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黄金科学技术 ›› 2024, Vol. 32 ›› Issue (2): 207-219.doi: 10.11872/j.issn.1005-2518.2024.02.149

• 矿产勘查与资源评价 • 上一篇    下一篇

胶东西岭金矿床黄铁矿热电性特征及深部找矿意义

俞炳1,2,3,4(),丁正江1(),陈伟军5,李肖6,刘彩杰1,薛建玲3,4,曾庆栋7,8,范宏瑞7,8,吴金检7,8,张琪彬1   

  1. 1.山东省地质矿产勘查开发局第六地质大队,深部金矿探测大数据应用开发山东省工程研究中心,山东 威海 264209
    2.西北大学大陆动力学国家重点实验室,陕西 西安 710069
    3.中国地质调查局发展研究中心,北京 100037
    4.自然资源部矿产勘查技术指导中心,北京 100037
    5.中国冶金地质总局矿产资源研究院,北京 101300
    6.山东黄金地质矿产勘查有限公司,山东 莱州 261400
    7.中国科学院地质与地球物理研究所,矿产资源研究重点实验室,北京 100029
    8.中国科学院大学地球与行星科学学院,北京 100049
  • 收稿日期:2023-11-02 修回日期:2024-01-26 出版日期:2024-04-30 发布日期:2024-05-21
  • 通讯作者: 丁正江 E-mail:yubing15@mails.ucas.ac.cn;ytdzhj@126.com
  • 作者简介:俞炳(1993-),男,浙江嵊州人,博士后,工程师,从事找矿预测研究工作。yubing15@mails.ucas.ac.cn
  • 基金资助:
    深部金矿探测大数据应用开发山东省工程研究中心开放课题基金项目“胶东西岭金矿床地质—地球化学建模及深部找矿预测”(SDK202217);西北大学大陆动力学国家重点实验室开放课题基金项目“胶东金矿床成矿流体演化及末端效应:以西岭金矿床为例”(22LCD18);中国地质调查局项目“重要矿山深部找矿预测与勘查示范”(DD20230355)

Thermoelectric Characteristics of Pyrite from the Xiling Gold Deposit in Jiaodong Peninsula and Its Implications for Deep Prospecting

Bing YU1,2,3,4(),Zhengjiang DING1(),Weijun CHEN5,Xiao LI6,Caijie LIU1,Jianling XUE3,4,Qingdong ZENG7,8,Hongrui FAN7,8,Jinjian WU7,8,Qibin ZHANG1   

  1. 1.Shandong Engineering Research Center of Application and Development of Big Data for Deep Gold Exploration, No. 6 Geological Team of Shandong Provincial Bureau of Geology and Mineral Resources, Weihai 264209, Shandong, China
    2.State Key Laboratory of Continental Dynamics, Northwest University, Xi’an 710069, Shaanxi, China
    3.Development and Research Center, China Geological Survey, Beijing 100037, China
    4.Mineral Exploration Technical Guidance Center, Ministry of Natural Resources, Beijing 100037, China
    5.Institute of Mineral Resources Research, China Metallurgical Geology Bureau, Beijing 101300, China
    6.Shandong Gold Geology and Mineral Exploration Co. , Ltd. , Laizhou 261400, Shandong, China
    7.Key Laboratory of Mineral Resources, Institute of Geology and Geophysics, Chinese Academy of Sciences, Beijing 100029, China
    8.College of Earth and Planetary Sciences, University of Chinese Academy of Sciences, Beijing 100049, China
  • Received:2023-11-02 Revised:2024-01-26 Online:2024-04-30 Published:2024-05-21
  • Contact: Zhengjiang DING E-mail:yubing15@mails.ucas.ac.cn;ytdzhj@126.com

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摘要:

西岭金矿床位于三山岛金矿床东侧,是当前胶东金矿集区内新发现的单一矿体规模最大、埋藏最深的金矿床。在地质观察的基础上,开展了不同深度的黄铁矿热电性特征研究。结果表明:西岭金矿床黄铁矿热电系数离散范围和离散度整体较大且相对稳定;浅部黄铁矿热电导型均为N型,而深部均为P型;成矿温度主要集中在250~360 ℃之间,属中—高温热液型金矿床;计算得出黄铁矿热电导型变化梯度值较小,并估算出矿体剥蚀率约为75%。综合黄铁矿各类热电性特征参数,认为西岭金矿床深部仍有较大的找矿前景,矿体最大埋深可达-3 000 m标高。已知金矿体具有向NE侧伏的规律,认为沿着NE侧伏方向至-3 000 m标高处是有效的深部找矿靶区位置。西岭金矿床黄铁矿热电性特征研究可为胶东地区金矿床的深部找矿预测提供科学依据。

关键词: 黄铁矿, 热电性, 成矿潜力, 深部找矿, 西岭金矿床, 胶东半岛

Abstract:

The Xiling gold deposit,located on the east side of the Sanshandao gold deposit,is currently the largest gold deposit and deepest gold deposit newly discovered in the Jiaodong gold concentration area.Based on the geological observations,the thermoelectric characteristics of pyrite with different depths(-699 m,-1 190 m,-1 602 m,-2 274 m,and -2 615 m below sea level) in the Xiling gold deposit were analyzed.The results show that the dispersion range and degree(14.59~46.72) of pyrite thermoelectric coefficient in the Xiling gold deposit are generally wide and relatively steady.The thermoelectric conductive type of pyrite at the shallow elevations,such as the -699 m and -1 190 m below sea level,is N-type,while that of pyrite at the deep elevations(-2 615 m below sea level) is P-type.The ore-forming temperatures are mainly concentrated at 250~360 ℃,which is generally consistent with the homogenization temperatures of quartz fluid inclusions,thus belongs to a medium-high temperature hydrothermal gold deposit.The calculated gradient value(0.00~0.29) of the thermo-electric conductive type of pyrite is small,and the estimated denudation rate of the orebody is 75%.Combined with the various parameters of the thermoelectric characteristics of pyrite,it is considered that there is a great potential for exploration in the deep part of the Xiling gold deposit,and the metallogenic depth can reach to -3 000 m below sea level. According to the known regularity of lateral prostration that gold orebodies plunge NE,it is proposed that the potential deep gold orebodies plunge NE to the -3 000 m below sea level is an effective location for deep exploration targets.Through the study of the thermoelectric properties of pyrite in the Xiling gold deposit,it can provide a scientific basis for the deep exploration and prediction of many gold deposits in the Jiaodong gold concentration area.

Key words: pyrite, thermoelectricity, metallogenic potential, deep prospecting, Xiling gold deposit, Jiaodong Peninsula

中图分类号: 

  • P578.292

图1

胶东金矿集区区域地质和主要金矿床分布图(修改自Fan et al.,2003)1.第四系沉积物;2.超高压变质岩;3.元古宙变质岩;4.太古宙变质岩(胶东群);5.早白垩世火山岩;6.早白垩世艾山花岗岩类;7.早白垩世郭家岭花岗闪长岩;8.晚侏罗世玲珑花岗岩类;9.晚三叠世花岗岩类;10.断裂;11.蚀变岩型金矿;12.石英脉型金矿"

图2

西岭金矿床地质简图(修改自孙之夫等,2022)1.第四系沉积物;2.古元古代变质岩(荆山群);3.太古宙代变质岩(胶东群);4.早白垩世花岗闪长岩(郭家岭);5.晚侏罗世黑云母花岗岩(玲珑);6.蚀变岩型金矿体;7.断裂;8.海水"

图3

西岭金矿床主要金矿体纵投影图(修改自孙之夫等,2022)1.金矿体;2.推测金矿体位置;3.勘探线;4.采样位置"

图4

西岭金矿床矿石手标本照片(a)、(b)破碎蚀变岩型矿石;(c)围岩硅化蚀变;(d)围岩硅化和绢云母化蚀变"

图5

西岭金矿床矿物组合显微照片(a)围岩绢英岩化蚀变;(b)围岩硅化蚀变;(c)包体金赋存在黄铁矿颗粒中;(d)裂隙金沿着黄铁矿裂隙生长;Au-金;Kfs-钾长石;Py-黄铁矿;Qtz-石英;Ser-绢云母"

表1

西岭金矿床不同深度黄铁矿热电性特征"

标高/m样品编号测试总数(n热电导型热电系数/(μV·℃-1频率/%标准差离散度
最大值最小值平均值
-699-699X1~-699X979N-118.01-258.78-200.1710042.3321.15
-1 190-1190X1~-1190X47404N-30.41-200.22-130.8010034.6426.49
-1 602-1602X1~-1602X31266N-9.08-210.19-99.9910046.7146.72
-2 274-2274X1~-2274X38320N-52.27-214.90-132.3910042.0631.77
-2 615-2615X1~-2615X650P63.7632.9547.431006.9214.59

图6

西岭金矿床不同深度黄铁矿热电系数离散性"

图7

西岭金矿床不同深度黄铁矿热电系数分布直方图"

表2

西岭金矿床不同深度黄铁矿补偿热电系数(Xnp)及矿体剥蚀率(γ)"

标高/m测试总数/个各热电系数范围下(μV/℃)的样品数/个ffffXnpγ
>+400200~400-200~0<-200
-69979--3544--44.355.7-155.788.9
-1 190404--4031--99.80.2-100.275.1
-1 602266--2642--99.20.8-100.875.2
-2 274320--30020--93.86.2-106.376.6
-2 61550--------050.0

图8

三山岛金成矿带主要金矿体群分布纵投影图(修改自宋明春等,2015)"

Андреев Б С,1992.Пирит Золоторудных Месторождений[M].Москва:Изд.Наука.
Chen Guangjun, Sun Fengyue, Li Yuchun,et al,2014.U-Pb dating,geochemical characteristics and geological significance of Guojialing grandiorite in Jiaodong Peninsula[J].Global Geology,33(1):39-47.
Chen Guangyuan, Shao Wei, Sun Daisheng,1989.Genetic Mineralogy and Prospecting of Jiaodong Gold Deposit[M].Chongqing:Chongqing Publishing House.
Chen Guangyuan, Sun Daisheng, Shao Wei,1993.Mineralogy of Guojialing Granodiorite and Its Relationship to Gold Mineralization in the Jiaodong Peninsula[M].Beijing:Chinese University of Geosciences Press.
Chu Hang, Lu Songnian, Wang Huichu,et al,2011.U-Pb age spectrum of detrital zircons from the Fuzikuang Formation,Penglai Group in Changdao,Shandong Province[J].Acta Petrologica Sinica,27(4):1017-1028.
Cook N J, Ciobanu C L, Mao J,2009.Textural control on gold distribution in As-free pyrite from the Dongping,Huangtuliang and Hougou gold deposits,North China Craton (Hebei Province,China)[J].Chemical Geology,264:101-121.
Deng J, Qiu K F, Wang Q F,et al,2020.In situ dating of hydrothermal monazite and implications for the geodynamic controls on ore formation in the Jiaodong gold province,Eastern China[J].Economic Geology,115(3):671-685.
Deng J, Yang L Q, Li R H,et al,2019.Regional structural control on the distribution of world-class gold deposits:An overview from the giant Jiaodong gold province,China[J].Geological Journal,54:378-391.
Deng Jun, Chen Yumin, Liu Qin,et al,2010.The Gold Metallogenic System and Mineral Resources Exploration of Sanshandao Fault Zone,Shandong Province[M].Beijing:Geological Publishing House.
Deng Jun, Xu Shouli, Fang Yun,et al,1996.Tectonic System and Metallogenic Dynamics in Northwestern Jiaodong[M].Bei-jing:Geological Publishing House.
Dong Juan, Li Chenglu,2021.Thermoelectric characteristics of pyrite from Yongxin gold deposit,Xing’an Great Range and its indicative significance[J].Journal of Jilin University (Earth Science Edition),51(1):95-106.
Fan H R, Zhai M G, Xie Y H,et al,2003.Ore-forming fluids associated with granite-hosted gold mineralization at the Sanshandao deposit,Jiaodong gold province,China[J].Mineralium Deposita,38:739-750.
Fan Hongrui, Feng Kai, Li Xinghui,et al,2016.Mesozoic gold mineralization in the Jiaodong and Korean peninsulas[J].Acta Petrologica Sinica,32(10):3225-3238.
Fan Hongrui, Li Xinghui, Zuo Yabin,et al,2018.In-situ LA-(MC)-ICP MS and (Nano)SIMS trace elements and sulfur isotope analyses on sulfides and application to confine metallogenic process of ore deposit[J].Acta Petrologica Sinica,34(12):3479-3496.
Goldfarb R J, Groves D I, Gardoll S,2001.Orogenic gold and geologic time:A global synthesis[J].Ore Geology Revie-ws,18:1-75.
Goss S C, Wilde S A, Wu F,et al,2010.The age,isotopic signature and significance of the youngest Mesozoic granitoids in the Jiaodong Terrane,Shandong Province,North China Craton[J].Lithos,120:309-326.
Li Kaiyue, Tang Haoshu, Chen Yanjing,et al,2020.Carbon and oxygen isotope geochemistry of marbles in the Jingshan Group,Jiaobei Terrane and its indication to the Lomagundi-Jatuli Event[J].Acta Petrologica Sinica,36(4):1059-1075.
Li Shengrong, Chen Guangyuan, Shao Wei,et al,1996.Genetic Mineralogy in Rushan Gold Mines,Jiaodong Region[M].Beijing:Geological Publishing House.
Li Xiuzhang, Wang Ligong, Li Yixin,et al,2022.Geochemistry,zircon U-Pb chronology and Lu-Hf isotope characteristics of monzogranites from Aishan Pluton in Jiaodong Peninsula[J].Geoscience,36(1):333-346.
Liu Huanan, Liu Jiajun, Li Xiaowei,et al,2018.Thermoelectric characteristics of pyrite from the Xindigou gold deposit in Inner Mongolia and its significance on deep prospecting[J].Geology in China,45(4):819-838.
Liu Shipeng, Wang Shuya, Feng Xinxin,et al,2019.Intergrated geophysical constraint to the NW-trending fault zone in the Xiling gold deposit,Sanshandao,Shandong Province[J].Gold Science and Technology,27(1):25-32.
Miao Laicheng, Luo Zhenkuan, Guan Kang,et al,1998.The implication of the SHRIMP U-Pb age in zircon to the petrogenesis of the Linglong granite,east Shangdong Province[J].Acta Petrologica Sinica,14(2):198-206.
Peng H W, Fan H R, Liu X,et al,2021.New insights into the control of visible gold fineness and deposition:A case study of the Sanshandao gold deposit,Jiaodong,China[J].American Mineralogist,106:135-149.
Min Qing, Han Xianju, Zhang Lejun,et al,2018.Trace element characteristics of pyrites from the Jinchang gold deposit in Heilongjiang Province,China and its geological significance[J].Bulletin of Mineralogy,Petrology and Geochemistry,37(2):229-241,371.
Quan Zhigao,1995.A study on thermoelectricity of gold-bearing pyrite in Pangjiahe and Zuojiazhuang deposits[J].Mineral Resources and Geology,9(6):509-513.
Reich M, Deditius A, Chryssoulis S,et al,2013.Pyrite as a record of hydrothermal fluid evolution in a porphyry copper system:A SIMS/EMPA trace element study[J].Geochimica et Cosmochimica Acta,104:42-62.
Shao Jielian,1988.Exploration Mineralogy of Gold Deposits[M].Wuhan:China University of Geosciences Press.
Shao Wei, Chen Guangyuan, Sun Daisheng,1990.Method of investigating thermoelectericity of pyrite and its application to pyrites from gold deposits in Jiaodong region[J].Geoscience,4(1):46-57.
Shao Xuewei, Peng Yongming, Wang Gongwen,et al,2021.Application of SWIR,XRF and thermoelectricity analysis of pyrite in deep prospecting in the Xincheng gold orefield,Jiaodong Peninsula[J].Earth Science Frontiers,28(3):236-251.
Shen Junfeng, Li Shengrong, Ma Guanggang,et al,2013.Typomorphic characteristics of pyrite from the Linglong gold deposit:Its vertical variation and prospecting significance[J].Earth Science Frontiers,20(3):55-75.
Song Huanbin, Han Runsheng, Qi Bin,1989.Typomorphic characteristics and its significance of pyrite from the Daping gold deposit,Yuanyang[J].Yunnan Geology,8(3):249-255.
Song Mingchun, Zhang Junjin, Zhang Pijian,et al,2015.Discovery and tectonic-magmatic background of superlarge gold deposit in offshore of northern Sanshandao,Shandong Peninsula,China[J].Acta Geologica Sinica,89(2):365-383.
Sun Zhifu, Feng Tao, Hu Yueliang,et al,2022.Geological characteristics and occurrence of gold in the Xiling gold deposit,Jiaodong Peninsula[J].Geology and Exploration,58(1):24-36.
Wang G, Feng Y, Carranza E J M,et al,2016.Typomorphic characteristics of pyrite:Criteria for 3D exploration targeting in the Xishan gold deposit,China[J].Journal of Geochemical Exploration,164:136-163.
Wang L G, Qiu Y M, Mcnaughton N J,et al,1998.Constraints on crustal evolution and gold metallogeny in the Northwestern Jiaodong Peninsula,China,from SHRIMP U-Pb zircon studies of granitoids[J].Ore Geology Reviews,13:275-291.
Wen B J, Fan H R, Hu F F,et al,2016.Fluid evolution and ore genesis of the giant Sanshandao gold deposit,Jiaodong gold province,China:Constrains from geology,fluid inclusions and H-O-S-He-Ar isotopic compositions[J].Journal of Geochemical Exploration,171:96-112.
Wen Jiawei, Shi Pengliang, Liu Yanbing,et al,2020.Thermoelectric characteristics of pyrite and deep prospecting prediction in Erdaogou gold deposit,Liaoning Province[J].Gold Science and Technology,28(6):812-824.
Wu J, Zeng Q D, Wei Z H,et al,2021.Prospecting potential of the Yanjingou gold deposit in the East Kunlun Orogen,NW China:Evidence from primary halo geochemistry and in situ pyrite thermoelectricity[J].Minerals,11(10):1117.
Wu J, Zeng Q, Santosh M,et al,2022.Deep ore‑forming fluid characteristics of the Jiaodong gold province:Evidence from the Qianchen gold deposit in the Jiaojia gold belt[J].Ore Geology Reviews,145:104911.
Wu Jinchao, Shen Junfeng, Li Guowu,et al,2020.The improved method for measuring thermoelectric property of pyrite and its implication for exploring gold resources—A case study of the Wulong gold deposit in Liaoning Province[J].Bulletin of Mineralogy,Petrology and Geochemistry,39(2):283-292.
Wu Jinchao, Shen Junfeng, Shen Yuke,et al,2021.Thermoelectricity property and deep metallogenic forecast of pyrite in Heilangou gold field of Jiaodong,Shandong Province[J].Northwestern Geology,54(2):111-125.
Yang J H, Zhou X H,2001.Rb-Sr,Sm-Nd,and Pb isotope systematics of pyrite:Implications for the age and genesis of lode gold deposits[J].Geology,29:711-714.
Yang L Q, Deng J, Wang Z L,et al,2016.Relationships between gold and pyrite at the Xincheng gold deposit,Jiaodong Peninsula,China:Implications for gold source and deposition in a brittle epizonal environment[J].Economic Geology,111:105-126.
Yang Liqiang, Deng Jun, Wang Zhongliang,et al,2014.Mesozoic gold metallogenic system of the Jiaodong gold province,eastern China[J].Acta Petrologica Sinica,30(9):2447-2467.
Yang Minzhi, Guxian Lü,1996.The Geology and Geochemistry of Gold Deposit in Greenstone Belt of East Shandong Province[M].Beijing:Geological Publishing House.
Yao Meijuan, Shen Junfeng, Li Shengrong,et al,2008.Thermoelectric and thermal decrepitation characteristics of pyrite in the Qianhe gold deposit,Songxian County,Henan,China,and their relationships with gold mineralization[J].Geological Bulletin of China,27(5):649-656.
Yu B, Zeng Q D, Frimmel H E,et al,2021.A magmatic‐hydrothermal origin of the Xinfang gold deposit,Liaodong Peninsula,China,revealed by in‐situ S-Pb isotopes and trace element analyses of pyrite[J].Resource Geology,71:144-160.
Zhang Fangfang, Wang Jianping, Liu Chonghao,et al,2013.The crystal forms and thermoelectricity of pyrite from the Shuangwang gold deposit,Shaanxi Province and their applications to metallogenic prognosis[J].Geology in China,40(5):1634-1643.
Zhang Liang, Liu Yue, Li Ruihong,et al,2014.Lead isotope geochemistry of Dayingezhuang gold deposit,Jiaodong Peninsula,China[J].Acta Petrologica Sinica,30(9):2468-2480.
Zhang Tao, Chen Zhengle, Huang Hongye,et al,2020.Geochemical characteristics of gold-bearing minerals and its geological significance in the Ashawayi gold deposit in the southwestern Tianshan Orogen[J].Journal of Geomechanics,26(3):443-458.
Zhao H X, Frimmel H E, Jiang S Y,et al,2011.LA-ICP-MS trace element analysis of pyrite from the Xiaoqinling gold district,China:Implications for ore genesis[J].Ore Geology Reviews,43:142-153.
Zhou Lingli, Zeng Qingdong, Sun Guotao,et al,2019.Laser Ablation-Inductively Coupled Plasma Mass Spectrometry(LA-ICP MS) elemental mapping and its applications in ore geology[J].Acta Petrologica Sinica,35(7):1964-1978.
陈光远,邵伟,孙岱生,1989.胶东金矿成因矿物学与找矿[M].重庆:重庆出版社.
陈光远,孙岱生,邵伟,1993.胶东郭家岭花岗闪长岩成因矿物学与金矿化[M].北京:中国地质大学出版社.
陈广俊,孙丰月,李玉春,等,2014.胶东郭家岭花岗闪长岩U-Pb年代学、地球化学特征及地质意义[J].世界地质,33(1):39-47.
初航,陆松年,王惠初,等,2011.山东长岛地区蓬莱群辅子夼组碎屑锆石年龄谱研究[J].岩石学报,27(4):1017-1028.
邓军,陈玉民,刘钦,等,2010.胶东三山岛断裂带金成矿系统与资源勘查[M].北京:地质出版社.
邓军,徐守礼,方云,等,1996.胶东西北部构造体系及金成矿动力学[M].北京:地质出版社.
董娟,李成禄,2021.大兴安岭永新金矿床黄铁矿热电性特征及其指示意义[J].吉林大学学报(地球科学版),51(1):95-106.
范宏瑞,冯凯,李兴辉,等,2016.胶东—朝鲜半岛中生代金成矿作用[J].岩石学报,32(10):3225-3238.
范宏瑞,李兴辉,左亚彬,等,2018.LA-(MC)-ICP MS和(Nano)SIMS硫化物微量元素和硫同位素原位分析与矿床形成的精细过程[J].岩石学报,34(12):3479-3496.
李凯月,汤好书,陈衍景,等,2020.胶北地体荆山群大理岩碳氧同位素地球化学特征及其对Lomagundi-Jatuli事件的指示[J].岩石学报,36(4):1059-1075.
李胜荣,陈光远,邵伟,1996.胶东乳山金矿田成因矿物学[M].北京:地质出版社.
李秀章,王立功,李衣鑫,等,2022.胶东艾山岩体二长花岗岩地球化学、锆石U-Pb年代学及Lu-Hf同位素特征研究[J].现代地质,36(1):333-346.
刘华南,刘家军,李小伟,等,2018.内蒙古新地沟金矿床黄铁矿热电性特征及深部找矿意义[J].中国地质,45(4):819-838.
刘诗鹏,王树亚,冯欣欣,等,2019.胶东三山岛西岭金矿区NW向断裂带的确定:综合物探证据[J].黄金科学技术,27(1):25-32.
苗来成,罗镇宽,关康,等,1998.玲珑花岗岩中锆石的离子质谱U-Pb年龄及其岩石学意义[J].岩石学报,14(2):198-206.
卿敏,韩先菊,张乐骏,等,2018.黑龙江省金厂金矿床黄铁矿微量元素特征及其地质意义[J].矿物岩石地球化学通报,37(2):229-241,371.
权志高,1995.庞家河、左家庄金矿床载金矿物黄铁矿热电性的研究[J].矿产与地质,9(6):509-513.
邵洁涟,1988.金矿找矿矿物学[M].武汉:中国地质大学出版社.
邵伟,陈光远,孙岱生,1990.黄铁矿热电性研究方法及其在胶东金矿的应用[J].现代地质,4(1):46-57.
邵雪维,彭永明,王功文,等,2021.短波红外光谱、X射线荧光光谱、黄铁矿热电性分析在胶东新城金矿田深部找矿中的应用[J].地学前缘,28(3):236-251.
申俊峰,李胜荣,马广钢,等,2013.玲珑金矿黄铁矿标型特征及其大纵深变化规律与找矿意义[J].地学前缘,20(3):55-75.
宋焕斌,韩润生,祁斌,1989.元阳大坪金矿床黄铁矿的标型特征及其地质意义[J].云南地质,8(3):249-255.
宋明春,张军进,张丕建,等,2015.胶东三山岛北部海域超大型金矿床的发现及其构造—岩浆背景[J].地质学报,89(2):365-383.
孙之夫,冯涛,胡跃亮,等,2022.胶东西岭金矿床地质特征与金的赋存状态[J].地质与勘探,58(1):24-36.
温佳伟,史鹏亮,刘彦兵,等,2020.辽宁二道沟金矿床黄铁矿热电性特征及深部找矿预测[J].黄金科学技术,28(6):812-824.
吴晋超,申俊峰,李国武,等,2020.黄铁矿热电性测试方法改进及其在金矿找矿勘查中的应用——以辽宁五龙金矿为例[J].矿物岩石地球化学通报,39(2):283-292.
吴晋超,申俊峰,申玉科,等,2021.胶东黑岚沟金矿田黄铁矿热电性研究及深部成矿预测[J].西北地质,54(2):111-125.
杨立强,邓军,王中亮,等,2014.胶东中生代金成矿系统[J].岩石学报,30(9):2447-2467.
杨敏之,吕古贤,1996.胶东绿岩带金矿地质地球化学[M].北京:地质出版社.
要梅娟,申俊峰,李胜荣,等,2008.河南嵩县前河金矿黄铁矿的热电性、热爆特征及其与金矿化的关系[J].地质通报,27(5):649-656.
张方方,王建平,刘冲昊,等,2013.陕西双王金矿黄铁矿晶体形态和热电性特征对深部含矿性的预测[J].中国地质,40(5):1634-1643.
张良,刘跃,李瑞红,等,2014.胶东大尹格庄金矿床铅同位素地球化学[J].岩石学报,30(9):2468-2480.
张涛,陈正乐,黄宏业,等,2020.西南天山阿沙哇义金矿载金矿物地球化学特征及地质意义[J].地质力学学报,26(3):443-458.
周伶俐,曾庆栋,孙国涛,等,2019.LA-ICP MS原位微区面扫描分析技术及其矿床学应用实例[J].岩石学报,35(7):1964-1978.
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