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姓名 毛亚晶 性别:
职称 特聘副研究员 学位 博士
电话 - 传真: 010-62010846
Email: maoyajing@mail.iggcas.ac.cn 邮编: 100029
地址 北京朝阳区北土城西路19号,中科院地质与地球物理研究所
更多信息:

English】  矿产资源研究院重点实验室  镁铁-超镁铁岩成矿学科组
Researchgate  GoogleScholar

 
简历:

  毛亚晶,男,博士,1985年生于浙江温岭,2014年于中国科学院大学获得博士学位,2018年12月开始任中科院地质与地球物理研究所副研究员;从事岩浆铜镍矿床成矿作用研究,考察了国内外铜、镍、钒、钛、铁等矿床50余处;研究聚焦中国西北铜镍钴矿床,选取中国新疆和甘肃等地区系列铜镍矿床开展了岩相学、岩石学、矿物学和地球化学工作,揭示了高镍矿床特征与形成机制,结合结构定量化分析和实验岩石学研究,改进了橄榄石-硫化物氧逸度经验公式,论证了氧逸度与中亚造山带铜镍成矿的联系,提出了硫化物置换晶粥中硅酸盐熔体的“原地”富集模型,阐释了晶粥的“晶间熔体再平衡”机制,明确堆晶矿物成分与晶间熔体与硫化物密切相关,为精细刻画铜镍钴成矿过程提供了理论基础。
  在国内外学术刊物发表SCI论文30余篇,Google Scholar引用650余次,其中第一作者SCI论文15篇,发表于Economic Geology, Journal of Petrology, Mineralium Deposita, Contributions to Mineralogy and Petrology, American Mineralogist等专业权威期刊。主持自然科学基金面上项目、青年项目及博士后基金一等资助项目,参与第二次青藏高原科学考察和自然科学基金重点项目等。多次参加铜镍铂族元素矿床国际会议并做口头报告。
  目前研究兴趣为玄武质岩浆作用与成矿响应,主要聚焦于汇聚板块边缘的玄武质岩浆分异与铜镍钴成矿,重点关注成矿时限和挥发份演化等科学问题,擅长通过矿物内部结构、矿物粒度定量化与元素印记分析反演岩浆矿床硫化物熔离与聚集过程,正探索从实验岩石学、矿物大数据分析和非传统同位素等角度进一步揭示岩浆矿床成矿作用。

学习及工作经历:
2008年本科毕业于现桂林理工大学
2011年硕士毕业于中国地质大学(武汉)
2014年博士毕业于中国科学院大学(中科院新疆生态与地理研究所和地质与地球物理研究所联合培养)
2013.10-2014.04 美国Indiana University访问博士生
2014-2018年于中国科学院地质与地球物理研究所开展博士后研究
2016.02-2017.03 澳大利亚联邦科学与工业研究组织(CSIRO,珀斯),资源中心,访问博士后

 
学科类别:
地质学(矿床学)
 
研究方向:
  1. 岩浆铜镍硫化物矿床精细成矿过程
  2. 含水玄武质岩浆分异与挥发份演化
  3. 岩浆矿床硅酸盐与硫化物矿物的大数据分析
  4. 成矿过程的同位素分馏
 
职务:
 
社会任职:
 
承担科研项目情况:
  1. 国家自然科学基金面上项目,“硫化物与硅酸盐形态-粒度定量分析揭示东天山铜镍矿床富集过程”, 2021-2024,在研,主持
  2. 国家自然科学基金面上项目,“拉斑玄武质岩浆角闪石氧逸度计实验模拟及其在造山带铜镍矿床中的应用”2019-2022,在研,主持
  3. 第二次青藏科考,任务八“资源能源现状与远景评估”专题6“资源能源战略储备综合评估”,2019-2024,在研,参与
  4. 国家自然科学基金重大研究计划,“关键金属元素超常富集机理集成研究”, 2022-2025,在研, 参与
  5. 国家自然科学基金青年项目,“富镍硫化物成矿机理——以东天山黄山南铜镍矿床为例”,2016-2018,项目负责人,结题,主持
  6. 博士后一等资助项目,“富镍硫化物的熔离过程——以东天山黄山南铜镍矿床为例”,2015 -2017,项目负责人,结题,主持

 

指导学生:
  郑旭阳(在读博士生,专业:岩石学、矿物学、矿床学)

 
获奖及荣誉:
  1. 中科院朱李月华优秀博士生(2014)
  2. 中科院地质与地球物理研究所年度优秀科技成果奖(排名第二,2018)
  3. 中科院青促会会员(2021)
 
代表论著:

   2022

  1. Mao Y-J, Barnes SJ, Schoneveld L, Godel B, Williams M, Tang D, Kang Z, Qin K-Z. 2022. Crystallization of spinel from co-existing silicate and sulfide immiscible liquids: an equilibrium case with postcumulus reactions. American Mineralogist. Doi:10.2138/am-2022-8473
  2. Mao Y-J, Schoneveld L, Barnes SJ, Williams MJ, Su B-X, Ruprecht P, Evans NJ, Qin K-Z. 2022. Coupled Li-P Zoning and Trace Elements of Olivine from Magmatic Ni-Cu Deposits: Implications for Postcumulus Re-Equilibration in Olivine. Journal of Petrology, 63(3): 1-22
  3. Mao Y-J, Barnes SJ, Godel B, Schoneveld L, Qin K-Z, Tang D, Williams M, Kang Z. 2022. Sulfide Ore Formation of the Kalatongke Ni-Cu Deposit as Illustrated by Sulfide Textures. Economic Geology, doi:10.5382/econgeo.4914
  4. Barnes SJ, Yao Z-S, Mao Y-J, Jesus AP, Yang SH, Taranovic V, Maier WD. 2022. Nickel in olivine as an exploration indicator for magmatic Ni-Cu sulfide deposits: a data review and re-evaluation. American Mineralogist, doi:10.2138/am-2022-8327
  5. Tang D, Qin K, Mao Y-J, Evans NJ. 2022. Magnetite geochemistry and iron isotope signature of disseminated and massive mineralization in the Kalatongke magmatic CuNi sulfide deposit, northwest China. Chemical Geology: 120965
  6. Sun Z, Qin K, Mao Y-J, Tang D, Wang F, Evans NJ, Zhou Q. 2022. Mineral chemistry of pyrochlore from the Boziguoer Nb-Ta-Zr-Rb-REE deposit, NW China: implications for Nb enrichment by alkaline magma differentiation. Minerals, 12(7): 785

    2021
  7. Fang LR, Tang DM, Junge M, Qin KZ, Mao Y-J, Evans NJ, Wohlgemuth‐Ueberwasser CC, Niu YJ. 2021. Two‐stage magmatism and mineralization of Tulaergen nickel‐copper deposit in eastern Tianshan, North‐west China: Evidence from bulk rock geochemistry and in situ mineral chemistry. Geological Journal, 56(7): 3808-3832
  8. Tang D, Qin K, Su B, Mao Y-J, Fang L. 2021. Addition of H2O at the Baishiquan and Tianyu magmatic Ni-Cu sulfide deposits, southern Central Asian Orogenic Belt, China: evidence from isotopic geochemistry of olivine and zircon. Mineralium Deposita: 1-20
  9. 孙政浩, 秦克章, 毛亚晶, 唐冬梅, 马德成. 2021. 塔里木北缘波孜果尔碱性(花岗)岩铌-钽-锆-铷-稀土矿床钠铁闪石,霓石特征及意义. 岩石学报, 37(12): 30

    2020
  10. Kang Z, Qin K-Z, Mao Y-J, Tang D-M, Yao Z-S. 2020. The formation of a magmatic CuNi sulfide deposit in mafic intrusions at the Kalatongke, NW China: Insights from amphibole mineralogy and composition. Lithos, 352-353: 105317
  11. Schoneveld L, Barnes SJ, Makkonen HV, Le Vaillant M, Paterson DJ, Taranovic V, Wang K-Y, Mao Y-J. 2020. Zoned pyroxenes as prospectivity indicators for magmatic Ni-Cu sulfide mineralisation. Frontiers in Earth Science, 8: 256
  12. Williams MJ, Schoneveld L, Mao Y-J, Klump J, Gosses J, Dalton H, Bath A, Barnes S. 2020. pyrolite: Python for geochemistry. Journal of Open Source Software, 5(50): 2314
  13. Tang D, Qin K, Su B, Mao Y-J, Evans NJ, Niu Y, Kang Z. 2020. Sulfur and copper isotopic signatures of chalcopyrite at Kalatongke and Baishiquan: Insights into the origin of magmatic Ni-Cu sulfide deposits. Geochimica et Cosmochimica Acta, 275: 209-228
  14. Su X, Peng P, Zhu R, Mao Y-J, Zhang Z, Sun F. 2020. Multi-stage evolution of the Xuhuai rift: Insights from the occurrence and compositional profiles of doleritic sills in the southeastern margin of the North China Craton. Gondwana Research, 82: 221-240

    2019
  15. Mao Y-J, Barnes SJ, Qin K-Z, Tang D, Martin L, Su B, Evans NJ. 2019. Rapid orthopyroxene growth induced by silica assimilation: constraints from sector-zoned orthopyroxene, olivine oxygen isotopes and trace element variations in the Huangshanxi Ni–Cu deposit, Northwest China. Contributions to Mineralogy and Petrology, 174(4): 33
  16. 方林茹, 唐冬梅, 秦克章, 牛艳杰, 毛亚晶, 康珍. 2019. 角闪石成分对东天山铜镍矿床岩浆过程的指示意义. 岩石学报, 35(7): 25

    2018
  17. Mao Y-J, Barnes SJ, Duan J, Qin KZ, Godel BM, Jiao JG. 2018. Morphology and Particle Size Distribution of Olivines and Sulphides in the Jinchuan Ni–Cu Sulphide Deposit: Evidence for Sulphide Percolation in a Crystal Mush. Journal of Petrology, 59(9): 1701-1730.
  18. Mao Y-J, Qin KZ, Barnes SJ, Ferraina C, Iacono–Marziano G, Verrall M, Tang DM, Xue SC. 2018. A revised oxygen barometry in sulfide-saturated magmas and application to the Permian magmatic Ni–Cu deposits in the southern Central Asian Orogenic Belt. Mineralium Deposita, 53(6): 731-755.
  19. Mao Y-J, Qin KZ, Tang DM. 2018. Revisiting the age and emplacement process of the Huangshandong Ni–Cu deposit in the Central Asian Orogenic belt, northwestern China: Implications for multiple magma extractions from a short–lived staging magma chamber. Lithos, 320-321:583-591.
  20. Mao Y-J, Dash B, Qin KZ, Bujinlkham B, Tang DM. 2018. Comparisons among the Oortsog, Dulaan, and Nomgon mafic-ultramafic intrusions in central Mongolia and Ni-Cu deposits in NW China: implications for economic Ni-Cu-PGE ore exploration in central Mongolia. Russian Geology and Geophysics, 59(1): 1-18.
  21. 毛亚晶, 秦克章, 唐冬梅. 2018. 高镍铜镍矿床的特征、形成机制与勘查展望. 岩石学报, 34(8): 2410-2424.

    2017
  22. Mao Y-J, Qin KZ, Barnes SJ, Tang DM, Xue SC, Le Vaillant M. 2017. Genesis of the Huangshannan high-Ni tenor magmatic sulfide deposit in the Eastern Tianshan, northwest China: Constraints from PGE geochemistry and Os–S isotopes. Ore Geology Reviews, 90: 591-606.
  23. Mao Y-J, Tang DM, Qin KZ, Taranovic V. 2017. Geochemistry of the~ 326 Ma Xinyuan mafic intrusion in the Eastern Junggar Terrane, Northwest China: implications for tectonic setting and magmatic Ni–Cu mineralization potential. International Geology Review, 59(10): 1276-1291.
  24. Tang DM, Qin KZ, Xue SC, Mao Y-J, Evans, N J, Niu, YJ, Chen, JL. 2017. Genesis of the Permian Kemozibayi sulfide-bearing mafic-ultramafic intrusion in Altay, NW China: Evidence from zircon geochronology, Hf and O isotopes and mineral chemistry. Lithos, 292: 49-68.

    2016
  25. Mao Y-J, Qin KZ, Tang DM, Feng HY, Xue SC. 2016. Crustal contamination and sulfide immiscibility history of the Permian Huangshannan magmatic Ni-Cu sulfide deposit, East Tianshan, NW China. Journal of Asian Earth Sciences, 129: 22-37.
  26. Xue SC, Qin KZ, Li CS, Tang DM, Mao Y-J, Qi L, and Ripley E M. 2016. Geochronological, Petrological, and Geochemical Constraints on Ni-Cu Sulfide Mineralization in the Poyi Ultramafic-Troctolitic Intrusion in the Northeast Rim of the Tarim Craton, Western China: Economic Geology, 111: 1465-1484.
  27. 郭鼎民, 毛亚晶, 谢军辉, 田翱齐, 寇利杰, 谈雄, 牛艳杰. 2016. 东疆黄山铜镍矿床硫化物聚集过程和硅酸镍含量及对铜镍矿勘查的指示: 新疆地质, 34: 367-374.

    Before 2015
  28. Mao Y-J, Qin KZ, Li C, Tang DM. 2015. A modified genetic model for the Huangshandong magmatic sulfide deposit in the Central Asian Orogenic Belt, Xinjiang, western China. Mineralium Deposita, 50(1): 65-82.
  29. Mao Y-J, Qin KZ, Li C, Xue SC, Ripley EM. 2014. Petrogenesis and ore genesis of the Permian Huangshanxi sulfide ore-bearing mafic-ultramafic intrusion in the Central Asian Orogenic Belt, western China. Lithos, 200(0): 111-125.
  30. Tang DM, Qin KZ, Su BX, Sakyi P A, Mao Y-J, and Xue SC. 2014. Petrogenesis and mineralization of the Hulu Ni-Cu sulphide deposit in Xinjiang, NW China: constraints from Sr-Nd isotopic and PGE compositions: International Geology Review, 56: 711-733.
  31. 毛亚晶, 秦克章, 唐冬梅, 薛胜超, 田野, 冯宏业. 2014. 东天山岩浆铜镍硫化物矿床的多期次岩浆侵位与成矿作用——以黄山铜镍矿床为例: 岩石学报, 30(6):1575-1594.
  32. 秦克章, 田野, 姚卓森, 王勇, 毛亚晶等. 2014. 新疆喀拉通克铜镍矿田成矿条件、岩浆通道与成矿潜力分析: 中国地质: 912-935.
  33. 冯宏业, 许英霞, 秦克章, 唐冬梅, 郭海兵, 三金柱, 毛亚晶. 2014. 东天山圪塔山口镁铁-超镁铁质岩体地球化学、锆石U-Pb年代学及其对Ni-Cu成矿的指示. 岩石学报(06): 1558-1574
  34. 冯宏业, 许英霞, 唐冬梅, 秦克章, 毛亚晶, 郭海兵, 三金柱. 2014. 东天山圪塔山口铜镍矿区镁铁-超镁铁质岩体橄榄石与尖晶石矿物学特征. 地质与勘探(02): 346-359
 

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