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  • 个人概况
  • 研究方向
  • 开授课程
  • 科研项目
  • 学术成果
  • 荣誉奖励
  • 风采展示
王国光
  • 职称: 副教授 职称: 副教授
  • 岗位: 仅研究系列选择
  • 联系电话:
  • 办公地址: 朱共山楼248
  • 电子邮件: ggwang@nju.edu.cn
  • 课题组链接:

个人简介

王国光,1983年生,博士,南京大学地球科学与工程学院副教授。矿床学专业,研究方向为地质流体与成矿作用。20137月博士毕业留校,20167月被聘为副教授。兼任青年地学论坛理事会理事、学院地化矿床支部书记、中国矿物岩石地球化学学会青年工作委员会副主任委员、中国地球物理学会构造物理化学专业委员会副主任委员、内生金属矿床国家重点实验室学术秘书、矿床地质》编委、《Data Express in Natural Resources and Environment》编委、《Continental and Life Evolution》青年编委、Frontiers in Earth Science》杂志Review Editor、《黄金科学技术》青年编委等。主持国家自然科学基金面上项目2项、青年项目1项,国家重点研发计划等重大科技项目子课题3项,中国地质调查局整装勘查区项目1项。作为项目骨干,参加基金委重点项目2项,科技部重点研发计划课题1项,危机矿山项目1项,中国地调局矿集区项目1项、安徽省地矿局项目3项、四川会理铅锌公司项目1项。以第一或通讯作者在JGR-solid earth, GCA, MD, OGR, PR, Lithos, 中国科学等国内外知名杂志发表矿床学和地质流体领域的SCI文章20余篇,作为客座主编在《矿床地质》出版专辑1部,疫情期间发起并组织多期青年矿床网络论坛,运行《矿床学》微信公众号。通过对钦杭带北东段铜金成矿作用的细致研究,建立了钦杭带大陆再造与铜金多期成矿的新模式,相关研究成果成功应用于找矿勘查。关注超临界流体成矿作用以及超大型矿床巨量金属堆积机理研究,研究对象为沙坪沟斑岩钼矿、甲基卡伟晶岩型锂矿等。开展关键金属在地质圈和人类圈循环的探索研究。承担课程情况为地学拔尖班固体地球科学原理、固体地球科学认识实习、流体包裹体、矿相学、成岩成矿与板块构造、成岩成矿作用等。获得全国教创赛二等奖、教创赛江苏省特等奖、南京大学教师教学竞赛特等奖、南京大学卓越教师发展奖、中国银行奖教金、育教融合奖教金、优秀研究生德育导师等荣誉。

教育经历


20079—20136月,南京大学,硕博连读,矿床学

20039—20076月,东北大学,学士,勘查技术与工程

工作经历

工作经历

201710月开始,南京大学地球科学与工程学院,矿床学,副教授,硕士生导师

201811月-2019年12月,美国弗吉尼亚理工大学,访问学者

20168月至今,南京大学地球科学与工程学院,矿床学,副教授

20137—20167月,南京大学,矿床学,助理研究员


国际合作

(1) 美国弗吉尼亚理工大学 Robert J. Bodnar教授

(2) 德国克劳斯塔尔工业大学Thomas Ulrich教授

(3) 美国Juniata学院Ryan Mathur教授



本科生和研究生培养

本科生:

2025年立项本科生创新项目:张语宸、高淼淼

2024年金种子项目:马煜菲、彭成宇

2024年立项本科生创新项目:归茗洁、刘静雯

2023年立项本科生创新项目:万宏鹏(保研-矿床)、朱鸿(保研-地球探测)

2022年立项本科生创新项目:李子昂(保研-矿床

2021年立项本科生创新项目:贺佳峰(直博生-矿床),吴言蔚(保研-矿床)

2019年立项本科生创新项目:章君政(直博生-地质工程),耿嘉琪(保研-地球物理),王广琳(保研-中科院)


研究生:

陈森鑫,李子昂,贺佳峰,吴言蔚,齐文翔,曾智渊(毕业),吕新荷(毕业),张凯涵,郑范博(毕业),韩亮钱振义(毕业),朱安冬*(毕业),赵丹蕾*(毕业)朱筱婷*(毕业),李利*(毕业)*合作导师)




杂志审稿(40余杂志审稿人,3个杂志的年度优秀审稿人)

Nature Communications, Mineralium Deposita, Earth Science Reviews, Ore Geology Reviews (60+)Chemical Geology, Scientific Reports, Lithos,  Journal of Geochemical Exploration, Gondwana Research, Lithosphere, Resource Geology, Geofluids, Solid Earth Sciences, Journal of Asian Earth Sciences, International Joural of Earth Sciences, Frontiers in Earth Sciences, Journal of African Earth Sciences, Canadian Earth Science, Journal of Earth Science, Geological Journal, Geological Magazine, China Geology, The Transactions of Nonferrous Metals Society of China, Frontiers of Earth Science, Acta Geochimica, Acta Geologica Sinica, Carbonates and Evaporties, Diamond and related materials, Petroleum Science, Green Processing and Synthesis, 岩石学报,矿床地质,中国地质,地质通报,黄金科学技术,地质学报,地球化学,高校地质学报,地球学报,南京大学学报自然科学版,吉林大学学报,中国地质,矿物岩石地球化学通报等。



国际、国内学术会议



9次在国际学术会议,19次在国内学术会议做口头报告。其中3次大会报告,11次邀请或主题报告



(41)“创新地学论坛-The Innovation Conference on Geoscience”. 南京. 2025. “战略性关键矿产与可持续转型安全”专题邀请报告

(40)“中国地质学会学术年会”. 昆明. 2025. 专题召集人

(39)“长江中下游成矿带成矿国际学术交流会”. 合肥. 2025. 邀请报告

(38)“第七届全国青年地质大会”. 沈阳. 2025. “矿物成因与资源环境效应”专题第一召集人

(37)“第十届成矿理论与找矿方法学术研讨会”. 西安. 2023. 邀请报告

(36)“中国地球科学联合会2023年年会”. 珠海. 2023. 邀请报告

(35)“第二届全国矿产勘查大会”. 威海. 2023. 邀请报告

(34)“第八届青年地学论坛”. 武汉. 2023. 邀请报告

(33)“第十六届全国矿床会议”. 太原. 2023. 邀请报告

(32)“金科学术讲堂2022年第34期”. 南京. 2022. 邀请报告

(31)内生金属矿床成矿机制研究国家重点实验室“第25期石话石说学术研讨会”. 南京. 2022. 邀请报告

30)第七届青年地学论坛“矿产与资源”.贵阳. 2021. 主题召集人(合计89个口头报告)

  (29) “青年矿床学家网络论坛第26期”. 腾讯会议平台. 2021. 邀请报告

  (28) 第五届青年地质大会. 贵阳. 2021. 邀请报告

(27)“青年矿床学家网络论坛”. ZOOM平台. 2020. 会议组织者

26)第九届黄金科技论坛. 济南. 2020. 主题报告青年分论坛组委会主席

25)构造物理化学理论和应用学术研讨会焦作. 2020.大会报告

  (24) 东北大学资源与土木工程学院建院25周年报告. 腾讯会议平台. 2020. 邀请报告

23)第六届青年地学论坛“矿产与资源”.西宁. 2019. 主题秘书

22)第五届青年地学论坛“矿产与资源”.南京. 2018. 主题报告主题召集人

21)第七届黄金科技论坛焦作. 2018. 大会报告青年分论坛组委会主席

20)第十九届全国包裹体及地质流体会议合肥. 2018.邀请报告

19ACROFI VII (7th   Asian Current Research on Fluid Inclusions). Beijing. China. 2018. Oral   Presentation

1815th  IAGOD (15th International Association on the Genesis of Ore   Deposits). Salta. Argentina. 2018. Oral Presentation

17)第八届全国成矿理论和找矿方法南昌. 2017.口头报告“地质流体方向”专题召集人

16)第六届黄金科技论坛北海. 2017. 大会报告

15ACROFI VI (6th   Asian Current Research on Fluid Inclusions). Mumbai. India. 2016. Oral   Presentation

14IGC 35 (35th   International Geological Congress). Capetown, South Africa. 2016. Oral   Presentation

13)第十八届全国包裹体及地质流体会议成都. 2016.邀请报告

12)第七届全国成矿理论和找矿方法会议长沙. 2015.邀请报告

11)中国地球科学联合会2015学术年会北京. 2015. 口头报告

10ACROFI -5(5th   Asian Current Research on Fluid Inclusions). Xi’an. China. 2014. Invited Presentation

9IMA 2014 (21st   General Meeting of the International Mineralogical Association).   Johannesburg. South Africa. 2014. Oral Presentation.

8IAGOD 2014   (The 14th Quadrennial International Association on the Genesis of Ore   Deposits Symposium). Kunming. China. 2014. Oral Presentation.

7)中国矿物岩石地球化学学会第14届学术年会南京. 2013. 口头报告

6)第十七届全国包裹体及地质流体会议杭州. 2012.口头报告优秀学生论文奖

5ACROFI-4 (4th   Asian Current Research on Fluid Inclusions). Brisbane. Australia, 2012. Oral   Presentation.

434th   International Geological Congress. Brisbane. Australia. 2012. Oral   Presentation.

3)中国矿物岩石地球化学学会第13届学术年会广州. 2011. 口头报告

2)第五届全国成矿理论与找矿方法学术讨论会昆明. 2011. 口头报告

1)第十六届全国包裹体及地质流体学术研讨会南昌. 2010. 口头报告



国际野外考察


5Post field trip of 15th IAGOD (15th International Association on the Genesis of Ore Deposits). 2018. Uyuni Salar-Potosi Silver Mine- Bolivia.

4Post field trip of ACROFI-VI 2016. Deccan Traps, Elephanta Island, Mumbai harbour, India.

3Post field trip of IGC 35 2016. Barberton Greenstone Belt. South Africa.

2Pre field trip of IGC 35 2016. Johannesburg-Kimberley Diamond Deposits, Johannesburg. South Africa.

1Pre field trip of IMA 2014. Witwatersrand Gold Mine, Johannesburg. South Africa.



本人英文介绍(Personal   information of Guo-Guang Wang in English


tps://www.researchgate.net/profile/Guo-Guang_Wang

https://scholar.google.com/citations?user=YdwV3hoAAAAJ&hl=en


其他个人链接:


ORCID iD

https://orcid.org/0000-0002-8946-4607

ResearcherID: C-9759-2015Loop profile: 825009Scopus Author ID: 55965648100



学术兼职

社会兼职

(1)   中国矿物岩石地球化学学会青年工作委员会副主任委员(2025年4月起)

(2)   Continental and Evolution杂志青年编委(2025年9月起)

(3)   地化矿床党支部书记(2024年1月起)

(4)   江苏-云南地质认识实习副队长 (2023年度)

(5)  《矿床地质》杂志第五届编委(2021年1月起)

(6)   中国地球物理学会构造物理化学专业委员会副主任委员(2020年起)

(7)   内生金属矿床国家重点实验室学术秘书(2020年10月起)

(8)  《Frontiers in Earth Science(IF=2.892)杂志的编委会成员(Review Editor)(2019年起)

(9)   青年地学论坛理事会理事(2018年起)

(10)  《黄金科学技术》杂志第七届编委会青年编委(2018年1月起)

研究方向




研究方向

(1)中国东南部燕山期大规模斑岩-矽卡岩型铜钼金成矿的深部过程与流体成矿作用

(2) 超临界流体与伟晶岩型锂矿成矿机制

(3) 造山型金矿的成矿机制和成矿过程

(4) 关键金属在地质圈和人类圈的循环


现代地质流体分析手段

显微测温技术,红外显微测温技术,激光拉曼探针分析技术,石英阴极发光成像技术,单个包裹体成分分析技术,热液金刚石压腔,金属稳定同位素、原位硫同位素等

开授课程

开授课程

(1)固体地球科学原理(本科生,地学拔尖班)

(2)地质认识实习(江苏-云南)(本科生)

(3)流体包裹体(本硕贯通)

(4)矿相学(本科生)

(5)成岩成矿与板块构造(硕士研究生)

(6)成岩成矿作用(博士研究生)


课改项目

(1)南京大学2025年人工智能通识核心课程体系建设“固体地球科学原理”,2025年度,课程负责人

(2)南京大学2025年本科实验教学质量提升计划“云南地质认识实习虚拟仿真实验平台”,2025年度,子课题负责人

(3)江苏省高教学会“高等教育数字化转型与教育现代化实践研究专项课题”:基于地球系统科学理念的新型地质学拔尖人才培养实践基地建设,2024年度,主持

(4)南京大学教师数字化教学研究与实践项目:新型地学拔尖人才培养云南实践基地建设,2024年度,主持

(5)南京大学首批教师跨学科教学研究与实践项目:培养拔尖地学人才:地质学-行星科学和海洋科学跨学科课程建设研究,2023年度,主持

(6)教育部基础学科拔尖学生培养计划2.0研究课题:现代地球科学拔尖学生科研创新能力培养机制研究, 2022年度,主持

(7)南京大学本科教学改革课题:现代矿床学拔尖学生科研创新能力培养机制研究,2022年度,主持


教学交流

(1)三江学院基层教学组织负责人培训班,2025,南京,教学创新能力提升——以教创赛为例

(2)南京大学第四届青年教师教学比赛赛前培训班,2024年,南京,“固体地球科学原理”课程教学创新实践

(3)云南昆明-玉溪野外地学实践教学基地建设研讨会,2024年,昆明,面向地学拔尖人才培养的地学基础课改革

(4)第二届高等学校地球科学虚拟仿真、人工智能和大数据与拔尖人才培养研讨会,2024年,北京,面向拔尖学生培养的地学基础课创新实践-以南京大学为例

(5)新时代高校地球科学教学改革与创新研讨会,2023年,合肥,南京大学基础地质认识实习课程改革与云南新基地建设,口头报告


教学论文

(1)王国光,陈天宇,王博,解国爱. 面向地质学拔尖创新班的专业基础课教学创新实践:以南京大学“固体地球科学原理”为例[J]. 中国地质教育,2025,34(2):58-64.

科研项目

在研科研项目

(1)国家级科技项目“钦杭成矿带中段岩浆作用与铜多金属矿集区时空格架”(Grant no. 2025ZD1007800),2025-2029,子课题负责人,在研

(2)战略性关键金属超常富集成矿动力学重大研究计划集成项目“关键金属城市矿产聚集机制与资源化路径”(Grant no. 92462301),2025-2027,研究骨干,在研

(3)国家重点研发计划课题“绿岩带中Cr-PGE-Ni聚集与成矿”的专题研究(Grant no. 2023YFF0804402),2023-2028,课题骨干,在研

(4)国家自然科学基金委面上项目CO2斑岩钼矿流体成矿过程和成矿机制的精确厘定:以沙坪沟为例(Grant no.  42172072), 2022-2025, 主持,在研



结题科研项目

(1) 国家重点研发计划课题超临界流体的元素迁移和成矿作用的典型矿床研究专题(Grant no.   2018YFA0702704), 2019-2024, 主持,结题

(2) 国家自然科学基金委重大计划重点支持项目:华南与花岗岩有关锡矿床岩浆-热液过程与超常富集成矿机理(Grant no. 92062220), 2021-2024, 参加,结题

(3) 国家自然科学基金委重点项目:石英脉型黑钨矿床成矿流体和成矿机制的精细解剖(Grant no.   41830426), 2019-2023, 参加,结题

(4) 国家自然科学基金委面上项目江西德兴斑岩铜(钼)矿田矿石矿物和共生脉石矿物的流体包裹体对比研究(Grant no.   41772063), 2018-2021, 主持,结题

(5) 国家重点研发计划课题6之专题钦杭成矿带成矿作用的深部过程、演化与成矿模式(Grant no.   2016YFC0600206), 2016-2020, 主持,结题

(6) 国家自然科学基金委青年科学基金项目钦杭带北东段十字头斑岩钼矿的成矿流体、成矿岩体及成矿模式研究(Grant no.   41402062), 2015-2017,主持,结题

(7) 中国地质调查局整装勘查区项目朱砂红-铜厂-富家坞重点勘查区找矿预测研究(Grant no.   12120114034601), 2014-2016, 主持,结题

(8) 中国地质调查局矿集区项目福建省中东部矿集区找矿预测(Grant no.   [2015]02-09-02-011), 2015-2016, 项目副负责,结题

(9) 丹麦科学技术创新局资助国际合作项目:International   research collaboration between Denmark and China on ore forming processes of   molybdenite deposits, 2016-2017,项目骨干,结题

(10) 安徽省国土资源科技项目秦岭-大别造山带东段(安徽部分)钼金多金属成矿规律与找矿方向研究, 2010-2012, 项目骨干,结题

(11) 全国危机矿山接替资源找矿项目闽浙赣相邻区铜多金属矿床成矿规律总结研究(编号:20089935), 2008-2012, 项目骨干,结题

学术成果


主要论文发表情况



2026

72) Zeng, Z.Y., Wang, G.G.*, Ni, P., Pan, J.Y., Cao, X.B. Fluid Evolution and Ore-forming Processes in the Shapinggou Mo Deposit, Central China: Insights from LA-ICP-MS Microanalyses of Fluid Inclusion and SIMS Oxygen Isotopes. Economic Geology. 2026. Accept.

71) Li, Z.A., Bi, Z.K., Xiong, X., Yuan, Z.W., Jiang, S.Y., Zhao, L., Wang, G.G.*, Chen, J. End of life electric vehicle batteries in China to 2060 and related resource management implications. Communications Earth & Environment. 2026. Accept.

70) Zhang, X., Ni, P.*, Wang, G.-G.*, Ding, J.-Y., Pan, J.-Y., Cui, J.-M., Jiang, Y.-H. Geochemical fingerprints of ore-forming fluids in skarn copper systems: Implications for evaluating mineralization mechanisms and potential. Ore Geology Reviews, 2026, 107099. DOI: https://doi.org/10.1016/j.oregeorev.2025.107099

69)Ni, P.*, Wang, GG.*, Pan, J.Y., Li, W.S., Chi, Z., Reworking of continental crust, deep geological processes and the large-scale W-Sn-Au-Cu mineralization in the Nanling-Wuyi metallogenic belts, South China. Science China Earth Science. 2026. Accept


68) Cao, X.-Y., Wang, H.-Z., Liu, W.-Z., Wang, J.-Y., Ding, J.-Y., Wang, G.-G., Tang, Q. Siliceous sponge fossils from the early Cambrian Qingxi Formation in South China. Palaeoworld, 2026, 35(1), 201013. DOI: 10.1016/j.palwor.2025.201013


2025

67) Han, L., Wang, GG.*, Ni, P., Pan, J.Y., She, JX., Tan, W., Li, WQ., Crystal-scale heterogeneity of Sn isotopes in Cassiterite: implications for reconstructing ore-forming processes in magmatic-hydrothermal systems. Geochimica et Cosmochimica Acta, 2025. 409:147-162.

66)He, JF., Wang, GG.*, Brzozowski, M.J. Ni, P, Luo, XL, Mu, J., Li, WQ. Hypogene sulfide precipitation during phyllic alteration: insights from copper isotopic evolution of the Dexing porphyry Cu–Mo–Au deposit, South China. Miner Deposita 2025, 60, 811–831.

65)Lu, YF., Sun, YC.*, Xia, GX., Liu, XD., Wang, GG., Lu, XC. Structures and transport properties of Mg₂SiO₄-H₂O system under high temperature and pressure: insights for supercritical fluids in deep subduction zones. Geochimica et Cosmochimica Acta, 2025, 13846.


2024

64) X. Zhang, P. Ni*, G.-G. Wang*, J.-Y. Ding, J.-Y. Pan, J.-M. Cui, et al. Reconstructing fluid evolution and precipitation mechanism of the Chuankeng skarn copper deposits, China: New insight from microthermometry and LA-ICP-MS analysis of fluid inclusions. Ore Geology Reviews 2024. 168:106057.

63) L.-Q. Zhao, P. Ni, W.-S. Li, S. Albanese, K.-H. Zhang, G.-G. Wang and J.-Y. Pan, The genesis of the Tianbaoshan PbZn deposit in Sichuan, SW China: Insights from sphalerite and fluid inclusion compositions. Journal of Geochemical Exploration 2024. 259:107424

2023

62G.-G. Wang*, F.-B. Zheng, P. Ni*, Y.-W. Wu, W.-X. Qi and Z.-A. Li 2023. Fluid properties and ore-forming process of the giant Jiajika pegmatite Li deposit, western China. Ore Geology Reviews. 160, 105613.

61) Z. Liu, P. Ni*, G.-G. Wang*, Y.-Q. Zhang, Z.-L. Sheng, S. L. Zhang, et al.  2023. Hydrothermal evolution and gold precipitation mechanism of the Hekou gold deposit, North China Craton: Insights from pyrite texture, composition and in situ S isotope. Ore Geology Reviews. 156, 105387.

60) Y. Cai, P. Ni*,G. Wang* and H. Chen. 2023. Geochemical Characteristics of the Granodiorite Porphyry in Dongxiang W-Cu Deposit, SE China. Minerals. 13, (3), 3390.

59)Z. Xu, B. Zheng, W. Zhu, Y. Chen, G. Li, J. Gao, .....G.-G. Wang,... Geologic scenario from granitic sheet to Li-rich pegmatite uncovered by Scientific Drilling at the Jiajika lithium deposit in eastern Tibetan Plateau Ore Geology Reviews 2023. 161:105636

58) K. H. Zhang, P. Ni, W.-S. Li, G.-G. Wang, J.-Y. Pan, J.-M. Cui, et al.A comparative study of fluid characteristics of W and Cu mineralization in the Shiweidong deposit, giant Dahutang ore field, South China: Evidence from LA-ICP-MS analysis of fluid inclusion. Ore Geology Reviews 2023 Vol. 158

57) M.-S. Fan, P. Ni, J.-Y. Pan, G.-G. Wang, J.-Y. Ding, S.-W. Chu, et al., 2023. Rare disperse elements in epithermal deposit: Insights from LA-ICP-MS study of sphalerite at Dalingkou, South China . Journal of Geochemical Exploration. 244. 107124.

2022

56) Zhu, R.Z., Ni, P.*, Wang, G.G., Ding, J.Y. and Kang, N. (2022) Temperature and oxygen state of kimberlite magma from the North China Craton and their implication for diamond survival. Mineralium Deposita 57, 301-318.

55) Zhang, X., Ni, P.*, Wang, G.G., Jiang, D.S., Zhu, R.Z., Jiang, Y.H. and Wang, F.Y. (2022) Magmatic controls on the mineralization potential of a porphyry Cu system: The case of Jurassic Tongshan skarn Cu deposit in the Qin-Hang Belt, South China. Gondwana Research 101, 203-223.

54) L. Li, H.-L. Li*, G.-G. Wang* and J.-D. Sun, 2022. Geochronology of the Baishi W-Cu Deposit in Jiangxi Province and Its Geological Significance. Minerals. 12, (11), 1387.

2021

53) Ni, P.*, Wang, G.-G.*, Li, W.-S., Chi, Z., Li, S.-N., Gao, Y., 2021. A Review of the Yanshanian ore-related felsic magmatism and tectonic settings in the Nanling W-Sn and Wuyi Au-Cu metallogenic belts, Cathaysia Block, South China. Ore Geology Reviews, 104088.

52) Bao, T., Ni, P., Wang, G.G.*, Dai, B.Z., Chen, H., Fan, F.P., Li, S.N., Chi, Z., Zhu, R.Z. and Fan, M.S. (2021) Petrogenesis of the Late Jurassic Cu-Mo mineralization-related Xianyang granite porphyry in the Dehua district, Southeast China: Response to the subduction of paleo-Pacific slab and implication for regional exploration. Lithos 402.

51) Yuan, H.X., Ni, P., Chen, H., Lv, Z.C., Yu, X.F., Bao, T., Wang, G.G., Hu, R.H. and Du, J.W. (2021) Geology, fluid inclusion and H-O-S-Pb isotope constraint on the genesis of the Changxing gold deposit, Fujian, South China. Ore Geology Reviews 129.

50) Bao, T., Ni, P., Dai, B.-Z., Wang, G.-G., Chen, H., Li, S.-N., Chi, Z., Li, W.-S., Ding, J.-Y., Chen, L.-L., 2021. Pyrite Rb-Sr geochronology, LA-ICP-MS trace element and telluride mineralogy constraints on the genesis of the Shuangqishan gold deposit, Fujian, China. Ore Geology Reviews, 104158.

49) Liu, Z., Ni, P., Zhang, Y.Q., Sheng, Z.L., Wang, G.G., Zhang, S.L., Dai, B.Z., Ding, J.Y., Pan, J.Y. and Li, W.S. (2021) An Early Cretaceous gold metallogenesis in the Wuhe area, Eastern Anhui province: Constraints from geology, fluid inclusion, H-O isotope and geochronology on the Hekou gold deposit. Ore Geology Reviews 138.

2020

48) Wang G-G*, Ni P*, Li L, Wang X-L, Zhu A-D, Zhang Y-H, Zhang X, Liu Z, Li B (2020) Petrogenesis of the Middle Jurassic andesitic dikes in the giant Dexing porphyry copper ore field, South China: implications for mineralization. Journal of Asian Earth Sciences:104375. 

47) Zhang, X., Ni, P., Wang, G.-G.*, Jiang, Y.-H., Jiang, D.-S., Li, S.-N., Fan, M.-S., 2020. Petrogenesis and oxidation state of granodiorite porphyry in the Jurassic Chuankeng skarn Cu deposit, South China: Implications for the Cu fertility and mineralization potential. J Asian Earth Sci, 104184.

46) 王国光倪培潘君屹, 2020. 花岗质岩石相关成矿系统的流体作用矿物岩石地球化学通报, 1-9.

45)Yuan, H.-X., P. Ni, H. Chen, Z.-C. Lv, X.-F. Yu, T. Bao, G.-G. Wang, R.-H. Hu and J.-W. Du (2020). Geology, fluid inclusion and H-O-S-Pb isotope constraint on the genesis of the Changxing gold deposit, Fujian, South China. Ore Geology Reviews: 103887.

44) Bao T, Ni P, Li S-N, Xiang H-L, Wang G-G, Chi Z, Li W-S, Ding J-Y, Dai B-Z (2020) Geological, fluid inclusion, and H-O-C-S-Pb isotopic constraints on the genesis of the Shuangqishan gold deposit, Fujian, China. Journal of Geochemical Exploration 214.106544.

43) Li S-N, Ni P, Wang G-G, Bao T, Huang B, Dai B-Z (2020) The Jurassic volcanic-intrusive complex in the Dehua gold orefield, coastal region of SE China: Implications for the tectonic setting and epithermal mineralization. Journal of Asian Earth Sciences197. 104390.

42) Zhao Z-H, Ni P, Sheng Z-L, Dai B-Z, Wang G-G, Ding J-Y, Wang B-H, Zhang H-D, Pan J-Y, Li S-N (2020) Thermal regime reconstruction and fluid inclusion LA–ICP–MS analysis on intermediate-sulfidation epithermal Pb–Zn veins: Implications for porphyry Cu deposits exploration in the Xianhualing District, Anhui, China.Ore Geology Reviews 124:103658. 

41) 李伟强赵书高王小敏李石磊王国光杨涛金章东, 2020. 斑岩铜矿热液流体的K-Mg同位素示踪中国科学:地球科学 50, 245-257. Li, W., Zhao, S., Wang, X., Li, S., Wang, G., Yang, T., Jin, Z., 2020. Fingerprinting hydrothermal fluids in porphyry Cu deposits using K and Mg isotopes. Science China-Earth Sciences 63, 108-120.

40) Li, W.-S., Ni, P., Wang, G.-G., Yang, Y.-L., Pan, J.-Y., Wang, X.-L., Chen, L.-L., Fan, M.-S., 2020. A possible linkage between highly fractionated granitoids and associated W-mineralization in the Mesozoic Yaogangxian granitic intrusion, Nanling region, South China. J Asian Earth Sci 193, 104314.

39) Li, S.-N., Ni, P., Bao, T., Wang, G.-G., Chi, Z., Li, W.-S., Zhu, R.-Z., Dai, B.-Z., Xiang, H.-L., 2020. Geological, fluid inclusion, and H-O-S-Pb isotopic studies of the Xiaban epithermal gold deposit, Fujian Province, southeast China: Implications for ore genesis and mineral exploration. Ore Geology Reviews 117.

38) Chi, Z., Ni, P., Pan, J.-Y., Li, S.-N., Wang, G.-G., Yang, Y.-L., Xue, K., Liao, J.-F., 2020. Petrogenesis and tectonic setting of the Cretaceous volcanic-intrusive complex in the Zijinshan ore district, Southeast China: Implications for different stages of mineralization. J Asian Earth Sci 192.

2019

37王国光倪培赵超姚静李利赵丹蕾朱安冬胡金山, 2019. 德兴大型铜金矿集区的研究进展和成矿模式岩石学报 35, 3644-3658. Wang, G., Ni, P., Zhao, C., Yao, J., Li, L., Zhao, D., Zhu, A., Hu, J., 2019. The research advances and genetic model of the giant Dexing Cu-Au ore cluster. Acta Petrol Sin 35, 3644-3658.

36) Ni Pei*, Wang Tian−Gang, Wang Guo−Guang *, Li Wen−Sheng, Pan Jun−Yi, 2019, Metamorphic fluid superimposition of the Changba-Lijiagou Pb-Zn deposit West Qinling Orogen Central China, The Geological Society Special Publications, 478, 265-286

35) Li, M., Zhang, X., Han, L., Gong, E.-P., Wang, G.-G*. (2019) The Metallogenic Setting of the Jiangjiatun Mo Deposit, North China: Constraints from a Combined Zircon U–Pb and Molybdenite Re–Os Isotopic Study. Minerals9, 723.

34) Zhu, R.-Z., Ni, P., Wang, G.-G., Ding, J.-Y., Fan, M.-S., Ma, Y.-G. (2019) Geochronology, geochemistry and petrogenesis of the Laozhaishan dolerite sills in the southeastern margin of the North China Craton and their geological implication. Gondwana Research 67, 131-146.

33) Zhu, R.-Z., Ni, P.*, Ding, J.-Y., Wang, G.-G. (2019) Geochemistry of Magmatic and Xenocrystic Spinel in the No.30 Kimberlite Pipe (Liaoning Province, North China Craton): Constraints on Diamond Potential. Minerals 9, 382.

32) Zhu, R.Z., Ni, P., Ding, J.Y., Wang, G.G., Fan, M.S., Li, S.N. (2019) Metasomatic processes in the lithospheric mantle beneath the No. 30 kimberlite (Wafangdian region, North China Craton). Canadian Mineralogist 57, 499-517.

31) Ni, P.*, Li, S.-N., Bao, T., Zheng, W.-Y., Wang, G.-G., Xiang, H.-L., Chi, Z., Pan, J.-Y., Huang, B., Ding, J.-Y., Dai, B.-Z. (2019) Mapping of fluid, alteration and soil geochemical anomaly as a guide to regional mineral exploration for the Dehua gold orefield of Fujian Province, SE China. Geochemistry: Exploration, Environment, Analysis19, 74-90.

2018

30) Wang G.G., Ni P.*, Zhu An-Dong, Wang Xiao-Lei, Li Li, Hu Jin-Shan, Lin Wen-Hai, Huang Bao, 2017, 1.01-0.98 Ga mafic intra-plate magmatism and related Cu-Au mineralization in the eastern Jiangnan orogen: evidence from Liujia and Tieshajie basalts , Precambrian Research , 309, 6-21, DOI: 10.1016/j.precamres.2017.04.018

29) Ni, P., Pan, J.-Y., Huang, B., Wang, G.-G., Xiang, H.-L., Yang, Y.-L., Li, S.-N., Bao, T. (2018) Geology, ore-forming fluid and genesis of the Qiucun gold deposit: Implication for mineral exploration at Dehua prospecting region, SE China. Journal of Geochemical Exploration 195, 3-15.

28) Li Su-Ning, Ni Pei*, Bao Tan, Li Chang-Ze, Xiang Hong-Liang, Wang Guo-Guang, Huang Bao, Chi Zhe, Dai Bao-Zhang, Ding Jun-Ying, 2018, Geology, fluid inclusion, and stable isotope systematics of the Dongyang epithermal gold deposit, Fujian Province, southeast China: Implications for ore genesis and mineral exploration, Journal of Geochemical Exploration, DOI: 10.1016/j.gexplo.2018.02.009

27) Li Su-Ning, Ni Pei *, Bao Tan, Xiang Hong-Liang, Chi Zhe, Wang Guo-Guang, Bao Huang, Jun-Ying Ding, Bao-Zhang Dai, 2018, Genesis of the Ancun epithermal gold deposit, southeast China: Evidence from fluid inclusion and stable isotope data, Journal of Geochemical Exploration, DOI: 10.1016/j.gexplo.2018.01.016

26) Chen Li-Li, Ni Pei *, Li Wen-Sheng, Ding Jun-Ying, Pan Jun-Yi, Wang Guo-Guang, Yang Yu-Long, 2018, The link between fluid evolution and vertical zonation at the Maoping tungsten deposit, Southern Jiangxi, China: Fluid inclusion and stable isotope evidence, Journal of Geochemical Exploration, DOI: 10.1016/j.gexplo.2018.01.001

25) Li, W.S., Ni, P., Pan, J.Y., Wang, G.G., Chen, L.L., Yang, Y.L., Ding, J.Y. (2018) Fluid inclusion characteristics as an indicator for tungsten mineralization in the Mesozoic Yaogangxian tungsten deposit, central Nanling district, South China. Journal of Geochemical Exploration 192, 1-17.

24) 王国光,赵超,倪培,刘政钦杭成矿带金山造山型金矿成矿年代学研究[J]. 黄金科学技术, 2018, 26(4): 443-453. 年度优秀论文

2017

23) Wang G.G., Ni P.*, Zhao C., Che H., Yuan H.X., Cai Y.T., Li L., Zhu A.D. 2017, A combined fluid inclusion and isotopic geochemistry study of the Zhilingtou Mo deposit, South China: implications for ore genesis and metallogenic setting, Ore Geology Reviews,81, 884-897, Doi:10.1016/j.oregeorev.2015.1011.1023.

22Chen H., Ni, P.*, Wang G.G.*, Che, R.Y., L, Z.C., Pan, Z.S., Gen, L., Zhang B.S., Yuan H.X., 2017, Petrogenesis of Ore-Related Granodiorite Porphyry in the Jiande Copper Deposit, SE China: Implications for the Tectonic Setting and Mineralization, Resource Geology, 67, 117-138.

21)Ni P.*, Wang G.-G. *, Cai Y.-T., Zhu X.-T., Yuan H.-X., Huang B., Ding J.-Y., Chen H. 2017, Genesis of the Late Jurassic Shizitou Mo deposit, South China: evidence from fluid inclusion, H-O isotope and Re-Os geochronology, Ore Geology Reviews,81, 871-883, DOI: 10.1016/j.oregeorev.2016.1008.1013.

20)Ni P.*, Pan J.-Y., Wang G.-G., Chi Z., Qin H., Ding J.-Y., Chen H. 2017, A CO2-rich porphyry ore-forming fluid system constrained from a combined cathodoluminescence imaging and fluid inclusion studies of quartz veins from the Tongcun Mo deposit, South China, Ore Geology Reviews, 81, 856-870, DOI: 10.1016/j.oregeorev.2016.07.007

19) Li L., Ni P.*, Wang G.G.*, Zhu A.D., Pan J.Y., Chen H., Huang B., Yuan H.X., Wang Z.K., Fang M. H. 2017, Multi-stage fluid boiling and formation of the giant Fujiawu porphyry Cu-Mo deposit in South China, Ore Geology Reviews, 81, 898-911, Doi:10.1016/j.oregeorev.2015.1011.1020  

18) Chen H., Ni P.*, Chen R.-Y., Lü Z.-C., Ye Tian-Zhu, Wang, G.-G., Pan Jun-Yi, Pang Z.-S., Xue Jian-Ling, Yuan H.-X., 2017, Constraints on the Genesis of the Jiande Polymetallic Copper Deposit in South China using Fluid Inclusion and O-H-Pb Isotopes, Journal Geological Society of India, 90, 546-557.

17) 倪培,王国光. 2017. 大陆再造与钦杭带北东段多期铜金成矿作用岩石学报, 33(11): 3373-3394 (Ni Pei and Wang Guo-Guang. 2017. Multiple episodes of Cu-Au mineralization in the northeastern section of the Qin-Hang metallogenic belt induced by reworking of continental crust. Acta Petologica Sinica, 33(11): 3373-3394)

16Zhu Ren-Zhi, Ni Pei*, Ding Jun-Ying, Wang Dian-Zhong, Ju Yi, Kang Ning, Wang Guo-Guang, 2017, Petrography, chemical composition, and Raman spectra of chrome spinel: constraints on the diamond potential of the No. 30 pipe kimberlite in Wafangdian, North China Craton, Ore Geology Reviews, Doi:10.1016/j.oregeorev.2017.08.015.

15) Yang Yu-Long, Ni Pei, Pan Jun-Yi, Wang Guo-Guang, Xu Ying-Feng, 2017, Constraints on the mineralization processes of the Makeng iron deposit, eastern China: Fluid inclusion, H-O isotope and magnetite trace element analysis, Ore Geology Reviews, 88, 791-808,  Doi:10.1016/j.oregeorev.2016.11.018.

2016

14) Wang G.G.,Ni P*., Zhao C., Wang, X.L., Li, P.F., Chen, H., Zhu, A.D., Li, L., 2016. Spatio-temporal reconstruction of Late Mesozoic silicic large igneous province (SLIP) and related epithermal mineralization in South China: insights from the Zhilingtou volcanic-intrusive complex.Journal of Geophysical Research: Solid Earth, 121(11), 7903-7928,  DOI: 10.1002/2016JB013060. 

13) Zhu X.T., Ni P.*, Wang G.G.*, Cai Y.T., Chen H., Pan J.Y. 2016, Fluid inclusion, H-O isotope and Pb-Pb age constraints on the genesis of the Yongping copper deposit, South China,Journal of Geochemical Exploration, 171, 55-70.

12)Xu, Y.-F., Ni P. *, Wang G.-G. ,  Pan J.-Y., Guan S.-J., Chen H., Ding J.-Y., Li L. 2016, Geology, fluid inclusion and stable isotope study of the Huangshan orogenic gold deposit: Implications for future exploration along the Jiangshan-Shaoxing fault zone, South China,Journal of Geochemical Exploration, 171, 37-54.

11)Cai, Y.-T., Ni P. *, Wang G.-G.,  Pan J.-Y., Zhu X.-T., Chen H., Ding J.-Y. 2016, Fluid inclusion and H-O-S-Pb isotopic evidence for the Dongxiang manto-type copper deposit, South China,Journal of Geochemical Exploration, 171, 71-82.

2015

10) Wang G.G., Ni P.*, Yao J., Wang X.L., Zhao K.D., Zhu R.Z., Xu Y.F., Pan J.Y., Li L., Zhang Y-H. 2015, The link between subduction-modified lithosphere and the giant Dexing porphyry copper deposit, South China: constraints from high-Mg adakitic rocks,Ore Geology Reviews, 67, 109-126, doi:10.1016/j.oregeorev.2014.12.004.

9) Ni P., Wang G.G. *, Chen H., Xu Y.F., Guan S.J., Pan J.Y., Li L. 2015, An Early Paleozoic orogenic gold belt along the Jiang-Shao Fault, South China: evidence from fluid inclusions and Rb-Sr dating of quartz in the Huangshan and Pingshui deposits,Journal of Asian Earth Sciences, 103, 87-102, doi:10.1016/j.jseaes.2014.11.031.

8) Ni P.*, Wang G.-G. *, W. Yu, H. Chen, Jiang L.L., Wang B.H., Zhang H.D., Xu Y.F. 2015, Evidence of fluid inclusions for two stages of fluid boiling in the formation of the giant Shapinggou porphyry Mo deposit, Dabie Orogen, Central China,Ore Geology Reviews, 65(0), 1078-1094, doi:10.1016/j.oregeorev.2014.09.017.

7)Ni P.*, Wang X.-D. , Wang*G.-G., Huang J.-B., Pan J.-Y., Wang T.-G. 2015, An infrared microthermometric study of fluid inclusions in coexisting quartz and wolframite from Late Mesozoic tungsten deposits in the Gannan metallogenic belt, South China,Ore Geology Reviews, 65, Part 4(0), 1062-1077, doi:10.1016/j.oregeorev.2014.08.007.

2014

6) Wang G.G., Ni P.*, W. Yu, H. Chen, L.L. Jiang, B.H. Wang, H.D. Zhang, Li P.-F. 2014, Petrogenesis of Early Cretaceous post-collisional granitoids at Shapinggou, Dabie Orogen: implications for crustal architecture and porphyry Mo mineralization,Lithos, 184-187, 393-415.

5)Chen, H., Ni P. *, Wang R.-C., Wang G.-G.,  Zhao K.-D., Ding J.-Y., Zhao C., Cai Y.-T., Xu Y.-F. 2014, A combined fluid inclusion and S–Pb isotope study of the Neoproterozoic Pingshui volcanogenic massive sulfide Cu–Zn deposit, Southeast China,Ore Geology Reviews, 66, 388-402, doi:10.1016/j.oregeorev.2014.11.002.  

2013

4) Wang G.G., Ni P.*, Wang R.C., Zhao K.D., Chen H., Ding J.-Y., Zhao C., Cai Y.-T. 2013, Geological, fluid inclusion and isotopic studies of the Yinshan Cu-Au-Pb-Zn-Ag deposit, South China: implications for ore genesis and exploration, Journal of Asian Earth Sciences, 74, 343-360.

3) Zhao C., Ni P.*, Wang G.G.*, Ding J.Y., Chen H., Zhao K.D. , Cai Y.T., Xu Y.F. 2013, Geology, fluid inclusion, and isotope constraints on ore genesis of the Neoproterozoic Jinshan orogenic gold deposit, South China, Geofluids, 13(4), 506-527.

2012

2)Wang G.G.,Ni P.*, Zhao K.D., Wang X.L., Liu J.Q., Jiang S.Y., Chen H. 2012, Petrogenesis of the Middle Jurassic Yinshan volcanic-intrusive complex, SE China: Implications for tectonic evolution and Cu-Au mineralization, Lithos, 150, 135-154.

2011

1Wang, G.-G., P. Ni, K.-D. Zhao, J.-R. Liu, G.-A. Xie, J.-H. Xu, and Z.-H. Zhang (2011), Comparison of fluid inclusions in coexisting sphalerite and quartz from Yinshan deposit, Dexing, Northeast Jiangxi Province, Acta Petrologica Sinica, 27, 1387-1396.王国光倪培赵葵东刘家润解国爱徐积辉张志辉 (2011), 江西银山铅锌矿床闪锌矿与石英流体包裹体对比研究岩石学报, 27(5), 1387-1396.

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[32]余亚莉,倪培,王国光,戴宝章,杨涛,张鑫,赵连庆.川滇黔矿集区天宝山铅锌矿床硫化物原位硫同位素特征[J].矿床地质,2022,41(01):121-137..

[31]范楚涵,倪培,王国光,张凯涵,王广琳,李文生,崔健铭,贺佳峰.赣北阳储岭斑岩型钨钼矿床成矿岩体副矿物U-Pb年龄精确厘定[J].矿床地质,2022,41(01):35-52.DOI:10.16111/j.0258-7106.2022.01.003.

[30]郑范博,王国光,倪培.花岗伟晶岩型稀有金属矿床流体成矿机制研究进展[J].地质力学学报,2021,27(04):596-613. (通讯作者)

[29]李明,王国光,张永利,巩恩普.辽西蒋家屯和兰家沟钼矿的流体包裹体对比研究[J].东北大学学报(自然科学版),2021,42(06):835-841.

[28]赵丹蕾,倪培,赵子豪,王国光,丁俊英,王波华,方明,郝越进.北淮阳成矿带东段东溪低硫型浅成热液金矿床:来自蚀变矿物、流体包裹体和氢氧同位素的证据[J].南京大学学报(自然科学),2020,56(05):666-680.

[27]胡金山,胡福林,刘金刚,李宁,胡国柳,王国光.江西银山铜多金属矿深部找矿与成矿特征[J].黄金科学技术,2020,28(05):688-700.

[26]孙学娟倪培迟哲杨玉龙景山王国光, 2019. 南京栖霞山铅锌矿成矿流体特征及演化:来自流体包裹体及氢氧同位素约束岩石学报 35, 3749-3762.

[25]李利,倪培,王国光,朱安冬.德兴斑岩铜矿田黄铁矿Re-Os同位素定年及其地质意义[J].矿床地质,2018,37(06):1168-1178.

[24]王波华,倪培,王国光,方明,李利,张怀东.北淮阳构造带鲜花岭找矿远景区铜铅锌矿化相关侵入岩的锆石U-Pb年龄和Hf同位素特征[J].安徽地质,2018,28(03):176-181.

[23]叶春林,黄柏鑫,王燚,侯云岭,贾小川,杨学俊,王国光,吕志伟.西藏中冈底斯扎布耶茶卡北部晚侏罗世则弄群火山岩的锆石U-Pb年代学及其成因意义[J].高校地质学报,2018,24(04):525-535.

[22]李利,倪培,王国光,朱安冬,张映红,梁耀灵.德兴朱砂红斑岩铜矿石英闪长玢岩的年代学和地球化学特征及地质意义[J].矿物岩石地球化学通报,2018,37(06):1092-1101.

[21]倪培,迟哲,潘君屹,王国光,陈辉,丁俊英.热液矿床的成矿流体与成矿机制——以中国若干典型矿床为例[J].矿物岩石地球化学通报,2018,37(03):369-394+560.

[20]顾建峰,倪培,李文生,王国光,潘君屹,刘政.安徽省池州市马头钼矿床成矿流体特征和矿床成因[J].南京大学学报(自然科学),2018,54(02):351-365.

[19]朱仁智,倪培,马玉广,盛中烈,丁俊英,王国光,管申进.安徽栏杆地区辉绿岩型原生金刚石特征及成因初探[J].南京大学学报(自然科学),2018,54(02):278-295.

[18]赵丹蕾,倪培,朱安冬,王国光,丁俊英.江西省德兴市渔塘金矿的流体包裹体研究[J].南京大学学报(自然科学),2018,54(02):322-335.

[17]陈莉莉,倪培,王国光,李文生,杨玉龙.赣南茅坪钨矿黑钨矿及共生石英中流体包裹体组合(FIA)研究[J].南京大学学报(自然科学),2018,54(02):336-350.

[16]李利,倪培,王国光,朱安冬,范明森,黄卫平.德兴张家畈金矿远景区花岗闪长斑岩年代学、Lu-Hf同位素及成矿指示意义[J].南京大学学报(自然科学),2018,54(02):386-397.

[15]朱安冬,倪培,王国光,杨玉龙,朱仁智,范明森,胡金山,罗平,林文海.江南造山带东段中元古代晚期A型花岗岩的发现及其构造意义[J].矿物岩石地球化学通报,2017,36(06):938-947.

[14]蔡逸涛倪培王国光陈辉张洁, 2017. 赣东北东乡铜矿侵入岩与成矿年龄的确定及意义地球科学, 42(9): 1495-1507.

[13]居易,朱仁智,倪培,王国光,丁俊英,康宁,朱安冬,黄宝,周华.瓦房店30号岩管金伯利岩中尖晶石成分特征及其意义[J]. 矿物岩石地球化学通报,2016,(06):1217-1225.

[12]陆三明,阮林森,赵丽丽,王波华,张怀东,王国光,陈芳.安徽金寨县沙坪沟钼铅锌矿田两期成岩成矿作用[J]. 地质学报,2016,(06):1167-1181

[11]陈辉,倪培,陈仁义,叶天竺,王国光,张伯声,徐颖峰浙江建德铜矿流体包裹体研究[J]. 高校地质学报,2016,22(01):1-11.

[10]陈辉,倪培,陈仁义,吕志成,庞振山,王国光,袁慧香.浙西北平水铜矿细碧角斑岩成岩年龄及其地质意义[J].中国地质,2016,43(02):410-418.

[09]王波华,李利,倪培,王国光,陈辉,江来利,张怀东安徽北淮阳地区金矿化相关火山岩的形成年代和源区特征:锆石U-Pb定年和Hf同位素的制约[J]. 矿产勘查,2017,8(03):348-357.

[08]姚玉增黄菲彭艳东刘宁王国光,吕安才 (2013), 山西耿庄金矿床流体包裹体特征及矿床成因吉林大学学报(地球科学版), 43(1), 93-101.

[07]于文倪培王国光商力江来利王波华,张怀东 (2012), 安徽金寨县沙坪沟斑岩钼矿床成矿流体演化特征南京大学学报(自然科学版), 48(3), 240-255.

[06]丁俊英倪培管申进,王国光 (2011), H2O-CO2体系融合二氧化硅毛细管样品原位显微激光拉曼光谱研究地学前缘, 18(5), 140-146.

[05]孟凡巍倪培葛晨东王天刚王国光刘吉强,赵超 (2011), 实验室合成石盐包裹体的均一温度以及古气候意义岩石学报, 27(5), 1543-1547.

[04]孟凡巍倪培严贤勤王天刚燕夔王国光赵超,宋伟民 (2011), 江苏金坛盐矿形成时期盐湖水体成分:来自石盐包裹体的证据微体古生物学报, 28(3), 75-79.

[03]王国光,倪培 (2009), 新桥多金属矿床的矿体下部网脉状矿化的流体包裹体研究矿物学报(S1), 256.

[02]王天刚倪培沈昆王国光赵超,丁俊英 (2011), 西秦岭厂坝-李家沟铅锌矿床流体包裹体特征及成因意义南京大学学报(自然科学版), 47(6), 731-743.

[01]王天刚倪培王国光,张婷 (2008), 甘肃厂坝铅锌矿富甲烷流体包裹体的发现及其意义岩石学报, 24(9), 2105-2112.

中文专著

[1] 倪培,景山,魏新良,桂长杰,钱美平,王国光,孙学娟,吴志强,杨玉龙,孙国昌,潘君屹,李秋金,姜锡,金鑫,2021. 栖霞山铅锌矿矿床成因与成矿模式北京:科学出版社. p.189


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