基本情况
姓名:
孟元库
性别:
男
职务:
副院长
职称:
教授
所在系别:
地质学系
导师类别:
博士生/硕士生导师
最高学历:
研究生
最高学位:
博士
电话:
/
Email:
ykmeng@foxmail.com; myk@sdust.edu.cn
详细情况
所在学科专业
地质学;地质资源与地质工程;资源与环境
所研究方向
构造地质学;岩石大地构造;矿产地质;机器学习ML
研究生招生
1)地质学、地质资源与地质工程方向的学术型硕士/博士研究生;
2)资源与环境方向的专业型硕士/博士研究生
3)招收地质学/地质资源与地质工程方向的合作博士后
教育经历
中国地质科学院构造地质学博士毕业(导师许志琴院士);2024.09-2025.09法国巴黎地球物理研究所访问学者(合作导师Catherine Chauvel);2017.10-2017.11美国地质调查局访问学者(合作导师Walter Mooney)
工作经历
青岛海洋地质研究所;山东科技大学(至今)
2018.09-2020.12 山东科技大学 讲师/学术副教授
2021.01—至今 山东科技大学 教授
科研项目
1)主持国家自然科学基金子课题,经费70.5万元,2024-2027
2)主持国家深地专项项目子课题,经费100万元,2025-2030
3)主持山东省地矿局科技创新项目,经费40万元,2024-2028
学术论文
以第一作者/通讯作者发表的SCI检索论文
1) Unraveling of the Gangdese batholith exhumation since the Miocene: Evidence from (U-Th)/He thermochronology. 2025. Science China: Earth Sciences, 68(10), 3306-3324.
2) Petrogenesis of the diorite pluton and granite dike in th Dazhuka area of the Gangdese belt, southern Tibet: Constraints from zircon U-Pb geochronology, whole-rock geochemist and Sr-Nd-Hf-O isptopes. 2025. Acta Petrologica Sinica, 41(7), 2363-2387.
3) Mineral textures and geochemistry tracing the evolution and metallogenic implications of the rapakivi granite in the Gangdese belt, southern Tibet. 2025. Lithos, 512, 108137.
4) Geochemical insights into magma evolution of syn-collisional and postcollisional granites in the Gangdese belt, southern Tibet. 2025. GSA Bulletin, 137(11-12), 4855-4874.
5) Geochronology and tectonic evolution of the Luobusa ophiolite in southern Tibet, China. 2025. GSA Bulletin. https://doi.org/10.1130/B38405.1
6) Petrogenesis of the Miocene granitic porphyry in the middle Gangdese belt: Constraints from zircon U-Pb geochronology, whole-rock geochemistry and Sr-Nd-Hf-O isotopes. 2024. Acta Petrologica Sinica, 40(12), 3734-3752.
7) Identification of the EMII-type mantle end-member of the Kerguelen mantle plume and its implications for the initial breakup of eastern Gondwana: New constraints from the Cretaceous diabase in the Tethyan Himalaya. 2024. Journal of Asian Earth Sciences, 272, 106250.
8) Petrogenesis and tectonic significance of basalts from the Mid-Atlantic Ridge 26°S: Evidence from Hf isotopes. 2023. Journal of Asian Earth Sciences, 39(8), 2365-2378.
9) Magmatic response to slab breakoff of the Neo-Tethyan ocean: Constraints from Eocene diorites and gabbros in the southern Lhasa terrane, Tibet. 2023. Journal of Asian Earth Sciences, 251, 105673.
10) New geochronological and provenance constraints on the Late Mesozoic sedimentary formations in the western Shandong Province and Tanlu fault zone, China. 2023. Frontiers in Earth Science, 10, 995848.
11) Late Neoarchean crust-mantle interaction and tectonic implications in western Shandong Province, North China Craton: Evidence from a granodiorite pluton and associated magmatic enclaves. 2023. Lithos, 436, 106978.
12) Identification of the early cretaceous granitic pluton and tectonic implications in the middle gangdese belt, southern Tibet. 2022. Frontiers in Earth Science, 10, 979313.
13) Late Mesozoic diorites of the middle Gangdese magmatic belt of southern Tibet: New insights from SHRIMP U-Pb dating and Sr-Nd-Hf-O isotopes. 2021. Lithos, 404, 106420.
14) Heavy magnesium isotopes in the Gangdese Magmatic Belt: Implications for magmatism in the Mesozoic subduction system of southern Tibet. 2021. Lithos, 390, 106106.
15) Identification of the Early Jurassic mylonitic granitic pluton and tectonic implications in Namling area, southern Tibet. 2021. Geoscience Frontiers, 12(1), 13-28.
16) Petrogenesis and Tectonic Implications of the Early Cretaceous Granitic Pluton in the Sulu Orogenic Belt: The Caochang Granitic Pluton as an Example. 2020. Minerals, 10(5), 432.
17) New constraints on the tectono-magmatic evolution of the central Gangdese belt from Late Cretaceous magmatic suite in southern Tibet. 2020. Gondwana Research, 80, 123-141.
18) Geochronology and petrogenesis of the mafic dykes from the Purang ophiolite: Implications for evolution of the western Yarlung-Tsangpo suture zone, southwestern Tibet. 2020. Geoscience Frontiers, 11(1), 277-292.
19) Back-arc basin evolution in the southern Lhasa sub-terrane, southern Tibet: Constraints from U-Pb ages and in-situ Lu-Hf isotopes of detrital zircons. 2019. Journal of Asian Earth Sciences, 185, 104026.
20) Tectonic Implications and Petrogenesis of the Various Types of Magmatic Rocks from the Zedang Area in Southern Tibet. 2019. Journal of Earth Science, 30(6), 1125-1143.
21) Petrogenesis of Late Cretaceous mafic enclaves and their host granites in the Nyemo region of southern Tibet: Implications for the tectonic-magmatic evolution of the Central Gangdese Belt. 2019. Journal of Asian Earth Sciences, 176, 27-41.
22) Petrogenesis and tectonic implications of Early Cretaceous volcanic rocks from Lingshan Island in the Sulu Orogenic Belt. 2018. Lithos, 312, 244-257.
23) Late Triassic Granites From the Quxu Batholith Shedding a New Light on the Evolution of the Gangdese Belt in Southern Tibet. 2018. Acta Geologica Sinica-English Edition, 92(2), 462-481.
24) The identification of the Eocene magmatism and tectonic significance in the middle Gangdese magmatic belt, southern Tibet. 2018. Acta Sinica Petrologica,
34(3), 513-546.
25) The discovery of late Triassic mylonitic granite and geologic significance in the middle Gangdese batholiths, southern Tibet. 2017. Journal of Geodynamics, 104, 49-64.
26) Late Triassic crustal growth in southern Tibet: Evidence from the Gangdese magmatic belt. 2016. Gondwana Research, 37, 449-464.
27) The early-stage evolution of the Neo-Tethys ocean: Evidence from granitoids in the middle Gangdese batholith, southern Tibet. 2016. Journal of Geodynamics, 94-95, 34-49.
28) Cenozoic thermal evolution of the Quxu batholith in the Gangdese belt: Constraints from (U-Th) /He thermochronology. 2026. Acta Petrologica Sinica, 42(1), 123-138.
29) Petrogenesis of Miocene rhyolites in the Xigaze fore-arc basin, south Tibet: insights into post-collisional growth and reworking. 2025. Acta Petrologica, 41(11), 3707-3734.
以第一作者/通讯作者发表的EI和中文核心检索论文
1) 田横岛杨家庄组物源特征研究:来自碎屑锆石U-Pb年龄及全岩地球化学的制约. 2026. 地质学报, 100(1). 10.19762/j.cnki.dizhixuebao.2024491
2) 冈底斯带甲玛矿区花岗斑岩类年代学、地球化学及岩石成因. 2018. 地球科学, 43(4): 1142-1163.
3) 藏南冈底斯带中段早侏罗世岩浆作用的厘定及其大地构造意义. 2018. 地质学报, 92(6): 1196-1215.
4) 运动学涡度在藏南冈底斯岩浆带中段谢通门-曲水韧性剪切带中的应用. 2016. 地质学报, 90(11): 3023-3038.
5) 山东青岛地区灵山岛早白垩世碎屑岩锆石U-Pb-Hf同位素特征及其大地构造意义. 2018. 地球科学, 43(9): 3302-3323.
6) 藏南冈底斯中段谢通门始新世复式岩体锆石U-Pb年代学、Hf同位素特征及其地质意义. 2015.大地构造与成矿学, 39(5): 933-948.
7) 藏南冈底斯岩浆带中段曲水韧性剪切带的变形特征及其年代学约束. 2016.地球科学, 41(7): 1081-1098.
8) 冈底斯岩基中新世以来抬升-剥蚀出露演化:来自(U-Th)/He热年代学的证据. 中国科学: 地球科学, 55(10): 3438-3458.
9) 内蒙古西乌旗地区晚石炭世石英闪长岩的岩石成因及构造意义. 2016. 中国地质, 43(6): 1932-1946.
10) 山东青岛竹岔岛存在古火山口吗?2017. 地质论评, 63(6): 1585-1586.
11) 太行山新生代构造隆升的地质学证据—来自沁水盆地沁参1井的磷灰石裂变径迹证据. 2015. 桂林理工大学学报, 35(1): 15-28.
12) 冈底斯中段碱长花岗岩锆石U-Pb-Hf同位素特征及地质意义. 中国地质, 42(5): 1202-1213.
13) 藏南冈底斯岩浆岩带研究进展与展望. 2022. 高校地质学报, 28(1): 1-38.
14) 青岛灵山岛及邻区早白垩世大地构造演化. 2016. 地质论评,65(2): 385-388.
15) 北祁连阴凹槽石炭系砾岩的沉积环境. 2012. 桂林理工大学学报, 32(4): 475-481.
16) 藏南冈底斯地体谢通门—曲水韧性剪切带40Ar/39Ar年代学约束. 2016. 地质论评, 62(4): 795-806.
17) 藏南冈底斯地体中段南缘构造演化. 2017. 地球学报, 38(S1): 15-18.
18) 山东青岛灵山岛流纹岩岩石成因及构造环境新认识. 高校地质学报, 25(5): 654-669.
19) 机器学习在花岗岩成因类型判别中的应用. 2025. 地质科学, 60(5), 1509-1529.
以第一作者发表的教学类文章
1) 对构造地质学教学的一点建议. 2012. 中国地质教育, 21(2): 92-95.
专利情况
1) 基于多探头的海洋静力触探实验方法. 国家发明专利. 专利号:ZL 2023 1 0966445.4 (位次R1)
2) 便携型海底水合物勘探静力触探航行器. 国家发明专利. 专利号:ZL 2023 1 1152325.7 (位次R1)
3) 一种海流能纳米发电静力触探装置. 国家发明专利. 专利号:ZL 2023 1 1384377.7 (位次R1)
4) 基于机器学习的花岗岩构造环境判别方法. 国家发明专利. 专利号:ZL 2024 1 0992745.4 (位次R1)
5) 利用秸秆收集水合物储层气体样品的履带式机器人. 国家发明专利. 专利号:ZL 2024 1 1244100.9
获奖情况
山东省青年地质科技奖(R1);淮海科学技术奖一等奖(R5);山东省优秀地质成果奖(R4);山东省地质科学技术奖一等奖(R3)
著作教材
以第一作者/第一主编出版专著三部
1)藏南冈底斯带中段岩浆演化与构造特征(ISBN978-7-312-02841-0). 2024中国科学技术大学出版社(十四五国家重点出版物出版规划项目).
2)灵山岛早白垩世地质特征及构造演化(ISBN978-7-116-14329-6). 2024. 地质出版社
3)藏南冈底斯晚中生代沉积岩物源及大地构造背景研究(ISBN 978-7-03-082731-9). 2025. 科学出版社
荣誉称号
全国科普工作先进工作者;首批山东省科普专家工作室(地球科学科普工作室)领衔专家;山东省防震减灾科学传播师称号;青岛市科普专家;山东省优秀地质科技工作者;山东科技大学五四青年奖章获得者;山东科技大学优秀班主任;山东科技大我心目中的好老师等。