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汪方跃

时间:2022-05-11作者:毛静静点击数:

姓名

汪方跃

性别

出生年月

1982.8

职称

副研究员

行政职务


研究生导师

硕导

E-mail

fywang@hfut.edu.cn

联系电话


通讯地址

安徽省合肥市屯溪路193

邮编

230009

个人简介

汪方跃,安徽怀宁人。

教育与工作经历:

2000.9-2004.7 学士 吉林大学地球科学学院 专业: 资源勘查工程。

2004.9-2007.7 硕士 西北大学地质学系 专业: 地球化学  

2007.9-2010.6 博士 中国科学院广州地球化学研究所 专业:地球化学  

2010.7-2013.3 博士后 中国科学技术大学地球和空间科学学院

2013.3-2014.6  特任副研究员 中国科学技术大学地球和空间科学学院

2015.6-8月 澳大利亚塔斯马尼亚大学CODES 访问学者

2014.6-至今 威廉希尔亚洲资环与环境学院 副研究员

研究领域

LA-ICP-MS在地学中的应用;

岩浆岩与金属成矿;

矿物地球化学。


教学工作


 本科生:地球化学

研究生:现代测试分析技术

科研工作

1、国家基金委重大项目之子项目:板块俯冲过程中元素-同位素分异、岩浆作用与铜金成矿,2011.01-2014.12,国家自然科学基金委,子项目负责人;已结题

2国家自然科学基金青年基金:中国中东部含矿与不含矿高镁埃达克质岩源区及氧逸度特征对比研究》,2013.01-2015.12,国家自然科学基金委,项目负责人;已结题

3国家自然科学基金面上基金:长江中下游宁镇地区早白垩世岩浆岩地球化学研究,项目负责人,2014.1-2017.12,国家自然科学基金委,项目负责人;已结题

4、青年创新基金:长江中下游宁镇地区含矿埃达克岩成因研究,2013.01-2014.12,国家自然科学基金委,项目负责人;已结题

5、科技部重大专项“燕山期重大地质事件的深部过程与资源效应”,项目号:2016YFC0600-400之子项目“太平洋构造域的岩浆作用与成矿”(项目号2016YFC0600-404”);已结题

6、国家自然科学基金面上基金:LA-(MC)-ICP-MS面扫描技术开发,2019.01-2022.12,国家自然科学基金委,项目负责人,在研;4187303467万元;在研

论著获奖

获奖:汪方跃*, 葛粲, 宁思远, 聂利青, 钟国雄, White, N., 2017. 一个新的矿物面扫描分析方法开发和地质学应用. 岩石学报33, 3422-3436.入选第六届中国科协优秀100篇科技论文。


2022年:

1. Fangyue Wang,Yongjie Guo,Haiyang Yan,Haiou Gu,He Sun, Can Ge. 2022. Geochronology and geochemistry of the W-Mo-ore-related granitic rocks from eastern Ningzhen, lower Yangtze river belt, eastern China. Acta Geochimica. doi.org/10.1007/s11631-021-00501-2, on line.

2. 杜秀玲,汪方跃*,闫海洋,顾海欧,孙贺葛粲. 2022. 浙江中部芙蓉山花岗斑岩及包体岩石地球化学研究. 地质论评 68(01). 18-46. 10.16509/j.georeview.2021.09.085.

3. 张龙,陈振宇,汪方跃,周涛发. 2022. 电子探针技术研究粤北龙华山岩体中独居石蚀变晕圈的结构与成分特征. 岩矿测试 41(02). 174-184. 10.15898/j.cnki.11-2131/td.202109070118.

4. Xin Zhang,Pei Ni,Guoguang Wang,Dingsheng Jiang,Renzhi Zhu,Yaohui Jiang, Fangyue Wang. 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.

5. Yinan Liu,Yu Fan,Taofa Zhou,Lei Yan,Bin Fu,Fangyue Wang, Jingfeng Wang. 2022. Trace element evolution of magnetite in iron oxide-apatite deposits: case study of Daling deposit, Eastern China. Ore Geology Reviews. 104842.

6. Yanyun Xiong,Taofa Zhou,Yu Fan,Jing Chen,Biao Wang,Jun Liu, Fangyue Wang. 2022. Enrichment Mechanisms and Occurrence Regularity of Critical Minerals Resources in the Yaojialing Zn Skarn Polymetallic Deposit, Tongling District, Eastern China. Ore Geology Reviews. 104822.


2021年:

1. Li, Y., Yuan, F., Jowitt, S. M., Wang, F., Li, X., Deng, Y., Wang, Y., and Zhou, T., 2021, Molybdenite Re–Os, titanite and garnet U–Pb dating of the Magushan skarn Cu–Mo deposit, Xuancheng district, Middle–Lower Yangtze River Metallogenic Belt: Geoscience Frontiers, v. 12, no. 3, p. 101116.

2. Ge, C., Huo, J., Gu, H.-O., Wang, F., Sun, H., Li, X., Li, W., and Yuan, F., 2021, Tectonic discrimination and application based on convolution neural network and incomplete big data: Journal of Geochemical Exploration, v. 220, p. 106662.

3. Zhang, L., Chen, Z., Wang, F.*, and Zhou, T., 2021, Apatite geochemistry as an indicator of petrogenesis and uranium fertility of granites: A case study from the Zhuguangshan batholith, South China: Ore Geology Reviews, v. 128, p. 103886.

4. Shi, R., Zhao, J., Evans, N. J., Qin, K., Wang, F., Li, Z., Han, R., and Li, X., 2021, Temporal-spatial variations in Li-Fe mica compositions from the Weilasituo Sn-polymetallic deposit (NE China): implications for deposit-scale fluid evolution: Ore Geology Reviews, p. 104132.

5. Shen, J., Zhang, Y.-N., Yang, Y.-Z., Qin, L., He, Y., Liu, S.-A., Wang, F., and Ni, H., 2021, Molybdenum isotope tracing petrogenesis of adakitic rocks and associated ore-forming process: Geochimica et Cosmochimica Acta. In press

6. Zhang, L., Chen, Z., Wang, F.*, White, N. C., and Zhou, T., 2021, Release of Uranium from Uraninite in Granites Through Alteration: Implications for the Source of Granite-Related Uranium Ores: Economic Geology.doi: https://doi.org/10.5382/econgeo.4822

7. Zhang, L., Chen, Z., Wang, F.*, and Zhou, T., 2021, Whole-rock and biotite geochemistry of granites from the Miao’ershan batholith, South China: Implications for the sources of granite-hosted uranium ores: Ore Geology Reviews, v. 129, p. 103930.

8. Yang, W. X., Yan, D. P., Qiu, L., Wells, M. L., Dong, J. M., Gao, T., Zhang, Z, Mu, H. X., Wang, X. W andWang, F.2021.Formation and forward propagation of the Indosinian foreland fold‐thrust belt and Nanpanjiang foreland basin in SW China. Tectonics, e2020TC006552.

9. 汪方跃,张文奇,段留安,吴杰,葛粲,孙贺,顾海欧,沈睿文,2021,东秦岭地区一种富稀土热液型钡解石的发现及其意义[J].岩石矿物学杂志,40(2):337~346.

10. Li, Q., Sun, X., Lu, Y., Wang, F., Hao, J. (2021). Apatite and zircon compositions for Miocene mineralizing and barren intrusions in the Gangdese porphyry copper belt of southern Tibet: Implication for ore control. Ore Geology Reviews, 104474.

11. Liu, P., Mao, J., Lehmann, B., Peng, L., Zhang, R., Wang, F. Jiang, C. (2021). Cassiterite U-Pb dating of the Lower Cretaceous Yanbei tin porphyry district in the Mikengshan volcanic basin, SE China. Ore Geology Reviews, 104151.

12. Li, W., Ge, C., Wang, F., Sun, H., Gu, H. (2021). The spatial distribution characteristics of Nb–Ta of mafic rocks in subduction zones. Open Geosciences, 13(1), 390-400.

13. Gu, H. O., Sun, H., Huang, C., Wang, F., Ge, C. (2021). Application of a “Continuous‐Acquisition‐Method” to potassium isotope measurements by multi‐collector inductively coupled plasma mass spectrometry. Rapid Communications in Mass Spectrometry, 35(13), e9105.

14. Li, Y., Audétat, A., Liu, Z., Wang, F. (2021). Chalcophile element partitioning between Cu-rich sulfide phases and silicate melt and implications for the formation of Earth’s continental crust. Geochimica et Cosmochimica Acta, 302, 61-82.

15. Huang, C., Gu, H. O., Sun, H., Wang, F., Chen, B. (2021). High-precision determination of stable potassium and magnesium isotopes utilizing single column separation and multicollector inductively coupled plasma mass spectrometry. Spectrochimica Acta Part B: Atomic Spectroscopy, 106232.

16. He, X., Su, W., Shen, N., Xia, X., Wang, F. (2021). In situ multiple sulfur isotopes and trace element compositions of pyrite support a sedimentary source-rock model for Linwang Carlin-type gold deposit in the Youjiang basin, Southwest China. Ore Geology Reviews, 104533.

17. Liu, P., Mao, J., Lehmann, B., Weyer, S., Horn, I., Mathur, R., Wang, F., Zhou, Z. J. A. M. J. o. E., and Materials, P., 2021, Tin isotopes via fs-LA-MC-ICP-MS analysis record complex fluid evolution in single cassiterite crystals, v. 106, no. 12, p. 1980-1986.

18. 张明明,李思洋,汪方跃,范裕, 王成宝. 2021. 基于 GIS 的长江中下游同位素空间分布规律探究. 威廉希尔亚洲学报 (自然科学版).

19. 谢元惠,单伟,于学峰,迟乃杰,汪方跃,李大鹏,张岩, 李小伟. 2021. 胶东白垩纪煌斑岩中单斜辉石再循环晶的识别及其地质意义. 岩石学报 37(7). 2203-2233.

20. 张龙,陈振,汪方跃. 2021. 华南花岗岩型铀矿床主要特征与成矿作用研究进展. 岩石学报 37(9). 2657-2676.

21. 国显正,周涛发,汪方跃,叶少贞, 冯道水. 2021. 长江中下游成矿带城门山斑岩-矽卡岩型铜金矿床碲元素赋存状态及沉淀机制初步研究. 岩石学报 37(9). 2723-2742.


2020年:

1. 闫海洋, 汪方跃*, 葛粲, 2020, 低频LA-ICPMS分析技术应用型研究: 岩石矿物地球化学通报, v. 39, no. 1, p. 99-106.

2. Wang, S., Kuzmich, B., Hollings, P., Zhou, T., Wang, F., 2020, Petrogenesis of the Dog Lake Granite Chain, Quetico Basin, Superior Province, Canada: Implications for Neoarchean crust growth: Precambrian Research, p. 105828.

3. Qiu, L., Yan, D. P., Yang, W. X., Cao, W., Ren, M., Gao, T., Dong, J., Wang, F. Y., 2020, The timing of brittle deformation: An example from the Cenozoic faults in the Youjiang fold‐thrust belt in southwestern China: Geological Journal.

4. Nie, L., Zhou, T., White, N., Wang, F., and Song, Y., 2020, Zircon geochemistry of Edong granitoids in the Middle-Lower Yangtze Metallogenic Belt (Eastern China): Constraints on W-Cu-Fe skarn mineralization: Ore Geology Reviews, p. 103461.

5. Liu, G., Yuan, F., Deng, Y., Wang, F., White, N. C., Huizenga, J. M., Li, Y., Li, X., and Zhou, T., 2020, Ore-fluid geochemistry of the Hehuashan Pb–Zn deposit in the Tongling ore district, Anhui province, China: Evidence from REE and C–H–O isotopes of calcite: Ore Geology Reviews, v. 117, p. 103279.

6. Cheng, Z., Zhang, Z., Wang, Z., Wang, F., Mao, Q., Xu, L., Ke, S., Yu, H., and Santosh, M., 2020, Petrogenesis of transitional large igneous province: Insights from bimodal volcanic suite in the Tarim large igneous province: Journal of Geophysical Research: Solid Earth, v. 125, no. 5, p. e2019JB018382.

7. Yan, H., Wang, F.*, Gu, H.-O., Sun, H., and Ge, C., 2020, Geochemical and Sr-Nd-Pb-Hf Isotopic Characteristics of Muchen Pluton in Southeast China, Constrain the Petrogenesis of Alkaline A-Type Magma, minerals, v. 10, no. 1, p. 80.

8. 张文奇,汪方跃*. 2020. 扫描电镜组合式样品载物台. 专利号:ZL 2020 2 0068776.8. 实用新型专利

9. Duan, Z., Gleeson, S. A., Gao, W.-S., Wang, F.-Y., Li, C.-J., and Li, J.-W. J. O. G. R., 2020, Garnet U-Pb dating of the Yinan Au-Cu skarn deposit, Luxi District, North China Craton: Implications for district-wide coeval Au-Cu and Fe skarn mineralization, v. 118, p. 103310.

10. Xing, K., Shu, Q., Lentz, D. R.,Wang, F., 2020, Zircon and apatite geochemical constraints on the formation of the Huojihe porphyry Mo deposit in the Lesser Xing¡¯an Range, NE China: American Mineralogist: Journal of Earth Planetary Materials, v. 105, no. 3, p. 382-396.

11. 软件著作权:LA-ICPMS mapping处理软件V1.02020;葛粲、汪方跃等;2020SR1244256

12. 徐锦龙, 沈仕豪, 汪雅菲, 汪方跃. 中二叠统热水沉积新证据——以皖南 “嵇亭岭砾岩” 为例[J]. 沉积学报, 2020, 38(2): 284-296.

13. 郎明德,程志国,张招崇,汪方跃,毛骞, M. Santosh. 2020. 塔里木过渡型大火成岩省粗面英安岩中水硅铁石的识别及意义. 地球科学 45(11). 4026.

2019年:

1. 王辉, 汪方跃*, and 盛兆秋, 2019, LA-ICP-MS 分析中不同莫氏硬度矿物激光剥蚀行为及剥蚀速率研究: 岩石矿物学杂志, v. 38, no. 1, p. 113-120.

2. 王辉, 汪方跃*, 关炳庭, and 盛兆秋, 2019, 激光能量密度对 LA-ICP-MS分析数据质量的影响研究: 岩矿测试, v. 38, no. 6, p. 724-734.

3. 周涛发, 聂利青, 王世伟, 汪方跃, 张千明, 2019, 长江中下游成矿带钨矿床, v. 35, no. 12, p. 3592-3608.

4. 聂利青, 周涛发, 汪方跃, 张千明, 张明, 汪龙虎, 2019, 安徽庐枞矿集区东顾山钨矿床成矿流体来源与演化:来自HOS同位素和流体包裹体的证据: 岩石学报, v. 35, no. 12.

5. 葛粲, 汪方跃, 顾海欧, 管怀峰, 李修钰, and 袁峰, 2019, 基于卷积神经网络和火山岩大数据的构造源区判别: 地学前缘, v. 26, no. 4, p. 22-32.

6. Xiao, Q.-L., Zhou, T.-F., Wang, S.-W., Yuan, F., White, N. C., Wang, F.-Y., Xie, Z.-J., and Liu, J., 2019, Genesis of Chating Cu-Au deposit in the Middle-Lower Yangtze River Metallogenic Belt, Eastern China: Implications from magnetite and biotite geochemistry: Ore Geology Reviews, v. 106, p. 113-133.

7. Sun, W., Yuan, F., Jowitt, S. M., Zhou, T., Liu, G., Li, X., Wang, F., Troll, V. R., 2019, In situ LA–ICP–MS trace element analyses of magnetite: genetic implications for the Zhonggu orefield, Ningwu volcanic basin, Anhui Province, China: Mineralium Deposita, v. 54, no. 8, p. 1243-1264.

8. Qiu, L., Yang, W.-X., Yan, D.-P., Wells, M. L., Qiu, J.-T., Gao, T., Dong, J.-M., Zhang, L., Wang, F.-Y., 2019, Geochronology of early Mesozoic diabase units in southwestern China: metallogenic and tectonic implications: Geological Magazine, v. 156, no. 7, p. 1141-1156.

9. Li, Y., Feng, L., Kiseeva, E. S., Gao, Z., Guo, H., Du, Z., Wang, F., and Shi, L., 2019, An essential role for sulfur in sulfide-silicate melt partitioning of gold and magmatic gold transport at subduction settings: Earth and Planetary Science Letters, v. 528.

10. Jin, S., Zhang, Z., Cheng, Z., Xie, Q., Fei, X., Santosh, M., Wang, F., 2019, Compositions of olivine from the Wajilitag mafic-ultramafic intrusion of the Permian Tarim Large Igneous Province, NW China: Insights into recycled pyroxenite in a peridotite mantle source: Journal of Asian Earth Sciences, v. 171, p. 9-19.

11. Hu, J.-Q., Li, X.-W., Xu, J.-F., Mo, X.-X., Wang, F.-Y., Yu, H.-X., Shan, W., Xing, H.-Q., Huang, X.-F., and Dong, G.-C., 2019, Generation of coeval metaluminous and muscovite-bearing peraluminous granitoids in the same composite pluton in West Qinling, NE Tibetan Plateau: Lithos, v. 344, p. 374-392.

12. Gu, H.-O., Sun, H., Wang, F., Ge, C., and Zhou, T., 2019, A new practical isobaric interference correction model for the in situ Hf isotopic analysis using laser ablation-multi-collector-ICP-mass spectrometry of zircons with high Yb/Hf ratios: Journal of Analytical Atomic Spectrometry, v. 34, p. 1223-1232.

13. Chen, X., Richards, J. P., Liang, H., Zou, Y., Zhang, J., Huang, W., Ren, L., and Wang, F., 2019, Contrasting arc magma fertilities in the Gangdese belt, Southern Tibet: Evidence from geochemical variations of Jurassic volcanic rocks: Lithos, v. 324-325, p. 789-802.

2018年:

1. Xiao, X., Zhou, T. F., White, N. C., Zhang, L. J., Fan, Y., Wang, F. Y., and Chen, X. F., 2018. The formation and trace elements of garnet in the skarn zone from the Xinqiao Cu-S-Fe-Au deposit, Tongling ore district, Anhui Province, Eastern China. Lithos s 302–303, 467-479.

2. Ren, Z., Zhou, T., Hollings, P., White, N. C., Wang, F., and Yuan, F., 2018. Trace element geochemistry of molybdenite from the Shapinggou super-large porphyry Mo deposit, China. Ore Geology Reviews 95, 1049-1065.

3. Shen, J., Qin, L., Fang, Z., Zhang, Y., Liu, J., Liu, W., Wang, F., Xiao, Y., Yu, H., and Wei, S., 2018. High-temperature inter-mineral Cr isotope fractionation: A comparison of ionic model predictions and experimental investigations of mantle xenoliths from the North China Craton. Earth and Planetary Science Letters 499, 278-290.

4. Duan, L. A., Yang, X., Deng, J., Wang, F., and Insung, L., 2018. Mineralization, Geochemistry and Zircon U-Pb Ages of the Paodaoling Porphyry Gold Deposit in the Guichi Region, Lower Yangtze Metallogenic Belt, Eastern China. Acta Geologica Sinica(English Edition) 92, 706-732.

5. 葛粲,汪方跃,李永东,李晓晖,李修钰,周宇章,袁峰,李建设,陆三明. 2018. 基于GEOROC大数据分析地壳厚度地球化学指标. 岩石学报, 34(11): 3179-3188

6. Dai, H., Liu, Y., Wang, J. J., Nie, Y. G., Sun, Y. X., Wang, M. D., Wang, D. Y., Yang, Z., Cheng, L., Wang, J., Weng, J., Wang, Q. Q., Wang, F. Y., Wu, L. J., Zhao, G. P., and Xu, A., 2018. Graphene oxide antagonizes the toxic response to arsenic via activation of protective autophagy and suppression of the arsenic-binding protein LEC-1 in Caenorhabditis elegans. Environ.-Sci. Nano 5, 1711-1728.

7. 葛粲, 顾海欧, 汪方跃, 李修钰, 周宇章, 袁峰.2018. 基于数据密度确定分布区域的方法:以TAS图解分析为例. 地球科学, 53(4):1240-1253

2017年:

1. 汪方跃*, 葛粲, 宁思远, 聂利青, 钟国雄, White, N., 2017. 一个新的矿物面扫描分析方法开发和地质学应用. 岩石学报 33, 3422-3436.

2. 宁思远, 汪方跃*, 薛纬栋, 周涛发, 2017. 长江中下游铜陵地区宝山岩体地球化学研究. 地球化学 46, 397-412.

2016年:

1. He Z, Huang F, Yu H, Xiao Y, Wang F, Li Q, Xia Y, Zhang X. 2016. A FluxFree Fusion Technique for Rapid Determination of Major and Trace Elements in Silicate Rocks by LAICPMS[J]. Geostandards and Geoanalytical Research,, 40(1): 5-21.

2015年:

1. 刘军锋,李超,李贺,孙卫东,汪方跃*2015.岩石学报.四会岩体: 一个潜在的含钼铜矿化岩体,31(3): 791-801

2. 张力钰,刘盛遨,赵盼捞,汪方跃2015.岩石学报. 宁镇地区成矿斑岩与铁镁质包体铜同位素研究,31(7): 1908-1916

2014年以前:

1. Wang, F.*, Liu, S.-A., Li, S., Akhtar, S., and He, Y., Zircon U–Pb ages, Hf–O isotopes and trace elements of Mesozoic high Sr/Y porphyries from Ningzhen, eastern China: Constraints on their petrogenesis, tectonic implications and Cu mineralization[J]. Lithos, 2014, 200–201, p. 299-316.

2. Wang, F.Y*., S.-A. Liu, S. Li, et al., Contrasting zircon Hf–O isotopes and trace elements between ore-bearing and ore-barren adakitic rocks in central-eastern China: Implications for genetic relation to Cu–Au mineralization[J]. Lithos, 2013. 156–159(0):97-111.

3. Ding, X., Sun, W. D., Wang, F. Y. et al., Single-grain mica Rb-Sr isochron ages and mineral chemistry for the Weishan pluton in Hunan province and implications on petrogenesis and mineralization of Mesozoic composite granite in South China[J], Acta Petrologica Sinica, 28(12), 3823-3840.

4. Duan L. A., Yang X. Y., Wang F. Y., et al., Geochemistry and zircon U-Pb age of ore-bearing porphyry in the Paodaoling gold deposit in Guichi, Middle-Lower Yangtze metallogenic belt[J], Acta Petrologica Sinica, 28(10), 3241-3254.

5. Li, C.-Y., H. Zhang, F.-Y. Wang, et al., The formation of the Dabaoshan porphyry molybdenum deposit induced by slab rollback[J]. Lithos, 2012. 150(0):101-110.

6. Wang, F.Y., C.-Y. Li, M.-X. Ling, et al., Geochronology of the Xihuashan Tungsten Deposit in Southeastern China: Constraints from Re–Os and U–Pb Dating[J]. Resource Geology, 2011. 61(4):414-423.

7. Wang, F.Y., M.X. Ling, X. Ding, et al., Mesozoic large magmatic events and mineralization in SE China: oblique subduction of the Pacific plate[J]. International Geology Review, 2011. 53(5-6):704-726.

8. Ling, M.X., F.Y. Wang, X. Ding, et al., Different origins of adakites from the Dabie Mountains and the Lower Yangtze River Belt, eastern China: geochemical constraints[J]. International Geology Review, 2011. 53(5-6):727-740.

9. Li, C.-Y., F.Y. Wang, X.-L. Hao, et al., Formation of the world's largest molybdenum metallogenic belt: a plate-tectonic perspective on the Qinling molybdenum deposits[J]. International Geology Review, 2011. 54(9):1093-1112.

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