留言板

尊敬的读者、作者、审稿人, 关于本刊的投稿、审稿、编辑和出版的任何问题, 您可以本页添加留言。我们将尽快给您答复。谢谢您的支持!

姓名
邮箱
手机号码
标题
留言内容
验证码

湖北来凤革勒车地区铅锌-萤石矿流体包裹体与C-H-O-S-Pb同位素特征及其地质意义

罗华 郭盼 刘力 潘龙克 段先锋 毛启曦 廖明芳

罗华, 郭盼, 刘力, 潘龙克, 段先锋, 毛启曦, 廖明芳. 湖北来凤革勒车地区铅锌-萤石矿流体包裹体与C-H-O-S-Pb同位素特征及其地质意义[J]. 地质科技通报, 2024, 43(1): 39-50. doi: 10.19509/j.cnki.dzkq.tb20220242
引用本文: 罗华, 郭盼, 刘力, 潘龙克, 段先锋, 毛启曦, 廖明芳. 湖北来凤革勒车地区铅锌-萤石矿流体包裹体与C-H-O-S-Pb同位素特征及其地质意义[J]. 地质科技通报, 2024, 43(1): 39-50. doi: 10.19509/j.cnki.dzkq.tb20220242
LUO Hua, GUO Pan, LIU Li, PAN Longke, DUAN Xianfeng, MAO Qixi, LIAO Mingfang. Fluid inclusion and C-H-O-S-Pb isotope characteristics and geological significance of lead-zinc-fluorite deposits in the Geleche area, Laifeng, Hubei Province[J]. Bulletin of Geological Science and Technology, 2024, 43(1): 39-50. doi: 10.19509/j.cnki.dzkq.tb20220242
Citation: LUO Hua, GUO Pan, LIU Li, PAN Longke, DUAN Xianfeng, MAO Qixi, LIAO Mingfang. Fluid inclusion and C-H-O-S-Pb isotope characteristics and geological significance of lead-zinc-fluorite deposits in the Geleche area, Laifeng, Hubei Province[J]. Bulletin of Geological Science and Technology, 2024, 43(1): 39-50. doi: 10.19509/j.cnki.dzkq.tb20220242

湖北来凤革勒车地区铅锌-萤石矿流体包裹体与C-H-O-S-Pb同位素特征及其地质意义

doi: 10.19509/j.cnki.dzkq.tb20220242
基金项目: 

中国地质调查局项目 DD20160029-15

详细信息
    通讯作者:

    罗华, E-mail: 270132397@qq.com

  • 中图分类号: P618.42;P618.43

Fluid inclusion and C-H-O-S-Pb isotope characteristics and geological significance of lead-zinc-fluorite deposits in the Geleche area, Laifeng, Hubei Province

More Information
  • 摘要:

    鄂西南地区铅锌矿化分布广泛,但至今未发现大型矿床,对成矿系统的研究亦存在不足。对来凤革勒车地区铅锌-萤石矿流体包裹体进行了显微测温及C-H-O-S-Pb同位素测试分析。结果表明:区内萤石、方解石流体包裹体均一温度集中在137~170℃之间,盐度变化范围为11.46%~16.89%,属低温度、中低盐度NaCl-H2O体系流体,主要来源可能为含沉积硫酸盐(海相沉积物)的岩石建造变质脱水;δ34S值介于9.5‰~11.8‰之间,均值为10.92‰;206Pb/204Pb < 18.20,207Pb/204Pb>15.60,208Pb/204Pb < 39.00,铅同位素具有比值变化小,具有高μ和高ω的特征。硫源和铅源均主要来自于上地壳古生代沉积盆地奥陶纪和寒武纪容矿地层,同生沉积成岩后生中低温热液改造作用是革勒车地区铅锌-萤石矿床的主导成因类型。与鄂湘西扬子地台区典型铅锌矿床进行对比发现,它们具有较大的相似性,同时在成矿流体、古生代沉积环境、构造背景3个方面具有明显的差异性。

     

  • 图 1  鄂湘西矿产地质简图

    a.大地构造位置图; b.鄂湘西地区地质简图; c.鄂湘西地区矿化分布图。Ⅰ.恩施铅锌-萤石成矿远景区;Ⅱ.洛塔铅锌矿成矿远景区;Ⅲ.保靖铅锌矿成矿远景区;Ⅳ.花垣铅锌矿成矿远景区。1.白垩系;2.二叠系-三叠系;3.奥陶系-志留系;4.寒武系;5.震旦系;6.铅锌矿床(点);7.萤石矿床(点);8.地层界线;9.断层;10.研究区位置

    Figure 1.  Geological sketch of mineral resources in western Hubei and Hunan

    图 2  湖北来凤革勒车矿区地质图

    1.大湾组; 2.红花园组; 3.南津关组; 4.娄山关组; 5.地质界线; 6.断层; 7.岩层产状; 8.萤石矿脉; 9.铅锌矿脉; 10地名

    Figure 2.  Geological map of the Geleche mining area, Hubei

    图 3  革勒车矿区岩石薄片特征

    a.白云岩团块鲕粒结构;b.白云岩含团块藻砂屑结构;c.含藻砂屑生物屑结构

    Figure 3.  Characteristics of rock slices in the Geleche mining area

    图 4  革勒车矿区矿石特征

    a.方铅矿团块和方解石脉体伴生;b.闪锌矿晶体(×20);c.萤石矿

    Figure 4.  Ore characteristics of the Geleche mining area

    图 5  革勒车矿区典型流体包裹体显微特征(V.气相; L.液相)

    Figure 5.  Microscopic characteristics of typical fluid inclusions in the Geleche mining area

    图 6  研究区成矿流体的δD-δ18O图

    Figure 6.  δD-δ18O diagram of ore-forming fluid in the study area

    图 7  研究区含矿方解石δ13CV-PDB-δ18OV-SMOW关系

    Figure 7.  δ13CV-PDB-δ18OV-SMOW diagram of ore bearing calcite in the study area

    图 8  革勒车矿区S同位素组成分布

    Figure 8.  Distribution of S isotopic composition in the Geleche mining area

    图 9  革勒车矿区铅同位素Δβγ特征图(底图据文献[30])

    1.地幔源铅;2.上地壳铅;3.上地壳与地幔混合的俯冲带铅(3a岩浆作用,3b沉积作用);4.化学沉积铅;5.海底热水作用铅;6.中深变质铅;7.深变质下地壳铅;8.造山带铅;9.古老页岩上地壳铅;10.退变质铅)

    Figure 9.  Δβγ diagram of lead isotopes in the Geleche mining area

    图 10  革勒车矿区铅同位素生长曲线图

    A.地幔;B.造山带;C.上地壳;D.下地壳

    Figure 10.  Lead isotope growth curve of the Geleche mining area

    图 11  革勒车矿区铅同位素构造演化图(底图据文献[31])

    LC.下地壳;UC.上地壳;OIV.洋岛火山岩;OR.造山带;A,B,C,D分别为各区域中样品相对集中区

    Figure 11.  Lead isotope structural evolution in the Geleche mining area

    表  1  革勒车矿区流体包裹体测温分析结果

    Table  1.   Microthermometric measurements on fluid inclusions from the Geleche mining area

    矿物 形态 包裹体个数 大小/μm 气液比 均一温度/℃ 盐度/%
    方解石 椭圆形 30 3×4~4×7 2~6 133~179 13~16
    不规则 26 3×4~6×8 2~6 119~198 12~16
    长条形 15 1×4~3×8 3~6 117~174 12~14
    萤石 椭圆形 24 3×3~8×4 2~5 113~170 11~16
    不规则 24 3×4~6×6 2~9 122~188 10~16
    长条形 12 2×6~2×8 4~9 134~166 12~15
    下载: 导出CSV

    表  2  研究区和鄂湘西地区典型矿床碳氢氧同位素组成

    Table  2.   Carbon, hydrogen and oxygen isotope compositions of typical deposits in the study area and western Hubei and Hunan

    远景区 矿区(床) 样品号 矿物 δ13CV-PDB/‰ δDV-SMOW/‰ δ18OV-SMOW/‰ 资料来源
    恩施远景区 革勒车 GLCFJ01 方解石 -1.4 -43.8 17.7 本研究
    保靖远景区 起车 石英 -73.0 17.9 文献[4]
    起车 KMD1C 方解石 -1.1 19.0
    起车 KMD1C 方解石 -1.5 12.3
    花垣远景区 李梅 LM-1 方解石 -23.0 0.25 文献[5]
    李梅 LM-2 方解石 -40.0 1.54
    李梅 LM-4 方解石 -46.0 2.43
    李梅 LM-5 方解石 -33.0 1.72
    耐子堡 H1-2 方解石 -0.99 18.03 文献[6]
    耐子堡 H2-3 方解石 -0.97 21.30
    耐子堡 H5-7 方解石 -0.73 21.10
    凤凰远景区 茶田 CH-1 石英 -76.0 0.57 文献[5]
    茶田 CH-2 石英 -75.0 0.74
    和平镇 TZC6 方解石 -3.51 14.83 文献[6]
    和平镇 TZC6 方解石 -3.47 14.93
    下载: 导出CSV

    表  3  研究区和鄂湘西地区典型矿床δ34S同位素特征

    Table  3.   Sulfur isotope compositions of galena from the studied deposits and published data from typical deposits from western Hubei and Hunan

    远景区 矿床(区) 样品号 矿物 δ34SV-CDT/‰ 数据来源
    恩施远景区 革勒车 FQ01 方铅矿 11.2 本研究
    革勒车 FQ02 方铅矿 11.8
    革勒车 FQ03 方铅矿 9.5
    革勒车 FQ04 方铅矿 11.5
    革勒车 FQ05 方铅矿 10.6
    埃山 方铅矿 16.6 文献[14]
    埃山 方铅矿 15.3
    洛塔远景区 江家垭 方铅矿 12.53 文献[15]
    唐家寨 TCH-05 方铅矿 15.08 文献[16]
    卡西湖 方铅矿 11.12 文献[17]
    保靖远景区 起车 TZG 方铅矿 15.1 文献[4]
    起车 JXDG 方铅矿 15.8
    花垣远景区 李梅 PMP2-15 方铅矿 26.6 文献[2]
    狮子山 SZS-01 方铅矿 26.8 文献[18]
    凤凰远景区 耐子堡 H6-9 方铅矿 26.59 文献[17]
    耐子堡 H8-12 方铅矿 23.96
    下载: 导出CSV

    表  4  鄂湘西地区典型铅锌矿床铅同位素组成

    Table  4.   Lead isotopic ratios of sulfides from the studied deposits and published data from typical deposits from western Hubei and Hunan

    成矿远景区 矿床(区) 样号 矿物 206Pb/204Pb 207Pb/204Pb 208Pb/204Pb μ ω Δβ Δγ 数据来源
    恩施远景区 革勒车 FQ01 方铅矿 18.10 15.78 38.43 9.85 39.95 29.50 32.60 本研究
    革勒车 FQ02 方铅矿 18.03 15.68 38.13 9.68 38.18 23.50 24.57
    革勒车 FQ03 方铅矿 18.06 15.71 38.24 9.73 38.73 25.45 27.42
    革勒车 FQ04 方铅矿 18.13 15.80 38.50 9.89 40.29 30.87 34.43
    革勒车 FQ05 方铅矿 18.07 15.72 38.27 9.75 38.91 26.04 28.14
    埃山 方铅矿 19.12 15.86 39.37 27.80 46.32 文献[14]
    埃山 方铅矿 19.15 15.88 39.46 29.23 48.58
    洛塔远景区 江家垭 方铅矿 18.24 15.69 38.14 9.67 37.07 25.18 35.28 文献[19]
    江家垭 方铅矿 18.30 15.76 38.36 9.79 38.31 29.72 42.82
    江家垭 方铅矿 18.24 15.72 38.33 9.71 38.10 26.93 41.59
    保靖远景区 起车 TZG 方铅矿 18.21 15.67 38.15 9.63 37.11 24.00 35.51 文献[4]
    起车 JXDG 方铅矿 18.24 15.71 38.28 9.70 37.85 26.56 40.04
    花垣远景区 李梅 PMP2-15 方铅矿 18.17 15.72 38.34 文献[2]
    李梅 闪锌矿 18.04 15.61 38.18 9.52 37.62 19.70 36.91 文献[19]
    凤凰远景区 狮子山 SZS-01 方铅矿 18.11 15.67 38.18 9.63 23.91 39.08 文献[18]
    耐子堡 H6-9 方铅矿 18.15 15.72 38.22 9.73 38.20 27.57 41.75 文献[17]
    下载: 导出CSV
  • [1] 段其发, 曹亮, 曾健康, 等. 湘西花垣矿集区狮子山铅锌矿床闪锌矿Rb-Sr定年及地质意义[J]. 地球科学, 2014, 39(8): 977-986.

    DUAN Q F, CAO L, ZENG J K, et al. Rb-Sr dating of sphalerites from Shizishan Pb-Zn deposit in Huayuan ore concentration area, western Hunan, and its geological significance[J]. Earth Science, 2014, 39(8): 977-986. (in Chinese with English abstract)
    [2] 胡太平, 王敏芳, 丁振举, 等. 湘西花垣李梅铅锌矿床C、O、S、Pb同位素特征及成矿物质来源[J]. 矿床地质, 2017, 36(3): 623-642.

    HU T P, WANG M F, DING Z J, et al. C, O, S and Pb isotopic characteristics and sources of metallogenic materials of Limei Pb-Zn deposit in Huayuan County, western Hunan Province[J]. Mineral Deposits, 2017, 36(3): 623-642. (in Chinese with English abstract)
    [3] 刘旭, 刘悟辉, 息朝庄, 等. 湖南黄沙坪铅锌多金属矿区岩浆岩地球化学特征[J]. 地质找矿论丛, 2009, 24(3): 198-205.

    LIU X, LIU W H, XI C Z, et al. Geochemical characteristics of magmatic rocks of Huangshaping lead-zinc deposit in Hunan China[J]. Contributions to Geology and Mineral Resources Research, 2009, 24(3): 198-205. (in Chinese with English abstract)
    [4] 陈帅奇, 蒋启生, 陈渡平, 等. 湘西起车铅锌矿同位素地球化学特征[J]. 有色金属(矿山部分), 2015, 67(5): 41-47.

    CHEN S Q, JIANG Q S, CHEN D P, et al. The isotopic geochemistry characteristics of Qiche Pb-Zn deposit in western Hunan Province[J]. Nonferrous Metals(Mining Section), 2015, 67(5): 41-47. (in Chinese with English abstract)
    [5] 朱建东, 刘源骏, 祝敬明, 等. 扬子地台东北缘鄂西铅锌矿成因类型与地学思维[J]. 资源环境与工程, 2016, 30(增刊): 145-153.

    ZHU J D, LIU Y J, ZHU J M, et al. Genesis type and geological thinking of lead-zinc deposit in western Hubei, Northeast of Yangtse Platform[J]. Resources Environment & Engineering, 2016, 30(S): 145-153. (in Chinese with English abstract)
    [6] 徐耀鉴, 杨柳, 尹萍, 等. 湘西铅锌矿地质特征与成矿作用[J]. 世界有色金属, 2021(20): 72-74.

    XU Y J, YANG L, YIN P, et al. Geochemical characteristics and ore-forming of Pb-Zn deposit, western Hunan[J]. World Nonferrous Metals, 2021(20): 72-74. (in Chinese with English abstract)
    [7] 周云, 段其发, 曹亮, 等. 湘西-鄂西地区铅锌矿的大范围低温流体成矿作用研究[J]. 高校地质学报, 2014, 20(2): 198-213.

    ZHOU Y, DUAN Q F, CAO L, et al. Large-scale low-temperature mineralizations in western Hunan-western Hubei lead-zinc deposits[J]. Geological Journal of China Universities, 2014, 20(2): 198-213. (in Chinese with English abstract)
    [8] 杨绍祥, 劳可通. 湘西北铅锌矿床碳氢氧同位素特征及成矿环境分析[J]. 矿床地质, 2007, 26(3): 330-341.

    YANG S X, LAO K T. A tentative discussion on genesis of lead-zinc deposits in Northwest Hunan[J]. Mineral Deposits, 2007, 26(3): 330-341. (in Chinese with English abstract)
    [9] 梁恩云, 刘伟, 彭能立, 等. 湘西北地区奥陶系铅锌矿化围岩的地球化学特征[J]. 桂林理工大学学报, 2015, 35(4): 694-701.

    LIANG E Y, LIU W, PENG N L, et al. Geochemistry characterics of lead-zinc mineralized wall-rock for Ordovician in the Northwest of Hunan[J]. Journal of Guilin University of Technology, 2015, 35(4): 694-701. (in Chinese with English abstract)
    [10] 雷义均, 戴平云, 段其发, 等. 鄂西-湘西北地区铅锌矿矿源层对铅锌矿床产出定位的制约[J]. 桂林理工大学学报, 2013, 33(1): 1-6.

    LEI Y J, DAI P Y, DUAN Q F, et al. Constraints of lead-zinc source bed to lead-zinc deposits in western Hubei to northwestern Hunan[J]. Journal of Guilin University of Technology, 2013, 33(1): 1-6. (in Chinese with English abstract)
    [11] 周云. 湘西花垣MVT型铅锌矿集区成矿作用研究[D]. 成都: 成都理工大学, 2017.

    ZHOU Y. Metallogenesis study of Huayuan MVT type Pb-Zn ore concentration area, Hunan[D]. Chengdu: Chengdu University of Technology, 2017. (in Chinese with English abstract)
    [12] 王茂林, 王贤茂, 李小林, 等. 鄂西地区铅锌矿成矿特征、找矿模式及找矿方向[J]. 资源环境与工程, 2014, 28(3): 257-266.

    WANG M L, WANG X M, LI X L, et al. Metallogenic characteristics, prospecting model and prospecting direction of lead-zinc deposits in western Hubei[J]. Resources Environment & Engineering, 2014, 28(3): 257-266. (in Chinese with English abstract)
    [13] 龙宝林, 刘忠明. 鄂西地区铅锌矿基本特征与找矿方向[J]. 地质与勘探, 2005, 41(3): 16-21.

    LONG B L, LIU Z M. Basic characteristics and prognosis of Pb-Zn deposits in the western Hubei Province[J]. Geology and Prospecting, 2005, 41(3): 16-21. (in Chinese with English abstract)
    [14] 文永华, 杜登文, 赵鹏, 等. 鹤峰-宣恩-咸丰地区铅锌矿床成矿物质来源研究[J]. 世界有色金属, 2017(23): 123-131.

    WEN Y H, DU D W, ZHAO P, et al. Study on source material source of lead-zinc deposit in Hefeng-Xuanen-Xianfeng area, Hubei Province[J]. World Nonferrous Metals, 2017(23): 123-131. (in Chinese with English abstract)
    [15] 匡文龙, 向世超, 肖文舟, 等. 湘西北地区铅锌矿床成矿地质特征及矿床成因研究[J]. 矿床地质, 2015, 34(5): 1072-1082.

    KUANG W L, XIANG S C, XIAO W Z, et al. Metallogenic geological characteristics and genesis of lead-zinc deposits in northwestern Hunan[J]. Mineral Deposits, 2015, 34(5): 1072-1082. (in Chinese with English abstract)
    [16] 王云峰, 杨红梅, 刘重芃, 等. 湘西唐家寨铅锌矿床锶、硫同位素及其对成矿物质来源的指示意义[J]. 中国地质, 2018, 45(3): 564-572.

    WANG Y F, YANG H M, LIU C P, et al. Strontium and sulfur isotopic characteristics of the Tangjiazhai Pb-Zn deposit in western Hunan Province, China: Denotative significance for ore-forming materials source[J]. Geology in China, 2017, 45(3): 564-572. (in Chinese with English abstract)
    [17] 夏新阶, 付胜云. 湘西北铅锌矿床成矿模式[J]. 有色金属(矿山部分), 2010, 62(2): 35-40.

    XIA X J, FU S Y. Mineralization pattern of northwestern Hunan lead-zinc mine[J]. Nonferrous Metals(Mining Section), 2010, 62(2): 35-40. (in Chinese with English abstract)
    [18] 蔡应雄, 杨红梅, 段瑞春, 等. 湘西-黔东下寒武统铅锌矿床流体包裹体和硫、铅、碳同位素地球化学特征[J]. 现代地质, 2014, 28(1): 29-42.

    CAI Y X, YANG H M, DUAN R C, et al. Fluid inclusions and S, Pb, C isotope geochemistry of Pb-Zn deposits hosted by Lower Cambrian in western Hunan-eastern Guizhou area[J]. Geoscience, 2014, 28(1): 29-42. (in Chinese with English abstract)
    [19] 曹亮, 段其发, 彭三国, 等. 湘西地区铅锌矿成矿物质来源: 来自S、Pb同位素的证据[J]. 地质通报, 2017, 36(5): 834-846.

    CAO L, DUAN Q F, PENG S G, et al. Sources of metallogenic materials of lead-zinc deposits in western Hu'nan Province: Evidence from S and Pb isotopes[J]. Geological Bulletin of China, 2017, 36(5): 834-845. (in Chinese with English abstract)
    [20] 路远发. GeoKit: 一个用VBA构建的地球化学工具软件包[J]. 地球化学, 2004, 33(5): 459-464.

    LU Y F. Geokit: A geochemical toolkit for Microsoft Excel[J]. Geochimica, 2004, 33(5): 459-464. (in Chinese with English abstract)
    [21] 姜军胜, 郑有业, 高顺宝, 等. 西藏查藏错铜铅锌矿床成因: C-H-O-S-Pb同位素制约[J]. 地球科学, 2015, 40(6): 1006-1016.

    JIANG J S, ZHENG Y Y, GAO S B, et al. Genesis of Chazangcuo Cu-Pb-Zn deposit, Tibet: Constraints from C-H-O-S-Pb isotope geochemistry[J]. Earth Science, 2015, 40(6): 1006-1016. (in Chinese with English abstract)
    [22] 刘文均, 卢家烂. 湘西下寒武统有机地化特征: MVT铅锌矿床有机成矿作用研究[J]. 沉积学报, 2000, 18(2): 290-297.

    LIU W J, LU J L. Characteristics of organic geochemistry of Lower Cambrian in western Hunan: Mineralization study on MVT lead-zinc ore deposits[J]. Acta Sedimentologica Sinica, 2000, 18(2): 290-297. (in Chinese with English abstract)
    [23] 于皓丞, 邱昆峰, 孙志佳, 等. 新疆阿合奇地区色帕巴衣铅矿床成因: 地质、地球化学研究的启示[J]. 地质科技情报, 2017, 36(2): 20-28.

    YU H C, QIU K F, SUN Z J, et al. Metallogenic model for the Sepabayi lead deposit in Akqi area, Xinjiang: Constraints from geology and geochemistry[J]. Geological Science and Technology Information, 2017, 36(2): 20-28. (in Chinese with English abstract)
    [24] 郎兴海, 邓煜霖, 王旭辉, 等. 西藏雄村矿区Ⅲ号矿体硫、铅同位素特征及成矿物质来源[J]. 地质科技情报, 2018, 37(4): 1-9.

    LANG X H, DENG Y L, WANG X H, et al. Geochemical characteristics of sulfur and lead isotope compositions and implications for the sources of metals from No. Ⅲ ore body in Xiongcun Mining area, Tibet[J]. Geological Science and Technology Information, 2018, 37(4): 1-9. (in Chinese with English abstract)
    [25] 徐书奎. 豫西寺家沟金矿床氢氧硫同位素特征及地质意义[J]. 地质科技情报, 2017, 36(5): 143-147.

    XU S K. Hydrogen, oxygen and sulfur isotopic characteristics and geological significance of Sijiagou gold deposit, western Henan[J]. Geological Science and Technology Information, 2017, 36(5): 143-147. (in Chinese with English abstract)
    [26] 李振红, 赵亚辉, 周厚祥, 等. 硫同位素地质特征及其在湖南省铜矿床成矿物质来源示踪中的应用[J]. 华南地质与矿产, 2018, 34(1): 72-77.

    LI Z H, ZHAO Y H, ZHOU H X, et al. Sulfur isotopic characteristics of copper deposits in Hunan Province[J]. Geology and Mineral Resources of South China, 2018, 34(1): 72-77. (in Chinese with English abstract)
    [27] OHMOTO H, RYE R D. Isotopes of sulfur and carbon[C]//Barnes H L. Geochemistry of hydrothermal ore deposits: 2nd Edition. New York: John Wiley and Sons, 1979: 509-567.
    [28] 龚志愚, 赵生贵, 姜志勇, 等. 高罗背斜铅锌矿基本特征和找矿标志[J]. 资源环境与工程, 2012, 26(6): 576-581.

    GONG Z Y, ZHAO S G, JIANG Z Y, et al. Basic characteristics and prospecting criteria of lead-zinc mine in Gaoluo anticline[J]. Resources Environment & Engineering, 2012, 26(6): 576-581. (in Chinese with English abstract)
    [29] 彭能立, 梁恩云, 刘伟, 等. 湘西北洛塔矿田铅锌矿床与典型MVT铅锌矿床的对比研究[J]. 南方金属, 2014(4): 5-14.

    PENG N L, LIANG E Y, LIU W, et al. A comparative study of Luota Ore Field lead-zinc deposits in the Northwest of Hunan Province with typical MVT lead-zinc deposits[J]. Southern Metals, 2014(4): 5-14. (in Chinese with English abstract)
    [30] 朱炳泉. 壳幔化学不均一性与块体地球化学边界研究[J]. 地学前缘, 1998(1): 73-83.

    ZHU B Q. Study on chemical heterogeneities of mantlecrustal systems and geochemical boundaries of blocks[J]. Earth Science Frontiers, 1998(1): 73-83. (in Chinese with English abstract)
    [31] ZARTMAN R E, DOE B R. Plumbotectonics: The model[J]. Tectonophysics, 1981, 75: 135-162. doi: 10.1016/0040-1951(81)90213-4
    [32] 吴开兴, 胡瑞忠, 毕献武, 等. 矿石铅同位素示踪成矿物质来源综述[J]. 地质地球化学, 2002, 30(3): 73-81.

    WU K X, HU R Z, BI X W, et al. Ore lead isotopes as a tracer for ore-forming material sources: A review[J]. Geology-Geochemistry, 2002, 30(3): 73-81. (in Chinese with English abstract)
    [33] 张海坤, 胡鹏, 曹亮, 等. 印度尼西亚戴里Sedex型铅锌矿集区成矿流体特征及成矿物质来源: 流体包裹体及同位素地球化学证据[J]. 地质科技通报, 2020, 39(3): 170-177. doi: 10.19509/j.cnki.dzkq.2020.0318

    ZHANG H K, HU P, CAO L, et al. Characteristics of mineralization fluids and mineralization material sources of the Sedex-type Dairi Pb-Zn ore concentration area in Indonesia: Evidence from fluid inclusions and isotopic geochemistry[J]. Bulletin of Geological Science and Technology, 2020, 39(3): 170-177. (in Chinese with English abstract) doi: 10.19509/j.cnki.dzkq.2020.0318
    [34] LI Z K, LI J W, ZHAO X F, et al. Crustal extension Ag-Pb-Zn veins in the Xiong'ershan district, southern North China Craton: Constraints from the Shagou deposit[J]. Economic Geology, 2013, 108: 1703-1729. doi: 10.2113/econgeo.108.7.1703
    [35] 方喜林, 万传杰. 湖北恩施高罗地区矿产远景调查报告[R]. 武汉: 湖北省地质调查院, 2015.

    FANG X L, WAN C J. Investigation report on mineral prospecting in Gaoluo area, Enshi, Hubei Province[R]. Wuhan: Hubei Geological Survey, 2015. (in Chinese with English abstract)
    [36] 罗华, 张旭, 何仁亮, 等. 湖北省1: 5万宣恩县、洗马坪、高罗、沙道沟幅区域地质调查报告[R]. 武汉: 湖北省地质调查院, 2015.

    LUO H, ZHANG X, HE R L, et al. 1: 50000 regional geological survey report of Xuan'en County, Ximaping, Gaoluo and Shadaogou in Hubei Province[R]. Wuhan: Hubei Geological Survey, 2015. (in Chinese with English abstract)
    [37] 李朋, 吴龙, 杜小锋, 等. 湖北省1: 5万岳武坝、恩施县、见天坝、芭蕉、大集场幅区域地质调查报告[R]. 武汉: 湖北省地质调查院, 2017.

    LI P, WU L, DU X F, et al. 1: 50000 regional geological survey report of Yuewuba, Enshi County, Jiantianba, Bajiao and Dajichang in Hubei Province[R]. Wuhan: Hubei Geological Survey, 2015. (in Chinese with English abstract)
    [38] 王晗昳, 何谋惷, 丁振举, 等. 湖南凤凰铅锌矿床成矿流体特征及成矿机制[J]. 地质科技通报, 2020, 39(6): 103-111. doi: 10.19509/j.cnki.dzkq.2020.0610

    WANG H Y, HE M C, DING Z J, et al. Ore-forming fluid characteristics and metallogenic mechanism of Fenghuang Pb-Zn deposit, Hunan Province[J]. Bulletin of Geological Science and Technology, 2020, 39(6): 103-111. (in Chinese with English abstract) doi: 10.19509/j.cnki.dzkq.2020.0610
    [39] 韩培光, 吴冬妹, 彭小桂, 等. 宣恩县腾家湾铅锌矿基本特征、成矿规律与找矿意义[J]. 资源环境与工程, 2007, 21(2): 112-117.

    HAN P G, WU D M, PENG X G, et al. The Tengjiawan lead-zinc deposit in Xuan'en County of Hubei its features metallogenic pattern and propecting[J]. Resources Environment & Engineering, 2007, 21(2): 112-117. (in Chinese with English abstract)
    [40] 马元, 祝敬明, 张汉金, 等. 扬子地台东北缘鄂西铅锌矿地质特征、成矿规律与找矿方向研究[R]. 武汉: 湖北省地质调查院, 2008.

    MA Y, ZHU J M, ZHANG H J, et al. Geological characteristics, metallogenic regularity and prospecting direction of Pb-Zn deposits in western Hubei, Northeast margin of Yangtze Platform[R]. Wuhan: Hubei Geological Survey, 2008. (in Chinese with English abstract)
    [41] 彭能立, 刘伟, 梁恩云, 等. 湘西地区北洛塔和花垣铅锌矿田对比研究[J]. 地质找矿论丛, 2016, 31(2): 190-198.

    PENG N L, LIU W, LIANG E Y, et al. A comparative study of Luota and Huayuan lead-zinc ore field in the Northwest Hunan Province[J]. Contributions to Geology and Mineral Resources Research, 2016, 31(2): 190-198. (in Chinese with English abstract)
  • 加载中
图(11) / 表(4)
计量
  • 文章访问数:  374
  • PDF下载量:  64
  • 被引次数: 0
出版历程
  • 收稿日期:  2022-05-26
  • 录用日期:  2022-08-30
  • 修回日期:  2022-08-29

目录

    /

    返回文章
    返回