仪器
教育与工作经历: 1998-2001 山东省威海市第二中学,高中 2001-2005 中国地质大学(武汉)珠宝学院,宝石与材料工艺学,工学学士 2005-2010 中国地质大学(武汉)资源学院,矿产普查与勘探,工学博士 2009-2010 Earth Sciences Department, University of Plymouth,访问员工 2010-今 kaiyun体育登录网页入口(华东)地学院地质系,讲师、副教授 2016-2016 Department of Earth Sciences, University of Southern California,访问学者 2018-2019 Department of Geology,University of Illinois Urbana-Champaign,访问学者
学术兼职: 美国地质学会会员,国家自然科学基金委函评专家,教育部学位论文抽检专家 Tectonophysics, Journal of Geophysical Research: Solid Earth, Paleo 3, Journal of Earth Science, Australian Journal of Earth Science等英文期刊审稿人。
主讲课程: 1.地质学类:构造地质学、大地构造学、油区构造解析 2.宝石学类:宝玉石鉴赏、宝石学、宝石鉴定 3.通识类:专门用途英语
作为负责人承担的纵向科研项目: 1.国家自然科学基金(面上),大陆裂谷“非瞬时”断坳转换过程研究—以松辽盆地为例,2022-2025 2.国家自然科学基金(面上),松辽盆地裂后期异常热演化的多重热年代学探针,2018-2021 3.国家自然科学基金(青年),松辽盆地裂后期幕式构造反转的低温热年代学约束,2014-2017 4.国家重点研发计划专题,东亚古环境重建,2017-2021 5.国家973计划项目专题,晚中生代东亚东部古太平洋构造演化重建,2012-2016 6.山东省自然科学基金,胶莱盆地晚白垩世构造反转—来自磷灰石裂变径迹和(U-Th)/He热年代学的制约,2014-2016
获奖情况: 中国地质大学紫金科技奖(2004) 湖北省优秀学士论文(2005) 中国地质大学(武汉)优秀班主任(2009) 中国地质大学(武汉)优秀博士论文(2010) kaiyun体育登录网页入口(华东)军训工作优秀个人(2010) 中国石油和化学工业联合会科技进步一等奖(排名第6)(2018) 教育部科技进步二等奖(排名第8)(2019) 第二届全国大学青年教师地质课程教学比赛二等奖(2019)
学术成果: 1.科研论文(第一及通信作者): (1) Ying Song; Jianye Ren; Andrei A. Stepashko; Jianguo Li; Post-rift geodynamics of the Songliao Basin, NE China: Origin and significance of T11 (Coniacian) unconformity, Tectonophysics, 2014, 634: 1-18(SCI). (2) Ying Song; Andrei A. Stepashko; Jianye Ren; The Cretaceous climax of compression in Eastern Asia: Age 87-89 Ma (late Turonian/Coniacian), Pacific cause, continental consequences, Cretaceous Research, 2015, 55: 262-284(SCI). (3) Ying Song; Andrei Stepashko; Keyu Liu; Qingkun He; Chuanbo Shen; Bingjie Shi; Jianye Ren; Post-rift Tectonic History of the Songliao Basin, NE China: Cooling Events and Post-rift Unconformities Driven by Orogenic Pulses From Plate Boundaries, Journal of Geophysical Research: Solid Earth, 2018, 123:2363-2395(Nature Index, SCI). (4) Ying Song; Jianye Ren; Keyu Liu; Chuanbo Shen; Andrei Stepashko; Post-rift anomalous thermal flux in the Songliao Basin, NE China, as revealed from fission track thermochronology and tectonic analysis , Palaeogeography, Palaeoclimatology, Palaeoecology, 2018, 508(1): 148-165(SCI). (5) Ying Song , Jianye Ren; Keyu Liu; Xinjie Feng; Yuan Liu; Andrei Stepashko;Syn-rift to post-rift tectonic transition and drainage reorganization in continental rifting basins: detrital zircon analysis from the songliao basin, China, Geoscience Frontiers, 2022(SCI). (6) Yanghui Zhao; Dianjun Tong; Ying Song*;Linlong Yang; Chao Huang; Seismic reflection characteristics and evolution of intrusions in the Qiongdongnan Basin: Implications for the rifting of the South China Sea, Journalof Earth Science, 2016, 27(4):642-653(SCI). (7) Ying Song; The Seismic Reflection Feature of the Glutenite Body on Shahejie Formation in Yidong Fault Zone, International Journal of Earth Sciences and Engineering, 8(6):2754-2759 (EI) (8) Ying Song; Seismic description technology research on pinch-out point of eroded strata- A case study of Caoqiao area in Dongying Depression, International Journal of Earth Sciences and Engineering,8(6):2603-2608 (EI) (9) Ying Song; Xinqiang Yuan; Differentiation of Naturally-Coloured and Artificially Irradiated Blue Topaz Specimens by Their Cathodoluminescence properties, The Australian Gemmologist, 2009, 23(12):551-558
2.技术及方法学论文(第一及通信作者): (1)宋鹰;张俊霞;Andrei Stepashko;袁万明;丛旭日;基于核密度估计的碎屑颗粒年龄分析及应用:松辽盆地构造事件定年,地学前缘,2016(4):265-279(EI, 核心) (2)宋鹰;钱禛钰;张俊霞; Stepashko Andrei; 碎屑锆石形态学分类体系及其在物源分析中的应用:以松辽盆地松科一井为例, 地球科学, 2018, 43(6):1997-2006(EI, 核心) (3)宋鹰; Song, Sean; 基于机器视觉的光性智能检定系统设计与实现,实验室研究与探索, 2018,37(10):4-8(核心) (4)宋鹰; Song Sean; 基于个人智能终端的分布式虚拟现实实践教学系统的设计, 实验室研究与探索, 2022, 39(2):227-232(核心)
3.授权专利(第一发明人) (1)Detection Device Based on the Piezoelectric Property of Geological Mineral, 2022, US11467296B2. (美国发明专利) (2)Hazardous Article Handing and Logistics Information System for Geological Sciences and Other Purposes, 2020, US10532873B2. (美国发明专利) (3)Autonomous Anti-pollution Liquid Container for Isotope Analysing of Earth Science Area, 2019, US10189 627B2. (美国发明专利) (4)Automatic Observation Apparatus for Detecting Mineral Samples, 2016, US9506857B2.(美国发明专利) (5)危化品智能存储装置,2015,2015102143023(发明专利) (6)一种药剂安全存储容器,2015,2015102160828(发明专利) (7)用于矿物光谱检测的自动观测装置,2014,2014103368975(发明专利) (8)用于矿物样品检测的自动观测装置,2014,2014102757853(发明专利) (9)一种用于鉴别宝石的夹持装置,2004,2003201255274(实用新型专利) (10)一种宝石的固定和旋转装置,2005,2004200172438(实用新型专利)
4.国际学术会议报告 (1)Song et al., 2019, Tectonic transition from syn- to post-rift of the Songliao Basin, NE China as revealed by the detrital thermochronology and its implication to the Mid-Cretaceous drainage reorganization of NE Asia, AGU 2019 Fall Meeting (Oral Presentation) (特邀报告) (2)Song et al., 2018, Post-rift Tectonic History of the Cretaceous Songliao Basin, NE China:Thermal Events and Post-rift Unconformities Driven by Orogenic Pulses From Plate Boundaries, AGU 2018 Fall Meeting (Oral Presentation) (3)Song et al., 2016, Retrieving A Late Cretaceous Major Plate Reorganization Event of Pacific Ocean : Insight from Eastern Asia and Significance to Pacific Evolution: GSA Annual Meeting (Poster Presentation) (4)Song et al., 2015, The Late Cretaceous Major Reorganization Event of Pacific Plate, Age 87-89 Ma (Late Turonian/ Coniacian): Insight from Eastern Asia and Implication to the Laramide Orogeny in Western Interior in North America: GSA Rocky Mountain Section Meeting (Oral Presentation) (5)Song et al., 2015, Deformation History of the Songliao Basin in Context of Late Cretaceous- Paleogene (syn-Laramide Orogeny period) Tectonics of the Northeast Asia: insight from regional angular unconformities and low temperature thermochronology: GSA Rocky Mountain Section Meeting (Poster Presentation) (6)Song et al., 2013, The episodic post-rift tectonic inversion of Cretaceous Songliao Basin, NE China: evidence from fission track thermochronology and geodynamic implication: 30th International Association of Sedimentologists Meeting of Sedimentology. (Oral Presentation) (7)Song et al., 2012, The episodic post-rift tectonic inversion of Cretaceous Songliao Basin, NE China: evidence from fission track thermochronology and geodynamic implication: 34th International Geological Congress.(Oral Presentation) (8)Song et al., 2012, Differentiation of naturally-coloured and artificially irradiated blue topaz specimens by their cathodoluminescence properties: 34th International Geological Congress. (Poster Presentation) (9)Song et al., 2009, The characteristics and dynamic background of the Bottom Boundary (T11) of Late Cretaceous Yaojia Formation in the Songliao Basin, NE China: 8th International Symposium on the Cretaceous System (Oral Presentation)
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