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地质论评 2003

惰性气体同位素和卤素示踪成矿流体来源

Keywords: 同位素成矿流体卤素挥发份流体包裹体惰性气体示踪

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Abstract:

本文简要地回顾了流体包裹体中He、Ar同位素以及Cl、Br和I在现代地壳流体和古成矿流体示踪研究方面的应用，认为利用流体包裹体中He、Ar同位素和Cl、Br、I可以有效地示踪地幔流体参与成矿的过程及其背景，有助于深入研究流体的热场和运移轨迹。

References

[1]	关康,裘有守,颜竹筠.1997.广东长坑金银矿床地球化学特征.广东地质,11:49～59.
[2]	胡瑞忠,钟宏,叶造军,毕献武.1998.金顶超大型铅锌矿床氦氩同位素地球化学.中国科学(D辑),28(3):208～213.
[3]	胡瑞忠,毕献武,TurnerG,等.1999.哀牢山金矿带金成矿流体He和Ar同位素地球化学.中国科学(D辑),29(4):321～330.
[4]	华仁民,毛景文.1999.试论中国东部中生代成矿大爆发.矿床地质,18(4):299～308.
[5]	华仁民,李晓峰,张开平,邱德同,杨风根.2002.江西金山金矿成矿过程流体作用地球化学特征.南京大学学报(自然科学),38 (3):408～417.
[6]	黄宏立,杨文思.1990.赣东北金山金矿床的地质特征及矿床成因.地质找矿论从,5(2):29～39.
[7]	李晓峰,华仁民,杨风根,高剑锋.2002.金山金矿K Ar年龄及其对赣东北构造演化的指示意义.岩石矿物学杂志,21(1):49～54.
[8]	毛景文,华仁民,李晓波.1999.浅议大规模成矿作用与大型矿集区.矿床地质,18(4):291～299.
[9]	毛景文,魏家秀.2000a.大水沟碲矿床流体包裹体的He、Ar同位素组成及其示踪成矿流体的来源.地球学报,21(1):58～61.
[10]	毛景文,王志良.2000b.中国东部大规模成矿时限及其动力学背景的初步探讨.矿床地质,19(4):289～296.
[11]	毛景文,李荫清.2001.河北省东坪碲化物金矿床流体包裹体研究:地幔流体与成矿关系.矿床地质,20(1):23～36.
[12]	牛树银,李红阳,孙爱群,等.地幔热柱多级演化及其成矿作用.15(4):298～307.
[13]	孙晓明,Norman D I,孙凯,等.2000.一种新的成矿流体示踪法-流体包裹体N2-Ar-He示踪体系.地质论评,46(1):99～104.
[14]	涂光炽.1989.一些金矿床地质问题讨论.地质找矿论从,3(1):1～8.
[15]	王登红.1998.地幔柱及其成矿作用.北京:地震出版社.
[16]	王登红,余金杰,杨建民,等.2002.中国新生代成矿作用的惰性气体同位素研究与动力学背景.矿床地质,21(2):179～186.
[17]	王宝德,牛树银,孙爱群,李红阳.2003.冀北地区金矿床氦、氩、铅同位素组成及其成矿物质来源.地球化学,32(2):181～187.
[18]	韦星林.1 996.江西金山金矿韧性剪切带型金矿地质特征.江西地质,10(1):52～64.
[19]	薛春纪.2000云南兰坪盆地第三纪成矿系列研究.中国地质科学院博士后出站报告,37～40.
[20]	徐永昌.1 998.天然气中稀有气体地球化学.北京:科学出版社,1～10.
[21]	Elliot T, Ballentine C J, O′Nions R K, Ricchiuto T. 1993. Carbon, helium, neon and argon isotopes in a Po basin natural gases field. Chemical Geology, 106: 429～ 440.
[22]	Fontes J C, Andrew J N, Walgenwitz F. 1991. Evalution of natural gas in situ production of argon-36 via chlore-36; Geochimiques geochronologiques implications. Comptes REndus de l\'Academie des Sciences Serie 2, Mecanique, Physique, Chimie, Sciences de l′Univers, Sciences de la terre, 313: 649～ 654.
[23]	Giggenbach W F. 1986. The use of gas chemistry in delineating the origin of fluid discharges over the Taupo Volcanic: A review.Proc. Inter. Volcanol. Congress, New Zealand, 5: 47～50.
[24]	Groves D I, Goldfarb R J. Gebre-Marian M, Hagemann S G, RobertF. Orogenic gold deposits: proposed classification in the context of their distribution and relationship to other gold deposits types. Ore Geology Review, 13: 7 ～ 27.
[25]	Guan Kang, Qiu Youshou, Yan Zhujun. 1997. The geochemistrycharacteristic of Changkeng gold-sliver deposit in Guangdong Province. Guangdong Geology, 11:49 ～ 59 (in Chinese with English abstract).
[26]	Hilyon D R, Macpherson, Elliott. 2000. Helium isotope ratios in mafic phenocrysts and geothermal fluids from La Palma, theCanary Islands (Spain): Implications for HIMU mntle sources. Geochinfica et Cosmochimica Acta, 64(12): 2119～2132.
[27]	Mao Jingwen, Li Yinqing. 2001. Fluid inclusions of the Dongping gold telluride deposit in Hebei Province, China: involvement of mantle fluid in metallogenesis. Mineral Deposits, 20 (1) : 23 ～ 36 (in Chinese with English abstract).
[28]	Mao Jingwen, Kerrich Robert, Li Hongyan, Li Yanhe. 2002. High3He/4He ratios in the Wangu gold deposit, Hunan province, China: implications for mantle fluids along the Tanlu deep fault zone. Geochemical Journal, 36(3): 197～208.
[29]	Matsumoto T, Honda M, Mcdougall I, O′Reilly S Y. 1998. Noble dases in anhydrous iherzolites from the Newer Volcanics, southeastern Australia: a MORB-like reservoir in the subcontinental mantle. Geochimica et Cosmochimica Acta, 62 (4): 2521～ 2533.
[30]	McDougall I, Harrison T M. 1988. Geochronology and thermochronology by the 40Ar-39Ar method. Oxford University Press.
[31]	Niu Shuyin, Li Hongyang, Sun Aiqun. 1996. Multistage evolution and mineralization of mantle plume as exemplified by northern Hebei. Mineral Deposits, 15(4): 298～307.
[32]	Norman D I, Musgrave J A. 1994. N2-Ar-He compositions in fluid inclusions: indicator of fluid source. Geochimica et Cosmochimica Acta, 58(3): 1119～1131.
[33]	Ozima M, Podosek F A. 2002. Noble gas geochemistry. Cambrdge University Press, 1～ 217.
[34]	Viets J G. Hofstra A H, Emsbo P. 1996. Solute compositions of fluid inclusions in sphalerite from North American and EuropeanMississippi Valley-type ore deposits: ore fluid derived fromevaporated seawater. Soc. Econ. Geol. Spec. Pub., 4: 465～482.73.Wang Baode, Niu Shuyin, Sun Aiqun, Li Hongyaug. 2003. Helium and argon and lead isotopes in gold deposits and it′s the source of ore-forming materials in North Heibei Province. Geochimica, 32 (2): 181～ 187.
[35]	Wang Denghong, Yu Jinjie, Yang Jinamin, Yan Shenghao, Xue Chunji, Chen Yuchuan. 2002. Inert gas isotopic studies anddynamic background of Cenozoic ore-forming process in China.Mineral deposits, 21 (2): 179 ～ 186 (in Chinese with English abstract).
[36]	Wi Xinglin. 1996. The geological characteristics of Jinshan ductile shear zone-type gold deposit in Jiangxi. Geology of Jiangxi, 10 (1): 52～64 (in Chinese with English abstract).
[37]	Winckler G, Kipfer R, Aeschbach-Hertig W, Botz R, Schmidt M, Schuler S, Bayer R. 2000. Sub sea floor boiling of Red Sea Brines: new indication from noble gas data. Geochimica etCosmochimica Acta, 64(9): 1567～1575.
[38]	Worden R. 1996. Controls on halogen concentrations in sedimentary formation waters. Mineralogical Magazine, 60: 259～274.
[39]	Xu Yongchang. 1998. Noble gases chemistry in gas. Beijign:Science Publishing House, 1～10 (in Chinese with English abstract).
[40]	Yao Dexian, Li Zhaolin, Ye Yinfa, Zhang Shouji. 1996. Geology and genesis of the Baoshan sliver (antimony) deposit in Eastern Guangdong. Mineral Deposits, 15 (2): 123 ～ 132 (in Chinese with English abstract).
[41]	ZhangLC, ShenYC, LiHM, ZengQD, LiGM, LiuTB. 2002. Helium and argon isotopic compositions of fluid inclusions and tracing to the source of ore-forming fluids for Jiaodong gold deposits. Acta Petrologica Sinica, 18(4): 559～565.
[42]	Zheng Qingnian. 1996. Main geological characteristic of a submarine basic volcanic effusive sliver antimony deposit. Mineral Deposits, 15(3): 238～248 (in Chinese with English abstract).
[43]	Zhu Qingzu. 1992. The study on Jinshan gold deposit in Jiangxi Province. Geology of East China, (2): 56～62 (in Chinese with English abstract).
[44]	胡瑞忠,毕献武,TurnerG,等.1997.马厂箐铜矿床黄铁矿流体包裹体He-Ar同位素体系.中国科学(D辑),27(6):503～508.
[45]	毛景文,李红艳,王登红,等.1998.华南地区多金属矿床分布与地幔柱关系.矿物岩石地球化学通报,17(2):130～1 32.
[46]	姚得贤,李兆麟,叶银法,张守基.1996.粤东宝山银矿床地质特征和成因.矿床地质,1 5(2):123～132.
[47]	曾志刚,秦蕴珊,翟世奎.2000.大西洋中脊TAG热液区硫化物中流体包裹体的He Ne Ar同位素组成.中国科学(D辑),30(6):628～633.
[48]	张连昌,沈远超,李厚民,等.2002.胶东地区金矿床流体包裹体的He、Ar同位素组成及成矿流体来源示踪.岩石学报,18(4):559 ～565.
[49]	朱庆祖.1 992.对江西金山金矿床的成因认识.华东矿产地质,(2):56～62.
[50]	郑庆年.1 996一个海底基性火山喷流成因地银锑矿床地质特征.矿床地质,15(3):238～248.
[51]	Andrew J N. 1985. The isotopic composition of radiogenic helium and its use to study groundwater movement in confined aquifers. Chemical Geology, 49: 339～ 351.
[52]	Allegre C J, Staudacher T, Srada P. 1986. Rare gas systematics: formation of the atmosphere, evolution and structure of theEarth\'s mantle. Earth and Planetary Science Letters, 81: 127～ 150.
[53]	Banks D A, Green R A, Cliff A, Yardley B W D. 2000. Chlorine isotopes in fluid inclusions : determination of the origins of salinity in magmatic fluids. Geochimiea et Cosmochimica Acta, 64 (10): 1785～1789.
[54]	Bohlke J K, Kirschbaum C, Irwin J J. 1989. Simultaneous analysis of noble gases and halogens in neutron-irradiated quartz veins by use of a laser microprobe noble gas mass spectrometer. In: Shanks W C, Criss R E, ed. New Frontiers in Stable Isotope Research: Laser Probes, Ion Probes, and Small Sample Analysis. U S Geol. Syrv. Bull., 1890: 61～88.
[55]	Bohlke J K, Irwin J J. 1992. Laser microprobe analyses of Cl, Br, I and K in fluid inclusions: implications for the sources of salinity in some abcient hydrothermal fluids. Geochimica et Cosmochimica Acta, 56: 203～225.
[56]	Burnard P G, Hu Ruizhong, Turner G, Bi X W. 1999. Mantle, crustal and atmospheric noble gases in Ailaoshan gold deposits, Yunnan province, China. Geochimica et Cosmochimica Acta, 63 (10): 1595～1604.
[57]	Dickin A P. 1995. Radiogenic Isotope Geology. Cambridge University Press.
[58]	Goldfarb R J, Phillips G N, Nockleberg W J. 1998. Tectonic settingsynorogenic gold deposits of the Pacific Rim. Ore Geology Review, 13: 185～213.
[59]	Hoke L, Poreda R, Reay A, Weaver S D. 2000. The subcontinental mantle beneath southern New Zealand, characteristed by heliumisotopes in intraplate basalts and gas-rich springs. Geochimica et Cosmochimica Acta, 64(14): 2489～2507.
[60]	Hu Ruizhong, Burnard P G, Turner G, Bi Xianwu. 1998. Helium and Argon isotope systematics in fluid inclusions of Machangqing copper deposit in west Yunnan province, China. Chemical Geology, 146: 55～63.
[61]	Hua Renmin, Mao Jingwen. 1999. A preliminary discussion on the Mesozoic metallogenic explosion in east China. Mineral Deposits, 18(4): 299～308 (in Chinese with English abstract).
[62]	Hua Renmin, Li Xiaofeng, Zhang Kaiping, Qiu Detong, Yang Genggen. 2002. Geochemical features of ore-forming fluid in the Jinshan gold deposit, Jiangxi Province. Journal of Nanjing Univwesity (Natural Science), 38 (3): 408 ～ 417 (in Chinesewith English abstract).
[63]	Irwin J J, Reynolds J H. 1995a. Multiple stages of fluid trapping in the Stripa granite indicated by laser microprobe analysis of Cl, Br, I, K, U and nucleogenic plus radiogenic Ar, Kr and Xe in fluid inclusions. Geochimica et Cosmochimica Acta, 59 (2): 355 ～ 369.
[64]	Irwin J J, Roedder E. 1995b. Diverse origins of fluid in magmatic inclusions at bingham (Utah, USA), Butte (Montain, USA),St. Austell (Cornwall, UK), and Ascension Island ( mid Atlantic, UK), indicated by laser microproble analysis of Cl, K, Br, I, Ba + Te, U, Ar, Kr, and Xe. Geochimica et Cosmochimica Acta, 59(2): 295～312.
[65]	Johnson L H, Burgess R, Turner G, Milledge H J, Harris J W. 2000. Noble gas and halogen geochemistry of mantle fluids: comparison of African and Canadian diamonds. Geochimica et Cosmochimica Acta, 64(4): 717～732.
[66]	Kendrick M A, Burgess R, Pattrick R A, Turner G. 2001. Fluidinclusion noble gas and galgen evidence on the origin of CuPorphyry mineralizing fluids. Geochimica et Cosmochimica Acta, 65(16): 2651～2668.
[67]	Li Xiaofeng, Hua Renmin, Yang Fenggen, Gao Jianfeng. 2002. K-Ar age of illite in JInshan gold deposit and its implication to thetectonic evolution of northeastern Jiangxi Province. Acta Petrologica et Mineralogica, 21 (1): 49 ～ 54 (in Chinese withEnglish abstract ).
[68]	MacCaig A M, Tritlla J, Banks D A. 2000. Fluid mixing and recycling during Pyrenean thrusting: evidenve from fluid inclusion halogen ratios. Geochimica et Cosmochimica Acta, 64(19): 3395 ～3412.
[69]	Marty B, Jambon A, Sano Y. 1989. Helium isotope and CO2 in volcanic gases in Janpan. Chemical Geology, 76: 25～40.
[70]	Mao Jingwen, Li Hongyan, Wang Denghong. 1998. Ore-forming of Mesozoic polymetallic deposits in South China and its relationship with mantle plume Bulletin of Mineralogy. Petrology and Geochemistry, 17 (2): 130 ～ 132 (in Chinese with Englishabstract ).
[71]	Mao Jingwen, Hua Renmin, Li Xiaobo. 1999. A preliminary study of large scale metallogenesiis and large clusters of mineral deposits. Mineral Deposits, 19 (4): 289 ～ 293 (in Chinese with English abstract).
[72]	Mao Jingwen, Wei Jiaxiu. 2000a. Helium and Argon isotope components of fluid inclusion and tracing to the metallogenic fluids in the Dashuogou tellurium deposit of Sichuan Province. Acta Geoscientia Sinica, 21 (1): 58～61 (in Chinese with English abstract).
[73]	Mao Jingwen, Wang Zhiliang. 2000b. A preliminary study of time limita and geodynamic setting of large-scale metallogeny in East China. Mineral Deposits, 19(4): 289～296 (in Chinese with English abstract).
[74]	Pedroni A, Hammerschmidi K, Friedrichsen H. 1999. He, Ne, Ar, and C isotope systematics of geothermal emanations in the Lesser Antilles Islands Arc. Geochimica et Cosmochimica Acta, 63 (3/ 4): 515～532.
[75]	Polya D A, Foxford K A, Stuart F, Boyce A, Fallick E F. 2000. Evolution and paragenetic context of low δD hydrothermal fluids from the Panaaqueira W-Sn deposit, Portugal: new evidence from microthermometric, stable isotope, noble gas and halogen analyses of primary fluid inclusions. Geochimica et Cosmochimica Acta, 64(19): 3357～3371.
[76]	Simmons S F, Sawkins F J, Schlutter D J. 1987. Mantle derived helium in two Peruvian hydrothermal ore deposits. Nature, 329: 429～432.
[77]	Stuart F M, Turner G, Duckworth R G. , Fallick A E. 1994. Helium isotopes as tracers of trapped hydrothermal fluids in ocean-floor sulfides. Geology, 22: 823～826.
[78]	Stuart F M, Burnard P G, Taylor R P, Turner G. 1995. Resolving mantle and crustal contributions to ancient hydrothermal fluids: He-Ar isotopes in fluid inclusions from Dae Hwa W-Mo mineralization, South Korea. Geochimica et Cosmochimica Acta, 59(22): 4663～4671.
[79]	Sun Xiaoming, Morman David I, Sun Kai, Chen Jingde, Chen Binghui. 2000. A new indicator of ore-forming fluids source: N2Ar-He compositions in fluid inclusions. Geological Review, 46 (1): 99～104 (in Chinese with English abstract).
[80]	Torgersen T, Jenkins W J. 1982. Helium isotopes in geothermal systems: Iceland, The Geysers, Raft river and Steamboat Springs. Geochimica et Cosmochimica Acta, 46: 739 ～ 748.
[81]	Turner G, Stuart F. 1992a. Helium/ heat ratios and deposition temperatures of sulphides from the ocean floor. Nature, 357 (18): 581～583.
[82]	Turner G, Wang S S. 1992b. Excess argon, crustal fluid and apparent isochrones from crushing K feldspar. Earth Planet Sci. Lett,110: 193～211.

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