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合肥工业大学资源与环境工程学院导师教师师资介绍简介-李龙明

本站小编 Free考研考试/2021-04-24

姓名
李龙明
性别



出生年月
1979.09
职称
教授

行政职务

研究生导师
博士生导师

E-mail
Longming_li@hfut.edu.cn
联系电话


通讯地址

邮编
230009

个人简介
教育背景:
2006.09~2010.10 香港大学,岩石地球化学专业获博士学位
1998.09~2002.06 吉林大学,矿产与勘察专业获学士学位
工作经历:
2014.03至今 合肥工业大学,资源与环境工程学院,教授
2011.03~2014.02 加拿大滑铁卢大学,地球与环境科学学院,博士后
2010.11~2011.02 香港大学,地球科学学院,研究助理
2002.07~2006.08 南京地质矿产研究所,研究助理

研究领域
前寒武纪地质
造山带岩浆作用
华南陆块地壳形成与演化

教学工作
<<地球动力学基础>>
<<地质调查技术与规范>>
<<巢湖野外地质填图实习>>

科研工作
主持或参加的科研及地调项目:
10. 安徽含山-无为-南陵盆地沉积结构与演化(国土资源部DD**子项目),主持。
9. 华夏地块泛非期构造热事件研究(国家自然科学基金面上项目**),主持。
8. 武夷山成矿带基底变质岩系控矿因素调查(国土资源部DD**子项目),主持。
7. 政和-大埔断裂带基性-超基性岩记录的华夏板块大地构造演化信息研究(国家自然科学基金面上项目**),主持。
6. 扬子与华夏地块基底演化与对比研究(国土资源部科技项目13),参加。
5. 华南白垩纪晚期陆相红层研究,参加。
4. 江西-福建羊角-东圩地区矿产远景调查,参加。
3. 雷琼世界地质公园申报,参加。
2. 西昆仑瓦恰--科库西里克--夏麦兹地区铜铅锌矿评价,参加。
1. 沪苏浙地区国土资源综合调查,参加。


论著获奖

Zhao, X.L., Li, L.M*., Xu, M.C., Liu, H., Zhu, Q.B., Jin, G.D., Jiang, Y., 2021. Control of basement on Paleozoic mineralizations in the Wuyi metallogenic belt. Ore Geology Reviews, 131, 104037.
Jiang, J., Xing, G.F.,Li, L.M*., Zhao, X.L., Liu, H., Zhang, J.G., Li, J.H., Wang, L., Lu, K.J., Wang, B., 2020. Ageand provenance of Cambrian sequences in the Nanping–Ninghua–Ganzhou tectonic belt: Implication for tectonic evolution of the Cathaysia Block. Geological Journal, 55, 7057–7079.
Zhou, Y., Li, L.M*., Yang, K., Xing, G.F., Xiao, W.J., Zhang, H.L., Xiu, L.C., Yao, Z.Y., Xie, Z.J., 2020. Hydrothermal alteration characteristics of the Chating Cu-Au deposit in Xuancheng City, Anhui Province, China: Significance of sericite alteration for Cu-Au exploration. Ore Geology Reviews, 127, 103844.
Liang, T.,Li, L.M*., Lu, R., Xiao, W.J., 2020. Early Cretaceous mafic dikes in the northern QinlingOrogenic Belt, central China: Implications for lithosphere delamination. Journal of Asia Earth Sciences,194, 104142, 1-17.
王磊,李龙明*,班宜忠,卢可佳,葛延鹏,江涧,2020.武夷山地区基底变质岩系与区域Cu-Au多金属矿床的关系初探.合肥工业大学学报(自然科学版),43(5),688-695.
Feng, L.M., Li, L.M*., Donald W. D, Song, C.Z., Li, J.H., Ren, S.L., Han, X., Ge, Y.P., Lu, K.J. 2020. Constraints on the tectonic evolution of the Central Asian Orogenic Belt from theEarly Permian–middle Triassic granitoid rocks from the central Dunhuang orogenic belt, NW China. Journal of Asia Earth Sciences,194, 104283, 1-17.
Lu, K.J.,Li, L.M*., Ren, S.L., Feng, L.M., Han, X., Ge, Y.P., Jiang, J., Wang, L., Wang, B., 2020. Geochronological and geochemical data of paragneiss and amphibolite from the Chencai Group in South China: Implications for petrogenesis and tectonic significance, Geological Journal, 55, 6823–6840.
Ge, Y.P.,Li, L.M*., Zhao, X.L., Liu, H., Han, X., Feng, L.M., 2020. Early palaeozoic oceanicisland-seamount assemblage in northern Fujian, South China: Implications for pre-Devonian tectonic evolution of the Wuyi orogenic belt. Geological Journal 55, 3208–3228.
Li, L.M*., Li, J.H., He, J., Ge, Y.P.,2018. ZirconU–Pb ages and hf isotope compositions of theChencai migmatite, centralZhejiang province, southChina: constraints on the earlyPalaeozoic orogeny.Geological Magazine, 1-17.
Li, L.M*., Xing, G.F., Jiang, Y., Xia, X.P., 2018. Geochronology andgeochemistry of volcanic rocks from theJingtanFormation in the easternJiangnan orogen,SouthChina:Constraints on petrogenesis and tectonic implications.Precambrian Research,309,166-180
贺健,李龙明*,邢光福,姜杨,任升莲,李加好,冯腊梅,葛延鹏. 2018.政和-大埔断裂带内变基性岩成因及构造属性研究.地质学报,92(5), 946-963.
Li, L.M*., Xing, G.F., Jiang, Y., He, J., 2017. First Direct Evidence of Pan-African Orogeny Associated with Gondwana Assembly in the Cathaysia Block of Southern China.Scientific Reports,7(1).
贺健,李龙明*,任升莲,李加好,葛延鹏,冯腊梅. 2017.福建政和粗面安山岩的年代学、地球化学特征:对中国东南沿海晚中生代挤压—伸展构造的启示.地质科学,52(2), 592-615.
Li, L.M*.,Xing, G.F., Davis, D.W., Jiang.Y., Davis, W.J., Zhang, Y.J., 2016. Ca. 830 Ma back-arc type volcanic rocks in the eastern part of the Jiangnan orogen: Implications for the Neoproterozoic tectonic evolution of South China Block. Precambrian Research, 275, 209-224.
Li, L.M.,Davis, D.W., Xing, G.F., Xiao, W.J., Yin, C.Q., 2014. Geochronology and geochemistry of igneous rocks from the Kongling terrain: Implications for Mesoarchean to Paleoproterozoic crustal evolution of Yangtze Block. Precambrian Research, 255 (1), 30-47.
Li, L.M., Xing, G.F., Ren, S.L., Li, J.H., 2014. Petrogenesis and mantle source characteristics of Cenozoic alkaline diabase, Jiangxi Province,southeasternChina. International Geology Review, 56 (16), 1919-1931.
Li, L.M.,Xing, G.F., Davis, D.W., Davis, W.J., Xiao, W.J. Yin, C.Q., 2013. Geochemistry and tectonic implications of late Mesoproterozoic alkaline bimodal volcanic rocks from the Tieshajie Group in the southeastern Yangtze Block, South China. Precambrian Research 230, 179–192.
Li, L.M.,Xing, G.F., Davis, D.W., Davis, W.J., Xiao, W.J., Yin, C.Q., 2013. Geochronology and geochemistry of volcanic rocks from the Shaojiwa Formation and Xingzi Group, Lushan area, SE China: Implications for Neoproterozoic back-arc basin in the Yangtze Block. Precambrian Research 238, 1–17.
Li, L.M.,Sun, M*., Wang, Y.J., Xing, G.F., Zhao, G.C., He, Y.H., He, K.J., Zhang, A.M., 2011. U-Pb and Hf isotopic study of detrital zircons from the meta-sedimentary rocks in central Jiangxi Province, South China: Implications for the Neoproterozoic tectonic evolution of South China Block. Journal of Asia Earth Sciences 41, 44–55.
Li, L.M.,Sun, M*., Wang Y.J., Xing, G.F., Zhao, G.C., Xia, X.P., Chan, L.S., Zhang, F.F., Wong, J., 2011. U-Pb and Hf isotopic study of zircons from migmatised amphibolites in the Cathaysia Block: Implications for the early Paleozoic peak tectonothermal event in Southeastern China. Gondwana Research 19, 191–201.
Li, L.M., Sun, M*., Wang, Y.J., Xing, G.F., Zhao, G.C., Cai, K.D., Zhang, Y.Z., 2011. Geochronology and Geochemistrystudyof Palaeoproterozoic gneissic granites and clinopyroxenite enclaves from NW Fujian, SE China: implications for the crustal evolution of the Cathaysia Block. Journal of Asia Earth Sciences 41, 204–212.
Li, L.M.,Sun, M*., Xing, G.F., Zhao, G.C., Zhou, M.F., Chen, R., Wong, J. 2009. Two Late Mesozoic volcaniceventsin Fujian Province, China: constraints on tectonic evolution of Southeastern China. International Geological Review 51 (3), 216–251.






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