冷成彪

发布者:秦欢欢发布时间:2024-04-17浏览次数:114

姓名:

冷成彪

性别:

职称:

教授

学位:

博士

电话:


传真:


Email

lcb8207@163.com

邮编:

330013

地址:

江西省南昌市经开区广兰大道418

简   历:

冷成彪,山东临沭人,博士(后)、教授、博士生导师,国家优秀青年科学基金获得者,现任核资源与环境国家重点实验副主任。主要从事岩浆-热液矿床成矿理论与找矿方法研究。主持国家自然科学基金、重点研发计划项目子课题及省部级科研项目10余项;发表论文80多篇。曾入选中国科学院青年创新促进会、江西省首届“青年井冈学者”等。

学习经历:

·2005.9–2010.1, 中国科学院地球化学研究所, 地球化学专业, 博士研究生

·2001.9–2005.7, 长安大学, 地质学专业, 本科

工作经历:

·2019.1-至今, 东华理工大学, 核资源与环境国家重点实验室, 特聘教授

·2017.1-2018.12, 中国科学院地球化学研究所, 矿床地球化学国家重点实验室, 项目研究员

·2013.7-2016.6, 中国地质科学院地质研究所, 博士后

·2012.11-2013.6, 澳大利亚塔斯马尼亚大学, 国家优秀矿床研究中心(CODES, 访问学者

·2012.1-2016.12, 中国科学院地球化学研究所, 矿床地球化学国家重点实验室, 副研究员

·2009.11-2012.1, 中国科学院地球化学研究所, 矿床地球化学国家重点实验室, 助理研究员

其中:

·2017.5-2017.6, 香港大学, 地球科学系, 访问学者

·2014.5-2014.6, 香港大学, 地球科学系, 访问学者

研究方向:

·斑岩成矿系统

·关键金属成矿作用

招生专业:

·0709地质学

·0818地质资源与地质工程

·0857资源与环境

获奖及荣誉:

·2016年入选贵州省“千层次”科技创新型人才计划

·2018年入选中国科学院青年创新促进会

·2018年入选江西省首届“青年井冈学者”

教授课程:

1.《岩浆岩石学》、2. 《地球科学概论》、3.《地质工程研究进展》、4. 《地质资源与地质工程研究进展》

承担科研项目情况:

主持项目:

1. 第二次青藏高原综合科学考察研究-方向三:青藏高原大宗金属资源科学考察项目子专题, 2021/11-2024/12110万,主持

2. 江西省国家级高层次人才创新创业项目,2022-2024150万,主持

3. 中国铀业有限公司-东华理工大学核资源与环境国家重点实验室联合创新基金一般项目,2022/07-2024/1230万,主持

4. 第二批江西省“SQ计划”项目,2021/01-2024.12100万,主持

5. 国家优秀青年科学基金项目, 2021/01-2023/12120万,主持

6. 国家自然科学基金重大研究计划(培育项目),2021/01-2023/1266万,主持

7. 核资源与环境国家重点实验室自主基金(重点基金),2021/01-2022/1210万,主持

8. 矿床地球化学国家重点实验室开放基金项目, 2020/1/1-2021/12/3110万元,主持

9. 国家重点研发计划项目, 2018/7/01-2021/6/30, 285万,骨干

10. 国家自然科学基金面上项目, 2017/01-2020/1273万元,主持

11. 国家重点研发计划项目子课题,2016/07-2020/1292万元,主持

12. 中国科学院“西部之光”项目,云南中甸地区构造演化与成矿作用,2015/01-2018/1230万元,主持

13. 国家自然科学基金面上项目, 2014/01-2017/1285万元,主持

14. 国家自然科学基金青年基金项目, 2011/01-2013/1220万元,主持

参与项目:

1. 中国科学院战略性先导科技专项(B类),XDC18030202,地球深部过程的资源效应,2016/07-2020/121250万,参加

2. 中国科学院“一带一路”创新团队,100万,参加

3. 国家自然科学基金青年基金项目, 2011/01-2014/1225万,参加

代表论著:

(1) Yang F, Leng CB, Shen X, Bagas L, Zhang L, Jepson G. 2024. Editorial: Evolution of tectonic structures and mineralisation in orogens and their margins. Front. Earth Sci. 12:1371835.doi: 10.3389/feart.2024.1371835.

(2) Chen, X.L.*, Brzozowski, Matthew J., Zou, S.H., Qi, L., Li, K.X., Leng., C.B.*, 2024. Platinum-Group Element Geochemistry of Igneous Rocks in the Chongjiang Cu–Mo–Au Deposit, Southern Tibet: Implications for the Formation of Post-Collisional Porphyry Cu Deposits. Journal of Petrology 65, egae025.

(3) 莫雷, 冷成*, 陈喜连, 李凯旋. 2024. 云南中甸地区斑岩体锆石微量元素与Hf-O同位素特征及其对成岩成矿的启示. 岩石学报, 40(04):1163-1148.

(4) 韩凤歌, 冷成彪*, 陈加杰, 占义勇. 2024. 基于机器学习的磷灰石微量元素判别岩石类型[J/OL]. 矿物岩石地球化学通报, 1-14[2024-04-07].http://kns.cnki.net/kcms/detail/52.1102.P.20240328.1758.002.html.

(5) Leng CB*, Wang DZ, Yu HJ, Tian F, Zhang XC. 2023. Mapping hydrothermal alteration zones with short wavelength infrared (SWIR) spectra and magnetic susceptibility at the Pulang porphyry Cu-Au deposit, Yunnan, SW China. Mineralium Deposita, https://doi.org/10.1007/ s00126-023-01229-0.

(6) Wang DZ, Zhen SM, Liu JJ, Wang J, Zha ZJ, Leng CB*. 2023. Age and mineralization origin of the Zhongshangou Au deposit, Zhangjiakou goldfield, North China: Constraints from molybdenite Re-Os age and sulfides S-Pb isotopes. Ore Geology Reviews,162, 105638.

(7) Chao WW, Wang H, Xu L, Feng DS, Wang Y, Wang Y, Leng CB. Leng CB*. 2023. LA-ICP-MS U-Pb dating, chemical composition and evolution of oscillatory zoned andradite from the Chengmenshan Cu-Au deposit, Jiangxi province, Ore Geology Reviews, 159, 105542.

(8) 冷成彪*, 陈涛亮, 任志, 赵严, 王安东, 汪方跃. 2023. 德兴斑岩矿田辉钼矿中铼的分布特征及富集机制. 岩石学报,39(10): 3107-3120.

(9) 马晓花, 郭福生, 冷成彪*, 李凯旋, 高粉粉, 陈涛亮, 任志, 田振东. 2023. 湖南香花岭锡多金属矿田铟的赋存状态及富集规律研究. 岩石学报, 39(10): 3087-3106.

(10) 陈涛亮, 任志, 冷成彪*, 王安东. 2023. 江西德兴铜矿田成矿热液演化过程及其对铼差异性富集的制约.地质学报, 97(06):1900-916.

(11) 毛金伟, 冷成彪*, 赵严,李凯旋,陈涛亮,梁丰,高粉粉,张兴春. 2023. 云南中甸红牛-红山大型矽卡岩铜矿床石榴子石U-Pb年代学、元素地球化学及地质意义.矿物岩石地球化学通报,426):119-144.

(12) 梁丰,王艳军,赵严,李凯旋,任志,毛金伟,陈涛亮,冷成彪*. 2023. 滇西北铜厂沟矽卡岩-斑岩型钼铜矿床中石榴子石地球化学和U-Pb年代学分析. 西北地质,566):219-241.

(13) 王大钊, 冷成彪, 秦朝建, 段丰浩, 周万蓬, 许德如. 2022. 铀的地球化学性质与成矿作用. 大地构造与成矿学,462):282-302.

(14)  Qi Y., Hu R., Gao J., Leng C., Gao W., Gong H. 2022. Trace and minor elements in sulfides from the Lengshuikeng Ag–Pb–Zn deposit, South China: a LA–ICP–MS study, Ore Geology Reviews (2021), doi: https://doi.org/10.1016/j.oregeorev.2021.104663

(15Tian ZD, Leng CB, Zhang XC, Tian F, Lai CK. 2022. Late Neoproterozoic-early Paleozoic tectonic evolution and paleogeographic reconstruction of the eastern Tibetan Plateau: A perspective from detrital zircon U–Pb-Hf isotopic evidence, Precambrian Research 377, 106738

(16Tian ZD, Leng CB, Deng CZ, Zhang XC, Chen D, Gao LJ, Wang XY, Yin RS. 2022. YinMercury isotopes as a useful tracer of magma sources: An example from the Daocheng-Cuojiaoma batholith, eastern Tibetan Plateau, Chemical Geology (2021), https://doi.org/10.1016/j.chemgeo.2022.120974.

(17高粉粉,李凯旋,冷成彪. 2022. 湘南香花岭锡铅锌多金属矿田的云母类型及对成矿的指示. 地质论评,68(4):1320-1344.

(18Chen XL, Leng CB, Zou SH, Li KX, Zhang LJ. 2021. Geochemical compositions of apatites from the Xuejiping and Disuga porphyries in Zhongdian arc: Implications for porphyry Cu mineralization, Ore Geology Reviews, 130, 103954.

(19Guo JH, Leng CB, Zhang XC, Zafar T, Chen WT, Tian ZD, Lai CK. 2020. Textural and chemical variations of magnetite from porphyry and skarn deposits in the Zhongdian region, northwestern Yunnan, SW China. Ore Geology reviews, 116, 103245.

(20Leng CB, Cooke DR, Hou ZQ, Evans NJ, Zhang XC, Chen WT, Danišík M, McInnes BIA, Yang JH. 2018. Quantifying exhumation at the giant Pulang porphyry Cu-Au deposit using U-Pb-He dating. Economic Geology, 113, 1077–1092.

(21Leng CB, Gao JF, Chen WT, Zhang XC, Tian ZD, Guo JH. 2018. Platinum-group elements, zircon Hf-O isotopes, and mineralogical constraints on magmatic evolution of the Pulang porphyry Cu-Au system, SW China, Gondwana Research, v.62, 163–177

(22Leng CB, Wang W, Ye L, Zhang XC. 2019. Genesis of the late Ordovician Kukaazi Pb-Zn deposit in the western Kunlun orogen, NW China: New insights from in-situ trace elemental compositionsof base metal sulfides. Journal of Asian Earth Sciences, 184, 103995.

(23Leng CB, Wang YH, Zhang XC, Gao JF, Zhang W, Xu XY. 2018. Constraints of molybdenite Re–Os and scheelite Sm–Nd ages on mineralization time of the Kukaazi Pb–Zn–Cu–W deposit, Western Kunlun, NW China, Acta Geochimica, 37(1): 47-59.

(24) Qi YQ, Hu RZ, Gao JF, Leng CB, Gong HT, Gao W. 2020 Late Mesozoic oxidized magma for porphyry Ag mineralization: A comparative study from mineralized and barren granite porphyries in the Lengshuikeng Ag-(Pb-Zn) deposit, South China, Journal of Asian Earth Sciences, 190: 104180.

(25Tang YY, Bi XW, Zhou JX, Liang F, Qi YQ, Leng CB, Zhang XC, Zhang H. 2019. Rb-Sr isotopic age, S-Pb-Sr isotopic compositions and genesis of the ca. 200 Ma Yunluheba Pb-Zn deposit in NW Guizhou Province, SW China, Journal of Asian Earth Sciences, 185, 104054

(26Tehseen Zafar, Hafiz Ur Rehmand, Munazzam Ali Mahare, Masroor Alamf, Abiola Oyebamijia, Saif Ur Rehmanc, Cheng-Biao Leng. 2020. A critical review on petrogenetic, metallogenic and geodynamic implications of granitic rocks exposed in north and east China: New insights from apatite geochemistry. Journal of Geodynamics, 136, 101723.

(27Tian ZD, Leng CB, Zhang XC, Zafar T, Zhang LJ, Hong W, Lai CK. 2019. Chemical composition, genesis and exploration implication of garnet from the Hongshan Cu-Mo skarn deposit, SW China. Ore Geology Reviews, 112, 103016.

(28Tian ZD, Leng CB, Zhang XC, Zhou LM, Tang YW. 2019. Recognition of Late Triassic Cu-Mo Mineralization in the Northern Yidun Arc (S.E. Tibetan Plateau): Implications for Regional Exploration. Minerals, 9, 765; doi: 10.3390/min9120765.

(29Tian ZD, Leng CB, Zhang XC. 2020. Provenance and tectonic setting of the Neoproterozoic meta-sedimentary rocks in SE Tibetan Plateau: Implications for tectonic affinity of the Yidun terrane. Precambrian Research, 344, 105736.

(30Yang JH, Peng JT, Liu L, Leng CB. 2019. Metal source and wolframite precipitation process at the Xihuashan tungsten deposit, South China: insights from mineralogy, fluid inclusion and stable isotope. Ore Geology Reviews, 111: DOI: 10.1016/j.oregeorev.2019.102965.

(31Zafar T, Leng CB, Mahar MA, Zhang XC, Chen WT, Rehman HU. 2020. Petrogenesis, platinum-group element geochemistry and geodynamic evolution of Cretaceous gabbros exposed in Kohistan Complex, NE Pakistan: Implications for the growth of continental crust. Lithos, Volumes 372–373, 105691.

(32Zafar T, Leng CB, Chen LM. 2020. Comment on Chen et al.: “Sulfide-bearing cumulates in deep continental arcs: The missing copper reservoir”. Earth and Planetary Sciences Letters, Volume 551, 116573.

(33Zafar T, Leng CB, Zhang XC, Rehman HU. 2019. Geochemical attributes of magmatic apatite in the Kukaazi granite from western Kunlun orogenic belt, NW China: Implications for granite petrogenesis and Pb-Zn(-Cu-W) mineralization. Journal of Geochemical Exploration, 204256–269.

(34) Zhang W, Williams-Jones AE, Leng CB, Zhang XC, Chen WT, Qin CJ, Su WC. 2019. The origin of CH4-rich fluids in reduced porphyry-skarn Cu-Mo-Au systems. Ore Geology Reviews, 114,103135.

(35陈超民, 冷成彪, 司国辉. 2020. 基于GIS与层次分析法的综合成矿预测——以新疆库米什地区为例.黄金科学技术, 28(02):213-227.

(36陈加杰, 冷成彪, 许德如, 王大钊, 李凯旋. 2020. 碲同位素研究进展及其地质应用展望. 地质学报, 94(5):1655-1663.

(37郭剑衡, 冷成彪, 张兴春, 张伟, 尹崇军, 张陆佳, 田振东. 2019. 滇西北烂泥塘斑岩铜金矿床铁氧化物 LA-ICP-MS微量元素特征及其地质意义. 黄金科学技术, 27(5)659-677.

(38冷成彪, 陈喜连, 张静静, 马晓花, 田丰, 郭剑衡, 张乐骏. 2020. 斑岩型Cu±Mo±Au矿床的勘查标志:岩石化学和矿物化学指标. 地质学报, 94(11): 3189-3212.

(39冷成彪, 齐有强. 2017. 闪锌矿与方铅矿的LA-ICPMS微量元素地球化学对江西冷水坑银铅锌矿田的成因制约. 地质学报, 91(10):2256-2272.

(40冷成彪. 2017. 滇西北红山铜多金属矿床的成因类型:黄铁矿和磁黄铁矿LA-ICPMS微量元素制约.地学前缘, 24(06):162-175.

(41田丰, 冷成彪, 张兴春, 田振东, 张伟, 郭剑衡. 2019. 短波红外光谱技术在矿床勘查中的应用. 矿物岩石地球化学通报,38(3)634-642.

(42田丰, 冷成彪, 张兴春, 田振东, 张伟, 郭剑衡. 2019. 短波红外光谱技术在西藏尼木地区岗讲斑岩铜-钼矿床中的应用. 地球科学,44(6):2143-2154.

(43) 田振东, 冷成彪, 张兴春, 尹崇军, 张伟, 郭剑衡, 田丰. 2018.青藏高原义敦岩浆弧前寒武系变质岩绿泥石矿物学特征及其地质意义. 地球科学与环境学报, 40(1):36-48.

(44) 田振东, 冷成彪, 张兴春, 尹崇军,张伟, 郭剑衡, 陈利红. 2018, 义敦地体变质基底地球化学特征与地质意义. 矿物学报,38(2)35-48.

(45张伟, 张兴春, 冷成彪, 苏文超, 秦朝建, 曹景良, 颜家辉. 2017.新疆西天山色勒特果勒还原性斑岩-矽卡岩铜钼矿床中石榴子石分带及其成因.矿床地质, 36(02):412-428.

(46赵如意, 王登红, 陈毓川, 冷成彪, 秦锦华, 赵晨辉. 2020. 南岭成矿带铀矿地质特征、成矿规律与全位成矿模式. 地质学报, 94(1):149-160.

(47Leng CB, Huang, QY, Zhang XC, Wang SX, Zhong, H, Hu RZ, Bi XW, Zhu JJ, Wang XS. 2014. Petrogenesis of the Late Triassic volcanic rocks in the southern Yidun arc, SW China: Constraints from the geochronology, geochemistry, and Sr-Nd-Pb-Hf isotopes. Lithos, 190-191363-382.

(48Leng CB, Zhang XC, Hu RZ, Wang SX, Zhong H, Wang WQ, Bi XW. 2012. Zircon U-Pb and molybdenite Re-Os Geochronology and Sr-Nd-Pb-Hf isotopic constraints on the genesis of the Xuejiping porphyry copper deposit in Zhongdian, Northwest Yunnan, China. Journal of Asian Earth Sciences, 60: 31-48, 2012.

(49Leng CB, Zhang XC, Zhong H, Hu RZ, Zhou WD, Du AD, Qu WJ. 2013. Re–Os molybdenite ages and zircon Hf isotopes of the Gangjiang porphyry Cu–Mo deposit in the Tibetan Orogen. Mineralium Deposita, 48: 585-602.

(50Leng CB, Zhang XC, Huang ZL, Huang QY, Wang SX, Ma DY, Zhu ZQ,  Luo TY, Li C, Li WB, 2015. Geology, Re-Os ages, sulfur and lead isotopes of the Diyanqinamu porphyry Mo deposit, Inner Mongolia, NE China, Economic Geology, 110(2): 557-574.

(51Sun H, Huang Z, Li W, Leng CB, Ma D, Zhang X. 2014. Chronology, geochemistry and Sr–Nd isotope studies of Jurassic intrusions in the Diyanqinamu porphyry Mo mine, central Inner Mongolia, China. Journal of Asian Earth Sciences, 88, 85-97.

(52Wang XS, Bi XW, Leng CB, Zhong H., Tang HF, Chen YW, Yin GH, Huang DZ, Zhou MF. 2014. Geochronology and geochemistry of Late Cretaceous igneous intrusions and Mo–Cu–(W) mineralization in the southern Yidun Arc, SW China: Implications for metallogenesis and geodynamic setting. Ore Geology Reviews, 61, 73-95.

(53Wang XS, Hu RZ, Bi XW, Leng CB, Pan LC, Zhu JJ, Chen YW. 2014. Petrogenesis of Late Cretaceous I-type granites in the southern Yidun Terrane: New constraints on the Late Mesozoic tectonic evolution of the eastern Tibetan Plateau. Lithos, 208–209, 202-219.

(54) Zhang W, Leng CB, Zhang XC, Su WC, Tang HF, Yan JH, Cao JL. 2016. Petrogenesis of the Seleteguole granitoids from Jinhe county in Xinjiang (West China): Implications for the tectonic transformation of Northwest Tianshan. Lithos, 256–257, 148-164.

(55Zhang X, Wang Y, Leng CB, Zhang W, XuL, Zhu J, Chen Y. 2015. Geology, Sulfur Isotopes and Scheelite Sm‐Nd Age of the Kukaazi Pb‐Zn‐(Cu‐W) Polymetallic Deposit, Yecheng County, Xinjiang, China. Acta Geologica Sinica, 88, 244-246.

(56Zhang Y, Tang HS, Chen YJ, Leng CB, Zhao CH. 2015. Ore geology, fluid inclusion and isotope geochemistry of the Xunyang Hg–Sb orefield, Qinling Orogen, Central China. Geological Journal, 49, 463-481.

(57陈星,金翔霖,许光鑫,齐有强,冷成彪,温雪芹.贵州石门坎铅锌矿化学特征分析.能源技术与管理,2016,41(03):13-14+22.

(58苟体忠,钟宏,冷成彪,吴孔文.云南中甸地区烂泥塘低温热液型Cu-Au矿床铂族元素(PGE)地球化学特征.矿物学报,2010,v.3003:319-323.

(59苟体忠,钟宏,漆亮,冷成彪,吴孔文,任涛.地质样品中痕量铼的异戊醇萃取研究.分析测试学报,2009,v.2809:1027-1030.

(60苟体忠,钟宏,朱维光,漆亮,冷成彪,吴孔文.川西冷水箐Cu-Ni硫化物矿床的PGERe-Os同位素地球化学特征及成矿意义.岩石学报,2010,v.2611:3363-3374.

(61金翔霖, 孟昌忠, 冷成彪, 齐有强, 唐永永, 张海, 陈星. 2016. 贵州云炉河坝地区铅锌矿床元素地球化学特征、碳氧同位素组成及其地质意义. 地球科学与环境学报, 38(6):778-790.

(62冷成彪,李永军,李景宏,郭文杰,李注苍,刘静.新疆尼勒克县喀什河北部地区阿克塔什组火山岩成因.新疆地质,2006(1):4-8.

(63冷成彪,张兴春,陈衍景,王守旭,苟体忠,陈伟.中国斑岩铜矿与埃达克()岩关系探讨.地学前缘,2007,05:199-210.

(64) 冷成彪,张兴春,秦朝建,王守旭,任涛,王外全.滇西北雪鸡坪斑岩铜矿流体包裹体初步研究.岩石学报,2008,v.2409:2017-2028.

(65冷成彪,张兴春,王守旭,秦朝建,苟体忠,王外全.滇西北中甸松诺含矿斑岩的锆石SHRIMP U-Pb年龄及地质意义.大地构造与成矿学,2008,01:124-130.

(66冷成彪,张兴春,王守旭,秦朝建,苟体忠.云南中甸地区两个斑岩铜矿容矿斑岩的地球化学特征—以雪鸡坪和普朗斑岩铜矿床为例.矿物学报,2007,Z1:414-422.

(67冷成彪,张兴春,王守旭,秦朝建,吴孔文,任涛.岩浆—热液体系成矿流体演化及其金属元素气相迁移研究进展.地质论评,2009,v.5501:100-112.

(68冷成彪,张兴春,王守旭,王外全,秦朝建,吴孔文,任涛.滇西北雪鸡坪斑岩铜矿S, Pb同位素组成及对成矿物质来源的示踪.矿物岩石, 2008,v.28;No.11404:80-88.

(69冷成彪,张兴春,周维德.西藏尼木地区岗讲斑岩铜-钼矿床地质特征及锆石U-Pb年龄.地学前缘,2010,v.17;No.8102:185-197.

(70齐有强,胡瑞忠,李晓峰,冷成彪,刘燊,武丽艳,刘瑞.江西冷水坑Ag-Pb-Zn矿田闪锌矿矿物化学特征及赋矿铁锰碳酸盐层成因背景制约.矿物学报,2015,v.3502:136-146.

(71任涛,张兴春,王守旭,冷成彪.浅论扬子西南缘卡林型金矿成矿物质来源及有机质在成矿过程中的作用.地质找矿论丛,2008,23(04):287-291+319.

(72孙海瑞,黄智龙,周家喜,冷成彪,甘婷. 2014. 热液矿床中萤石的稀土元素地球化学及其地质意义.岩石矿物学杂志, 33(1): 185-193.

(73汪玉会,冷成彪,张兴春. 2013. 新疆叶城县库喀阿孜铅--(-)多金属矿区中-酸性侵入岩元素地球化学和年代学初步研究.矿物岩石地球化学通报, 32(06):736-745.

(74) 王守旭,张兴春,冷成彪,秦朝建,马德云,王外全.滇西北普朗斑岩铜矿锆石离子探针U-Pb年龄:成矿时限及地质意义.岩石学报,2008,v.2410:2313-2321.

(75王守旭,张兴春,冷成彪,秦朝建,王外全,赵茂春.中甸红山矽卡岩铜矿稳定同位素特征及其对成矿过程的指示.岩石学报,2008,v.2403:480-488.

(76王守旭,张兴春,冷成彪,秦朝建.滇西北中甸普朗斑岩铜矿床地球化学与成矿机理初探.矿床地质,2007,03:277-288.

(77王守旭,张兴春,秦朝建,石少华,冷成彪,陈衍景.滇西北中甸普朗斑岩铜矿流体包裹体初步研究.地球化学,2007,05:467-478.

(78王新松,毕献武,胡瑞忠,冷成彪,余海军,尹光侯.滇西北中甸地区休瓦促岩浆热液型Mo-W矿床SPb同位素对成矿物质来源的约束.岩石学报,2015,v.3111:3171-3188.

(79王新松,毕献武,冷成彪,唐永永,兰江波,齐有强,沈能平.滇西北中甸红山Cu多金属矿床花岗斑岩锆石LA-ICP-MS U-Pb定年及其地质意义.矿物学报,2011, 3103:315-321.

(80吴孔文,钟宏,朱维光,冷成彪,苟体忠.云南大红山层状铜矿床成矿流体研究.岩石学报,2008,24(9):2045-2057.

(81张海, 孟昌忠, 齐有强, 唐永永, 金翔霖, 陈星, 冷成彪. 2016. 黔西北云炉河坝铅锌矿集区成矿物质来源—SPb同位素制约.矿物学报, 36(2):271-276.

(82张颖,陈衍景,祁进平,冷成彪,赵成海.陕西旬阳公馆—青铜沟汞锑矿床地球化学研究.矿物学报,2010,v.3001:98-106.