Characteristics of ore-controlling structures and ore-prospecting of the Xitieshan lead-zinc deposit, northern edge of the Qaidam basin, NW China
-
摘要:
锡铁山矿床是中国西部的超大型铅锌矿产地之一,产于柴北缘晚奥陶世滩间山群的大理岩和片岩之中,是与海相火山喷流-沉积有关的矿床。很多学者已经从地球化学、岩石学、同位素测年等对该矿床的成矿时代、成矿流体性质、矿床成因等开展了研究,但对于锡铁山矿区构造控矿特征一直存在争议,普遍认为褶皱构造对矿区的控矿作用明显。文章主要以详实的野外观测为基础,分析了矿区的褶皱和断裂构造特征,探讨了构造对矿(床)体的控制作用,为矿区找矿勘查工作部署提供依据。通过详实的野外实测和综合对比分析表明,锡铁山矿区总体上为单斜层,不发育大型的褶皱构造,但是层内褶皱发育,包括A型褶皱和B型褶皱。发育在滩间山群a段内的A型褶皱,其褶皱枢纽与拉伸线理倾向南东,与矿区矿体的总体倾伏方向一致;而在滩间山群d段内的A型褶皱,其枢纽倾向北西;矿区内发育了多条北西西走向的大型断裂,其编号为F1—F6;分析表明,F1断层发育在早期塑性变形基础之上,晚期叠加了叠瓦逆冲推覆作用,造成了矿体及赋矿围岩的局部倒转;F2断裂大规模的左行走滑-逆冲作用导致了矿区滩间山群不同岩性段地质体的拼合接触,造成了矿区部分含矿地质体的缺失;野外填图揭示出,左行走滑的F3断裂从北西往南东,走向从330°逐渐转变为290°方向,并在南东侧末端,发育了一系列分支的左行走滑-正断层,组成"马尾状"构造,截切了矿体与围岩,并发生了横向错移。以此构造控矿特征为基础,结合矿床成因分析,进一步分析了锡铁山矿区深部的找矿方向,认为矿区南东侧深部具有良好的找矿空间;并以07号勘探线为例,根据F3及其分支断层的错移情况,分析了矿体可能被错移的位置。
Abstract:The Xitieshan deposit,one of the large-size lead-zinc deposits located at the northern edge of the Qaidam basin in western China,is related to marine Volcanic-Sedimentary Hosted Massive Sulfur deposit (VSHMS). Most prior researches are focused on the mineralization age,the nature of ore-forming fluid,and the genesis of the deposit by the method of petrology,geochemistry,and isotopic dating. However,the characteristics of ore-controlling structures,which are essential to prospecting and expanding the mining resources,have been controversial for long time,and it is generally believed that it was the fold that controlled the production of ore bodies in the deposit. This paper mainly presents field evidences to discuss the characteristics of folds and faults and its controlling roles to the distribution of ore bodies,and further to provide the basis for the mining prospecting exploration. Our field investigation and comparative analysis showed that there was no large-scale syncline or anticline in the deposit and only a monocline composed of the Ordovician Tanjianshan Group in general,although some interlayered folds were well developed,including A-and B-type. Both the fold hinge and the strench lineation of A-type fold in a-segment of the Ordovician Tanjianshan Group are dipping to SE-ward,consistent with the dipping tendency of the whole ore-bodies in the deposit,but different with those in d-segment of the Tanjianshan Group as dipping to NW-ward. There are six large-scale NWW-trending faults in the deposit,named as F1 to F6 from the northeast to southwest. The F1 fault in the deposit probably developed on the base of ductile deformation in early stage. And the latterly nappe thrusting of the fault resulted in the reverse of ore-bodies and host rocks near the fault. Large-scale sinistral strike-slipping faulting of the F2 fault played important roles on the convergence together of different segments of the Tanjianshan Group,and also the missing of some ore-bearing geological bodies. Field mapping between the Zhongjiangou and Wuminggou areas revealed that the orientation of the F3 fault gradually changed from 330-trending in northwest to 290-trending in southeast. And several branch sinistral strike-slipping and normal faults were identified in the southeastern end area,composing a pattern of horsetail structure in the shape,which truncated ore-bodies and host rocks. Therefore,ore-prospecting directions were proposed based on the ore-controlling structures together with the metallogenic models of the deposit,suggesting that the deep region in the southeastern side should be one of most favorable ore potential areas,and the dislocation places of ore-bodies by the F3 fault and its branch sinistral-normal faults in the prospecting Line 07 were further forecasted for example.
-
-
BETTS P G, LISTER G S, 2002. Geodynamically indicated targeting strategy for shale-hosted massive sulfide Pb-Zn-Ag mineralisation in the Western Fold Belt, Mt Isa terrane[J]. Australian Journal of Earth Sciences, 49(6):985-1010.
BRADSHAW G D, ROWINS S M, PETER J M, et al., 2008. Genesis of the Wolverine volcanic sediment-hosted massive sulfide deposit, Finlayson Lake district, Yukon, Canada:Mineralogical, mineral chemical, fluid inclusion, and sulfur isotope evidence[J]. Economic Geology, 103(1):35-60. http://www.researchgate.net/publication/247864661_Genesis_of_the_Wolverine_Volcanic_Sediment-Hosted_Massive_Sulfide_Deposit_Finlayson_Lake_District_Yukon_Canada_Mineralogical_Mineral_Chemical_Fluid_Inclusion_and_Sulfur_Isotope_Evidence
CHEN Z L, CHEN B L, 2012. Thinking, steps and practice of research on orefield structure in geomechanics[J]. Chinese Journal of Nature, 34(4):208-215. (in Chinese with English abstract) http://www.wanfangdata.com.cn/details/detail.do?_type=perio&id=zrzz201204004
CHENG C, HAN R S, WANG L, et al., 2019. The generation, development and ore-controlling of structures of the Fulaichang Lead-Zinc deposit, northeastern Guizhou[J]. Journal of Geomechanics, 25(1):90-104. (in Chinese with English abstract) http://d.old.wanfangdata.com.cn/Periodical/dzlxxb201901010
DENG D W, KONG H, XI X S, 2003. Geochemisrry of the hydrothermal sedimentary Xitieshan Pb-Zn deposit, Qinghai Province[J]. Bulletin of Mineralogy, Petrology and Geochemistry, 22(4):310-313. (in Chinese with English abstract) http://www.wanfangdata.com.cn/details/detail.do?_type=perio&id=kwysdqhxtb200304005
DENG J N, 1999. Fold structure and prodiction for prospecting in the Xitieshan ore filed, Qinghai[J]. Geological Exploration for Non-Ferrous Metals, 8(5):283-288. (in Chinese with English abstract)
DENG J N, 2002. Research progress on geological prospecting of lead-zinc deposits in Xitieshan area[R]. Internal Information of Western Mining Corporation. (in Chinese)
DOYLE M G, ALLEN R L, 2003. Subsea-floor replacement in volcanic-hosted massive sulfide deposits[J]. Ore Geology Reviews, 23(3-4):183-222. http://www.wanfangdata.com.cn/details/detail.do?_type=perio&id=b320e2defc885364b6aa33d745590042
DU G H, LI S B, 1982. Geological characteristics of Xitieshan polymetallic deposit in Qinghai[J]. Northwestern Geology(4):27-34. (in Chinese)
FAN J C, LI F, 2006. Revision on Tanjianshan Group in the Xitieshan Mine, Qinghai Province[J]. Geology and Prospecting, 42(6):21-25. (in Chinese with English abstract) http://www.wanfangdata.com.cn/details/detail.do?_type=perio&id=dzykt200606005
FENG Z H, LI S Y, CHEN R Q, 1997. The ore-controlling structural model and its characteristics in the Xitieshan Pb-Zn Mine of Qinghai Province[J]. Geotectonica et Metallogenia, 21(2):167-172. (in Chinese with English abstract) http://www.wanfangdata.com.cn/details/detail.do?_type=perio&id=QK199700038825
FENG Z X, SUN H S, WU G B, et al., 2010. A discussion on type of the Xitieshan Pb-Zn ore deposit, Qinghai[J]. Geological Review, 56(4):501-512. (in Chinese with English abstract) http://www.wanfangdata.com.cn/details/detail.do?_type=perio&id=dzlp201004005
FOUQUET Y, VON STACKELBERG U, CHARLOU J L, et al., 1993. Metallogenesis in back-arc environments:the Lau Basin example[J]. Economic Geology, 88(8):2154-2181.
FU J G, LIANG X Q, WANG C, et al., 2014. Timing and characteristic of provenance of the C formation in the Tanjianshan Group, Xitieshan, North Qaidam[J]. Acta Geologica Sinica, 88(6):1081-1092. (in Chinese with English abstract) http://www.wanfangdata.com.cn/details/detail.do?_type=perio&id=dizhixb201406012
FU J G, LIANG X Q, WANG C, et al., 2015. Study on the characteristics of volcanic-sedimentary massive sulfide deposits (VSHMS):Taking the Xitianshan lead-zinc deposit as an example[J]. Acta Mineralogica Sinica, 35(S1):1001. (in Chinese)
FU J G, LIANG X Q, WANG C, et al., 2016. Characteristics and muscovite 40Ar/39Ar Age of Ductile Shear Zone in the Xitieshan Area, North Qaidam[J]. Geotectonica et Metallogenia, 40(1):14-28. (in Chinese with English abstract) http://www.wanfangdata.com.cn/details/detail.do?_type=perio&id=ddgzyckx201601002
FU J G, LIANG X Q, WANG C, et al., 2017. The Xitieshan volcanic sediment-hosted massive sulfide deposit, North Qaidam, China:Geology, structural deformation and geochronology[J]. Ore Geology Reviews, 80:923-946.
GAO X F, XIAO P X, JIA Q Z, 2011. Redetermination of the Tanjianshan Group:Geochronological and Geochemical Evidence of Basalts from the Margin of the Qaidam Basin[J]. Acta Geologica Sinica, 85(9):1452-1463. (in Chinese with English abstract)
GERMAN C R, PARSON L M, HEAT SCIENTIFIC TEAM, et al., 1996. Hydrothermal exploration near the Azores Triple Junction:tectonic control of venting at slow-spreading ridges?[J]. Earth and Planetary Science Letters, 138(1-4):93-104.
GLASBY G P, NOTSU K, 2003. Submarine hydrothermal mineralization in the Okinawa Trough, SW of Japan:an overview[J]. Ore Geology Reviews, 23(3-4):299-339.
GROVES D I, BIERLEIN F P, 2007. Geodynamic settings of mineral deposit systems[J]. Journal of the Geological Society, 164(1):19-30. http://www.wanfangdata.com.cn/details/detail.do?_type=perio&id=b97ee35147c98364d61209c662760d3c
GUO J J, 2000. Structural analysis of the Tanjianshan Group in the north margin of Qaidam Block, China and its implication[J]. Progress in Precambrian Research, 23(3):147-152. (in Chinese with English abstract)
HAN F, SUN H T, 1999. Sedex type metallogenic system[J]. Earth Science Frontiers, 6(1):139-162. (in Chinese) HUANG Z W, PI D H, 2013. Zircon of volcanic rocks in the d-1 section of the Xitieshan lead-zinc deposit U-Pb age and its geological significance[J]. Acta Mineralogica Sinica(S2):588-589. (in Chinese)
KNORSCH M, DEDITIUS A P, XIA F, et al., 2020. The impact of hydrothermal mineral replacement reactions on the formation and alteration of carbonate-hosted polymetallic sulfide deposits:A case study of the Artemis prospect, Queensland, Australia[J]. Ore Geology Reviews, 116:103232.
LAI S C, DENG J F, YANG J J, et al., 1993. Large ductile shear zone discovered in the northern margin of Qaidam[J]. Geoscience, 7(1):125. (in Chinese)
LARGE R R, 1992. Australian volcanic-hosted massive sulfide deposits; features, styles, and genetic models[J]. Economic Geology, 87(3):471-510.
LARGE R R, BULL S W, MCGOLDRICK P J, 2000. Lithogeochemical halos and geochemical vectors to stratiform sediment hosted Zn-Pb-Ag deposits:part 2. HYC deposit, McArthur River, Northern Territory[J]. Journal of Geochemical Exploration, 68(1-2):105-126.
LEACH D L, SANGSTER D F, KELLEY K D, et al., 2005. Sediment-hosted lead-zinc deposits: A global perspective[C]//100th Anniversary Volume. Littleton, Colorado: Society of Economic Geologists: 561-607.
LEACH D L, BRADLEY D C, HUSTON D, et al., 2010. Sediment-hosted lead-zinc deposits in Earth history[J]. Economic Geology, 105(3):593-625. http://d.old.wanfangdata.com.cn/NSTLQK/10.2113-gsecongeo.105.3.593/
LI F, WU Z L, LI B Z, et al., 2006. Revision of the Tanjianshan Group on the Northern Margin of the Qaidam Basin[J]. Northwestern Geology, 39(3):83-90. (in Chinese with English abstract) http://www.wanfangdata.com.cn/details/detail.do?_type=perio&id=xbdz200603012
LI F, WU Z L, LI B Z, 2007. Recognition on formation age of the Tanjianshan Group on the northern margin of the Qaidam Basin and its geological significance[J]. Geotectonica et Metallogenia, 31(2):226-233. (in Chinese with English abstract) http://www.wanfangdata.com.cn/details/detail.do?_type=perio&id=ddgzyckx200702012
LI H, XI X S, 2015. Sedimentary fans:A new genetic model for sedimentary exhalative ore deposits[J]. Ore Geology Reviews, 65:375-389.
LI P, LI Y B, WANG H F, et al., 2019. Structural characteristics and ore-controlling law of Xitieshan lead-zinc mine in North Qaidam Basin[J]. Geological Science and Technology Information, 38(4):108-123. (in Chinese with English abstract) http://d.old.wanfangdata.com.cn/Periodical/dzkjqb201904012
MAO J W, ZHANG Z H, WANG Y T, et al., 2012. Types, characteristics and prospecting of major foreign deposits[M]. Beijing:Geological Publishing House:302-370. (in Chinese)
MUKHERJEE I, LARGE R, 2017. Application of pyrite trace element chemistry to exploration for SEDEX style Zn-Pb deposits:McArthur Basin, Northern Territory, Australia[J]. Ore Geology Reviews, 81:1249-1270.
NIU Y L, 1984. On the genesis of the Xitieshan Multimetal ore deposit[J]. Journal of Lanzhou University, 20(4):105-115. (in Chinese with English abstract)
Qinghai Provincial Bureau of Geology and Mineral Resources, 1988. Regional geological survey report (1: 50, 000 Xitieshan, Quanjihe)[R]. 54-137. (in Chinese)
Qinghai Provincial Bureau of Geology and Mineral Resources, 1991. Regional geology of Qinghai province[M]. Beijing:Geological Publishing House:662. (in Chinese)
SAWKINS F J, 1972. Sulfide ore deposits in relation to plate tectonics[J]. The Journal of Geology, 80(4):377-397. http://d.old.wanfangdata.com.cn/NSTLQK/10.1086-627762/
SCHARDT C, LARGE R R, 2009. New insights into the genesis of volcanic-hosted massive sulfide deposits on the seafloor from numerical modeling studies[J]. Ore Geology Reviews, 35(3-4):333-351. http://www.wanfangdata.com.cn/details/detail.do?_type=perio&id=4a91f232b65bfbfff82d1db57ecd36b2
SLACK J F, DUMOULIN J A, SCHMIDT J M, et al., 2004. Paleozoic sedimentary rocks in the Red Dog Zn-Pb-Ag district and vicinity, western Brooks Range, Alaska:Provenance, deposition, and metallogenic significance[J]. Economic Geology, 99(7):1385-1414. http://d.old.wanfangdata.com.cn/NSTLQK/10.2113-99.7.1385/
SUN H S, ZHAO L J, WU G B, et al., 2012. Metallogenic tectonic setting and ore-finding potential of Xitieshan massive sulfide lead-zinc deposit:Evidence from lithochemistry and geochemistry of ore-hosted volcanic strata, Tanjianshan Group[J]. Acta Petrologica Sinica, 28(2):652-664. (in Chinese with English abstract) http://d.old.wanfangdata.com.cn/Periodical/ysxb98201202023
SUN H S, et al., 2017. Prospecting research on the deep and peripheral prospecting of Xieshan lead-zinc deposit in Qinghai[R]. (in Chinese)
SUN H S, LI H, EVANS N J, et al., 2017. Volcanism, mineralization and metamorphism at the Xitieshan Pb-Zn deposit, NW China:Insights from zircon geochronology and geochemistry[J]. Ore Geology Reviews, 88:289-303.
SUN J P, YIN C M, CHEN S Y, et al., 2016. An analysis of Late Carboniferous sedimentary tectonic setting and provenance of North Qaidam area:Evidence from Well Shiqian 1[J]. Geological Bulletin of China, 35(2-3):302-311. (in Chinese with English abstract) http://en.cnki.com.cn/Article_en/CJFDTotal-ZQYD2016Z1012.htm
TANG J R, 2006. The study of mineralization by relay structure of normal fault on typical metal ore deposit[D]. Changsha: Central South University. (in Chinese with English abstract)
WANG G H, RAN S M, LI M, 2001. The characteristics of Neogene Sertengshan Xietieshan oblique thrust fault in the northern margin of Qaidam Basin[J]. Journal of Geomechanics, 7(3):224-230. (in Chinese with English abstract) http://www.wanfangdata.com.cn/details/detail.do?_type=perio&id=dzlxxb200103005
WANG H C, LU S N, YUAN G B, et al., 2003. Tectonic setting and age of the "Tanjianshan Group" on the northern margin of the Qaidam basin[J]. Geological Bulletin of China, 22(7):487-493. (in Chinese with English abstract) http://www.wanfangdata.com.cn/details/detail.do?_type=perio&id=zgqydz200307005
WANG J C, PENG E S, SUN Z J, 2000. Tectonic reconstruction of the Xitieshan Pb-Zn deposit after spout sedimentation, Qinghai Province[J]. Geotectonica et Metallogenia, 24(2):163-169. (in Chinese with English abstract) http://www.wanfangdata.com.cn/details/detail.do?_type=perio&id=ddgzyckx200002009
WANG L J, ZHU X Y, WANG J B, et al., 2008. Study on fluid inclusions of the sedimentary-exhalative system (SEDEX) in Xitieshan lead-zinc deposit[J]. Acta Petrologica Sinica, 24(10):2433-2440. (in Chinese with English abstract) http://www.oalib.com/paper/1472726
WANG L J, PENG Z G, ZHU X Y, et al., 2009. Source and evolution of ore-fluid of the Xitieshan sedimentary-exhalative lead-zinc system, Qinghai province:Evidence from fluid inclusion and isotope geochemistry[J]. Acta Petrologica Sinica, 25(11):3007-3015. (in Chinese with English abstract)
WANG M Z, HAN R S, ZHOU W, et al., 2019. Ore-forming structure analysis of the Liangyan lead-zinc mining area in northwestern Guizhou deposit concentration district, China[J]. Journal of Geomechanics, 25(2):187-197. (in Chinese with English abstract) http://d.old.wanfangdata.com.cn/Periodical/dzlxxb201902005
WEI J H, et al., 2015. Contrastive comprehensive study of metallogenic geological conditions and target area prediction in the Xichaishan lead-zinc deposit area of Dachaidan, Qinghai Province[R]. (in Chinese)
WU C Z, GU L X, FENG H, et al., 2008. Genetic types of orebodies in the Xitieshan lead-zinc deposit, Qinghai Province, Western China[J]. Geology in China, 35(6):1185-1196. (in Chinese with English abstract) http://www.wanfangdata.com.cn/details/detail.do?_type=perio&id=zgdizhi200806015
WU G B, SUN H S, FENG Z X, et al., 2010. The paleotectonic setting of Xitieshan lead-zinc deposit[J]. Geochimica, 39(3):229-239. (in Chinese with English abstract) http://www.wanfangdata.com.cn/details/detail.do?_type=perio&id=dqhx201003003
WU G G, 1998. Orefield structure and metallogenic prediction[J]. Journal of Geomechanics, 4(2):1-4. (in Chinese) http://d.old.wanfangdata.com.cn/Periodical/dzkx201703007
WU J R, 1985. Geological characteristics of the Xitieshan massive sulfide deposit, Qinghai Province[J]. Mineral Deposits, 4(2):1-12. (in Chinese with English abstract)
WU J R, REN B C, ZHANG M, et al., 1987. The genetic type and geological characteristics of the Xitieshan massive Sulphide deposit, Qinghai[J]. Northwest Geoscience, 20(6):1-81, 83-88. (in Chinese with English abstract) http://www.wanfangdata.com.cn/details/detail.do?_type=perio&id=dzxb-e200104004
XU Z Q, YANG J S, WU C L, et al., 2003. Timing and Machanism of formation and exhumation of the Qaidam ultra-pressure metamorphic belt[J]. Acta Geologica Sinica, 77(2):163-176. (in Chinese with English abstract)
XUE W, ZHANG D, LI C Y, et al., 2019. Structural ore-controlling model and prospecting research for the Dulong Sn-Zn-In polymetallic deposit, southeastern Yunnan[J]. Journal of Geomechanics, 25(1):77-89. (in Chinese with English abstract) http://www.wanfangdata.com.cn/details/detail.do?_type=perio&id=dzlxxb201901009
YUAN K R, XIAO C B, CHEN R Q, 1996. Prediction of Xitieshan hidden deposit in Qinghai[M]. Changsha:Central South University of Technology Press. (in Chinese)
ZAPPETTINI E O, RUBINSTEIN N, CROSTA S, et al., 2017. Intracontinental rift-related deposits:A review of key models[J]. Ore Geology Reviews, 89:594-608.
ZHAI Y S, 2002. A brief retrospect and prospect of study on ore-forming structures[J]. Geological Review, 48(2):140-146. (in Chinese with English abstract) http://d.old.wanfangdata.com.cn/Periodical/OA000005771
ZHANG D Q, WANG F C, LI D X, et al., 2005. Two types of massive sulfide deposits on northern margin of Qaidam basin, Qinghai Province:Ⅰ. Xitieshan style SEDEX lead-zinc deposits[J]. Mineral Deposits, 24(5):471-480. (in Chinese with English abstract)
ZHANG J X, YANG J S, MENG F C, et al., 2006. U-Pb isotopic studies of eclogites and their host gneisses in the Xitieshan area of the North Qaidam mountains, western China:new evidence for an early Paleozoic HP-UHP metamorphic belt[J]. Journal of Asian Earth Sciences, 28(2-3):143-150.
ZHANG Z J, XIA W H, FENG Z W, et al., 1994. Structure and structure of the Xitianshan lead-zinc deposit in Qinghai-the relationship between organic fluid and mineralization[J]. Mineral Deposits, 13(S1):82-83. (in Chinese)
ZHAO F Q, GUO J J, LI H K, 2003. Geological characteristics and isotopic age of Tanjianshan Group along northern margin of Qaidam Basin[J]. Geological Bulletin of China, 22(1):28-31. (in Chinese with English abstract) http://www.wanfangdata.com.cn/details/detail.do?_type=perio&id=zgqydz200301005
ZHONG Y S, SUN H S, GE F J, et al., 2018. Identification of the submarine exhalative conduct and its significances for ore-controlling, genesis and ore-finding, Xitieshan Pb-Zn Deposit, Qinghai Province[J]. Geological Science and Technology Information, 37(5):154-161. (in Chinese with English abstract) http://www.wanfangdata.com.cn/details/detail.do?_type=perio&id=dzkjqb201805021
ZHU X Y, DENG J N, WANG J B, et al., 2006. The exhalation-sedimentary system of Xitieshan lead-zinc deposit, Qinghai Province[J]. Geology and Prospecting, 42(3):18-23. (in Chinese with English abstract) http://en.cnki.com.cn/Article_en/CJFDTOTAL-DZKT200603005.htm
ZHU X Y, WANG L J, ZHU G C, et al., 2010a. Characteristics of sulfur isotope geochemistry of Xitieshan lead-zinc deposit, Qinghai:The mixing of sulfurs from hydrothermal and seawater[J]. Acta Petrologica Sinica, 26(3):657-666. (in Chinese with English abstract)
ZHU X Y, WANG L J, ZHU G C, et al., 2010b. The genesis of the Xitieshan SEDEX lead-zinc deposit in Qinghai Province:lead isotope evidence[J]. Geology in China, 37(6):1682-1689. (in Chinese with English abstract)
陈正乐, 陈柏林, 2012.地质力学矿田构造研究思路、步骤与实践[J].自然杂志, 34(4):208-215. http://d.old.wanfangdata.com.cn/Periodical/zrzz201204004
成晨, 韩润生, 王雷, 等, 2019.黔西北福来厂铅锌矿床构造成生发展及其控矿作用[J].地质力学学报, 25(1):90-104. https://journal.geomech.ac.cn/ch/reader/view_abstract.aspx?flag=1&file_no=20190109&journal_id=dzlxxb
邓达文, 孔华, 奚小双, 2003.青海锡铁山热水沉积型铅锌矿床的地球化学特征[J].矿物岩石地球化学通报, 22(4):310-313. http://d.old.wanfangdata.com.cn/Periodical/kwysdqhxtb200304005
邓吉牛, 1999.青海锡铁山矿区褶皱构造及其找矿预测[J].有色金属矿产与勘查, 8(5):283-288. http://www.wanfangdata.com.cn/details/detail.do?_type=perio&id=QK199901110091
邓吉牛, 2002.锡铁山地区铅锌矿床地质找矿研究进展[R].西部矿业公司内部资料.
杜光辉, 李树冰, 1982.青海锡铁山多金属矿床的地质特征[J].西北地质(4):27-34. http://www.cnki.com.cn/Article/CJFDTotal-XBDI198204003.htm
樊俊昌, 李峰, 2006.青海锡铁山矿区滩间山群新认识[J].地质与勘探, 42(6):21-25. http://d.old.wanfangdata.com.cn/Periodical/dzykt200606005
冯佐海, 李少游, 陈儒庆, 1997.青海锡铁山铅锌矿构造控矿型式与特征[J].大地构造与成矿学, 21(2):167-172. http://www.wanfangdata.com.cn/details/detail.do?_type=perio&id=QK199700038825
冯志兴, 孙华山, 吴冠斌, 等, 2010.青海锡铁山铅锌矿床类型刍议[J].地质论评, 56(4):501-512. http://d.old.wanfangdata.com.cn/Periodical/dzlp201004005
付建刚, 梁新权, 王策, 等, 2014.柴北缘锡铁山滩涧山群c岩性组的时代归属及其物源特征[J].地质学报, 88(6):1081-1092. http://d.old.wanfangdata.com.cn/Periodical/dizhixb201406012
付建刚, 梁新权, 王策, 等, 2015.火山-沉积型块状硫化物矿床(VSHMS)特征研究:以锡铁山铅锌矿床为例[J].矿物学报, 35(S1):1001. http://d.old.wanfangdata.com.cn/Conference/9132303
付建刚, 梁新权, 王策, 等, 2016.柴北缘锡铁山韧性剪切带的基本特征及其形成时代[J].大地构造与成矿学, 40(1):14-28. http://d.old.wanfangdata.com.cn/Periodical/ddgzyckx201601002
高晓峰, 校培喜, 贾群子, 2011.滩间山群的重新厘定:来自柴达木盆地周缘玄武岩年代学和地球化学证据[J].地质学报, 85(9):1452-1463. http://d.old.wanfangdata.com.cn/Periodical/dizhixb201109005
郭进京, 2000.柴北缘锡铁山地区滩间山群构造变形分析[J].前寒武纪研究进展, 23(3):147-152.
韩发, 孙海田, 1999. Sedex型矿床成矿系统[J].地学前缘, 6(1):139-162. http://d.old.wanfangdata.com.cn/Periodical/dxqy199901012
黄志伟, 皮道会, 2013.锡铁山铅锌矿床矿区d-1岩段火山岩锆石U-Pb年龄及其地质意义[J].矿物学报(S2):588-589. http://d.old.wanfangdata.com.cn/Conference/8301453
赖绍聪, 邓晋福, 杨建军, 等, 1993.柴达木北缘发现大型韧性剪切带[J].现代地质, 7(1):125. http://www.cnki.com.cn/Article/CJFDTotal-HBDX199306003.htm
李峰, 吴志亮, 李保珠, 等, 2006.柴达木盆地北缘滩间山群新厘定[J].西北地质, 39(3):83-90. http://d.old.wanfangdata.com.cn/Periodical/xbdz200603012
李峰, 吴志亮, 李保珠, 2007.柴达木北缘滩间山群时代及其地质意义[J].大地构造与成矿学, 31(2):226-233. http://d.old.wanfangdata.com.cn/Periodical/ddgzyckx200702012
李鹏, 李义邦, 王海丰, 等, 2019.柴北缘锡铁山铅锌矿床构造变形特征及其地质意义[J].地质科技情报, 38(4):108-123. http://d.old.wanfangdata.com.cn/Periodical/dzkjqb201904012
毛景文, 张作衡, 王义天, 等, 2012.国外主要矿床类型、特点及找矿勘查[M].北京:地质出版社:302-370.
牛跃龄, 1984.青海锡铁山多金属矿床成因之初步分析[J].兰州大学学报, 20(4):105-115. http://www.cnki.com.cn/Article/CJFDTotal-LDZK198404012.htm
青海省地矿局, 1988.区域地质调查报告(1: 5万锡铁山幅、全集河幅)[R]. 54-137.
青海省地矿局, 1991.青海省区域地质志[M].北京:地质出版社:662.
孙华山, 赵立军, 吴冠斌, 等, 2012.锡铁山块状硫化物铅锌矿床成矿构造环境及矿区南部找矿潜力:来自滩间山群火山岩岩石化学、地球化学证据[J].岩石学报, 28(2):652-664. http://d.old.wanfangdata.com.cn/Periodical/ysxb98201202023
孙华山, 等, 2017.青海锡铁山铅锌矿深部及外围找矿预测研究[R].中国地质大学(武汉)内部报告.
孙娇鹏, 尹成明, 陈世悦, 等, 2016.柴达木盆地北缘晚石炭世构造环境及物源:以石浅1井为例[J].地质通报, 35(2-3):302-311. http://d.old.wanfangdata.com.cn/Periodical/zgqydz201602012
汤静如, 2006.典型金属矿床正断层中继构造控矿作用研究[D].长沙: 中南大学.
王根厚, 冉书明, 李明, 2001.柴达木盆地北缘赛什腾-锡铁山左行逆冲断裂及地质意义[J].地质力学学报, 7(3):224-230. https://journal.geomech.ac.cn/ch/reader/view_abstract.aspx?flag=1&file_no=20010305&journal_id=dzlxxb
王惠初, 陆松年, 袁桂邦, 等, 2003.柴达木盆地北缘滩间山群的构造属性及形成时代[J].地质通报, 22(7):487-493. http://d.old.wanfangdata.com.cn/Periodical/zgqydz200307005
汪劲草, 彭恩生, 孙振家, 2000.青海锡铁山铅锌矿床喷流沉积后的构造再造过程[J].大地构造与成矿学, 24(2):163-169. http://d.old.wanfangdata.com.cn/Periodical/ddgzyckx200002009
王莉娟, 祝新友, 王京斌, 等, 2008.青海锡铁山铅锌矿床喷流沉积系统(SEDEX)成矿流体研究[J].岩石学报, 24(10):2433-2440. http://d.old.wanfangdata.com.cn/Periodical/ysxb98200810024
王莉娟, 彭志刚, 祝新友, 等, 2009.青海省锡铁山sedex型铅锌矿床成矿流体来源及演化:流体包裹体及同位素地球化学证据[J].岩石学报, 25(11):3007-3015. http://d.old.wanfangdata.com.cn/Periodical/ysxb98200911029
王明志, 韩润生, 周威, 等, 2019.黔西北矿集区亮岩铅锌矿区成矿构造解析[J].地质力学学报, 25(2):187-197. https://journal.geomech.ac.cn/ch/reader/view_abstract.aspx?flag=1&file_no=20190204&journal_id=dzlxxb
魏俊浩, 等, 2015.青海省大柴旦锡铁山铅锌矿区成矿地质条件对比综合研究及靶区预测[R].
吴昌志, 顾连兴, 冯慧, 等, 2008.青海锡铁山铅锌矿床的矿体成因类型讨论[J].中国地质, 35(6):1185-1196. http://d.old.wanfangdata.com.cn/Periodical/zgdizhi200806015
吴冠斌, 孙华山, 冯志兴, 等, 2010.锡铁山铅锌矿床成矿构造背景[J].地球化学, 39(3):229-239. http://d.old.wanfangdata.com.cn/Periodical/dqhx201003003
吴淦国, 1998.矿田构造与成矿预测[J].地质力学学报, 4(2):1-4. https://journal.geomech.ac.cn/ch/reader/view_abstract.aspx?flag=1&file_no=19980214&journal_id=dzlxxb
邬介人, 1985.青海锡铁山块状硫化物矿床地质特征[J].矿床地质, 4(2):1-12.
邬介人, 任秉琛, 张莓, 等, 1987.青海锡铁山块状硫化物矿床的类型及地质特征[J].西北地质科学, 20(6):1-81, 83-88. http://www.wanfangdata.com.cn/details/detail.do?_type=perio&id=HY000001800062
许志琴, 杨经绥, 吴才来, 等, 2003.柴达木北缘超高压变质带形成与折返的时限及机制[J].地质学报, 77(2):163-176. http://d.old.wanfangdata.com.cn/Periodical/dizhixb200302004
薛伟, 张达, 李成远, 等, 2019.滇东南都龙锡锌铟多金属矿床构造控矿模式及找矿方向[J].地质力学学报, 25(1):77-89. https://journal.geomech.ac.cn/ch/reader/view_abstract.aspx?flag=1&file_no=20190108&journal_id=dzlxxb
袁奎荣, 肖垂斌, 陈儒庆, 1996.青海锡铁山隐伏铅锌矿床预测[M].长沙:中南工业大学出版社.
翟裕生, 2002.成矿构造研究的回顾和展望[J].地质论评, 48(2):140-146. http://d.old.wanfangdata.com.cn/Periodical/dzlp200202003
张德全, 王富春, 李大新, 等, 2005.柴北缘地区的两类块状硫化物矿床-I.锡铁山式SEDEX型铅锌矿床[J].矿床地质, 24(5):471-480. http://www.cqvip.com/Main/Detail.aspx?id=20854637
赵风清, 郭进京, 李怀坤, 2003.青海锡铁山地区滩间山群的地质特征及同位素年代学[J].地质通报, 22(1):28-31. http://d.old.wanfangdata.com.cn/Periodical/zgqydz200301005
钟永生, 孙华山, 葛风建, 等, 2018.青海锡铁山铅锌矿床喷流管道相识别、控矿作用及其对矿床成因和找矿勘查意义[J].地质科技情报, 37(5):154-161. http://www.wanfangdata.com.cn/details/detail.do?_type=perio&id=dzkjqb201805021
祝新友, 邓吉牛, 王京彬, 等, 2006.锡铁山铅锌矿床的找矿潜力与找矿方向[J].地质与勘探, 42(3):18-23. http://d.old.wanfangdata.com.cn/Periodical/dzykt200603004
祝新友, 王莉娟, 朱谷昌, 等, 2010a.青海锡铁山铅锌矿床硫同位素地球化学研究:深源与海水硫的混合[J].岩石学报, 26(3):657-666. http://d.old.wanfangdata.com.cn/Periodical/ysxb98201003002
祝新友, 王莉娟, 朱谷昌, 等, 2010b.锡铁山SEDEX铅锌矿床成矿物质来源研究:铅同位素地球化学证据[J].中国地质, 37(6):1682-1689. http://d.old.wanfangdata.com.cn/Periodical/zgdizhi201006014
-
下载:
图(11)
计量
- 文章访问数: 4268
- PDF下载数: 58
- 施引文献: 0