西藏多龙超大型铜(金)矿集区成矿模式与找矿方向
|
摘要
本文通过对比研究,认为多龙矿集区内斑岩型、隐爆角砾岩筒型、浅成低温热液型矿床等三种共生矿床类型属同一岩浆-热液成矿系统的产物,空间上分别位于这一成矿系统低位域、低位域顶部及高位域,其空间相对位置可作为成矿系统内相关类型矿床的勘查找矿标志。基于深部岩体的识别和矿田构造格架的建立,完善了多龙矿集区深部岩浆在地壳浅部就位和成矿的过程,构建起多龙矿集区区域成矿模式。根据该成矿模式,多龙矿集区尕尔勤、地堡那木岗及矿集区南东部等地区是下一步开展矿产勘查的有利区块;矿体形成后可能被成矿后构造错断,这一认识可以作为寻找深部隐伏矿体的勘查依据。最后指出这一成矿模式对区域找矿方向的指示意义,认为区域找矿预测中应加强班公湖-怒江成矿带中生代古陆边缘岩浆弧型斑岩-浅成低温热液成矿系统剥蚀与保存机制的研究;用于识别深部岩体的非常规找矿新方法可应用于斑岩相关矿床的评价。
By comparing,studying on the coexist deposit types in the Duolong district,which can be divided into the porphyry type,the crypto-explosive breccia pipe type and the epithermal type,respectively,this paper shows that all of them belong to a same magmatic-hydrothermal system. The porphyry type deposit is located in the lower domain of the system,the crypto-explosive breccia pipe type deposit is located in the top of lower domain and the epithermal type deposit is located in the higher domain respectively. The relative ubieties among them can be regarded as an indicator for exploration. Based on the recognition of precursor plutons and construction of the ore field structure framework in Duolong district,the evolution process of the magma and its mineralization in this district have been rebuilt,which shows that the magma comes from deep emplace to the shallow crust to form the ore bodies.Furthermore,a regional metallogenic model for this district has been reconstructed. Based on this model,some favorable mineralize districts,such as Gaerqin,Dibaonamugang and southeastern part of this district,have been proposed. The faults formed after mineralization may help to identify the missed bind ore body. Erosion and preservation of porphyry related orebody are important for the study on regional metallogenic regularity,and the methods that identification of precursor plutons can be applied for exploration of porphyry deposits.
By comparing,studying on the coexist deposit types in the Duolong district,which can be divided into the porphyry type,the crypto-explosive breccia pipe type and the epithermal type,respectively,this paper shows that all of them belong to a same magmatic-hydrothermal system. The porphyry type deposit is located in the lower domain of the system,the crypto-explosive breccia pipe type deposit is located in the top of lower domain and the epithermal type deposit is located in the higher domain respectively. The relative ubieties among them can be regarded as an indicator for exploration. Based on the recognition of precursor plutons and construction of the ore field structure framework in Duolong district,the evolution process of the magma and its mineralization in this district have been rebuilt,which shows that the magma comes from deep emplace to the shallow crust to form the ore bodies.Furthermore,a regional metallogenic model for this district has been reconstructed. Based on this model,some favorable mineralize districts,such as Gaerqin,Dibaonamugang and southeastern part of this district,have been proposed. The faults formed after mineralization may help to identify the missed bind ore body. Erosion and preservation of porphyry related orebody are important for the study on regional metallogenic regularity,and the methods that identification of precursor plutons can be applied for exploration of porphyry deposits.
引文
Arribas A Jr,Hedenquist JW,Itaya T,Okada T,Concepción RA and Garcia JS Jr.1995.Contemporaneous formation of adjacent porphyry and epithermal Cu-Au deposits over 300ka in northern Luzon,Philippines.Geology,23(4):337-340
Cao MJ,Qin KZ and Li JL.2011.Research progress on the flat subduction and its metallogenic effect,two cases analysis and some prospects.Acta Petrologica Sinica,27(12):3727-3748(in Chinese with English abstract)
Chen HA,Zhu XP,Ma DF,Huang HX,Li GM,Li YB,Li YC,Wei LJand Liu CQ.2013.Geochronology and geochemistry of the Bolong porphyry Cu-Au deposit,Tibet and its mineralizing significance.Acta Geologica Sinica,87(10):1593-1611(in Chinese with English abstract)
Chen HQ,Qu XM and Fan SF.2015.Geological characteristics and metallogenic-prospecting model of Duolong porphyry copper-gold ore concentration area in Gerze County,Tibet.Mineral Deposits,34(2):321-332(in Chinese with English abstract)
Cooke DR,Hollings P and Walshe JL.2005.Giant porphyry deposits:Characteristics,distribution,and tectonic controls.Economic Geology,100(5):801-818
Deng JF,Dai SQ,Zhao HL and Du JG.2002.Recognition of magmaticfluid-metallogenic systems and subsystems in Tongling Cu-Au(Ag)ore-forming area.Mineral Deposits,21(4):317-322(in Chinese with English abstract)
Du GS,Feng XL,Chen FZ,Liu BT and Yong YY.1993.The Geology of the Gold Deposits in Xizang.Chengdu:Southwest Jiaotong University Press,1-117(in Chinese with English abstract)
Duan ZM,Li GM,Zhang H and Duan YY.2013.The formation and its geologic significance of Late Triassic-Jurassic accretionary complexes and constraints on metallogenic and geological settings in Duolong porphyry copper gold ore concentration area,northern Bangong CoNujiang suture zone,Tibet.Geological Bulletin of China,32(5):742-750(in Chinese with English abstract)
Fan JJ,Li XK,Zhang TY,Xu W,Wang M and Xie CM.2017.Reconstructing in Space and Time the Closure of the Middle and Western Segments of the Bangong-Nujiang Ocean.Beijing:Geological Publishing House,1-225(in Chinese)
Fang X,Tang JX,Song Y,Yang C,Ding S,Wang YY,Wang Q,Sun XG,Li YB,Wei LJ,Zhang Z,Yang HH,Gao K and Tang P.2015.Formation epoch of the south tiegelong supelarge epithermal Cu(Au-Ag)deposit in Tibet and its geological implications.Acta Geoscientica Sinica,36(2):168-176(in Chinese with English abstract)
Gao K,Tang JX,Song Y,Liu ZB,Fang X,Yang HH,Wang Q,Lin Band Song JL.2016.Fluid inclusion study of the cryptoexplosive breccias in the Naruo Cu(Au)deposit of Tibet.Geology and Exploration,52(5):815-825(in Chinese with English abstract)
Geng QR,Zhang Z,Peng ZM,Guan JL,Zhu XP and Mao XC.2016.Jurassic-Cretaceous Granitoids and related tectono-metallogenesis in the Zapug-Duobuza arc,Western Tibet.Ore Geology Reviews,77:163-175
Geng QR,Zhang Z,Guan JL,Peng ZM,Zhu XP and Ma DF.2016.The Geological Settings of the Bangongco-Nujiang Metallogenic Belt,Tibet.Wuhan:China University of Geosciences Press,1-194(in Chinese)
He W,Lin B,Yang HH,Fang X,Song YX,Wei SG and Hou L.2017.Fluid inclusion feature and its internal relationship with mineralization and epithermal alteration of the Tiegelongnan Cu-Au deposit.Acta Geoscientica Sinica,38(5):638-650(in Chinese with English abstract)
Hedenquist JW and Lowenstern JB.1994.The role of magmas in the formation of hydrothermal ore deposits.Nature,370(6490):519-527
Hollings P,Baker MJ,Orovan E and Rinne M.2018.A special issue devoted to porphyry and epithermal deposits of the southwest pacific:An introduction.Economic Geology,113(1):1-6
Hou ZQ,Pan XF,Yang ZM and Qu XM.2007.Porphyry Cu-(Mo-Au)deposits no related to oceanic-slab subduction:Examples from Chinese porphyry deposits in continental settings.Geoscience,21(2):332-351(in Chinese with English abstract)
Hou ZQ and Yang ZM.2009.Porphyry deposits in continental settings of China:Geological characteristics,magmatic-hydrothermal system,and metallogenic model.Acta Geologica Sinica,83(12):1779-1817(in Chinese with English abstract)
Hou ZQ.2010.Metallogensis of continental collision.Acta Geologica Sinica,84(1):30-58(in Chinese with English abstract)
Hou ZQ,Yang ZM,Lu YJ,Kemp A,Zheng YC,Li QY,Tang JX,Yang ZS and Duan LF.2015.A genetic linkage between subduction-and collision-related porphyry Cu deposits in continental collision zones.Geology,43(3):247-250
Jiang SQ,Sun XG,Yang TZ,Li L,Yin XB,Wang C and Pan YB.2014.Integrated anomaly model and metallogenic prediction of the Duolong porphyry copper-gold ore concentration area in northern Tibet.Geology in China,41(2):497-509(in Chinese with English abstract)
Kelley KD,Lang JR and Eppinger RG.2013.The giant pebble Cu-AuMo deposit and surrounding region,Southwest Alaska:Introduction.Economic Geology,108(3):397-404
Kerrich R,Goldfarb RJ,Groves DI and Garwin S.2000.The geodynamics of the world-class gold deposits:Characteristics,spacetime distribution and origins.In:Hagemann SG and Brown PE(eds.).Gold in 2000.Reviews in Economic Geology.501-551
Klemm LM,Pettke T,Heinrich CA and Campos E.2007.Hydrothermal evolution of the elteniente deposit,Chile:Porphyry Cu-Mo ore deposition from low-salinity magmatic fluids.Economic Geology,102(6):1021-1045
Kouzmanov K,Pettke T,Heinrich CA,Riemer S,Ivascanu PM and Rosu E.2003.The porphyry to epithermal transition in a magmatichydrothermal system:Valea Morii copper-gold deposit,Apuseni Mts,Romania.In:Proceedings of the 7thBiennial SGA Meeting.Athens,Greece:Millpress,303-306
Li C.2016.Geology of Qiangtang,Tibet.Beijing:Geological Publishing House,1-681(in Chinese)
Li F,Wang YH,Jiao YJ,Zhu XP and Ma DF.2016.Geophysical anomaly characteristics and prospecting direction of Duolong mining area.Progress in Geophysics,31(1):217-224(in Chinese with English abstract)
Li GM,Li JX,Qin KZ,Zhang TP and Xiao B.2007.High temperature,salinity and strong oxidation ore-forming fluid at Duobuza gold-rich porphyry copper deposit in the Bangonghu tectonic belt,Tibet:Evidence from fluid inclusions.Acta Petrologica Sinica,23(5):935-952(in Chinese with English abstract)
Li GM,Duan ZM,Liu B,Zhang H,Dong SL and Zhang L.2011.The discovery of Jurassic accretionary complexes in Duolong area,northern Bangong Co-Nujiang suture zone,Tibet,and its geologic significance.Geological Bulletin of China,30(8):1256-1260(in Chinese with English abstract)
Li GM,Li JX,Qin KZ,Duo J,Zhang TP,Xiao B and Zhao JX.2012.Geology and hydrothermal alteration of the Duobuza gold-rich porphyry copper district in the Bangongco metallogenetic belt,Northwestern Tibet.Resource Geology,62(1):99-118
Li GM,Zhang XN,Qin KZ,Sun XG,Zhao JX,Yin XB,Li JX and Yuan HS.2015.The telescoped porphyry-high sulfidation epithermal Cu(-Au)mineralization of Rongna deposit in Duolong ore cluster at the southern margin of Qiangtang Terrane,central Tibet:Integrated evidence from geology,hydrothermal alteration and sulfide assemblages.Acta Petrologica Sinica,31(8):2307-2324(in Chinese with English abstract)
Li JX.2008.Geochronology,petrology and metallogeneses of high oxidized magma-hydrothermal fluid of Duobuza gold-rich porphyry copper deposit in Bangonghu belt,Northern Tibet.Ph.D.Dissertation.Beijing:Institute of geology and geophysics,Chinese academy of sciences,1-224(in Chinese with English summary)
Li JX,Qin KZ,Li GM,Xiao B,Zhao JX and Chen L.2011.Magmatichydrothermal evolution of the cretaceous Duolong gold-rich porphyry copper deposit in the Bangongco metallogenic belt,Tibet:Evidence from U-Pb and40Ar/39Ar geochronology.Journal of Asian Earth Sciences,41(6):525-536
Li JX,Qin KZ,Li GM,Xiao B,Zhao JX,Cao MJ and Chen L.2012.The Nadun high sulphidation epithermal deposit with paragenesis of Duolong porphyry Cu-Au Deposit in Bangonghu Belt,Tibet.Mineral Deposits,31(Suppl.):991-992(in Chinese)
Li JX,Qin KZ,Li GM,Xiao B,Zhao JX,Cao MJ and Chen L.2013.Petrogenesis of ore-bearing porphyries from the Duolong porphyry CuAu deposit,central Tibet:Evidence from U-Pb geochronology,petrochemistry and Sr-Nd-Hf-O isotope characteristics.Lithos,160-161:216-227
Li JX,Qin KZ,Li GM,Richards JP,Zhao JX and Cao MJ.2014.Geochronology,geochemistry,and zircon Hf isotopic compositions of mesozoic intermediate-felsic intrusions in central Tibet:Petrogenetic and tectonic implications.Lithos,198-199:77-91
Li JX,Qin KZ,Li GM,Evans NJ,Zhao JX,Cao MJ and Huang F.2016.The Nadun Cu-Au mineralization,central Tibet:Root of a high sulfidation epithermal deposit.Ore Geology Reviews,78:371-387
Li JX,Qin KZ,Li GM,Evans NJ,Zhao JX,Yue YH and Xie J.2018.Volatile variations in magmas related to porphyry Cu-Au deposits:Insights from amphibole geochemistry,Duolong district,central Tibet.Ore Geology Reviews,95:649-662
Li L and Zheng C.1993.Modern Metallogenic Theory and Research Methods.Shenyang:Northeast Institute of Technology Press,1-203(in Chinese)
Li SM.2015.Northward Subduction of Bangong-Nujiang Tethys:Insight from late Jurassic magmatic rocks in Western Qiangtang Terrane.Master Degree Thesis.Beijing:China University of Geosciences,1-82(in Chinese with English summary)
Li WC,Xue YX,Lu YX,Xue SR and Ren ZJ.2014.Metallogenic Regularity for Porphyry Copper Deposits in China and Its Prospecting Direction.Beijing:Geological Publishing House,1-411(in Chinese)
Li WL.2011.Advances in study of shallow fertile magma chambers below porphyry copper deposits.Mineral Deposits,30(1):149-155(in Chinese with English Abstract)
Lin B,Chen YC,Tang JX,Song Yang,Wang Q,Feng J,Li YB,Tang XQ,Lin X,Liu ZB,Wang YY,Fang X,Yang C,Yang HH,Fei F,Li L and Gao K.2016.Zircon U-Pb geochronology and Hf isotopic composition of the ore bearing porphyry in Dibao Cu(Au)deposit,Duolong ore concentration area,Xizang(Tibet),and its geological significance.Geological Review,62(6):1565-1578(in Chinese with English abstract)
Lin B,Chen YC,Tang JX,Wang Q,Song Y,Yang C,Wang WL,He W and Zhang LJ.2017a.40Ar/39Ar and Rb-Sr ages of the Tiegelongnan porphyry Cu-(Au)deposit in the Bangong Co-Nujiang metallogenic belt of Tibet,China:Implication for generation of super-large deposit.Acta Geologica Sinica,91(2):602-616
Lin B,Tang JX,Chen YC,Song Y,Hall G,Wang Q,Yang C,Fang X,Duan JL,Yang HH,Liu ZB,Wang YY and Feng J.2017b.Geochronology and genesis of the Tiegelongnan porphyry Cu(Au)deposit in Tibet:Evidence from U-Pb,Re-Os dating and Hf,S,and H-O isotopes.Resource Geology,67(1):1-21
Lin B.2018.Alteration and mineralization of tiegelongnan Giant Cu(Au,Ag)deposit in Tibet.Ph.D.Dissertation.Beijing:Chinese Academy of Geologecal Sciences,1-153(in Chinese with English summary)
Lin B,Chen YC,Tang JX,Song Y,Wang Q,He W,Liu ZB,Wang YY,Li YB,Yang C,Yang HH,Zhang LJ and Li YB.2018.Geology,alteration and mineralization of Tiegelongnan giant Cu(Au,Ag)deposit,Tibet.Mineral Deposits,37(5):917-939(in Chinese with English abstract)
Lin B,Tang JX,Chen YC,Baker M,Song Y,Yang HH,Wang Q,He W and Liu ZB.2019.Geology and geochronology of Naruo large porphyry-breccia Cu deposit in the Duolong district,Tibet.Gondwana Research,66:168-182
Longo AA,Dilles JH,Grunder AL and Duncan R.2010.Evolution of calc-alkaline volcanism and associated hydrothermal gold deposits at Yanacocha,Peru.Economic Geology,105(7):1191-1241
Mc Millan WJ and Panteleyev A.1980.Ore deposit models-1.Porphyry copper deposits.Geoscience Canada,7(2):337-389
PerellóJ,Cox D,Garamjav D,Sanjdorj S,Diakov S,Schissel D,Munkhbat T and Oyun G.2001.Oyu tolgoi,mongolia:SiluroDevonian porphyry Cu-Au-(Mo)and high-sulfidation Cu mineralization with a cretaceous chalcocite blanket.Economic Geology,96(6):1407-1428
Pirajno F.1992.Hydrothermal Mineral Deposits:Principles and Fundamental Concepts for the Exploration Geologist.Berlin,Heidelberg:Springer,1-709
Pirajno F.2009.Hydrothermal Processes and Mineral Systems.Dordrecht:Springer,1-1250
Qu XM and Xin HB.2006.Ages and tectonic environment of the Bangong Co porphyry copper belt in western Tibet,China.Geological Bulletin of China,25(7):792-799(in Chinese with English Abstract)
Richards JP.2003.Tectono-magmatic precursors for porphyry Cu-(MoAu)deposit formation.Economic Geology,98(8):1515-1533
Richards JP.2005.Cumulative factors in the generation of giant calcalkaline porphyry Cu deposits.In:Porter TM(ed.).Super Porphyry Copper and Gold Deposits:A Global Perspectiv.Adelaide:PGC Publishing,7-25
Richards JP and Mumin AH.2013.Lithospheric fertilization and mineralization by arc magmas:Genetic links and secular differences between porphyry copper±molybdenum±gold and magmatichydrothermal iron oxide copper-gold deposits.In:Colpron M,Bissig T,Rusk BG and Thompson JFH(eds.).Tectonics,Metallogeny,and Discovery:The North American Cordillera and Similar Accretionary Settings.Littleton:Special Publications of the Society of Economic Geologist,277-299
Richards JP.2015.Tectonic,magmatic,and metallogenic evolution of the Tethyan orogen:From subduction to collision.Ore Geology Reviews,70:323-345
Searle MP,Robb LJ and Gardiner NJ.2016.Tectonic processes and metallogeny along the Tethyan mountain ranges of the Middle East and South Asia(Oman,Himalaya,Karakoram,Tibet,Myanmar,Thailand,Malaysia).In:Richards JP(ed.).Tectonics and Metallogeny of the Tethyan Orogenic Belt.Littleton,CO:Society of Economic Geologists,301-327
She HQ,Li JW,Feng CY,Ma DF,Pan GT and Li GM.2006.The high-temperature and Hypersaline fluid inclusions and its implications to the metallogenesis in Duobuza porphyry copper deposit,Tibet.Acta Geologica Sinica,80(9):1434-1447(in Chinese with English abstract)
She HQ,Li JW,Ma DF,Li GM,Zhang DQ,Feng CY,Qu WJ and Pan GT.2009.Molybdenite Re-Os and SHRIMP zircon U-Pb dating of Duobuza porphyry copper deposit in Tibet and its geological implications.Mineral Deposits,28(6):737-746(in Chinese with English abstract)
Sillitoe RH.1973.The tops and bottoms of porphyry copper deposits.Economic Geology,68(6):799-815
Sillitoe RH.1997.Characteristics and controls of the largest porphyry copper-gold and epithermal gold deposits in the Circum-Pacific region.Australian Journal of Earth Sciences,44(3):373-388
Sillitoe RH.2000.Gold-rich porphyry deposits:Descriptive and genetic models and their role in exploration and discovery.In:Hagemann SG and Brown PE(eds.).Gold in 2000.Reviews in Economic Geology.315-345
Sillitoe RH and Hedenquist JW.2003.Linkages between volcanotectonic settings,ore fluid compositions,and epithermal precious metal deposits.In:Simmons SF and Graham I(eds.).Volcanic,Geothermal,and Ore Forming Fluids:Rulers and Witnesses of Processes within the Earth.Littleton:Special Publications of the Society of Economic Geologist,315-343
Sillitoe RH.2010.Porphyry copper systems.Economic Geology,105(1):3-41
Sillitoe RH.2012.Copper provinces.In:Hedenquist JW,Harris M and Camus F(eds.).Geology and Genesis of Major Copper Deposits and Districts of the World:A Tribute to Richard H.Sillitoe.Littleton:Special Publications of the Society of Economic Geologist,1-18
Simmons SF,White NC and John DA.2005.Geological characteristics of epithermal precious and base metal deposits.In:Hedenquist JW,Thompson JFH,Goldfarb RJ and Richards JP(eds.).Economic Geology One Hundredth Anniversary Volume.Littleton:Society of Economic Geologists,Inc.,485-522
Singer DA,Berger VI and Moring BC.2008.Porphyry Copper Deposits of the World:Database and Grade and Tonnage Models.Reston,Virginia:U.S.Geological Survey,1-45
Song Y,Jiang SH,Bagas L,Li C,Hu JZ,Zhang Q,Zhou W and Ding HY.2016.The geology and geochemistry of Jinchangyu gold deposit,North China Craton:Implications for metallogenesis and geodynamic setting.Ore Geology Reviews,73:313-329
Song Y,Yang HH,Lin B,Liu ZB,Wang Q,Gao K,Yang C and Fang X.2017.The preservation system of epithermal deposits in South Qiangtang terrane of central Tibetan Plateau and its significance:Acase study of the Tiegelongnan superlarge deposit.Acta Geoscientica Sinica,38(5):659-669(in Chinese with English abstract)
Song Y,Yang C,Wei SG,Yang HH,Fang X and Lu HT.2018.Tectonic control,reconstruction and preservation of the Tiegelongnan porphyry and epithermal overprinting Cu(Au)deposit,central Tibet,China.Minerals,8(9):398
Sun J.2015.Magmatism and metallogenesis at Duolong ore district,Tibet.Ph.D.Dissertation.Beijing:China University of Geosciences,1-199(in Chinese with English summary)
Sun J,Mao JW,Beaudoin G,Duan XZ,Yao FJ,Ouyang HG,Wu Y,Li YB and Meng XY.2017.Geochronology and geochemistry of porphyritic intrusions in the Duolong porphyry and epithermal Cu-Au district,central Tibet:Implications for the genesis and exploration of porphyry copper deposits.Ore Geology Reviews,80:1004-1019
Sun J,Mao JW,Yao FJ and Duan XZ.2017.Relation between magmatic processes and porphyry copper-gold ore formation,the Duolong district,central Tibet.Acta Petrologica Sinica,33(10):3217-3238(in Chinese with English abstract)
Tang JX,Sun XG,Ding S,Wang Q,Wang YY,Yang C,Chen HQ,Li YB,Li YB,Wei LJ,Zhang Z,Song JL,Yang HH,Duan JL,Gao K,Fang X and Tang JY.2014a.Discovery of the epithermal deposit of Cu(Au-Ag)in the Duolong ore concentrating area,Tibet.Acta Geoscientia Sinica,35(1):6-10(in Chinese with English abstract)
Tang JX,Wang Q,Yang C,Ding S,Lang XH,Liu HF,Huang Y,Zheng WB,Wang LQ,Gao YM,Feng J,Duan JL,Song Y,Wang YY,Lin B,Fang X,Zhang Z and Yang HH.2014b.Two porphyryepithermal deposit metallogenic subseries in Tibetan Plateau:Practice of“absence prospecting”deposit metallogenic series.Mineral Deposits,33(6):1151-1170(in Chinese with English abstract)
Tang JX,Song Y,Wang Q,Lin B,Yang C,Guo N,Fang X,Yang HH,Wang YY,Gao K,Ding S,Zhang Z,Duan JL,Chen HQ,Su DK,Feng J,Liu ZB,Wei SG,He W,Song JL,Li YB and Wei LJ.2016.Geological characteristics and exploration model of the Tiegelongnan Cu(Au-Ag)deposit:The first ten million tons metal resources of a porphyry-epithermal deposit in Tibet.Acta Geoscientica Sinica,37(6):663-690(in Chinese with English abstract)
Tang JX,Wang Q,Yang HH,Gao X,Zhang ZB and Zou B.2017.Mineralization,exploration and resource potential of porphyry-skarnepithermal copper polymetallic deposits in Tibet.Acta Geoscientia Sinica,38(5):571-613(in Chinese with English abstract)
Teng JW,Yao JJ,Jiang CZ,Yan YF,Yang H,Zhang YQ and Ruan XM.2009.Magmatic rock mass and information for large and superlarge mineral deposits and its ore-prospecting effect in deep crust.Acta Petrologica Sinica,25(5):1009-1038(in Chinese with English abstract)
Uyeda S and Kanamori H.1979.Back-arc opening and the mode of subduction.Journal of Geophysical Research:Solid Earth,84(B3):1040-1061
Wang DB,Jiang SQ and Dong FL.2016.Geological exploration of the Rongna porphyry copper deposit in the Duolong ore concentration area,northern Tibet.Geology in China,43(5):1599-1612(in Chinese with English abstract)
Wang LQ,Pan GT,Ding J and Yao DS.2013.Geological Maps and Instructions for the Qinghai-Tibet Plateau and Its Adjacent Areas(1∶1500000).Beijing:Geological Publishing House,1-288(in Chinese)
Wang Q,Tang JX,Fang X,Lin B,Song Y,Wang YY,Yang HH,Yang C,Li YB,Wei LJ,Feng J and Li L.2015.Petrogenetic setting of andsites in Rongna ore block,Tiegelong Cu(Au-Ag)deposit,Duolong ore concentration area,Tibet:Evidence from zircon U-Pb LA-ICP-MS dating and petrogeochemistry of andsites.Geology in China,42(5):1324-1336(in Chinese with English abstract)
Wang Q.2018.Porphyry copper(gold)system in Duolong district and its metallogenetic regularities.Ph.D.Dissertation.Chengdu:Chengdu University of Technology,1-132(in Chinese with English summary)
Wang S,Zhao YY,Wang A,Li YB,Li XS and Guo S.2017.The study of facieology-mineragraphy,fluid inclusions,and geochemical characteristics and mineralization in Nadun Cu(Au)deposit,Tibet.Acta Geologica Sinica,91(7):1565-1588(in Chinese with English abstract)
Wang WL,Cheng QM,Tang JX,Pubuciren,Song Y,Li YB and Liu ZB.2017.Fractal/multifractal analysis in support of mineral exploration in the Duolong mineral district,Tibet,China.Geochemistry:Exploration,Environment,Analysis,17(3):261-276
Wang YY,Tang JX,Song Y,Lin B,Yang C,Wang Q,Gao K and Ding S.2017.Geochemical characteristics of sulfur and lead isotopes from the superlarge Tiegelongnan copper(gold and silver)deposit,Tibet.Acta Geoscientica Sinica,38(5):627-637(in Chinese with English abstract)
Wang YY.2018.Genesis of Tiegelongnan superlarge copper(gold and silver)deposit in Tibet,China:Mineralogy,alteration and mineralization.Ph.D.Dissertation.Chengdu:Chengdu University of Technology,1-154(in Chinese with English summary)
Wang YY,Tang JX,Song Y,Yang C,Lin B,Wang Q,Sun M,Gao K,Fang X and Yang HH.2018.Characteristics of the main ore minerals in Tiegelongnan porphyry-high sulfidation deposit,Tibet,China.Acta Mineralogica Sinica,38(1):109-122(in Chinese with English abstract)
Wei SG.2017.Study on the early cretaceous magmatism and tectonic dynamic setting of the Duolong Cu mining district in the BangongNujiang metallogenic belt,Tibet.Ph.D.Dissertation.Beijing:China University of Geosciences,1-131(in Chinese with English summary)
Wilkinson JJ.2013.Triggers for the formation of porphyry ore deposits in magmatic arcs.Nature Geoscience,6(11):917-925
Xiao R,Li SR,Zhou S,Chen CL and Lian YQ.2005.Research on Matellogenic Regularities and Prospecting Directions of Gold Deposits at Gaize District,Tibet.Chengdu:Sichuan Science and Technology Press,1-111(in Chinese with English abstract)
Xie GQ,Mao JW,Wang RT,Meng DM,Sun J,Dai JZ,Ren T,Li JBand Zhao HJ.2017.Origin of the Lengshuigou porphyry-skarn Cu deposit in the Zhashan district,South Qinling,central China,and implications for differences between porphyry Cu and Mo deposits.Mineralium Deposita,52(4):621-639
Xie GQ,Mao JW,Li W,Fu B and Zhang ZY.2018.Granite-related Yangjiashan tungsten deposit,southern China.Mineralium Deposita,1-14,doi:10.1007/s00126-018-0805-5
Yang C,Tang JX,Wang YY,Yang HH,Wang Q,Sun XG,Feng J,Yin XB,Ding S,Fang X,Zhang Z and Li YB.2014.Fluid and geological characteristics researches of southern Tiegelong epithemal porphyry Cu-Au deposit in Tibet.Mineral Deposits,33(6):1287-1305(in Chinese with English abstract)
Yang HH,Tang JX,Song Y,Liu ZB and Lin B.2018.Apatite fission track ages in the Duolong ore district and the uplift time of the Qiangtang terrrane,Tibet.Acta Geologica Sinica,92(1):408-409
Yang Y,Zhang Z,Tang JX,Chen YC,Li YB,Wang LQ,Li JL,Gao K,Wang Q and Yang HH.2015.Mineralization,alteration and vein systems of the Bolong porphyry copper deposit in the Duolong ore concentration area,Tibet.Geology in China,42(3):759-776(in Chinese with English abstract)
Zhang DQ,She HQ,Li DX and Feng CY.2003.The porphyryepithermal metallogenic system in the Zijinshan region,Fujian Province.Acta Geologica Sinica,77(2):253-261(in Chinese with English abstract)
Zhang WL,Yu T,Liu T,Wang D and Xiong YJ.2016.Geochemical characteristics of stream sediment and ore prospecting of the Dibaonamugang orefield in Tibet.Geology and Resources,25(4):356-359(in Chinese with English abstract)
Zhang XN,Li GM,Qin KZ,Lehmann B,Li JX,Zhao JX,Cao MJ and Zou XY.2018.Petrogenesis and tectonic setting of Early Cretaceous granodioritic porphyry from the giant Rongna porphyry Cu deposit,central Tibet.Journal of Asian Earth Sciences,161:74-92
Zhang Z,Chen YC,Tang JX,Li YB,Gao K,Wang Q,Li Z and Li JL.2014.Alteration and vein systems of Duobuza gold-rich porphyry copper deposit,Tibet.Mineral Deposits,33(6):1268-1286(in Chinese with English abstract)
Zhang Z,Fang X,Tang JX,Wang Q,Yang C,Wang YY,Ding S and Yang HH.2017.Chronology,geochemical characteristics of the Gaerqin porphyry copper deposit in the Duolong ore concentration area in Tibet and discussion about the identification of the lithoscaps and the possible epithermal deposit.Acta Petrologica Sinica,33(2):476-494(in Chinese with English abstract)
Zhao YY,Wang A,LüLN,Guo S,Cui YB and Liu Y.2017.The Study on Genetic Models of Typical Deposits and Its Regional Metallogenic Regularity in Bangong Co-Nujiang Metallogenic Belt and Adjacent Areas.Beijing:Geological Publishing House,1-358(in Chinese)
Zhu XP,Chen HA,Ma DF,Huang HX,Li GM,Li YB and Li YC.2011.Re-Os dating for the molybdenite from Bolong porphyry copper-gold deposit in Tibet,China and its geological significance.Acta Petrologica Sinica,27(7):2159-2164(in Chinese with English abstract)
Zhu XP,Chen HA,Ma DF,Huang HX,Li GM,Liu CQ and Wei LJ.2012.40Ar/39Ar dating for K-feldspar from Duobuza porphyry copper-gold deposit in Tibet,China and its geological significance.Geoscience,26(4):656-662(in Chinese with English abstract)
Zhu XP,Chen HA,Liu HF,Ma DF,Li GM,Huang HX,Zhang H,Liu CQ and Wei LJ.2015.Zircon U-Pb ages,geochemistry of the porphyries from the Duobuza porphyry Cu-Au deposit,Tibet and their metallogenic significance.Acta Geologica Sinica,89(3):534-548(in Chinese with English abstract)
曹明坚,秦克章,李继亮.2011.平坦俯冲及其成矿效应的研究进展、实例分析与展望.岩石学报,27(12):3727-3748
陈华安,祝向平,马东方,黄瀚霄,李光明,李玉彬,李玉昌,卫鲁杰,刘朝强.2013.西藏波龙斑岩铜金矿床成矿斑岩年代学、岩石化学特征及其成矿意义.地质学报,87(10):1593-1611
陈红旗,曲晓明,范淑芳.2015.西藏改则县多龙矿集区斑岩型铜金矿床的地质特征与成矿-找矿模型.矿床地质,34(2):321-332
邓晋福,戴圣潜,赵海玲,杜建国.2002.铜陵Cu-Au(Ag)成矿区岩浆-流体-成矿系统和亚系统的识别.矿床地质,21(4):317-322
杜光树,冯孝良,陈福忠,刘宝田,雍永源.1993.西藏金矿地质.成都:西南交通大学出版社,1-117
段志明,李光明,张晖,段瑶瑶.2013.西藏班公湖-怒江缝合带北缘多龙矿集区晚三叠世-侏罗纪增生杂岩结构及其对成矿地质背景的约束.地质通报,32(5):742-750
范建军,李兴奎,张天羽,许伟,王明,解超明.2017.班公湖-怒江洋中西段汇聚消亡时空重建.北京:地质出版社,1-225
方向,唐菊兴,宋扬,杨超,丁帅,王艺云,王勤,孙兴国,李玉彬,卫鲁杰,张志,杨欢欢,高轲,唐攀.2015.西藏铁格隆南超大型浅成低温热液铜(金、银)矿床的形成时代及其地质意义.地球学报,36(2):168-176
高轲,唐菊兴,宋扬,刘治博,方向,杨欢欢,王勤,林彬,宋俊龙.2016.西藏拿若铜(金)矿床隐爆角砾岩流体包裹体研究.地质与勘探,52(5):815-825
耿全如,张璋,关俊雷,彭智敏,祝向平,马东方.2016.西藏班公湖-怒江成矿带成矿地质.武汉:中国地质大学出版社,1-194
贺文,林彬,杨欢欢,方向,宋英昕,韦少港,侯淋.2017.西藏铁格隆南Cu-Au矿床成矿流体特征及与矿化蚀变的内在联系.地球学报,38(5):638-650
侯增谦,潘小菲,杨志明,曲晓明.2007.初论大陆环境斑岩铜矿.现代地质,21(2):332-351
侯增谦,杨志明.2009.中国大陆环境斑岩型矿床:基本地质特征、岩浆热液系统和成矿概念模型.地质学报,83(12):1779-1817
侯增谦.2010.大陆碰撞成矿论.地质学报,84(1):30-58
江少卿,孙兴国,杨铁铮,李丽,印贤波,王策,潘燕兵.2014.藏北多龙斑岩铜金矿集区综合信息找矿模型研究.中国地质,41(2):497-509
李才.2016.羌塘地质.北京:地质出版社,1-681
李富,王永华,焦彦杰,祝向平,马东方.2016.多龙矿集区物探异常特征及找矿方向.地球物理学进展,31(1):217-224
李光明,李金祥,秦克章,张天平,肖波.2007.西藏班公湖带多不杂超大型富金斑岩铜矿的高温高盐高氧化成矿流体:流体包裹体证据.岩石学报,23(5):935-952
李光明,段志明,刘波,张晖,董随亮,张丽.2011.西藏班公湖-怒江结合带北缘多龙地区侏罗纪增生杂岩的特征及意义.地质通报,30(8):1256-1260
李光明,张夏楠,秦克章,孙兴国,赵俊兴,印贤波,李金祥,袁华山.2015.羌塘南缘多龙矿集区荣那斑岩-高硫型浅成低温热液Cu-(Au)套合成矿:综合地质、热液蚀变及金属矿物组合证据.岩石学报,31(8):2307-2324
李金祥.2008.班公湖带多不杂超大型富金斑岩铜矿床的成岩成矿年代学、岩石学及高氧化岩浆-流体-成矿作用.博士学位论文.北京:中国科学院地质与地球物理研究所,1-224
李金祥,秦克章,李光明,肖波,赵俊兴,曹明坚,陈雷.2012.西藏班公湖带与多龙斑岩Cu-Au矿床共生的拿顿高硫型浅成低温热液Au-Cu矿床.矿床地质,31(增):991-992
李力,郑超.1993.现代成矿理论及研究方法.沈阳:东北工学院出版社,1-203
李世民.2015.班公湖-怒江特提斯洋北向俯冲过程:西羌塘地块晚侏罗世岩浆岩约束.硕士学位论文.北京:中国地质大学,1-82
李文昌,薛迎喜,卢映祥,薛顺荣,任治机.2014.中国斑岩铜矿成矿规律及找矿方向.北京:地质出版社,1-411
李万伦.2011.斑岩铜矿浅部富矿岩浆房研究进展.矿床地质,30(1):149-155
林彬,陈毓川,唐菊兴,宋扬,王勤,冯军,李彦波,唐晓倩,林鑫,刘治博,王艺云,方向,杨超,杨欢欢,费凡,李力,高轲.2016.西藏多龙矿集区地堡Cu(Au)矿床含矿斑岩锆石U-Pb测年、Hf同位素组成及其地质意义.地质论评,62(6):1565-1578
林彬.2018.西藏多龙矿集区铁格隆南巨型斑岩-浅成低温热液铜(金、银)矿床蚀变与成矿.博士学位论文.北京:中国地质科学院,1-153
林彬,陈毓川,唐菊兴,宋扬,王勤,贺文,刘治博,王艺云,李彦波,杨超,杨欢欢,张乐骏,李玉彬.2018.西藏铁格隆南超大型铜(金、银)矿床地质、蚀变与矿化.矿床地质,37(5):917-939
曲晓明,辛洪波.2006.藏西班公湖斑岩铜矿带的形成时代与成矿构造环境.地质通报,25(7):792-799
佘宏全,李进文,丰成友,马东方,潘桂棠,李光明.2006.西藏多不杂斑岩铜矿床高温高盐度流体包裹体及其成因意义.地质学报,80(9):1434-1447
佘宏全,李进文,马东方,李光明,张德全,丰成友,屈文俊,潘桂棠.2009.西藏多不杂斑岩铜矿床辉钼矿Re-Os和锆石U-Pb SHRIMP测年及地质意义.矿床地质,28(6):737-746
宋扬,杨欢欢,林彬,刘治博,王勤,高轲,杨超,方向.2017.青藏高原羌塘地体南缘浅成低温热液成矿系统的保存机制及其重要意义---以铁格隆南超大型矿床为例.地球学报,38(5):659-669
孙嘉.2015.西藏多龙矿集区岩浆成因与成矿作用研究.博士学位论文.北京:中国地质大学:1-199
孙嘉,毛景文,姚佛军,段先哲.2017.西藏多龙矿集区岩浆岩成因与成矿作用关系研究.岩石学报,33(10):3217-3238
唐菊兴,孙兴国,丁帅,王勤,王艺云,杨超,陈红旗,李彦波,李玉彬,卫鲁杰,张志,宋俊龙,杨欢欢,段吉琳,高轲,方向,谭江云.2014a.西藏多龙矿集区发现浅成低温热液型铜(金银)矿床.地球学报,35(1):6-10
唐菊兴,王勤,杨超,丁帅,郎兴海,刘鸿飞,黄勇,郑文宝,王立强,高一鸣,冯军,段吉琳,宋扬,王艺云,林彬,方向,张志,杨欢欢.2014b.青藏高原两个斑岩-浅成低温热液矿床成矿亚系列及其“缺位找矿”之实践.矿床地质,33(6):1151-1170
唐菊兴,宋扬,王勤,林彬,杨超,郭娜,方向,杨欢欢,王艺云,高轲,丁帅,张志,段吉琳,陈红旗,粟登逵,冯军,刘治博,韦少港,贺文,宋俊龙,李彦波,卫鲁杰.2016.西藏铁格隆南铜(金银)矿床地质特征及勘查模型---西藏首例千万吨级斑岩-浅成低温热液型矿床.地球学报,37(6):663-690
唐菊兴,王勤,杨欢欢,高昕,张泽斌,邹兵.2017.西藏斑岩-矽卡岩-浅成低温热液铜多金属矿成矿作用、勘查方向与资源潜力.地球学报,38(5):571-613
滕吉文,姚敬金,江昌洲,闫雅芬,杨辉,张永谦,阮小敏.2009.地壳深部岩浆岩岩基体与大型、超大型金属矿床的形成及找矿效应.岩石学报,25(5):1009-1038
汪东波,江少卿,董方浏.2016.藏北多龙矿集区荣那斑岩铜矿找矿突破的实践.中国地质,43(5):1599-1612
王立全,潘桂棠,丁俊,姚冬生.2013.青藏高原及邻区地质图及说明书(1∶1500000).北京:地质出版社,1-288
王勤,唐菊兴,方向,林彬,宋扬,王艺云,杨欢欢,杨超,李彦波,卫鲁杰,冯军,李力.2015.西藏多龙矿集区铁格隆南铜(金银)矿床荣那矿段安山岩成岩背景:来自锆石U-Pb年代学、岩石地球化学的证据.中国地质,42(5):1324-1336
王勤.2018.西藏多龙矿集区斑岩成矿体系与成矿规律.博士学位论文.成都:成都理工大学,1-132
王松,赵元艺,汪傲,李玉彬,李小赛,郭硕.2017.西藏拿顿铜(金)矿床岩矿相学、流体包裹体和地球化学特征与成矿作用研究.地质学报,91(7):1565-1588
王艺云,唐菊兴,宋扬,林彬,杨超,王勤,高轲,丁帅.2017.西藏铁格隆南超大型Cu(Au、Ag)矿床S、Pb同位素地球化学研究.地球学报,38(5):627-637
王艺云.2018.西藏铁格隆南超大型铜(金、银)矿床成因---矿物学、蚀变与成矿.博士学位论文.成都:成都理工大学,1-154
王艺云,唐菊兴,宋扬,杨超,林彬,王勤,孙渺,高轲,方向,杨欢欢.2018.西藏铁格隆南斑岩-高硫型浅成低温热液矿床主要矿石矿物特征.矿物学报,38(1):109-122
韦少港.2017.西藏班-怒成矿带多龙矿集区早白垩世岩浆作用及动力学背景.博士学位论文.北京:中国地质大学,1-131
肖润,李胜荣,周肃,陈昌伦,连玉秋.2005.西藏改则地区金矿成矿规律和找矿方向研究.成都:四川科学技术出版社,1-111
杨超,唐菊兴,王艺云,杨欢欢,王勤,孙兴国,冯军,印贤波,丁帅,方向,张志,李玉彬.2014.西藏铁格隆南浅成低温热液型-斑岩型Cu-Au矿床流体及地质特征研究.矿床地质,33(6):1287-1305
杨毅,张志,唐菊兴,陈毓川,李玉彬,王立强,李建力,高轲,王勤,杨欢欢.2015.西藏多龙矿集区波龙斑岩铜矿床蚀变与脉体系统.中国地质,42(3):759-776
张德全,佘宏全,李大新,丰成友.2003.紫金山地区的斑岩-浅成热液成矿系统.地质学报,77(2):253-261
张文磊,于涛,刘堂,汪东,熊义军.2016.西藏地堡那木岗矿区水系沉积物地球化学特征及找矿预测.地质与资源,25(4):356-359
张志,陈毓川,唐菊兴,李玉彬,高轲,王勤,李壮,李建力.2014.西藏多不杂富金斑岩铜矿床蚀变与脉体系统.矿床地质,33(6):1268-1286
张志,方向,唐菊兴,王勤,杨超,王艺云,丁帅,杨欢欢.2017.西藏多龙矿集区尕尔勤斑岩铜矿床年代学及地球化学---兼论硅帽的识别与可能的浅成低温热液矿床.岩石学报,33(2):476-494
赵元艺,汪傲,吕立娜,郭硕,崔玉斌,刘妍.2017.西藏班公湖-怒江成矿带及邻区典型矿床成因模型与区域成矿规律.北京:地质出版社,1-358
祝向平,陈华安,马东方,黄瀚霄,李光明,李玉彬,李玉昌.2011.西藏波龙斑岩铜金矿床的Re-Os同位素年龄及其地质意义.岩石学报,27(7):2159-2164
祝向平,陈华安,马东方,黄瀚霄,李光明,刘朝强,卫鲁杰.2012.西藏多不杂斑岩铜金矿钾长石40Ar/39Ar年龄及其地质意义.现代地质,26(4):656-662
祝向平,陈华安,刘鸿飞,马东方,李光明,黄瀚霄,张红,刘朝强,卫鲁杰.2015.西藏多不杂斑岩铜矿斑岩锆石U-Pb年龄、岩石地球化学特征及其成矿意义.地质学报,89(3):534-548
(1)陈红旗,张天平,李玉昌等. 2012.西藏班公湖-怒江成矿带西段铜多金属资源调查成果报告.格尔木:西藏自治区地质矿产勘查开发局第五地质大队
(2)王明,解超明,范建军等. 2016.西藏改则多不扎1∶5万4幅(I44E019022、I44E019023、I44E020022、I44E020023)区域地质调查成果报告.长春:吉林大学地质调查研究院
(1)卫鲁杰,李建力,李玉彬等. 2017.西藏自治区改则县多不杂矿区铜矿普查报告.拉萨:西藏宏达多龙矿业有限公司
(1)李建力,李玉彬,邓时强等. 2017.西藏自治区改则县多不杂西矿区铜矿普查报告.拉萨:西藏宏达多龙矿业有限公司
(1)李彦波,唐菊兴,侯俊富等. 2017.西藏自治区改则县铁格隆南矿区金铜矿普查报告.改则:西藏金龙矿业股份有限公司
(1)李玉昌,唐菊兴,祝向平等. 2016.西藏多龙整装勘查区专项填图与技术应用示范成果报告.格尔木:西藏自治区地质矿产勘查开发局第五地质大队
Cao MJ,Qin KZ and Li JL.2011.Research progress on the flat subduction and its metallogenic effect,two cases analysis and some prospects.Acta Petrologica Sinica,27(12):3727-3748(in Chinese with English abstract)
Chen HA,Zhu XP,Ma DF,Huang HX,Li GM,Li YB,Li YC,Wei LJand Liu CQ.2013.Geochronology and geochemistry of the Bolong porphyry Cu-Au deposit,Tibet and its mineralizing significance.Acta Geologica Sinica,87(10):1593-1611(in Chinese with English abstract)
Chen HQ,Qu XM and Fan SF.2015.Geological characteristics and metallogenic-prospecting model of Duolong porphyry copper-gold ore concentration area in Gerze County,Tibet.Mineral Deposits,34(2):321-332(in Chinese with English abstract)
Cooke DR,Hollings P and Walshe JL.2005.Giant porphyry deposits:Characteristics,distribution,and tectonic controls.Economic Geology,100(5):801-818
Deng JF,Dai SQ,Zhao HL and Du JG.2002.Recognition of magmaticfluid-metallogenic systems and subsystems in Tongling Cu-Au(Ag)ore-forming area.Mineral Deposits,21(4):317-322(in Chinese with English abstract)
Du GS,Feng XL,Chen FZ,Liu BT and Yong YY.1993.The Geology of the Gold Deposits in Xizang.Chengdu:Southwest Jiaotong University Press,1-117(in Chinese with English abstract)
Duan ZM,Li GM,Zhang H and Duan YY.2013.The formation and its geologic significance of Late Triassic-Jurassic accretionary complexes and constraints on metallogenic and geological settings in Duolong porphyry copper gold ore concentration area,northern Bangong CoNujiang suture zone,Tibet.Geological Bulletin of China,32(5):742-750(in Chinese with English abstract)
Fan JJ,Li XK,Zhang TY,Xu W,Wang M and Xie CM.2017.Reconstructing in Space and Time the Closure of the Middle and Western Segments of the Bangong-Nujiang Ocean.Beijing:Geological Publishing House,1-225(in Chinese)
Fang X,Tang JX,Song Y,Yang C,Ding S,Wang YY,Wang Q,Sun XG,Li YB,Wei LJ,Zhang Z,Yang HH,Gao K and Tang P.2015.Formation epoch of the south tiegelong supelarge epithermal Cu(Au-Ag)deposit in Tibet and its geological implications.Acta Geoscientica Sinica,36(2):168-176(in Chinese with English abstract)
Gao K,Tang JX,Song Y,Liu ZB,Fang X,Yang HH,Wang Q,Lin Band Song JL.2016.Fluid inclusion study of the cryptoexplosive breccias in the Naruo Cu(Au)deposit of Tibet.Geology and Exploration,52(5):815-825(in Chinese with English abstract)
Geng QR,Zhang Z,Peng ZM,Guan JL,Zhu XP and Mao XC.2016.Jurassic-Cretaceous Granitoids and related tectono-metallogenesis in the Zapug-Duobuza arc,Western Tibet.Ore Geology Reviews,77:163-175
Geng QR,Zhang Z,Guan JL,Peng ZM,Zhu XP and Ma DF.2016.The Geological Settings of the Bangongco-Nujiang Metallogenic Belt,Tibet.Wuhan:China University of Geosciences Press,1-194(in Chinese)
He W,Lin B,Yang HH,Fang X,Song YX,Wei SG and Hou L.2017.Fluid inclusion feature and its internal relationship with mineralization and epithermal alteration of the Tiegelongnan Cu-Au deposit.Acta Geoscientica Sinica,38(5):638-650(in Chinese with English abstract)
Hedenquist JW and Lowenstern JB.1994.The role of magmas in the formation of hydrothermal ore deposits.Nature,370(6490):519-527
Hollings P,Baker MJ,Orovan E and Rinne M.2018.A special issue devoted to porphyry and epithermal deposits of the southwest pacific:An introduction.Economic Geology,113(1):1-6
Hou ZQ,Pan XF,Yang ZM and Qu XM.2007.Porphyry Cu-(Mo-Au)deposits no related to oceanic-slab subduction:Examples from Chinese porphyry deposits in continental settings.Geoscience,21(2):332-351(in Chinese with English abstract)
Hou ZQ and Yang ZM.2009.Porphyry deposits in continental settings of China:Geological characteristics,magmatic-hydrothermal system,and metallogenic model.Acta Geologica Sinica,83(12):1779-1817(in Chinese with English abstract)
Hou ZQ.2010.Metallogensis of continental collision.Acta Geologica Sinica,84(1):30-58(in Chinese with English abstract)
Hou ZQ,Yang ZM,Lu YJ,Kemp A,Zheng YC,Li QY,Tang JX,Yang ZS and Duan LF.2015.A genetic linkage between subduction-and collision-related porphyry Cu deposits in continental collision zones.Geology,43(3):247-250
Jiang SQ,Sun XG,Yang TZ,Li L,Yin XB,Wang C and Pan YB.2014.Integrated anomaly model and metallogenic prediction of the Duolong porphyry copper-gold ore concentration area in northern Tibet.Geology in China,41(2):497-509(in Chinese with English abstract)
Kelley KD,Lang JR and Eppinger RG.2013.The giant pebble Cu-AuMo deposit and surrounding region,Southwest Alaska:Introduction.Economic Geology,108(3):397-404
Kerrich R,Goldfarb RJ,Groves DI and Garwin S.2000.The geodynamics of the world-class gold deposits:Characteristics,spacetime distribution and origins.In:Hagemann SG and Brown PE(eds.).Gold in 2000.Reviews in Economic Geology.501-551
Klemm LM,Pettke T,Heinrich CA and Campos E.2007.Hydrothermal evolution of the elteniente deposit,Chile:Porphyry Cu-Mo ore deposition from low-salinity magmatic fluids.Economic Geology,102(6):1021-1045
Kouzmanov K,Pettke T,Heinrich CA,Riemer S,Ivascanu PM and Rosu E.2003.The porphyry to epithermal transition in a magmatichydrothermal system:Valea Morii copper-gold deposit,Apuseni Mts,Romania.In:Proceedings of the 7thBiennial SGA Meeting.Athens,Greece:Millpress,303-306
Li C.2016.Geology of Qiangtang,Tibet.Beijing:Geological Publishing House,1-681(in Chinese)
Li F,Wang YH,Jiao YJ,Zhu XP and Ma DF.2016.Geophysical anomaly characteristics and prospecting direction of Duolong mining area.Progress in Geophysics,31(1):217-224(in Chinese with English abstract)
Li GM,Li JX,Qin KZ,Zhang TP and Xiao B.2007.High temperature,salinity and strong oxidation ore-forming fluid at Duobuza gold-rich porphyry copper deposit in the Bangonghu tectonic belt,Tibet:Evidence from fluid inclusions.Acta Petrologica Sinica,23(5):935-952(in Chinese with English abstract)
Li GM,Duan ZM,Liu B,Zhang H,Dong SL and Zhang L.2011.The discovery of Jurassic accretionary complexes in Duolong area,northern Bangong Co-Nujiang suture zone,Tibet,and its geologic significance.Geological Bulletin of China,30(8):1256-1260(in Chinese with English abstract)
Li GM,Li JX,Qin KZ,Duo J,Zhang TP,Xiao B and Zhao JX.2012.Geology and hydrothermal alteration of the Duobuza gold-rich porphyry copper district in the Bangongco metallogenetic belt,Northwestern Tibet.Resource Geology,62(1):99-118
Li GM,Zhang XN,Qin KZ,Sun XG,Zhao JX,Yin XB,Li JX and Yuan HS.2015.The telescoped porphyry-high sulfidation epithermal Cu(-Au)mineralization of Rongna deposit in Duolong ore cluster at the southern margin of Qiangtang Terrane,central Tibet:Integrated evidence from geology,hydrothermal alteration and sulfide assemblages.Acta Petrologica Sinica,31(8):2307-2324(in Chinese with English abstract)
Li JX.2008.Geochronology,petrology and metallogeneses of high oxidized magma-hydrothermal fluid of Duobuza gold-rich porphyry copper deposit in Bangonghu belt,Northern Tibet.Ph.D.Dissertation.Beijing:Institute of geology and geophysics,Chinese academy of sciences,1-224(in Chinese with English summary)
Li JX,Qin KZ,Li GM,Xiao B,Zhao JX and Chen L.2011.Magmatichydrothermal evolution of the cretaceous Duolong gold-rich porphyry copper deposit in the Bangongco metallogenic belt,Tibet:Evidence from U-Pb and40Ar/39Ar geochronology.Journal of Asian Earth Sciences,41(6):525-536
Li JX,Qin KZ,Li GM,Xiao B,Zhao JX,Cao MJ and Chen L.2012.The Nadun high sulphidation epithermal deposit with paragenesis of Duolong porphyry Cu-Au Deposit in Bangonghu Belt,Tibet.Mineral Deposits,31(Suppl.):991-992(in Chinese)
Li JX,Qin KZ,Li GM,Xiao B,Zhao JX,Cao MJ and Chen L.2013.Petrogenesis of ore-bearing porphyries from the Duolong porphyry CuAu deposit,central Tibet:Evidence from U-Pb geochronology,petrochemistry and Sr-Nd-Hf-O isotope characteristics.Lithos,160-161:216-227
Li JX,Qin KZ,Li GM,Richards JP,Zhao JX and Cao MJ.2014.Geochronology,geochemistry,and zircon Hf isotopic compositions of mesozoic intermediate-felsic intrusions in central Tibet:Petrogenetic and tectonic implications.Lithos,198-199:77-91
Li JX,Qin KZ,Li GM,Evans NJ,Zhao JX,Cao MJ and Huang F.2016.The Nadun Cu-Au mineralization,central Tibet:Root of a high sulfidation epithermal deposit.Ore Geology Reviews,78:371-387
Li JX,Qin KZ,Li GM,Evans NJ,Zhao JX,Yue YH and Xie J.2018.Volatile variations in magmas related to porphyry Cu-Au deposits:Insights from amphibole geochemistry,Duolong district,central Tibet.Ore Geology Reviews,95:649-662
Li L and Zheng C.1993.Modern Metallogenic Theory and Research Methods.Shenyang:Northeast Institute of Technology Press,1-203(in Chinese)
Li SM.2015.Northward Subduction of Bangong-Nujiang Tethys:Insight from late Jurassic magmatic rocks in Western Qiangtang Terrane.Master Degree Thesis.Beijing:China University of Geosciences,1-82(in Chinese with English summary)
Li WC,Xue YX,Lu YX,Xue SR and Ren ZJ.2014.Metallogenic Regularity for Porphyry Copper Deposits in China and Its Prospecting Direction.Beijing:Geological Publishing House,1-411(in Chinese)
Li WL.2011.Advances in study of shallow fertile magma chambers below porphyry copper deposits.Mineral Deposits,30(1):149-155(in Chinese with English Abstract)
Lin B,Chen YC,Tang JX,Song Yang,Wang Q,Feng J,Li YB,Tang XQ,Lin X,Liu ZB,Wang YY,Fang X,Yang C,Yang HH,Fei F,Li L and Gao K.2016.Zircon U-Pb geochronology and Hf isotopic composition of the ore bearing porphyry in Dibao Cu(Au)deposit,Duolong ore concentration area,Xizang(Tibet),and its geological significance.Geological Review,62(6):1565-1578(in Chinese with English abstract)
Lin B,Chen YC,Tang JX,Wang Q,Song Y,Yang C,Wang WL,He W and Zhang LJ.2017a.40Ar/39Ar and Rb-Sr ages of the Tiegelongnan porphyry Cu-(Au)deposit in the Bangong Co-Nujiang metallogenic belt of Tibet,China:Implication for generation of super-large deposit.Acta Geologica Sinica,91(2):602-616
Lin B,Tang JX,Chen YC,Song Y,Hall G,Wang Q,Yang C,Fang X,Duan JL,Yang HH,Liu ZB,Wang YY and Feng J.2017b.Geochronology and genesis of the Tiegelongnan porphyry Cu(Au)deposit in Tibet:Evidence from U-Pb,Re-Os dating and Hf,S,and H-O isotopes.Resource Geology,67(1):1-21
Lin B.2018.Alteration and mineralization of tiegelongnan Giant Cu(Au,Ag)deposit in Tibet.Ph.D.Dissertation.Beijing:Chinese Academy of Geologecal Sciences,1-153(in Chinese with English summary)
Lin B,Chen YC,Tang JX,Song Y,Wang Q,He W,Liu ZB,Wang YY,Li YB,Yang C,Yang HH,Zhang LJ and Li YB.2018.Geology,alteration and mineralization of Tiegelongnan giant Cu(Au,Ag)deposit,Tibet.Mineral Deposits,37(5):917-939(in Chinese with English abstract)
Lin B,Tang JX,Chen YC,Baker M,Song Y,Yang HH,Wang Q,He W and Liu ZB.2019.Geology and geochronology of Naruo large porphyry-breccia Cu deposit in the Duolong district,Tibet.Gondwana Research,66:168-182
Longo AA,Dilles JH,Grunder AL and Duncan R.2010.Evolution of calc-alkaline volcanism and associated hydrothermal gold deposits at Yanacocha,Peru.Economic Geology,105(7):1191-1241
Mc Millan WJ and Panteleyev A.1980.Ore deposit models-1.Porphyry copper deposits.Geoscience Canada,7(2):337-389
PerellóJ,Cox D,Garamjav D,Sanjdorj S,Diakov S,Schissel D,Munkhbat T and Oyun G.2001.Oyu tolgoi,mongolia:SiluroDevonian porphyry Cu-Au-(Mo)and high-sulfidation Cu mineralization with a cretaceous chalcocite blanket.Economic Geology,96(6):1407-1428
Pirajno F.1992.Hydrothermal Mineral Deposits:Principles and Fundamental Concepts for the Exploration Geologist.Berlin,Heidelberg:Springer,1-709
Pirajno F.2009.Hydrothermal Processes and Mineral Systems.Dordrecht:Springer,1-1250
Qu XM and Xin HB.2006.Ages and tectonic environment of the Bangong Co porphyry copper belt in western Tibet,China.Geological Bulletin of China,25(7):792-799(in Chinese with English Abstract)
Richards JP.2003.Tectono-magmatic precursors for porphyry Cu-(MoAu)deposit formation.Economic Geology,98(8):1515-1533
Richards JP.2005.Cumulative factors in the generation of giant calcalkaline porphyry Cu deposits.In:Porter TM(ed.).Super Porphyry Copper and Gold Deposits:A Global Perspectiv.Adelaide:PGC Publishing,7-25
Richards JP and Mumin AH.2013.Lithospheric fertilization and mineralization by arc magmas:Genetic links and secular differences between porphyry copper±molybdenum±gold and magmatichydrothermal iron oxide copper-gold deposits.In:Colpron M,Bissig T,Rusk BG and Thompson JFH(eds.).Tectonics,Metallogeny,and Discovery:The North American Cordillera and Similar Accretionary Settings.Littleton:Special Publications of the Society of Economic Geologist,277-299
Richards JP.2015.Tectonic,magmatic,and metallogenic evolution of the Tethyan orogen:From subduction to collision.Ore Geology Reviews,70:323-345
Searle MP,Robb LJ and Gardiner NJ.2016.Tectonic processes and metallogeny along the Tethyan mountain ranges of the Middle East and South Asia(Oman,Himalaya,Karakoram,Tibet,Myanmar,Thailand,Malaysia).In:Richards JP(ed.).Tectonics and Metallogeny of the Tethyan Orogenic Belt.Littleton,CO:Society of Economic Geologists,301-327
She HQ,Li JW,Feng CY,Ma DF,Pan GT and Li GM.2006.The high-temperature and Hypersaline fluid inclusions and its implications to the metallogenesis in Duobuza porphyry copper deposit,Tibet.Acta Geologica Sinica,80(9):1434-1447(in Chinese with English abstract)
She HQ,Li JW,Ma DF,Li GM,Zhang DQ,Feng CY,Qu WJ and Pan GT.2009.Molybdenite Re-Os and SHRIMP zircon U-Pb dating of Duobuza porphyry copper deposit in Tibet and its geological implications.Mineral Deposits,28(6):737-746(in Chinese with English abstract)
Sillitoe RH.1973.The tops and bottoms of porphyry copper deposits.Economic Geology,68(6):799-815
Sillitoe RH.1997.Characteristics and controls of the largest porphyry copper-gold and epithermal gold deposits in the Circum-Pacific region.Australian Journal of Earth Sciences,44(3):373-388
Sillitoe RH.2000.Gold-rich porphyry deposits:Descriptive and genetic models and their role in exploration and discovery.In:Hagemann SG and Brown PE(eds.).Gold in 2000.Reviews in Economic Geology.315-345
Sillitoe RH and Hedenquist JW.2003.Linkages between volcanotectonic settings,ore fluid compositions,and epithermal precious metal deposits.In:Simmons SF and Graham I(eds.).Volcanic,Geothermal,and Ore Forming Fluids:Rulers and Witnesses of Processes within the Earth.Littleton:Special Publications of the Society of Economic Geologist,315-343
Sillitoe RH.2010.Porphyry copper systems.Economic Geology,105(1):3-41
Sillitoe RH.2012.Copper provinces.In:Hedenquist JW,Harris M and Camus F(eds.).Geology and Genesis of Major Copper Deposits and Districts of the World:A Tribute to Richard H.Sillitoe.Littleton:Special Publications of the Society of Economic Geologist,1-18
Simmons SF,White NC and John DA.2005.Geological characteristics of epithermal precious and base metal deposits.In:Hedenquist JW,Thompson JFH,Goldfarb RJ and Richards JP(eds.).Economic Geology One Hundredth Anniversary Volume.Littleton:Society of Economic Geologists,Inc.,485-522
Singer DA,Berger VI and Moring BC.2008.Porphyry Copper Deposits of the World:Database and Grade and Tonnage Models.Reston,Virginia:U.S.Geological Survey,1-45
Song Y,Jiang SH,Bagas L,Li C,Hu JZ,Zhang Q,Zhou W and Ding HY.2016.The geology and geochemistry of Jinchangyu gold deposit,North China Craton:Implications for metallogenesis and geodynamic setting.Ore Geology Reviews,73:313-329
Song Y,Yang HH,Lin B,Liu ZB,Wang Q,Gao K,Yang C and Fang X.2017.The preservation system of epithermal deposits in South Qiangtang terrane of central Tibetan Plateau and its significance:Acase study of the Tiegelongnan superlarge deposit.Acta Geoscientica Sinica,38(5):659-669(in Chinese with English abstract)
Song Y,Yang C,Wei SG,Yang HH,Fang X and Lu HT.2018.Tectonic control,reconstruction and preservation of the Tiegelongnan porphyry and epithermal overprinting Cu(Au)deposit,central Tibet,China.Minerals,8(9):398
Sun J.2015.Magmatism and metallogenesis at Duolong ore district,Tibet.Ph.D.Dissertation.Beijing:China University of Geosciences,1-199(in Chinese with English summary)
Sun J,Mao JW,Beaudoin G,Duan XZ,Yao FJ,Ouyang HG,Wu Y,Li YB and Meng XY.2017.Geochronology and geochemistry of porphyritic intrusions in the Duolong porphyry and epithermal Cu-Au district,central Tibet:Implications for the genesis and exploration of porphyry copper deposits.Ore Geology Reviews,80:1004-1019
Sun J,Mao JW,Yao FJ and Duan XZ.2017.Relation between magmatic processes and porphyry copper-gold ore formation,the Duolong district,central Tibet.Acta Petrologica Sinica,33(10):3217-3238(in Chinese with English abstract)
Tang JX,Sun XG,Ding S,Wang Q,Wang YY,Yang C,Chen HQ,Li YB,Li YB,Wei LJ,Zhang Z,Song JL,Yang HH,Duan JL,Gao K,Fang X and Tang JY.2014a.Discovery of the epithermal deposit of Cu(Au-Ag)in the Duolong ore concentrating area,Tibet.Acta Geoscientia Sinica,35(1):6-10(in Chinese with English abstract)
Tang JX,Wang Q,Yang C,Ding S,Lang XH,Liu HF,Huang Y,Zheng WB,Wang LQ,Gao YM,Feng J,Duan JL,Song Y,Wang YY,Lin B,Fang X,Zhang Z and Yang HH.2014b.Two porphyryepithermal deposit metallogenic subseries in Tibetan Plateau:Practice of“absence prospecting”deposit metallogenic series.Mineral Deposits,33(6):1151-1170(in Chinese with English abstract)
Tang JX,Song Y,Wang Q,Lin B,Yang C,Guo N,Fang X,Yang HH,Wang YY,Gao K,Ding S,Zhang Z,Duan JL,Chen HQ,Su DK,Feng J,Liu ZB,Wei SG,He W,Song JL,Li YB and Wei LJ.2016.Geological characteristics and exploration model of the Tiegelongnan Cu(Au-Ag)deposit:The first ten million tons metal resources of a porphyry-epithermal deposit in Tibet.Acta Geoscientica Sinica,37(6):663-690(in Chinese with English abstract)
Tang JX,Wang Q,Yang HH,Gao X,Zhang ZB and Zou B.2017.Mineralization,exploration and resource potential of porphyry-skarnepithermal copper polymetallic deposits in Tibet.Acta Geoscientia Sinica,38(5):571-613(in Chinese with English abstract)
Teng JW,Yao JJ,Jiang CZ,Yan YF,Yang H,Zhang YQ and Ruan XM.2009.Magmatic rock mass and information for large and superlarge mineral deposits and its ore-prospecting effect in deep crust.Acta Petrologica Sinica,25(5):1009-1038(in Chinese with English abstract)
Uyeda S and Kanamori H.1979.Back-arc opening and the mode of subduction.Journal of Geophysical Research:Solid Earth,84(B3):1040-1061
Wang DB,Jiang SQ and Dong FL.2016.Geological exploration of the Rongna porphyry copper deposit in the Duolong ore concentration area,northern Tibet.Geology in China,43(5):1599-1612(in Chinese with English abstract)
Wang LQ,Pan GT,Ding J and Yao DS.2013.Geological Maps and Instructions for the Qinghai-Tibet Plateau and Its Adjacent Areas(1∶1500000).Beijing:Geological Publishing House,1-288(in Chinese)
Wang Q,Tang JX,Fang X,Lin B,Song Y,Wang YY,Yang HH,Yang C,Li YB,Wei LJ,Feng J and Li L.2015.Petrogenetic setting of andsites in Rongna ore block,Tiegelong Cu(Au-Ag)deposit,Duolong ore concentration area,Tibet:Evidence from zircon U-Pb LA-ICP-MS dating and petrogeochemistry of andsites.Geology in China,42(5):1324-1336(in Chinese with English abstract)
Wang Q.2018.Porphyry copper(gold)system in Duolong district and its metallogenetic regularities.Ph.D.Dissertation.Chengdu:Chengdu University of Technology,1-132(in Chinese with English summary)
Wang S,Zhao YY,Wang A,Li YB,Li XS and Guo S.2017.The study of facieology-mineragraphy,fluid inclusions,and geochemical characteristics and mineralization in Nadun Cu(Au)deposit,Tibet.Acta Geologica Sinica,91(7):1565-1588(in Chinese with English abstract)
Wang WL,Cheng QM,Tang JX,Pubuciren,Song Y,Li YB and Liu ZB.2017.Fractal/multifractal analysis in support of mineral exploration in the Duolong mineral district,Tibet,China.Geochemistry:Exploration,Environment,Analysis,17(3):261-276
Wang YY,Tang JX,Song Y,Lin B,Yang C,Wang Q,Gao K and Ding S.2017.Geochemical characteristics of sulfur and lead isotopes from the superlarge Tiegelongnan copper(gold and silver)deposit,Tibet.Acta Geoscientica Sinica,38(5):627-637(in Chinese with English abstract)
Wang YY.2018.Genesis of Tiegelongnan superlarge copper(gold and silver)deposit in Tibet,China:Mineralogy,alteration and mineralization.Ph.D.Dissertation.Chengdu:Chengdu University of Technology,1-154(in Chinese with English summary)
Wang YY,Tang JX,Song Y,Yang C,Lin B,Wang Q,Sun M,Gao K,Fang X and Yang HH.2018.Characteristics of the main ore minerals in Tiegelongnan porphyry-high sulfidation deposit,Tibet,China.Acta Mineralogica Sinica,38(1):109-122(in Chinese with English abstract)
Wei SG.2017.Study on the early cretaceous magmatism and tectonic dynamic setting of the Duolong Cu mining district in the BangongNujiang metallogenic belt,Tibet.Ph.D.Dissertation.Beijing:China University of Geosciences,1-131(in Chinese with English summary)
Wilkinson JJ.2013.Triggers for the formation of porphyry ore deposits in magmatic arcs.Nature Geoscience,6(11):917-925
Xiao R,Li SR,Zhou S,Chen CL and Lian YQ.2005.Research on Matellogenic Regularities and Prospecting Directions of Gold Deposits at Gaize District,Tibet.Chengdu:Sichuan Science and Technology Press,1-111(in Chinese with English abstract)
Xie GQ,Mao JW,Wang RT,Meng DM,Sun J,Dai JZ,Ren T,Li JBand Zhao HJ.2017.Origin of the Lengshuigou porphyry-skarn Cu deposit in the Zhashan district,South Qinling,central China,and implications for differences between porphyry Cu and Mo deposits.Mineralium Deposita,52(4):621-639
Xie GQ,Mao JW,Li W,Fu B and Zhang ZY.2018.Granite-related Yangjiashan tungsten deposit,southern China.Mineralium Deposita,1-14,doi:10.1007/s00126-018-0805-5
Yang C,Tang JX,Wang YY,Yang HH,Wang Q,Sun XG,Feng J,Yin XB,Ding S,Fang X,Zhang Z and Li YB.2014.Fluid and geological characteristics researches of southern Tiegelong epithemal porphyry Cu-Au deposit in Tibet.Mineral Deposits,33(6):1287-1305(in Chinese with English abstract)
Yang HH,Tang JX,Song Y,Liu ZB and Lin B.2018.Apatite fission track ages in the Duolong ore district and the uplift time of the Qiangtang terrrane,Tibet.Acta Geologica Sinica,92(1):408-409
Yang Y,Zhang Z,Tang JX,Chen YC,Li YB,Wang LQ,Li JL,Gao K,Wang Q and Yang HH.2015.Mineralization,alteration and vein systems of the Bolong porphyry copper deposit in the Duolong ore concentration area,Tibet.Geology in China,42(3):759-776(in Chinese with English abstract)
Zhang DQ,She HQ,Li DX and Feng CY.2003.The porphyryepithermal metallogenic system in the Zijinshan region,Fujian Province.Acta Geologica Sinica,77(2):253-261(in Chinese with English abstract)
Zhang WL,Yu T,Liu T,Wang D and Xiong YJ.2016.Geochemical characteristics of stream sediment and ore prospecting of the Dibaonamugang orefield in Tibet.Geology and Resources,25(4):356-359(in Chinese with English abstract)
Zhang XN,Li GM,Qin KZ,Lehmann B,Li JX,Zhao JX,Cao MJ and Zou XY.2018.Petrogenesis and tectonic setting of Early Cretaceous granodioritic porphyry from the giant Rongna porphyry Cu deposit,central Tibet.Journal of Asian Earth Sciences,161:74-92
Zhang Z,Chen YC,Tang JX,Li YB,Gao K,Wang Q,Li Z and Li JL.2014.Alteration and vein systems of Duobuza gold-rich porphyry copper deposit,Tibet.Mineral Deposits,33(6):1268-1286(in Chinese with English abstract)
Zhang Z,Fang X,Tang JX,Wang Q,Yang C,Wang YY,Ding S and Yang HH.2017.Chronology,geochemical characteristics of the Gaerqin porphyry copper deposit in the Duolong ore concentration area in Tibet and discussion about the identification of the lithoscaps and the possible epithermal deposit.Acta Petrologica Sinica,33(2):476-494(in Chinese with English abstract)
Zhao YY,Wang A,LüLN,Guo S,Cui YB and Liu Y.2017.The Study on Genetic Models of Typical Deposits and Its Regional Metallogenic Regularity in Bangong Co-Nujiang Metallogenic Belt and Adjacent Areas.Beijing:Geological Publishing House,1-358(in Chinese)
Zhu XP,Chen HA,Ma DF,Huang HX,Li GM,Li YB and Li YC.2011.Re-Os dating for the molybdenite from Bolong porphyry copper-gold deposit in Tibet,China and its geological significance.Acta Petrologica Sinica,27(7):2159-2164(in Chinese with English abstract)
Zhu XP,Chen HA,Ma DF,Huang HX,Li GM,Liu CQ and Wei LJ.2012.40Ar/39Ar dating for K-feldspar from Duobuza porphyry copper-gold deposit in Tibet,China and its geological significance.Geoscience,26(4):656-662(in Chinese with English abstract)
Zhu XP,Chen HA,Liu HF,Ma DF,Li GM,Huang HX,Zhang H,Liu CQ and Wei LJ.2015.Zircon U-Pb ages,geochemistry of the porphyries from the Duobuza porphyry Cu-Au deposit,Tibet and their metallogenic significance.Acta Geologica Sinica,89(3):534-548(in Chinese with English abstract)
曹明坚,秦克章,李继亮.2011.平坦俯冲及其成矿效应的研究进展、实例分析与展望.岩石学报,27(12):3727-3748
陈华安,祝向平,马东方,黄瀚霄,李光明,李玉彬,李玉昌,卫鲁杰,刘朝强.2013.西藏波龙斑岩铜金矿床成矿斑岩年代学、岩石化学特征及其成矿意义.地质学报,87(10):1593-1611
陈红旗,曲晓明,范淑芳.2015.西藏改则县多龙矿集区斑岩型铜金矿床的地质特征与成矿-找矿模型.矿床地质,34(2):321-332
邓晋福,戴圣潜,赵海玲,杜建国.2002.铜陵Cu-Au(Ag)成矿区岩浆-流体-成矿系统和亚系统的识别.矿床地质,21(4):317-322
杜光树,冯孝良,陈福忠,刘宝田,雍永源.1993.西藏金矿地质.成都:西南交通大学出版社,1-117
段志明,李光明,张晖,段瑶瑶.2013.西藏班公湖-怒江缝合带北缘多龙矿集区晚三叠世-侏罗纪增生杂岩结构及其对成矿地质背景的约束.地质通报,32(5):742-750
范建军,李兴奎,张天羽,许伟,王明,解超明.2017.班公湖-怒江洋中西段汇聚消亡时空重建.北京:地质出版社,1-225
方向,唐菊兴,宋扬,杨超,丁帅,王艺云,王勤,孙兴国,李玉彬,卫鲁杰,张志,杨欢欢,高轲,唐攀.2015.西藏铁格隆南超大型浅成低温热液铜(金、银)矿床的形成时代及其地质意义.地球学报,36(2):168-176
高轲,唐菊兴,宋扬,刘治博,方向,杨欢欢,王勤,林彬,宋俊龙.2016.西藏拿若铜(金)矿床隐爆角砾岩流体包裹体研究.地质与勘探,52(5):815-825
耿全如,张璋,关俊雷,彭智敏,祝向平,马东方.2016.西藏班公湖-怒江成矿带成矿地质.武汉:中国地质大学出版社,1-194
贺文,林彬,杨欢欢,方向,宋英昕,韦少港,侯淋.2017.西藏铁格隆南Cu-Au矿床成矿流体特征及与矿化蚀变的内在联系.地球学报,38(5):638-650
侯增谦,潘小菲,杨志明,曲晓明.2007.初论大陆环境斑岩铜矿.现代地质,21(2):332-351
侯增谦,杨志明.2009.中国大陆环境斑岩型矿床:基本地质特征、岩浆热液系统和成矿概念模型.地质学报,83(12):1779-1817
侯增谦.2010.大陆碰撞成矿论.地质学报,84(1):30-58
江少卿,孙兴国,杨铁铮,李丽,印贤波,王策,潘燕兵.2014.藏北多龙斑岩铜金矿集区综合信息找矿模型研究.中国地质,41(2):497-509
李才.2016.羌塘地质.北京:地质出版社,1-681
李富,王永华,焦彦杰,祝向平,马东方.2016.多龙矿集区物探异常特征及找矿方向.地球物理学进展,31(1):217-224
李光明,李金祥,秦克章,张天平,肖波.2007.西藏班公湖带多不杂超大型富金斑岩铜矿的高温高盐高氧化成矿流体:流体包裹体证据.岩石学报,23(5):935-952
李光明,段志明,刘波,张晖,董随亮,张丽.2011.西藏班公湖-怒江结合带北缘多龙地区侏罗纪增生杂岩的特征及意义.地质通报,30(8):1256-1260
李光明,张夏楠,秦克章,孙兴国,赵俊兴,印贤波,李金祥,袁华山.2015.羌塘南缘多龙矿集区荣那斑岩-高硫型浅成低温热液Cu-(Au)套合成矿:综合地质、热液蚀变及金属矿物组合证据.岩石学报,31(8):2307-2324
李金祥.2008.班公湖带多不杂超大型富金斑岩铜矿床的成岩成矿年代学、岩石学及高氧化岩浆-流体-成矿作用.博士学位论文.北京:中国科学院地质与地球物理研究所,1-224
李金祥,秦克章,李光明,肖波,赵俊兴,曹明坚,陈雷.2012.西藏班公湖带与多龙斑岩Cu-Au矿床共生的拿顿高硫型浅成低温热液Au-Cu矿床.矿床地质,31(增):991-992
李力,郑超.1993.现代成矿理论及研究方法.沈阳:东北工学院出版社,1-203
李世民.2015.班公湖-怒江特提斯洋北向俯冲过程:西羌塘地块晚侏罗世岩浆岩约束.硕士学位论文.北京:中国地质大学,1-82
李文昌,薛迎喜,卢映祥,薛顺荣,任治机.2014.中国斑岩铜矿成矿规律及找矿方向.北京:地质出版社,1-411
李万伦.2011.斑岩铜矿浅部富矿岩浆房研究进展.矿床地质,30(1):149-155
林彬,陈毓川,唐菊兴,宋扬,王勤,冯军,李彦波,唐晓倩,林鑫,刘治博,王艺云,方向,杨超,杨欢欢,费凡,李力,高轲.2016.西藏多龙矿集区地堡Cu(Au)矿床含矿斑岩锆石U-Pb测年、Hf同位素组成及其地质意义.地质论评,62(6):1565-1578
林彬.2018.西藏多龙矿集区铁格隆南巨型斑岩-浅成低温热液铜(金、银)矿床蚀变与成矿.博士学位论文.北京:中国地质科学院,1-153
林彬,陈毓川,唐菊兴,宋扬,王勤,贺文,刘治博,王艺云,李彦波,杨超,杨欢欢,张乐骏,李玉彬.2018.西藏铁格隆南超大型铜(金、银)矿床地质、蚀变与矿化.矿床地质,37(5):917-939
曲晓明,辛洪波.2006.藏西班公湖斑岩铜矿带的形成时代与成矿构造环境.地质通报,25(7):792-799
佘宏全,李进文,丰成友,马东方,潘桂棠,李光明.2006.西藏多不杂斑岩铜矿床高温高盐度流体包裹体及其成因意义.地质学报,80(9):1434-1447
佘宏全,李进文,马东方,李光明,张德全,丰成友,屈文俊,潘桂棠.2009.西藏多不杂斑岩铜矿床辉钼矿Re-Os和锆石U-Pb SHRIMP测年及地质意义.矿床地质,28(6):737-746
宋扬,杨欢欢,林彬,刘治博,王勤,高轲,杨超,方向.2017.青藏高原羌塘地体南缘浅成低温热液成矿系统的保存机制及其重要意义---以铁格隆南超大型矿床为例.地球学报,38(5):659-669
孙嘉.2015.西藏多龙矿集区岩浆成因与成矿作用研究.博士学位论文.北京:中国地质大学:1-199
孙嘉,毛景文,姚佛军,段先哲.2017.西藏多龙矿集区岩浆岩成因与成矿作用关系研究.岩石学报,33(10):3217-3238
唐菊兴,孙兴国,丁帅,王勤,王艺云,杨超,陈红旗,李彦波,李玉彬,卫鲁杰,张志,宋俊龙,杨欢欢,段吉琳,高轲,方向,谭江云.2014a.西藏多龙矿集区发现浅成低温热液型铜(金银)矿床.地球学报,35(1):6-10
唐菊兴,王勤,杨超,丁帅,郎兴海,刘鸿飞,黄勇,郑文宝,王立强,高一鸣,冯军,段吉琳,宋扬,王艺云,林彬,方向,张志,杨欢欢.2014b.青藏高原两个斑岩-浅成低温热液矿床成矿亚系列及其“缺位找矿”之实践.矿床地质,33(6):1151-1170
唐菊兴,宋扬,王勤,林彬,杨超,郭娜,方向,杨欢欢,王艺云,高轲,丁帅,张志,段吉琳,陈红旗,粟登逵,冯军,刘治博,韦少港,贺文,宋俊龙,李彦波,卫鲁杰.2016.西藏铁格隆南铜(金银)矿床地质特征及勘查模型---西藏首例千万吨级斑岩-浅成低温热液型矿床.地球学报,37(6):663-690
唐菊兴,王勤,杨欢欢,高昕,张泽斌,邹兵.2017.西藏斑岩-矽卡岩-浅成低温热液铜多金属矿成矿作用、勘查方向与资源潜力.地球学报,38(5):571-613
滕吉文,姚敬金,江昌洲,闫雅芬,杨辉,张永谦,阮小敏.2009.地壳深部岩浆岩岩基体与大型、超大型金属矿床的形成及找矿效应.岩石学报,25(5):1009-1038
汪东波,江少卿,董方浏.2016.藏北多龙矿集区荣那斑岩铜矿找矿突破的实践.中国地质,43(5):1599-1612
王立全,潘桂棠,丁俊,姚冬生.2013.青藏高原及邻区地质图及说明书(1∶1500000).北京:地质出版社,1-288
王勤,唐菊兴,方向,林彬,宋扬,王艺云,杨欢欢,杨超,李彦波,卫鲁杰,冯军,李力.2015.西藏多龙矿集区铁格隆南铜(金银)矿床荣那矿段安山岩成岩背景:来自锆石U-Pb年代学、岩石地球化学的证据.中国地质,42(5):1324-1336
王勤.2018.西藏多龙矿集区斑岩成矿体系与成矿规律.博士学位论文.成都:成都理工大学,1-132
王松,赵元艺,汪傲,李玉彬,李小赛,郭硕.2017.西藏拿顿铜(金)矿床岩矿相学、流体包裹体和地球化学特征与成矿作用研究.地质学报,91(7):1565-1588
王艺云,唐菊兴,宋扬,林彬,杨超,王勤,高轲,丁帅.2017.西藏铁格隆南超大型Cu(Au、Ag)矿床S、Pb同位素地球化学研究.地球学报,38(5):627-637
王艺云.2018.西藏铁格隆南超大型铜(金、银)矿床成因---矿物学、蚀变与成矿.博士学位论文.成都:成都理工大学,1-154
王艺云,唐菊兴,宋扬,杨超,林彬,王勤,孙渺,高轲,方向,杨欢欢.2018.西藏铁格隆南斑岩-高硫型浅成低温热液矿床主要矿石矿物特征.矿物学报,38(1):109-122
韦少港.2017.西藏班-怒成矿带多龙矿集区早白垩世岩浆作用及动力学背景.博士学位论文.北京:中国地质大学,1-131
肖润,李胜荣,周肃,陈昌伦,连玉秋.2005.西藏改则地区金矿成矿规律和找矿方向研究.成都:四川科学技术出版社,1-111
杨超,唐菊兴,王艺云,杨欢欢,王勤,孙兴国,冯军,印贤波,丁帅,方向,张志,李玉彬.2014.西藏铁格隆南浅成低温热液型-斑岩型Cu-Au矿床流体及地质特征研究.矿床地质,33(6):1287-1305
杨毅,张志,唐菊兴,陈毓川,李玉彬,王立强,李建力,高轲,王勤,杨欢欢.2015.西藏多龙矿集区波龙斑岩铜矿床蚀变与脉体系统.中国地质,42(3):759-776
张德全,佘宏全,李大新,丰成友.2003.紫金山地区的斑岩-浅成热液成矿系统.地质学报,77(2):253-261
张文磊,于涛,刘堂,汪东,熊义军.2016.西藏地堡那木岗矿区水系沉积物地球化学特征及找矿预测.地质与资源,25(4):356-359
张志,陈毓川,唐菊兴,李玉彬,高轲,王勤,李壮,李建力.2014.西藏多不杂富金斑岩铜矿床蚀变与脉体系统.矿床地质,33(6):1268-1286
张志,方向,唐菊兴,王勤,杨超,王艺云,丁帅,杨欢欢.2017.西藏多龙矿集区尕尔勤斑岩铜矿床年代学及地球化学---兼论硅帽的识别与可能的浅成低温热液矿床.岩石学报,33(2):476-494
赵元艺,汪傲,吕立娜,郭硕,崔玉斌,刘妍.2017.西藏班公湖-怒江成矿带及邻区典型矿床成因模型与区域成矿规律.北京:地质出版社,1-358
祝向平,陈华安,马东方,黄瀚霄,李光明,李玉彬,李玉昌.2011.西藏波龙斑岩铜金矿床的Re-Os同位素年龄及其地质意义.岩石学报,27(7):2159-2164
祝向平,陈华安,马东方,黄瀚霄,李光明,刘朝强,卫鲁杰.2012.西藏多不杂斑岩铜金矿钾长石40Ar/39Ar年龄及其地质意义.现代地质,26(4):656-662
祝向平,陈华安,刘鸿飞,马东方,李光明,黄瀚霄,张红,刘朝强,卫鲁杰.2015.西藏多不杂斑岩铜矿斑岩锆石U-Pb年龄、岩石地球化学特征及其成矿意义.地质学报,89(3):534-548
(1)陈红旗,张天平,李玉昌等. 2012.西藏班公湖-怒江成矿带西段铜多金属资源调查成果报告.格尔木:西藏自治区地质矿产勘查开发局第五地质大队
(2)王明,解超明,范建军等. 2016.西藏改则多不扎1∶5万4幅(I44E019022、I44E019023、I44E020022、I44E020023)区域地质调查成果报告.长春:吉林大学地质调查研究院
(1)卫鲁杰,李建力,李玉彬等. 2017.西藏自治区改则县多不杂矿区铜矿普查报告.拉萨:西藏宏达多龙矿业有限公司
(1)李建力,李玉彬,邓时强等. 2017.西藏自治区改则县多不杂西矿区铜矿普查报告.拉萨:西藏宏达多龙矿业有限公司
(1)李彦波,唐菊兴,侯俊富等. 2017.西藏自治区改则县铁格隆南矿区金铜矿普查报告.改则:西藏金龙矿业股份有限公司
(1)李玉昌,唐菊兴,祝向平等. 2016.西藏多龙整装勘查区专项填图与技术应用示范成果报告.格尔木:西藏自治区地质矿产勘查开发局第五地质大队
© 2004-2018 中国地质图书馆版权所有 京ICP备05064691号 京公网安备11010802017129号 地址:北京市海淀区学院路29号 邮编:100083 电话:办公室:(+86 10)66554848;文献借阅、咨询服务、科技查新:66554700 |