北京大学考古学系商周组. 2000. 天马—曲村(1980~1989). 北京： 科学出版社.

曹玮. 2021. 汉中盆地商代早中期青铜器与盘龙城青铜器的对比研究. 江汉考古, . (3): 52~57.

常向阳, 朱炳泉, 金正耀. 2003. 殷商青铜器矿料来源与铅同位素示踪应用. 广州大学学报（自然科学版）, 2(4): 323~326.

崔剑锋, 佟伟华, 吴小红. 2012. 垣曲商城出土部分铜炼渣及铜器的铅同位素比值分析研究. 文物, (7): 80~84.

崔剑锋和吴小红. 2008. 铅同位素考古研究——以中国云南和越南出土青铜器为例. 北京: 文物出版社.

段渝. 2007. 三星堆文明与南方丝绸之路. 三星堆研究第二辑. 北京： 文物出版社.

段渝. 2009. 中国西南地区海贝和象牙的来源. 中国与周边国家关系研究. 见: 中国中外关系史学会会议论文集: 50~65.

韩炳华. 2010. 长治分水岭东周墓地. 北京： 文物出版社.

侯林. 2013. 滇中“东川群”Fe—Cu—Au—REE成矿系统研究——以武定迤纳厂矿床为例. 导师: 邓军. 北京: 中国地质大学（北京）博士学位论文.

湖北省文物考古研究所. 2001. 盘龙城： 1963~1994年考古发掘报告. 北京: 文物出版社.

黄从俊. 2019. 扬子地块西南缘拉拉IOCG矿床地质地球化学研究. 导师: 李泽琴. 成都: 成都理工大学博士学位论文.

江西省文物考古研究所, 江西省博物馆, 新干县博物馆. 1997. 新干商代大墓. 北京: 文物出版社.

金正耀, Chase, W. T. , 平尾良光, 彭适凡, 马渊久夫, 三轮嘉六, 詹开逊. 1994. 江西新干大洋洲商墓青铜器的铅同位素比值研究. 考古, 8(8): 744~747+735.

金正耀, 常向阳, 张擎, 唐飞. 2004. 成都金沙遗址铜器研究. 文物, (7): 76~88.

金正耀, 马源久夫, 三轮嘉六, 平尾良光, 赵殿增. 1995. 广汉三星堆遗物坑青铜器的铅同位素比值研究. 文物, (2): 80~85．

金正耀. 1990. 晚商中原青铜的矿料来源．见: 杜石然, 第三届中国科学史国际讨论会论文集, 北京: 科学出版社.

金正耀. 2004. 论商代青铜器中的高放射成因铅. 考古学集刊, (2): 269~278.

金正耀. 2008. 中国铅同位素考古. 合肥: 中国科学技术大学出版社.

黎海超. 2016. 长江中下游地区商周时期采矿遗址研究. 考古, (10), 81~91.

李延祥, 李丽辉, 董利军. 2015. 内蒙古林西县井沟子西区出土青铜器的铅同位素分析. 有色金属工程, 5(4): 94~96.

李延祥. 1993. 中条山古铜矿冶遗址初步考察研究. 文物季刊, (2): 64~67.

刘建宇. 2015. 陕北地区出土商周时期青铜器的科学分析研究——兼论商代晚期晋陕高原与安阳殷墟的文化联系. 导师: 梅建军. 北京: 北京科技大学博士学位论文.

刘睿良, 马克·波拉德, 杰西卡·罗森, 唐小佳, 张昌平. 2017. 共性、差异与解读: 运用牛津研究体系探究早商郑州与盘龙城之间的金属流通. 江汉考古, (3): 119~129.

马江波, 金正耀, 田建花, 陈德安. 2012. 三星堆铜器的合金成分和金相研究. 四川文物, (2): 90~96.

马克·波拉德, 彼得·布睿, 彼得·荷马, 徐幼刚, 刘睿良, 杰西卡·罗森. 2017. 牛津研究体系在中国古代青铜器研究中的应用. 考古, (1): 95~106.

彭子成, 刘永刚, 刘诗中, 华觉明. 1999. 赣鄂豫地区商代青铜器和部分铜铅矿料来源的初探. 自然科学史研究, 18(3): 241~249.

彭子成, 孙卫东, 黄允兰, 张龚, 刘诗中, 卢本珊. 1997. 赣鄂皖诸地古代矿料去向的初步研究. 考古, (7): 53~67.

邱登成. 2013. 从三星堆遗址考古发现看南方丝绸之路的开通古蜀三星堆文明. 中华文化论坛, (4): 37~44.

邵安定, 梅建军, 杨军昌, 陈坤龙, 孙伟刚. 2015. 秦始皇帝陵园出土青铜水禽的补缀工艺及相关问题初探考古, (S1), 96~104.

施劲松. 2020. 论三星堆—金沙文化. 考古与文物, (5): 65~72.

四川省地方志编纂委员会. 1998. 四川省志•地质志. 成都: 四川科学技术出版社.

四川省文物考古研究所. 1999. 三星堆祭祀坑. 北京: 文物出版社.

四川省文物考古研究院, 国家文物局考古研究中心, 北京大学考古文博学院考古年代学联合实验室. 2021. 四川广汉三星堆遗址四号祭祀坑的碳十四年代研究. 四川文物, (2): 116~120.

孙燕, 舒晓兰, 肖渊甫. 2006. 四川省拉拉铜矿床同位素地球化学特征及成矿意义. 地球化学, 35(5): 553~559.

田建花, 金正耀, 李瑞亮, 闫立峰, 崔建勇. 2012. 殷墟1004号王墓出土青铜胄研究. 汉江考古, 122(1): 92~99.

田建花. 2013. 郑州地区出土二里岗期铜器研究. 导师: 金正耀. 合肥: 中国科学技术大学博士学位论文.

万辅彬, 郭立新, 李晓岑, 张玉忠. 1998. 古夜郎国铜釜的铅同位素考证. 广西民族学院学报(自然科学版), 4(2): 53~56.

王奖臻, 李泽琴, 刘家军, 李朝阳. 2004. 拉拉铁氧化物—铜—金—钼—钴—稀土矿床辉钼矿的多型及标型特征. 地质找矿论丛, 19(2): 96~99.

王赕. 2013. 四川会理拉拉铁氧化物—铜—金—铀（IOCG）矿床稳定同位素地球化学研究. 导师: 李泽琴. 成都: 成都理工大学硕士学位论文.

卫阳丽. 2015. 新干大洋洲出土青器研究. 导师: 陈小三. 太原: 山西大学硕士学位论文.

魏国锋. 秦颍, 王昌燧, 李清临, 张爱兵, 宫希成. 2006. 古代青铜器基体与其锈蚀产物铅同位素对比研究. 中国科学技术大学学报, 36(7): 771~7774.

文娟, 凌雪, 赵丛苍, 张钟云, 姚政权, 宗春蕾, 袁洪林, 吴忠. 2013. 安徽六安地区东周楚国青铜器铅同位素特征的初步研究, 西北大学学报(自然科学版), 43(6), 1016~1020.

闻广. 1980a. 中国古代青铜与锡矿. 地质论评, 26(4): 331~340

闻广. 1980b. 中国古代青铜与锡矿(续). 地质论评, 26(5): 420~429.

徐文忻, 汪礼明, 李祷, 郭新生. 2005. 中条山铜矿床同位素地球化学研究. 地球学报, 26(增刊): 130~133.

杨菊. 2014. 赤峰地区青铜器时代晚期铜器的科学分析研究. 导师: 李延祥. 北京: 北京科技大学博士学位论文.

郁永彬, 陈建立, 梅建军, 陈坤龙, 常怀颖, 黄凤春. 2016. 关于叶家山青铜器铅同位素比值研究的几个问题. 南方文物, (1), 94~102.

郁永彬. 2015. 湖北随州叶家山墓地出土西周青铜器的科学分析研究. 导师: 梅建军. 北京: 北京科技大学博士学位论文.

张宏飞和高山. 2013. 地球化学. 北京: 地质出版社.

张吉和陈建立. 2017. 东周青铜器铅同位素比值的初步研究. 南方文物, (2), 94~102.

赵丛苍. 2006. 城洋青铜器. 北京: 科学出版社.

周清, 姜耀辉, 廖世勇, 赵鹏, 靳国栋, 刘铮, 贾儒雅, 徐深谋. 2013. Pb同位素对德兴铜矿成矿物源的制约, 地质学报, 87(8): 1124~1135.

朱炳泉和常向阳. 2002. 评“商代青铜器高放射性成因铅”的发现. 古代文明(辑刊), 1: 278~283.

朱利岗. 2019. 云南武定地区铁—铜—金—铀—稀土矿成矿作用与成矿动力学. 导师: 刘家军. 北京: 中国地质大学（北京）博士学位论文. .

朱志敏. 2001. 拉拉铁氧化物铜金矿: 成矿时代和金属来源. 导师: 郑荣才. 成都: 成都理工大学博士学位论文.

Bagley R. 1990, Shang ritual bronzes: casting technique and vessel design, Archives of Asian Art, 43: 6~20.

Begemann F, Kallas K, Schmitt-Strecker S. and Pernicka, E. 1999. Tracing ancient tin via isotope analyses. In: The Beginnings of Metallurgy. Der Anschnitt, Beiheft 9. Deutsches Bergbau-Museum. 277~284.

Brill R H. and Wampler J M. 1967. Isotope studies of ancient lead. American Journal of Archaeology, 71(1), 63~77.

Brügmann G, Berger D, Frank C, Marahrens J, Nessel B, Pernicka E. 2016. Tin isotope fingerprints of ore deposits and ancient bronze. In: The Tinworking Landscape of Dartmoor in a European Context. Papers presented at a conference in Trevistock, Devon, 6~11.

Cao Dazhi. 2007. The loess highland in a trading network (1300~1050BC). A Dissertation Submitted to Princeton University for Doctoral Degree.

Cao Wei. 2021&. The Early to Middle Shang Bronzes in Hanzhong Basin and the Panlongcheng Bronzes: A Comparative Study. Jianghan Archaeology, (3): 52~57.

Chang Xiangyang, Zhu Bingquan, Jin Zhengyao. 2003#. Source and application of lead isotope tracing in Yin and Shang bronzes. Journal of Guangzhou University (Natural Science Edition), 2(4): 323~326.

Chen Kunlong, Mei Jianjun, Rehren T, Liu Siran, Yang Wei, Martinón-Torres M, Zhao Congcang, Hirao Y, Chen Jianli, Liu Yu. 2019. Hanzhong bronzes and highly radiogenic lead in Shang period China, Journal of Archaeological Science, 101: 131~139.

Compilation Committee of Sichuan annals. 1998#. Annals of Sichuan Province: Geological record. Chengdu: Sichuan Science and Technology Press.

Cui Jianfeng and Wu Xiaohong. 2008#. Archaeological study of lead isotope: A case study of bronze wares unearthed in Yunnan and Vietnam. Beijing: Cultural Relics Press.

Cui Jianfeng, Tong Weihua, Wu Xiaohong. 2012#. Analysis of Pb isotope ratio of some excavated copper slag and copper ware from Yuanqu Mall. Cultural Relics, (7): 80~84.

Cui Jianfeng. and Wu Xiaohong. 2011. An experimental investigation on lead isotopic fractionation during metallurgical processes. Archaeometry, 53(1): 205~214.

Duan Yu. 2007#. Sanxingdui Civilization and the Southern Silk Road. Sanxingdui Research Series II. Beijing: Cultural Relics Press.

Duan Yu. 2009#. Source of sea shells and ivory in southwest China. Studies on relations between China and neighboring countries. In: Proceedings of the Conference of the Chinese Society for the History of Sino—Foreign Relations, 50~65.

Fan Xiaopan, Mu Di, Yi Jun, Wang Hongmin. and Luo Wugan. 2016. Sourcing copper ores for production of bronzes excavated at Shuangyantang, a Western Zhou (1046~771 bc) site in Chongqing (Southwest China): evidence from lead isotope analysis. Archaeological and Anthropological Sciences, 8(1), 197~204.

Gale N H. and Stos G Z. 2000. Lead isotope analyses applied to provenance studies. In: Ciliberto E. and Apot G. eds, Moderm analytical methods in art and archaeology, 525~528.

Gale N H. and Stos-Gale Z A. 1982. Bronze Age copper sources in the Mediterranean: a new approach. Science, 216(4541): 11~19.

Han Binghua. 2010#. East Zhou cemetery of Changzhi Watershed. Beijing: Cultural Relics Press.

Hou Lin. 2013&. Proterozoic Fe—Cu—Au—REE metallogenic system of “Dongchuan” Group in central Yunnan province——A case study on the Yinachang deposit. Supervisor: Deng Jun. Beijing: A Dissertation Submitted to China University of Geosciences for Doctoral Degree.

Hsu Y K. and Sabatini B J. 2019. A geochemical characterization of lead ores in China: An isotope database for provenancing archaeological materials. PLoS One, 14(4): e0215973. doi: 10. 1371/journal. pone. 0215973.

Huang Congjun. 2019&. Geology and Geochemistry Study on the Lala IOCG Deposit, Southwestern Margin of Yangtze Block. Supervisor: Li Zeqin. Chengdu: A Dissertation Submitted to Chengdu University of Technology for Doctoral Degree.

Hubei Institute of Cultural Relics and Archaeology. 2001#. Pan Lung Cheng: Report of archaeological excavations 1963~1994. Beijing: Cultural Relics Press.

Institute of Archaeology of Sichuan Province. 1999#. Excavation of the Sacrificial Pitsof Sanxingdui. Beijing: Cultural Relics Publishing House.

Jiangxi Provincial Institute of Cultural Relics and Archaeology, Jiangxi Provincial Museum, Xingan County Museum. 1997#. Xingan Shang Dynasty tomb. Cultural Relics Press.

Jin Zhengyao, Chang Xiangyang, Zhang Qin, Tang Fei. 2004#. A study on the bronze ware of Jinsha Site in Chengdu. Cultural Relics, (7): 76~88.

Jin Zhengyao, Chase, W. T. , Pingwei liangguang, Peng Shifan, Mayuan Jiufu, Sanlun Jialiu, Zhan Kaixun. 1994#. Study on Pb isotope ratio of bronzes of Xingan Oceanian Shang Tomb in Jiangxi Province. Archaeology, 8(8): 744~747+735.

Jin Zhengyao, Liu Ruiliang, Rawson J, Pollard A M. 2017. Revisiting lead isotope data in Shang and Western Zhou bronzes. Antiquity, 91(360): 1574~1587.

Jin Zhengyao, Mayuan Jiufu, Sanlun Jialiu, Pingwei Liangguang, Zhao Dianzeng. 1995#. Study on Pb isotope ratio of bronzes in Sanxingdui Relic Pit of Guanghan. Cultural Relics, (2): 80~85．

Jin Zhengyao, Zheng G, Hirao Y. and Hayakawa Y. 2001. 初期中國青銅器の鉛同位素比, In Hirao Y, Enomoto J. and Takahama H. eds. , 古代東アジア青銅の流通. 鶴山堂, Tyoko.

Jin Zhengyao. 1990#. Mineral sources of bronze in the Central Plains of Late Shang Dynasty．In: Du Shiran, Proceedings of the Third International Symposium on the History of Chinese Science, Science Press: Beijing.

Jin Zhengyao. 2004#. On the high radioactive lead in the bronze ware of Shang Dynasty. Archaeological collection, 2004, (2): 269~278.

Jin Zhengyao. 2008#. Archaeology of lead isotopes in China. Hefei: University of Science and Technology of China Press.

Killick D J, Stephens J A, Fenn T R. 2020. Geological constraints on the use of lead isotopes for provenance in archaeometallurgy. Archaeometry, 62: 86~105.

Leach D L, Sangster D F, Kelley K D, Large R R, Garven G, Allen C R, Gutzmer J, Walters S. 2005. Sediment-hosted lead—zinc deposits: A global perspective. Economic Geology 100th Anniversary Volume: 561–607.

Li Haichao. 2016&. Study on mining sites of Shang and Zhou Dynasties in the middle and lower reaches of Yangtze River. Archaeology, (10), 81~91.

Li Yanxiang, Li Lihui, Dong Lijun. 2015&. Lead Isotope Analysis of Bronze from West Cemetery of Jinggouzi Site of Linxi of Inner Mongolia. Nonferrous Metals Engineering, 5(4): 94~96.

Li Yanxiang. 1993#. Preliminary investigation and research on ancient copper mining and smelting sites in Zhongtiao Mountain. Journal of Chinese Antiquity, (2): 64~67.

Liu Jianyu. 2015&. Scientific Study on the Shang and Zhou Periods Bronzes unearthed from Northern Shaanxi: Cultural connections between loess highland and Anyang in the late Shang dynasty. Supervisor: Mei Jianjun. A Dissertation Submitted to University of Science and Technology Beijing for Doctoral Degree. .

Liu Ruiliang, Mark Pollard, Jessica Rosen, Tang Xiaojia, Zhang Changping. 2017&. Commonality, Difference and Interpretation: Using the Oxford research system to explore the metal circulation between the early trading Zhengzhou and Panlong City. Jianghan archaeology, (3): 119~129.

Liu Ruiliang, Pollard A M, Lv Feiya, Huan Limin, Zhang Shanjia, Ma Minmin. 2021. Two Sides of the Same Coin: A Combination of Archaeometallurgy and Environmental Archaeology to Re-Examine the Hypothesis of Yunnan as the Source of Highly Radiogenic Lead in Early Dynastic China. Frontiers in Earth Science, doi: 10. 3389/feart. 2021. 662172.

Liu Ruiliang, Rawson J, Pollard A M. 2018. Beyond ritual bronzes: identifying multiple sources of highly radiogenic lead across Chinese history. Scientific Reports, 8(1): 1~7.

Liu Ruiliang. 2016. Capturing changes: applying the Oxford system to further understand the movement of metal in Shang China. A Dissertation Submitted to University of Oxford for Doctoral Degree.

Liu Ruiliang. , Pollard A M, Rawson J, Tang Xiaojia, Bray P, Zhang, Changping. 2019. Panlongcheng, Zhengzhou and the movement of metal in early bronze age china. Journal of World Prehistory, 32(4): 393~428.

Liu S, Chen K L, Rehren T, Mei J J, Chen J L, Liu Y, Killick D. 2018. Did China import metals from Africa in the Bronze Age?. Archaeometry, 60(1): 105~117.

Liu Xuan, Yang Kuifeng, Rusk B, Qiu Zhengjie, Hu Fangfang, Pironon J. 2019. Copper Sulfide Remobilization and Mineralization during Paleoproterozoic Retrograde Metamorphism in the Tongkuangyu Copper Deposit, North China Craton. Minerals, 9(7): 443

Ma Jiangbo, Jin Zhengyao, Tian Jianhua, Chen Dean. 2012#. Study on alloy composition and metallography of Sanxingdui Copper Ware. Sichuan Cultural Relics, (2): 90~96.

Mark Pollard, Peter Bry, Peter Homer, Xu Yougang, Liu Ruiliang, Jessica Rosen. 2017&. The application of Oxford Research System in the study of ancient Chinese bronzes. Archaeology, (1): 95~106.

McGill R A R, Budd P, Scaife B, Lythgoe P, Pollard A M, Haggerty R. and Young S M M. 1999. The investigation and archaeological applications of anthropogenic heavy metal isotope fractionation. BAR INTERNATIONAL SERIES, 792: 258~261.

Melheim L, Grandin L, Persson P O, Billström K, Stos-Gale Z, Ling J, Williams A, Angelini I, Canovaro C, Hjärthner-Holdar C, Kristiansen K. 2018. Moving metals III: Possible origins for copper in Bronze Age Denmark based on lead isotopes and geochemistry. Journal of Archaeological Science, 96: 85~105.

Mu Di, Song Guoding, Cui Benxin, Wang Hongmin, Wang Wei, Luo Wugan. 2014. Provenance study on Chinese bronze artefacts of E in the Zhou Dynasty by lead isotope analysis. Journal of Archaeological Science, 52: 515~523.

Peng Zicheng, Liu Yonggang, Liu Taizhong, Hua Jueming. 1999#. A Preliminary study on the sources of Shang Bronzes and some copper and lead minerals in Jiangxi—Hubei—Henan area. Studies in the History of Natural Science, 18(3): 241~249.

Peng Zicheng, Sun Weidong, Huang Yunlan, Zhang Gong, Liu Shizhong, Lu Benshan. 1997#. A preliminary study on the ancient mineral whereabouts in Jiangxi—Hubei—Anhui areas. Archaeology, (7): 53~67.

Pollard A M, Bray P, Hommel P, Hsu Y K, Liu Ruiliang, Rawson J. 2017. Bronze Age metal circulation in China. Antiquity, 91(357): 674~687.

Pollard A M, Bray P, Hommel P, Hsu Y K, Liu Ruiliang, Rawson J. 2017. Bronze age metal circulation in china. Antiquity, 91(357): 674~687.

Pollard A M. and Bray P J. 2014. A New Method for Combining Lead Isotope and Lead Abundance Data to Characterize Archaeological Copper Alloys. Archaeometry, 57(6): 996~1008.

Powell W, Mathur R, Bankoff H A, Mason A, Bulatovic A, Filipovic V, Godfrey L. 2017. Digging deeper: insights into metallurgical transitions in European prehistory through copper isotopes. Journal of Archaeological Science, 88: 37~46.

Qiu Dengcheng. 2013#. The ancient Shu Sanxingdui Civilization: The opening of the Silk Road in the South from the archaeological discovery of Sanxingdui Site. Chinese Culture Forum, (4): 37~44.

Shangzhou Formation, Department of Archaeology, Peking University. 2000#. Tianma—Qu Village (1980~1989). Beijing: Science Press.

Shao Anding, Mei Jianjun, Yang Junchang, Chen Kunlong, Sun Weigang. 2015&. Preliminary study on the repairing technology and related problems of bronze waterfowl unearthed in the mausoleum of Qin Shi Emperor Archaeology, (S1), 96~104.

Shi Jinsong. 2020&. On Sanxingdui—Jinsha Culture. Archaeology and Antiquities, (5): 65~72.

Sichuan Institute of Cultural Relics and Archaeology, National Centre for Archaeology, Joint Joint Laboratory of Archaeochronology, School of Archaeology and Museology, Peking University. 2021&. 14C dating of the fourth sacrificial pit at Sanxingdui Site, Guanghan, Sichuan. Sichuan Cultural Relics, (2): 116~120.

Sun Weidong, Zhang Lipeng, Guo Jia, Li Congying, Jiang Yuhang, Zartman R E, Zhang Zhaofeng. 2016. Origin of the mysterious Yin—Shang bronzes in China indicated by lead isotopes. Scientific Reports, 6(1): 1~9.

Sun Weidong, Zhang Lipeng, Guo Jia, Li Congying, Jiang Yuhang, Zhang Zhaofeng. 2018. Comment on ‘Did China Import Metals from Africa in the Bronze Age?’. Archaeometry, 60(5): 1036~1039.

Sun Yan, Shu Xiaolan, Xiao Yuanfu. 2006&. Isotopic geochemistry of the Lala copper deposit, Sichuan Province, China and its metallogenetic significance. GEOCHIMICA, 35(5): 553~559.

Tian Jianhua, Jin Zhengyao, Li Ruiliang, Yan Lifeng, Cui Jianyong. 2012&. An Elemental and Lead-isotopic Study on Bronze Helmets from Royal Tomb No. 1004 in Yin Ruins. Jianghan Archaeology, (1): 92~99.

Tian Jianhua. 2013&. Study on Erligang Period bronze ware unearthed in Zhengzhou area. Supervisor: Jin Zhengyao. Hefei: A Dissertation Submitted to University of Science and Technology of China for Doctoral Degree.

Wan Fubin, Guo Lixin, Li Xiaocen, Zhang Yuzhong. 1998#. Investigation of lead isotope in Ancient Yelang copper Kettle. Journal of Guangxi University for Nationalities (Natural Science Edition), 4(2): 53~56.

Wang Dan. 2013&. Stable isotope geochemistry research of LaLa Iron Oxide—Cu—Au—U (IOCG)Deposit. Supervisor: Li Zeqin. Chengdu: A Dissertation Submitted to Chengdu University of Technology for Master's Degree.

Wang Jiangzhen, Li Zeqin, Liu Jiajun, Li Chaoyang. 2004&. Multitype and typomorphic characteristics of Molybdenite in Lala iron oxide—Cu—Au—Mo—Co—rare earth deposit. Collection of geological prospecting papers, 19(2): 96~99.

Wang Xiaoting, Luo Wugan, Yang Yingdong, Chen Dian, Du Jing, Tang Xiang. 2020. Preliminary Discussion on the Highly Radiogenic Lead in Unalloyed Copper Artifacts of the Eastern Zhou Dynasty: Starting from the Huili Copper Spearheads. Metals, 10(9): 1252.

Wang Yanjie, Wei Guofeng, Li Qiang, Zheng Xiaoping, Wang Duanchun. 2021. Provenance of Zhou Dynasty bronze vessels unearthed from Zongyang County, Anhui Province, China: determined by lead isotopes and trace elements. Heritage Science, 9(1): 1~12.

Wei Guofeng, Qin Yi, Wang Changsui, Li Qinglin, Zhang Aibing, Gong Xicheng. 2006&. Comparative studies on Pb isotope ratios of corrosion rinds and metal cores of bronze vessels. Journal of University of Science and Technology of China, 36(7): 771~774.

Wei Yangli. 2015&. The study on bronzes in Dayangzhou town, Xingan county. Supervisor: Chen Xiaosan. Taiyuan: A Dissertation Submitted to Shanxi University for Master's Degree.

Wen Guang. 1880b#. Ancient Chinese bronze and tin mines (continued). Geological Review, 26(5): 420~429.

Wen Guang. 1980a#. Ancient Chinese bronze and tin mines. Geological Review, 26(4): 331~340.

Wen Juan, ling Xue, Zhao Congcang, Zhang Zhongyun, Yao Zhengquan, Zong Chunlei, Yuan Honglin, Wu Zhong. 2013&. Primary analysis on lead isotope characteristics in Chu State bronzes in East-Zhou period unearthed from Liu'an District, Anhui Province, Journal of Northwest University (Natural Science Edition), 43(6), 1016~1020.

Wilkinson J J. 2014. Sediment-Hosted Zinc–Lead Mineralization: Processes and Perspectives: Treatise on geochemistry, second edition. Oxford, Elsevier, 425~432.

Xu Wenxin, Wang Mingli, Li Heng, Guo Xinsheng. 2005&. Isotope Geochemistry of Copper Deposits in the Zhongtiao Mountain. Acta Geologica Sinica, 26(Supplement): 130~133.

Yang Jv. 2014&. Scientific Study on the Late Bronze Age Bronzes from Chifeng Region. Supervisor: Li Yanxiang. Beijing: A Dissertation Submitted to University of Science and Technology Beijing for Doctoral Degree.

Ying Qin, Wei Guofeng, Huang Qiao. 2020. The provenance of Yin—Shang bronzes with highly radiogenic lead isotopes. Archaeological and Anthropological Sciences, 12: 99.

Yu Yongbin, Chen Jianli, Mei Jianjun, Chen Kunlong, Chang Huaiying, Huang Fengchun. 2016&. Some problems on the study of Pb isotope ratio in Yejiashan Bronzes. Southern Cultural Relics, (1), 94~102.

Yu Yongbin. 2015&. Scientific Study on the Bronzes Unearthed from the Western Zhou Dynasty Cemetery of Yejiashan, Suizhou County, Hubei Province. Supervisor: Mei Jianjun. A Dissertation Submitted to University of Science and Technology Beijing for Doctoral Degree.

Zhang Hongfei. and Gao Shan. 2013#. Geochemistry. Geological Publishing House, Beijing.

Zhang Ji and Chen Jianli. 2017&. Preliminary study on Pb isotope ratio of bronzes in Eastern Zhou Dynasty. Southern Cultural Relics, (2), 94~102.

Zhangsun Y Z, Jin Z Y, Feng F Z, Tian J H, Wang H G, Zhao C C, Huang F, Wu X T. 2021. Revisiting the lead isotopic compositions of the Shang bronzes at Hanzhong and the new hypothesis of Qinling as the source of highly radiogenic lead. Archaeometry, 63: 122~141.

Zhangsun Y Z, Liu R, Jin Z Y, Pollard A M, Lu X, Bray P, Fan A C. and Huang F. 2017. Lead Isotope Analyses Revealed the Key Role of Chang'an in the Mirror Production and Distribution Network During the Han Dynasty. Archaeometry, 59(4): 685~713.

Zhao Congcang. 2006#. Chengyang Bronze Ware. Beijing: Science Press.

Zhou Qing, Jiang Yaohui, Liao Shiyong, Zhao Peng, Jin Guodong, Liu Zheng, Jia Ruya, Xu Shenmou. 2013&. Constraint of Pb Isotope on Ore-forming Source Origin of the Dexing Copper Deposit, Acta Geologica Sinica, 87(8): 1124~1135.

Zhu Bingquan and Chang Xiangyang. 2002&. Comment on the discovery of "Lead of high radioactive origin in Shang Bronzes". Ancient Civilizations (Catalogue), 1: 278~283.

Zhu Ligang, Liu Jiajun, Bagas L, Zhai Degao, Meng Guangzhi, Verrallg M. 2020. New insights into the genesis of IOCG deposits: From a case study of the Yinachang deposit in SW China. Ore Geology Reviews, 124: 103664.

Zhu Ligang. 2019&. The ore genesis and geodynamic setting of the Fe—Cu—Au—U—REE deposits in the Wuding region, Yunnan Province, SW China. Supervisor: Jiu Jiajun. Beijing: A Dissertation Submitted to China University of Geosciences for Doctoral Degree

Zhu Zhimin. 2001&. Lala Iron Oxide Copper Gold Deposit: Metallogenic Epoch and Metal Sources. Supervisor: Zheng Rongcai. Chengdu: A Dissertation Submitted to Chengdu University of Technology for Doctoral Degree.