桂西大新-钦甲地区辉绿岩脉地球化学与锆石U-Pb同位素年代学及对碳硅泥岩型铀矿床成因的启示
|
摘要
碳硅泥岩型铀矿床是我国铀矿地质工作者建立的铀矿床类型,是我国四大铀矿工业类型之一。桂西地区是我国华南地区一个重要的碳硅泥岩型铀矿床产出区域,包括大新(373)铀矿床等多个典型铀矿床(点)。研究辉绿岩与矿床成因的联系,对重新认识矿床成因有重要意义。本文在对桂西大新-钦甲地区碳硅泥岩型铀矿床和辉绿岩脉野外地质研究的基础上,系统研究了辉绿岩的地质特征、岩石学、地球化学特征以及其中锆石的U-Pb同位素年代学特征,在此基础上,探讨了辉绿岩的成岩与碳硅泥岩型铀矿床成矿间的关系。元素地球化学特征显示Rb、U、Th、Ba等大离子亲石元素的含量都高于MORB值,高场强元素Ta、Nb、Zr、Hf等均相对于MORB有所富集,而HREE元素中等亏损,表明本区辉绿岩属于富集地幔特征的板内碱性玄武岩系列(WPB),属于华南陆内伸展构造背景下软流圈上涌导致富集岩石圈地幔部分熔融形成的铁镁质岩浆发生侵位的产物。辉绿岩脉3个样品的锆石LA-ICP-MS U-Pb年龄为86. 7±0. 9Ma、89. 05±0. 96Ma、91. 6±8. 3Ma,表明形成于晚白垩纪早期,与华南地区与中基性岩脉有关的铀矿床成矿时代具有较好的对应关系,也与华南地区广泛分布的中生代基性岩脉时代一致,对应于华南白垩纪构造应力场中四次重要的拉张活动时代中的一期。辉绿岩脉锆石特征指示了辉绿岩成岩过程对矿源层中铀的活化所产生的重要作用以及成岩与成矿之间的热动力联系;结合元素地球化学、矿床成矿年龄和辉绿岩锆石UPb同位素年龄研究结果表明,区内铀矿床具有多期成矿特点,即"沉积期铀预富集、辉绿岩作用下二次预富集、后期热液再次富集成矿",可能是该类型矿床成矿作用的重要形式。
Numerous uranium polymetallic deposits,uranium polymetallic occurrences and mineralized spots are widely distributed in western Guangxi. Daxin Sanqisan uranium ore deposit is one of the most important and famous sources of the carbonate-siliceouspelitic rock-type uranium deposits in southwestern China,which has drawn great attention of many geological researchers and ore deposit experts for its scale,high grade,intensive distribution and abundant associated ores. Sanqisan and Bajiang U deposits and several U occurrences were selected from western Guangxi for the present study. The tectonic environment of diabase dykes is distinguished as the plate basalt( WPB) by geochemical characteristics,which draw the conclusions that the content of SiO_2 in rocks has a large variation,mainly caused by silicides. SiO_2 is obvious negatively correlated with Fe_2 O_3,Mg O,CaO and FeO,while alkali degree( Na_2 O + K_2 O) is poor. Trace element enriches high field strength elements Ta,Nb,Zr and Hf,and big ion lithophile elements Rb,U,Th and Ba,and losses Sr. The chondrite-normalized rare earth element( REE) patterns are light REE-enriched and exhibit no Eu anomalies. According to laser ablation LA-ICP-MS U-Pb zircon dating,the ages for the diabase dykes are 86. 7 ± 0. 9 Ma,89. 05 ±0. 96 Ma and 91. 6 ± 8. 3 Ma,which is in accordance with the ages of the widely distributed Mesozoic mafic dikes in South China.Characteristics of zircons of the rocks in the study area indicate the diagenetic process of diabase dykes play an important role in the activation and transportation of the uranium,and the dynamical relationship between diagenesis and mineralization. Through studies of the geological,geochemical characteristics,composition and chronology of zircon and metallogenic epoch,this study indicate diagenesis of diabase dykes plays an important role in uranium mineralization. The mineralization is characterized by multi-stages,and Upreconcentration for the first time during the deposition period,the secondary preconcentration by function of diabase,and then uranium concentration by the hydrothermal superimposition,which most likely reflects the mineralizing process and mechanism for the carbonate-siliceous-pelitic rock type uranium deposits.
Numerous uranium polymetallic deposits,uranium polymetallic occurrences and mineralized spots are widely distributed in western Guangxi. Daxin Sanqisan uranium ore deposit is one of the most important and famous sources of the carbonate-siliceouspelitic rock-type uranium deposits in southwestern China,which has drawn great attention of many geological researchers and ore deposit experts for its scale,high grade,intensive distribution and abundant associated ores. Sanqisan and Bajiang U deposits and several U occurrences were selected from western Guangxi for the present study. The tectonic environment of diabase dykes is distinguished as the plate basalt( WPB) by geochemical characteristics,which draw the conclusions that the content of SiO_2 in rocks has a large variation,mainly caused by silicides. SiO_2 is obvious negatively correlated with Fe_2 O_3,Mg O,CaO and FeO,while alkali degree( Na_2 O + K_2 O) is poor. Trace element enriches high field strength elements Ta,Nb,Zr and Hf,and big ion lithophile elements Rb,U,Th and Ba,and losses Sr. The chondrite-normalized rare earth element( REE) patterns are light REE-enriched and exhibit no Eu anomalies. According to laser ablation LA-ICP-MS U-Pb zircon dating,the ages for the diabase dykes are 86. 7 ± 0. 9 Ma,89. 05 ±0. 96 Ma and 91. 6 ± 8. 3 Ma,which is in accordance with the ages of the widely distributed Mesozoic mafic dikes in South China.Characteristics of zircons of the rocks in the study area indicate the diagenetic process of diabase dykes play an important role in the activation and transportation of the uranium,and the dynamical relationship between diagenesis and mineralization. Through studies of the geological,geochemical characteristics,composition and chronology of zircon and metallogenic epoch,this study indicate diagenesis of diabase dykes plays an important role in uranium mineralization. The mineralization is characterized by multi-stages,and Upreconcentration for the first time during the deposition period,the secondary preconcentration by function of diabase,and then uranium concentration by the hydrothermal superimposition,which most likely reflects the mineralizing process and mechanism for the carbonate-siliceous-pelitic rock type uranium deposits.
引文
Annen C,Blundy JD and Sparks RSJ.2006.The genesis of intermediate and silicic magmas in deep crustal hot zones.Journal of Petrology,47(3):505-539
Cai YQ,Zhang JD,Li ZY,Guo QY,Song JY,Fan HH,Liu WS,Qi FCand Zhang ML.2015.Outline of uranium resources characteristics and metallogenetic regularity in China.Acta Geologica Sinica,89(6):1051-1069(in Chinese with English abstract)
Cao HJ,Huang LZ,Shen WZ,Ling HF,Huang GL,Deng P and Zhu B.2011.Geochemical characteristics and genesis of Niudai diabase dykes in northern Guangdong Province.Journal of East China Institute of Technology(Natural Science),34(4):323-331(in Chinese with English abstract)
Cao JJ,Hu RZ,Xie GQ and Liu S.2009.Geochemistry and genesis of mafic dikes from the coastal areas of Guangdong Province,China.Acta Petrologica Sinica,25(4):984-1000(in Chinese with English abstract)
Chen YL.2008.The study on ore-forming fluid genesis and ore-forming model of carbonaceous-siliceous-argillitic rock type uranium deposit in Zoige region.Ph.D.Dissertation.Chengdu:Chengdu University of Technology(in Chinese with English summary)
Du LT and Wang YM.1984.The unification of the metallogenic mechanism for granite type,volcanic type,carbonate-siliceouspelitic rock type and sandstone type uranium deposit in the South China.Radioactive Geology,(3):1-10(in Chinese)
Duan RC,Ling WL,Li Q,Chen ZW,Yang HM and Liu LF.2011.Correlations of the late Yanshanian tectonomagmatic events with metallogenesis in South China:Geochemical constraints from the Longtoushan gold ore deposit of the Dayaoshan area,Guangxi Province.Acta Geologica Sinica,85(10):1644-1658(in Chinese with English abstract)
Feng HS,Yin ZP,Xu WX and Huang GL.2009.Minerogenetic charactetristic and prospecting potential of the deeping of Mianhuakeng uranium deposit in southern Zhuguang granite batholith.Journal of East China Institute of Technology(Natural Science),32(2):101-107(in Chinese with English abstract)
Fodor RV and Vetter SK.1984.Rift-zone magmatism:Petrology of basaltic rocks transitional from CFB to MORB,southeastern Brazil margin.Contributions to Mineralogy and Petrology,88(4):307-321
Hanchar JM and Miller CF.1993.Zircon zonation patterns as revealed by cathodoluminescence and backscattered electron images:Implications for interpretation of complex crustal histories.Chemical Geology,110(1-3):1-13
Hoskin PWO and Black LP.2000.Metamorphic zircon formation by solid-state recrystallization of protolith igneous zircon.Journal of Metamorphic Geology,18(4):423-439
Hou KJ,Li YH and Tian YR.2009.In situ U-Pb zircon dating using laser ablation-multi ion counting-ICP-MS.Mineral Deposits,28(4):481-492(in Chinese with English abstract)
Hu RZ,Li CY,Ni SJ,Liu J and Yu JS.1993.Research onΣCO2source in ore-forming hydrothermal solution of granite-type uranium deposit,South China.Science in China(Series B),36(10):1252-1262
Hu RZ,Bi XW,Su WC,Peng JT and Li CY.2004.The relationship between uranium metallogenesis and crustal extension during the Cretaceous-Tertiary in South China.Earth Science Frontiers,11(1):153-160(in Chinese with English abstract)
Hu RZ,Bi XW,Zhou MF,Peng JT,Su WC,Liu S and Qi HW.2008.Uranium metallogenesis in South China and its relationship to crustal extension during the Cretaceous to Tertiary.Economic Geology,103(3):583-598
Hu RZ,Burnard PG,Bi XW,Zhou MF,Peng JT,Su WC and Zhao JH.2009.Mantle-derived gaseous components in ore-forming fluids of the Xiangshan uranium deposit,Jiangxi province,China:Evidence from He,Ar and C isotopes.Chemical Geology,266(1-2):86-95
Hu RZ and Zhou MF.2012.Multiple Mesozoic mineralization events in South China:An introduction to the thematic issue.Mineralium Deposita,47(6):579-588
Hu RZ,Mao JW,Hua RM and Fan WM.2015.Intra-continental Mineralization of South China Craton.Beijing:Science Press,1-903(in Chinese)
Huppert HE and Sparks RSJ.1988.The generation of granitic magmas by intrusion of basalt into continental crust.Journal of Petrology,29(3):599-624
Kr9ner A,Jaeckel P and Williams IS.1994.Pb-loss patterns in zircons from a high-grade metamorphic terrain as revealed by different dating methods:U-Pb and Pb-Pb ages for igneous and metamorphic zircons from northern Sri Lanka.Precambrian Research,66(1-4):151-181
Li XH,Hu RZ and Rao B.1997.Geochronology and geochemistry of cretaceous mafic dikes from northern Guangdong,SE China.Geochimica,26(2):14-31(in Chinese with English abstract)
Li XH.1999.Cretaceous magamtism and lithospheric extension:Constraints from geochronology and geochemistry.In:Institute of Geochemistry of Chinese Academy of Sciences(ed.).Resources,Environment and Sustainable Development.Beijing:Science Press,264-275(in Chinese)
Li ZX,Qi FC,He ZB and Zhang ZL.2011a.Study on structural geochemical zonation and uranium polymetallic metallogenic regularities of Daxin deposit.World Nuclear Geoscience,28(1):6-12(in Chinese with English abstract)
Li ZX,Qi FC,He ZB and Zhang ZL.2011b.REE geochemistry and genesis of Daxin uranium deposit.Uranium Geology,27(3):152-159(in Chinese with English abstract)
Li ZX,Qi FC,He ZB and Zhang ZL.2012.Geochemic characters of trace elements in Daxin uranium deposit.Uranium Geology,28(4):208-214(in Chinese with English abstract)
Li ZX,Qi FC,Qin MK,He ZB,Zhang ZL,Wang WQ,Fu J and Liu H.2018.Delineation and optimization of exploration target for carbonaceous-siliceous-argillaceous type uranium deposit in Xidamingshan metallogenic belt.Uranium Geology,34(1):1-8(in Chinese with English abstract)
Li ZY,Li XZ and Lin JR.1999.On the Meso-Cenozoic mantle plume tectonics,its relationship to uranium metallogenesis and prospecting directions in South China.Uranium Geology,15(1):9-17,34(in Chinese with English abstract)
Liu YS,Gao S,Hu ZC,Gao CG,Zong KQ and Wang DB.2010.Continental and oceanic crust recycling-induced melt-peridotite interactions in the Trans-North China Orogen:U-Pb dating,Hf isotopes and trace elements in zircons from mantle xenoliths.Journal of Petrology,51(1-2):537-571
Lu JJ,Wu LQ,Ling HF,Shen WZ,Gao JF,Huang GL,Deng P and Tan ZZ.2006.The origin of the Huangpi-Zhangguangying diabase dykes in the Xiazhuang uranium ore district of northern Guangdong Province:Evidence from trace elements and Nd-Sr-Pb-O isotopes.Acta Petrologica Sinica,22(2):397-406(in Chinese with English abstract)
Ludwig KR.2001.Squid 1.02:A User's Manual.Berkeley:Berkeley Geochronology Center,1-21
Luo C,Xu ZQ,Cheng FG,Zhang CJ,Ni SJ,Tang CY,Liang J and Zhang CJ.2013.The trace element geochemical characteristics and genesis analysis of the 373 uranium deposits in Guangxi.Acta Geologica Sinica,87(5):715-729(in Chinese with English abstract)
Mao JR,Li ZL and Ye HM.2014.Mesozoic tectono-magmatic activities in South China:Retrospect and prospect.Science China(Earth Sciences),57(12):2853-2877
Mao JW,Xie GQ,Li XF,Zhang CQ and Mei YX.2004.Mesozoic large scale mineralization and multiple lithospheric extension in South China.Earth Science Frontiers,11(1):45-55(in Chinese with English abstract)
Mao JW,Cheng YB,Chen MH and Pirajno F.2013.Major types and time-space distribution of Mesozoic ore deposits in South China and their geodynamic settings.Mineralium Deposita,48(3):267-294
Meschede M.1986.A method of discriminating between different types of mid-ocean ridge basalts and continental tholeiites with the Nb-Zr-Ydiagram.Chemical Geology,56(3-4):207-218
Min MZ.1995.Paleokarstic geological features of a high-tonnage uranium deposit.Carsologica Sinica,14(4):289-294(in Chinese with English abstract)
Min MZ,Meng ZW,Sheng GY,Min YS and Liu X.2000.Organic geochemistry of paleokarst-hosted uranium deposits,South China.Journal of Geochemical Exploration,68(3):211-229
Min MZ,Luo XZ,Mao SL,Zheng DY and Shen BP.2002.The Saqisan Mine:A paleokarst uranium deposit,South China.Ore Geology Reviews,19(1-2):79-93
Nasdala L,Hofmeister W,Norberg N,Martinson JM,Corfu F,D9rr W,Kamo SL,Kennedy AK,Kronz A,Reiners PW,Frei D,Kosler J,Wan YS,G9tze J,Hger T,Kr9ner A and Valley JW.2008.Zircon M257:A homogeneous natural reference material for the ion microprobe U-Pb analysis of zircon.Geostandards and Geoanalytical Research,32(3):247-265
Ni SJ,Xu ZQ,Zhang CJ,Song H and Luo C.2012.Uranium metallogenesis and ore genesis of the rich-large black rock series-type uranium deposits in southwest China.Advances in Earth Science,27(10):1035-1042(in Chinese with English abstract)
Ni SJ,Zhang CJ,Xu ZQ,Chen YL,Li JC and Sun ZX.2014.Major Geological Events and Uranium Mineralization in Southwest China.Beijing:Geological Publishing House,1-324(in Chinese)
Pearce JA.1982.Trace element characteristics of lavas from destructive plate boundaries.In:Thorpe RS(ed.).Andesites:Orogenic Andesites and Related Rocks.New York:Wily,528-548
Qi FC,Zhang ZL,Li ZX,He ZB and Wang WQ.2012.Temporal and spatial evolution pattern of carbonaceous-siliceous-argillaceous rock type uranium deposits in China.Uranium Geology,28(2):65-71(in Chinese with English abstract)
Qin SC,Fan WM,Guo F,Li CW and Gao XF.2010.Petrogenesis of Late Mesozoic diabase dikes in Zhejiang-Fujian provinces:Constraints from Ar-Ar dating and geochemistry.Acta Petrologica Sinica,26(11):3295-3306(in Chinese with English abstract)
Rubatto D,Gebauer D and Compagnoni R.1999.Dating of eclogitefacies zircons:The age of Alpine metamorphism in the Sesia-Lanzo Zone(Western Alps).Earth and Planetary Science Letters,167(3-4):141-158
Sláma J,Ko2ler J,Condon DJ,Crowley JL,Gerdes A,Hanchar JM,Horstwood MSA,Morris GA,Nasdala L,Norberg N,Schaltegger U,Schoene B,Tubrett MN and Whitehouse MJ.2008.Ple2ovice zircon:A new natural reference material for U-Pb and Hf isotopic microanalysis.Chemical Geology,249(1-2):1-35
Song B,Zhang YH and Liu DY.2002.Introduction to the naissance of SHRIMP and its contribution to isotope geology.Journal of Chinese Mass Spectrometry Society,23(1):58-62(in Chinese with English abstract)
Song H,Xu ZQ,Ni SJ and Zhang CJ.2011.Preliminary study on the relationship between low-temperature mineralization and uranium mineralization in the large-scale low-temperature metallogenic domain in southwestern China.Acta Mineralogica Sinica,31(Suppl.):289-290(in Chinese)
Song H,Xu ZQ,Ni SJ,Zhang CJ,Liang J,Cheng FG and Tang CY.2012.Discussion on the relationship between mineralization and diagenesis in the Sanqisan carbonate-siliceous-pelitic rock type uranium deposit,Guangxi.Mineral Deposits,31(Suppl.):217-218(in Chinese)
Song H,Xu ZQ,Ni SJ and Zhang CJ.2013.Ore genesis of typical uranium polymetallic deposits in black rock series in southwestern China.In:Liu ZL et al.(ed.).Geological Engineering and Mining Exploration in Central Asia.Shijiazhuang:Aussino Academic Publishing House,374-37
Song H,Zhang CJ,Ni SJ,Xu ZQ and Huang CH.2014.New evidence for genesis of the Zoige carbonate-siliceous-pelitic rock type uranium deposit in southern Qinling:Discovery and significance of the 64Ma intrusions.Acta Geologica Sinica,88(6):1757-1769
Song H,Xu ZQ,Ni SJ,Zhang CJ,Liang J,Cheng FG and Tang CY.2015.Response of the motianling granitic pluton in north Guangxi to the tectonic evolution in the southwestern section of the Jiangnan orogenic belt:Constraints from Neoproterozoic zircon geochronology.Geotectonica et Metallogenia,39(6):1156-1175(in Chinese with English abstract)
Sun SS and Mc Donough WF.1989.Chemical and isotopic systematics of oceanic basalts:Implications for mantle composition and processes.In:Saunders AD and Norry MJ(eds.).Magmatism in the Ocean Basins.Geological Society,London,Special Publication,42(1):313-345
Tang LM,Chen HL,Dong CW,Shen ZY,Cheng XG and Fu LL.2010.Late Mesozoic tectonic extension in SE China:Evidence from the basic dike swarms in Hainan Island,China.Acta Petrologica Sinica,26(4):1204-1216(in Chinese with English abstract)
Tu GC.2002.Two unique mineralization areas in Southwest China.Bulletin of Mineralogy,Petrology and Geochemistry,21(1):1-2(in Chinese with English abstract)
Vavra G,Gebauer D,Schmid R and Compston W.1996.Multiple zircon growth and recrystallization during polyphase Late Carboniferous to Triassic metamorphism in granulites of the Ivrea zone(Southern Alps):An ion microprobe(SHRIMP)study.Contributions to Mineralogy and Petrology,122(4):337-358
Wang QH.1988.The re-study on the genesis and ore prospecting of 373uranium deposit.Carsologica Sinica,(Suppl.2):36-44(in Chinese)
Wang YL,Wang DH,Zhang CQ,Hou KJ and Wang CH.2011.LA-ICP-MS zircon U-Pb dating of the Qinjia granite in Guangxi Province and its geologic significance.Acta Geologica Sinica,85(4):475-481(in Chinese with English abstract)
Winchester JA and Floyd PA.1977.Geochemical discrimination of different magma series and their differentiation products using immobile elements.Chemical Geology,20:325-343
Wu YB and Zheng YF.2004.Zircon genetic mineralogy and its constraint on applications of zircon U-Pb dating result.Chinese Science Bulletin,49(16):1589-1604(in Chinese)
Xia F,Chen JS,Wang XN,Lan HC,Nie FJ,Song SZ and Liu GQ.2017.LA-ICP-MS zircon U-Pb dating on rhyolites,supergene rhyolite porphyry and diabase of No.278 uranium deposit in Pingyuan County,Guangdong and its geological implications.Geology and Exploration,53(1):109-123(in Chinese with English abstract)
Xia ZQ and Li JH.2009.Relation between intermediate-basic dykes and uranium ore-formation Zhuguang and Guidong zone.Acta Mineralogica Sinica,29(Suppl.):641-643(in Chinese)
Xie GQ.2003.Late Mesozoic mafic dikes(body)from southeastern China:Geological and geochemical characteristics and its geodynamics:A case of Jiangxi Province.Ph.D.Dissertation.Guiyang:Institute of Geochemistry,Chinese Academy of Sciences,1-128(in Chinese with English summary)
Xing JS,Yang WR,Xing ZY and Liu JH.2019.Meso-Cenozoic asthenosphere upwelling of eastern China and its impacts on structure-magma-mineralization concentration region.Earth Science,44(5):1570-1583(in Chinese with English abstract)
Xu XS and Xie X.2005.Late Mesozoic-Cenozoic basaltic rocks and crust-mantle interaction,SE China.Geological Journal of China Universities,11(3):318-334(in Chinese with English abstract)
Xu XS,Lu WM and He ZY.2007.Age and generation of Fogang granite batholith and Wushi diorite-hornblende gabbro body.Science in China(Series D),50(2):209-220
Xu ZQ,Cheng FG,Tang CY,Song H,Zhang CJ,Ni SJ,Guo JT and Qi JM.2012.Geological,geochemical and chronology characteristics and its significance of the dolerite in Daxin,Guangxi Province.Advances in Earth Science,27(10):1080-1086(in Chinese with English abstract)
Xu ZQ,Cheng FG,Liang J,Tang CY,Song H and Zhang CJ.2015.Metallogeny and Prospecting Direction of Carbonate-Siliceous-Pelitic Rock Type Uranium Deposit in Southwest Guangxi.Beijing:Science Press,1-199(in Chinese)
Zeng TZ.2002.Discussion on metallogenic characteristics,formation mechanism and prospecting vistas of carbonaceous-siliceous-argillitic rock type uranium deposits.Uranium Geology,18(1):46-51(in Chinese with English abstract)
Zhang C,Cai YQ,Dong Q and Xu H.2019.Cretaceous-Neogene basin control on the formation of uranium deposits in South China:Evidence from geology,mineralization ages,and H-O isotopes.International Geology Review,doi:10.1080/00206814.2019.1598898
Zhang CJ and Chen YL.2010.Discovery of vertical zoning in the 510-1uranium deposit and its geological implications.Geology and Exploration,46(3):434-441(in Chinese with English abstract)
Zhang DS.1982.The distribution and accumulation of uranium in the carbonate-siliceous-pelitic rock.Chinese Science Bulletin,(21):1320-1323(in Chinese)
Zhang DS.1992.Late Sinian-Palaeozoic uranium-bearing carbonatesiliceous-pelitic sedimentary formations and main uraniferous strata in China.Uranium Geology,8(1):1-8(in Chinese with English abstract)
Zhang DS.1994.Discussion on metallogenetic regularities of carbonatesiliceous-pelitic rock type uranium deposits in China.Uranium Geology,10(4):207-211,219(in Chinese with English abstract)
Zhang GS,Wen HJ and Qiu YZ.2004.Geochemistry of the late Mesozoic mafic dikes in western Fujian Province.Geochimica,33(3):243-253(in Chinese with English abstract)
Zhao FM.2009.An review on geology study of carbonaceous-siliceouspelitic rock type uranium deposit in China and the strategy for its development.Uranium Geology,25(2):91-97(in Chinese with English abstract)
Zhao KD,Jiang SY,Chen WF,Chen PR and Ling HF.2014.Mineralogy,geochemistry and ore genesis of the Dawan uranium deposit in southern Hunan province,South China.Journal of Geochemical Exploration,138:59-71
Zhu B,Ling HF,Shen WZ,Lu JJ,Deng P and Tan ZZ.2008.Geochemical characteristics of Late Cretaceous diabase porphyrite dikes in the Xiazhuang uranium orefield,northern Guangdong Province and its tectonic significance.Geological Review,54(1):26-36(in Chinese with English abstract)
Zuo YM,Wu JH and Zhou WX.2001.Summary for the lithostratigraphic division of the west zone of volcanic rock petrographic province in Late Mesozoic in Fujian,Zhejiang,Jiangxi,and Guangdong Province.Journal of East China Geological Institute,24(1):1-4(in Chinese with English abstract)
蔡煜琦,张金带,李子颖,郭庆银,宋继叶,范洪海,刘武生,漆富成,张明林.2015.中国铀矿资源特征及成矿规律概要.地质学报,89(6):1051-1069
曹豪杰,黄乐真,沈渭洲,凌洪飞,黄国龙,邓平,朱捌.2011.粤北牛岱辉绿岩脉的地球化学特征及其成因研究.东华理工大学学报(自然科学版),34(4):323-331
曹建劲,胡瑞忠,谢桂青,刘燊.2009.广东沿海地区基性岩脉地球化学及成因.岩石学报,25(4):984-1000
陈友良.2008.若尔盖地区碳硅泥岩型铀矿床成矿流体成因和成矿模式研究.博士学位论文.成都:成都理工大学
杜乐天,王玉明.1984.华南花岗岩型、火山岩型、碳硅泥岩型、砂岩型铀矿成矿机理的统一性.放射性地质,(3):1-10
段瑞春,凌文黎,李青,陈子万,杨红梅,刘立芬.2011.华南燕山晚期构造-岩浆事件与成矿作用---来自广西大瑶山龙头山金矿床的地球化学约束.地质学报,85(10):1644-1658
冯海生,尹征平,徐文雄,黄国龙.2009.诸广山棉花坑铀矿深部矿化特征及找矿前景.东华理工大学学报(自然科学版),32(2):101-107
侯可军,李延河,田有荣.2009.LA-MC-ICP-MS锆石微区原位U-Pb定年技术.矿床地质,28(4):481-492
胡瑞忠,毕献武,苏文超,彭建堂,李朝阳.2004.华南白垩-第三纪地壳拉张与铀成矿的关系.地学前缘,11(1):153-160
胡瑞忠,毛景文,华仁民,范蔚茗.2015.华南陆块陆内成矿作用.北京:科学出版社,1-903
李献华,胡瑞忠,饶冰.1997.粤北白垩纪基性岩脉的年代学和地球化学.地球化学,26(2):14-31
李献华.1999.华南白垩纪岩浆活动与岩石圈伸展---地质年代和地球化学制约.见:中国科学院地球化学研究所编.资源环境与可持续发展.北京:科学出版社,264-275
李治兴,漆富成,何中波,张字龙.2011a.大新矿床构造地球化学分带及铀多金属成矿规律研究.世界核地质科学,28(1):6-12
李治兴,漆富成,何中波,张字龙.2011b.大新铀矿床稀土元素地球化学特征及成矿机理.铀矿地质,27(3):152-159
李治兴,漆富成,何中波,张字龙.2012.大新铀矿床微量元素富集特征.铀矿地质,28(4):208-214
李治兴,漆富成,秦明宽,何中波,张字龙,王文全,付锦,刘祜.2018.西大明山成矿带碳硅泥岩型铀矿找矿靶区圈定及优选.铀矿地质,34(1):1-8
李子颖,李秀珍,林锦荣.1999.试论华南中新生代地幔柱构造、铀成矿作用及其找矿方向.铀矿地质,15(1):9-17,34
陆建军,吴烈勤,凌洪飞,沈渭洲,高剑峰,黄国龙,邓平,谭正中.2006.粤北下庄铀矿田黄陂-张光营辉绿岩脉的成因:元素地球化学和Nd-Sr-Pb-O同位素证据.岩石学报,22(2):397-406
罗超,徐争启,程发贵,张成江,倪师军,唐纯勇,梁军,张长俊.2013.广西373铀矿床微量元素地球化学特征及其成因探讨.地质学报,87(5):715-729
毛建仁,厉子龙,叶海敏.2014.华南中生代构造-岩浆活动研究:现状与前景.中国科学(地球科学),44(12):2593-2617
毛景文,谢桂青,李晓峰,张长青,梅燕雄.2004.华南地区中生代大规模成矿作用与岩石圈多阶段伸展.地学前缘,11(1):45-55
闵茂中.1995.某大型铀矿床的典型古岩溶地质特征.中国岩溶,14(4):289-294
倪师军,徐争启,张成江,宋昊,罗超.2012.西南地区黑色岩系铀成矿作用及成因模式探讨.地球科学进展,27(10):1035-1042
倪师军,张成江,徐争启,陈友良,李巨初,孙泽轩.2014.西南地区重大地质事件与铀成矿作用.北京:地质出版社,1-324
漆富成,张字龙,李治兴,何中波,王文全.2012.中国碳硅泥岩型铀矿床时空演化规律.铀矿地质,28(2):65-71
秦社彩,范蔚茗,郭锋,李超文,高晓峰.2010.浙闽晚中生代辉绿岩脉的岩石成因:年代学与地球化学制约.岩石学报,26(11):3295-3306
宋彪,张玉海,刘敦一.2002.微量原位分析仪器SHRIMP的产生与锆石同位素地质年代学.质谱学报,23(1):58-62
宋昊,徐争启,倪师军,张成江.2011.中国西南大面积低温成矿作用与铀矿成矿关系初探.矿物学报,31(增):289-290
宋昊,徐争启,倪师军,张成江,梁军,程发贵,唐纯勇.2012.试论广西373碳硅泥岩型铀矿床成矿-成岩关系.矿床地质,31(增):217-218
宋昊,徐争启,倪师军,张成江,梁军,程发贵,唐纯勇.2015.广西摩天岭岩体对江南造山带西南段构造演化的响应:来自新元古代花岗岩锆石U-Pb年代学证据.大地构造与成矿学,39(6):1156-1175
唐立梅,陈汉林,董传万,沈忠悦,程晓敢,付璐露.2010.中国东南部晚中生代构造伸展作用---来自海南岛基性岩墙群的证据.岩石学报,26(4):1204-1216
涂光炽.2002.我国西南地区两个别具一格的成矿带(域).矿物岩石地球化学通报,21(1):1-2
王清河.1988.373矿床成因新议与找矿.中国岩溶,(增2):36-44
王永磊,王登红,张长青,侯可军,王成辉.2011.广西钦甲花岗岩体单颗粒锆石LA-ICP-MS U-Pb定年及其地质意义.地质学报,85(4):475-481
吴元保,郑永飞.2004.锆石成因矿物学研究及其对U-Pb年龄解释的制约.科学通报,49(16):1589-1604
夏菲,陈军胜,王晓娜,蓝恒春,聂逢君,宋仕珠,刘国奇.2017.广东平远县278铀矿床流纹岩、次流纹斑岩和辉绿岩LA-ICP-MS锆石U-Pb定年及其地质意义.地质与勘探,53(1):109-123
夏宗强,李建红.2009.贵东-诸广山地区白垩纪中基性岩脉特征及其与铀成矿关系.矿物学报,29(增):641-643
谢桂青.2003.中国东南部晚中生代以来的基性岩脉(体)的地质地球化学特征及其地球动力学意义初探---以江西省为例.博士学位论文.贵阳:中国科学院地球化学研究所,1-128
邢集善,杨巍然,邢作云,刘建华.2019.中国东部中、新生代软流圈上涌与构造-岩浆-矿集区.地球科学,44(5):1570-1583
徐夕生,谢昕.2005.中国东南部晚中生代-新生代玄武岩与壳幔作用.高校地质学报,11(3):318-334
徐夕生,鲁为敏,贺振宇.2007.佛冈花岗岩基及乌石闪长岩-角闪辉长岩体的形成年龄和起源.中国科学(D辑),37(1):27-38
徐争启,程发贵,唐纯勇,宋昊,张成江,倪师军,郭景腾,祁家明.2012.广西大新地区辉绿岩地质地球化学、年代学特征及其意义.地球科学进展,27(10):1080-1086
徐争启,程发贵,梁军,唐纯勇,宋昊,张成江.2015.桂西南碳硅泥岩型铀矿成矿规律及找矿方向.北京:科学出版社,1-199
曾天柱.2002.碳硅泥岩型铀矿成矿特征、形成机理及找矿前景的讨论.铀矿地质,18(1):46-51
张成江,陈友良.2010.510-1铀矿床垂直分带规律的发现及其成因意义.地质与勘探,46(3):434-441
张待时.1982.铀在一些碳、硅、泥沉积岩中的分布和富集.科学通报,(21):1320-1323
张待时.1992.中国晚震旦-古生代海相含铀碳硅泥岩沉积建造及主要含铀层.铀矿地质,8(1):1-8
张待时.1994.中国碳硅泥岩型铀矿床成矿规律探讨.铀矿地质,10(4):207-211,219
张贵山,温汉捷,裘愉卓.2004.闽西晚中生代基性岩脉的地球化学研究.地球化学,33(3):243-253
赵凤民.2009.中国碳硅泥岩型铀矿地质工作回顾与发展对策.铀矿地质,25(2):91-97
朱捌,凌洪飞,沈渭洲,陆建军,邓平,谭正中.2008.粤北下庄矿田晚白垩世辉绿玢岩的地球化学特征及其构造意义.地质论评,54(1):26-36
左跃明,巫建华,周维勋.2001.闽浙赣粤中生代晚期火山岩岩石地层划分综述.华东地质学院学报,24(1):1-4
(1)刘兴忠,张待时,罗长本.1997.中国铀矿找矿指南.北京:中国核工业总公司地质总局,207-269
(2)广西305核地质大队.1964.大新铀矿床储量报告.柳州:广西305 核地质大队
Cai YQ,Zhang JD,Li ZY,Guo QY,Song JY,Fan HH,Liu WS,Qi FCand Zhang ML.2015.Outline of uranium resources characteristics and metallogenetic regularity in China.Acta Geologica Sinica,89(6):1051-1069(in Chinese with English abstract)
Cao HJ,Huang LZ,Shen WZ,Ling HF,Huang GL,Deng P and Zhu B.2011.Geochemical characteristics and genesis of Niudai diabase dykes in northern Guangdong Province.Journal of East China Institute of Technology(Natural Science),34(4):323-331(in Chinese with English abstract)
Cao JJ,Hu RZ,Xie GQ and Liu S.2009.Geochemistry and genesis of mafic dikes from the coastal areas of Guangdong Province,China.Acta Petrologica Sinica,25(4):984-1000(in Chinese with English abstract)
Chen YL.2008.The study on ore-forming fluid genesis and ore-forming model of carbonaceous-siliceous-argillitic rock type uranium deposit in Zoige region.Ph.D.Dissertation.Chengdu:Chengdu University of Technology(in Chinese with English summary)
Du LT and Wang YM.1984.The unification of the metallogenic mechanism for granite type,volcanic type,carbonate-siliceouspelitic rock type and sandstone type uranium deposit in the South China.Radioactive Geology,(3):1-10(in Chinese)
Duan RC,Ling WL,Li Q,Chen ZW,Yang HM and Liu LF.2011.Correlations of the late Yanshanian tectonomagmatic events with metallogenesis in South China:Geochemical constraints from the Longtoushan gold ore deposit of the Dayaoshan area,Guangxi Province.Acta Geologica Sinica,85(10):1644-1658(in Chinese with English abstract)
Feng HS,Yin ZP,Xu WX and Huang GL.2009.Minerogenetic charactetristic and prospecting potential of the deeping of Mianhuakeng uranium deposit in southern Zhuguang granite batholith.Journal of East China Institute of Technology(Natural Science),32(2):101-107(in Chinese with English abstract)
Fodor RV and Vetter SK.1984.Rift-zone magmatism:Petrology of basaltic rocks transitional from CFB to MORB,southeastern Brazil margin.Contributions to Mineralogy and Petrology,88(4):307-321
Hanchar JM and Miller CF.1993.Zircon zonation patterns as revealed by cathodoluminescence and backscattered electron images:Implications for interpretation of complex crustal histories.Chemical Geology,110(1-3):1-13
Hoskin PWO and Black LP.2000.Metamorphic zircon formation by solid-state recrystallization of protolith igneous zircon.Journal of Metamorphic Geology,18(4):423-439
Hou KJ,Li YH and Tian YR.2009.In situ U-Pb zircon dating using laser ablation-multi ion counting-ICP-MS.Mineral Deposits,28(4):481-492(in Chinese with English abstract)
Hu RZ,Li CY,Ni SJ,Liu J and Yu JS.1993.Research onΣCO2source in ore-forming hydrothermal solution of granite-type uranium deposit,South China.Science in China(Series B),36(10):1252-1262
Hu RZ,Bi XW,Su WC,Peng JT and Li CY.2004.The relationship between uranium metallogenesis and crustal extension during the Cretaceous-Tertiary in South China.Earth Science Frontiers,11(1):153-160(in Chinese with English abstract)
Hu RZ,Bi XW,Zhou MF,Peng JT,Su WC,Liu S and Qi HW.2008.Uranium metallogenesis in South China and its relationship to crustal extension during the Cretaceous to Tertiary.Economic Geology,103(3):583-598
Hu RZ,Burnard PG,Bi XW,Zhou MF,Peng JT,Su WC and Zhao JH.2009.Mantle-derived gaseous components in ore-forming fluids of the Xiangshan uranium deposit,Jiangxi province,China:Evidence from He,Ar and C isotopes.Chemical Geology,266(1-2):86-95
Hu RZ and Zhou MF.2012.Multiple Mesozoic mineralization events in South China:An introduction to the thematic issue.Mineralium Deposita,47(6):579-588
Hu RZ,Mao JW,Hua RM and Fan WM.2015.Intra-continental Mineralization of South China Craton.Beijing:Science Press,1-903(in Chinese)
Huppert HE and Sparks RSJ.1988.The generation of granitic magmas by intrusion of basalt into continental crust.Journal of Petrology,29(3):599-624
Kr9ner A,Jaeckel P and Williams IS.1994.Pb-loss patterns in zircons from a high-grade metamorphic terrain as revealed by different dating methods:U-Pb and Pb-Pb ages for igneous and metamorphic zircons from northern Sri Lanka.Precambrian Research,66(1-4):151-181
Li XH,Hu RZ and Rao B.1997.Geochronology and geochemistry of cretaceous mafic dikes from northern Guangdong,SE China.Geochimica,26(2):14-31(in Chinese with English abstract)
Li XH.1999.Cretaceous magamtism and lithospheric extension:Constraints from geochronology and geochemistry.In:Institute of Geochemistry of Chinese Academy of Sciences(ed.).Resources,Environment and Sustainable Development.Beijing:Science Press,264-275(in Chinese)
Li ZX,Qi FC,He ZB and Zhang ZL.2011a.Study on structural geochemical zonation and uranium polymetallic metallogenic regularities of Daxin deposit.World Nuclear Geoscience,28(1):6-12(in Chinese with English abstract)
Li ZX,Qi FC,He ZB and Zhang ZL.2011b.REE geochemistry and genesis of Daxin uranium deposit.Uranium Geology,27(3):152-159(in Chinese with English abstract)
Li ZX,Qi FC,He ZB and Zhang ZL.2012.Geochemic characters of trace elements in Daxin uranium deposit.Uranium Geology,28(4):208-214(in Chinese with English abstract)
Li ZX,Qi FC,Qin MK,He ZB,Zhang ZL,Wang WQ,Fu J and Liu H.2018.Delineation and optimization of exploration target for carbonaceous-siliceous-argillaceous type uranium deposit in Xidamingshan metallogenic belt.Uranium Geology,34(1):1-8(in Chinese with English abstract)
Li ZY,Li XZ and Lin JR.1999.On the Meso-Cenozoic mantle plume tectonics,its relationship to uranium metallogenesis and prospecting directions in South China.Uranium Geology,15(1):9-17,34(in Chinese with English abstract)
Liu YS,Gao S,Hu ZC,Gao CG,Zong KQ and Wang DB.2010.Continental and oceanic crust recycling-induced melt-peridotite interactions in the Trans-North China Orogen:U-Pb dating,Hf isotopes and trace elements in zircons from mantle xenoliths.Journal of Petrology,51(1-2):537-571
Lu JJ,Wu LQ,Ling HF,Shen WZ,Gao JF,Huang GL,Deng P and Tan ZZ.2006.The origin of the Huangpi-Zhangguangying diabase dykes in the Xiazhuang uranium ore district of northern Guangdong Province:Evidence from trace elements and Nd-Sr-Pb-O isotopes.Acta Petrologica Sinica,22(2):397-406(in Chinese with English abstract)
Ludwig KR.2001.Squid 1.02:A User's Manual.Berkeley:Berkeley Geochronology Center,1-21
Luo C,Xu ZQ,Cheng FG,Zhang CJ,Ni SJ,Tang CY,Liang J and Zhang CJ.2013.The trace element geochemical characteristics and genesis analysis of the 373 uranium deposits in Guangxi.Acta Geologica Sinica,87(5):715-729(in Chinese with English abstract)
Mao JR,Li ZL and Ye HM.2014.Mesozoic tectono-magmatic activities in South China:Retrospect and prospect.Science China(Earth Sciences),57(12):2853-2877
Mao JW,Xie GQ,Li XF,Zhang CQ and Mei YX.2004.Mesozoic large scale mineralization and multiple lithospheric extension in South China.Earth Science Frontiers,11(1):45-55(in Chinese with English abstract)
Mao JW,Cheng YB,Chen MH and Pirajno F.2013.Major types and time-space distribution of Mesozoic ore deposits in South China and their geodynamic settings.Mineralium Deposita,48(3):267-294
Meschede M.1986.A method of discriminating between different types of mid-ocean ridge basalts and continental tholeiites with the Nb-Zr-Ydiagram.Chemical Geology,56(3-4):207-218
Min MZ.1995.Paleokarstic geological features of a high-tonnage uranium deposit.Carsologica Sinica,14(4):289-294(in Chinese with English abstract)
Min MZ,Meng ZW,Sheng GY,Min YS and Liu X.2000.Organic geochemistry of paleokarst-hosted uranium deposits,South China.Journal of Geochemical Exploration,68(3):211-229
Min MZ,Luo XZ,Mao SL,Zheng DY and Shen BP.2002.The Saqisan Mine:A paleokarst uranium deposit,South China.Ore Geology Reviews,19(1-2):79-93
Nasdala L,Hofmeister W,Norberg N,Martinson JM,Corfu F,D9rr W,Kamo SL,Kennedy AK,Kronz A,Reiners PW,Frei D,Kosler J,Wan YS,G9tze J,Hger T,Kr9ner A and Valley JW.2008.Zircon M257:A homogeneous natural reference material for the ion microprobe U-Pb analysis of zircon.Geostandards and Geoanalytical Research,32(3):247-265
Ni SJ,Xu ZQ,Zhang CJ,Song H and Luo C.2012.Uranium metallogenesis and ore genesis of the rich-large black rock series-type uranium deposits in southwest China.Advances in Earth Science,27(10):1035-1042(in Chinese with English abstract)
Ni SJ,Zhang CJ,Xu ZQ,Chen YL,Li JC and Sun ZX.2014.Major Geological Events and Uranium Mineralization in Southwest China.Beijing:Geological Publishing House,1-324(in Chinese)
Pearce JA.1982.Trace element characteristics of lavas from destructive plate boundaries.In:Thorpe RS(ed.).Andesites:Orogenic Andesites and Related Rocks.New York:Wily,528-548
Qi FC,Zhang ZL,Li ZX,He ZB and Wang WQ.2012.Temporal and spatial evolution pattern of carbonaceous-siliceous-argillaceous rock type uranium deposits in China.Uranium Geology,28(2):65-71(in Chinese with English abstract)
Qin SC,Fan WM,Guo F,Li CW and Gao XF.2010.Petrogenesis of Late Mesozoic diabase dikes in Zhejiang-Fujian provinces:Constraints from Ar-Ar dating and geochemistry.Acta Petrologica Sinica,26(11):3295-3306(in Chinese with English abstract)
Rubatto D,Gebauer D and Compagnoni R.1999.Dating of eclogitefacies zircons:The age of Alpine metamorphism in the Sesia-Lanzo Zone(Western Alps).Earth and Planetary Science Letters,167(3-4):141-158
Sláma J,Ko2ler J,Condon DJ,Crowley JL,Gerdes A,Hanchar JM,Horstwood MSA,Morris GA,Nasdala L,Norberg N,Schaltegger U,Schoene B,Tubrett MN and Whitehouse MJ.2008.Ple2ovice zircon:A new natural reference material for U-Pb and Hf isotopic microanalysis.Chemical Geology,249(1-2):1-35
Song B,Zhang YH and Liu DY.2002.Introduction to the naissance of SHRIMP and its contribution to isotope geology.Journal of Chinese Mass Spectrometry Society,23(1):58-62(in Chinese with English abstract)
Song H,Xu ZQ,Ni SJ and Zhang CJ.2011.Preliminary study on the relationship between low-temperature mineralization and uranium mineralization in the large-scale low-temperature metallogenic domain in southwestern China.Acta Mineralogica Sinica,31(Suppl.):289-290(in Chinese)
Song H,Xu ZQ,Ni SJ,Zhang CJ,Liang J,Cheng FG and Tang CY.2012.Discussion on the relationship between mineralization and diagenesis in the Sanqisan carbonate-siliceous-pelitic rock type uranium deposit,Guangxi.Mineral Deposits,31(Suppl.):217-218(in Chinese)
Song H,Xu ZQ,Ni SJ and Zhang CJ.2013.Ore genesis of typical uranium polymetallic deposits in black rock series in southwestern China.In:Liu ZL et al.(ed.).Geological Engineering and Mining Exploration in Central Asia.Shijiazhuang:Aussino Academic Publishing House,374-37
Song H,Zhang CJ,Ni SJ,Xu ZQ and Huang CH.2014.New evidence for genesis of the Zoige carbonate-siliceous-pelitic rock type uranium deposit in southern Qinling:Discovery and significance of the 64Ma intrusions.Acta Geologica Sinica,88(6):1757-1769
Song H,Xu ZQ,Ni SJ,Zhang CJ,Liang J,Cheng FG and Tang CY.2015.Response of the motianling granitic pluton in north Guangxi to the tectonic evolution in the southwestern section of the Jiangnan orogenic belt:Constraints from Neoproterozoic zircon geochronology.Geotectonica et Metallogenia,39(6):1156-1175(in Chinese with English abstract)
Sun SS and Mc Donough WF.1989.Chemical and isotopic systematics of oceanic basalts:Implications for mantle composition and processes.In:Saunders AD and Norry MJ(eds.).Magmatism in the Ocean Basins.Geological Society,London,Special Publication,42(1):313-345
Tang LM,Chen HL,Dong CW,Shen ZY,Cheng XG and Fu LL.2010.Late Mesozoic tectonic extension in SE China:Evidence from the basic dike swarms in Hainan Island,China.Acta Petrologica Sinica,26(4):1204-1216(in Chinese with English abstract)
Tu GC.2002.Two unique mineralization areas in Southwest China.Bulletin of Mineralogy,Petrology and Geochemistry,21(1):1-2(in Chinese with English abstract)
Vavra G,Gebauer D,Schmid R and Compston W.1996.Multiple zircon growth and recrystallization during polyphase Late Carboniferous to Triassic metamorphism in granulites of the Ivrea zone(Southern Alps):An ion microprobe(SHRIMP)study.Contributions to Mineralogy and Petrology,122(4):337-358
Wang QH.1988.The re-study on the genesis and ore prospecting of 373uranium deposit.Carsologica Sinica,(Suppl.2):36-44(in Chinese)
Wang YL,Wang DH,Zhang CQ,Hou KJ and Wang CH.2011.LA-ICP-MS zircon U-Pb dating of the Qinjia granite in Guangxi Province and its geologic significance.Acta Geologica Sinica,85(4):475-481(in Chinese with English abstract)
Winchester JA and Floyd PA.1977.Geochemical discrimination of different magma series and their differentiation products using immobile elements.Chemical Geology,20:325-343
Wu YB and Zheng YF.2004.Zircon genetic mineralogy and its constraint on applications of zircon U-Pb dating result.Chinese Science Bulletin,49(16):1589-1604(in Chinese)
Xia F,Chen JS,Wang XN,Lan HC,Nie FJ,Song SZ and Liu GQ.2017.LA-ICP-MS zircon U-Pb dating on rhyolites,supergene rhyolite porphyry and diabase of No.278 uranium deposit in Pingyuan County,Guangdong and its geological implications.Geology and Exploration,53(1):109-123(in Chinese with English abstract)
Xia ZQ and Li JH.2009.Relation between intermediate-basic dykes and uranium ore-formation Zhuguang and Guidong zone.Acta Mineralogica Sinica,29(Suppl.):641-643(in Chinese)
Xie GQ.2003.Late Mesozoic mafic dikes(body)from southeastern China:Geological and geochemical characteristics and its geodynamics:A case of Jiangxi Province.Ph.D.Dissertation.Guiyang:Institute of Geochemistry,Chinese Academy of Sciences,1-128(in Chinese with English summary)
Xing JS,Yang WR,Xing ZY and Liu JH.2019.Meso-Cenozoic asthenosphere upwelling of eastern China and its impacts on structure-magma-mineralization concentration region.Earth Science,44(5):1570-1583(in Chinese with English abstract)
Xu XS and Xie X.2005.Late Mesozoic-Cenozoic basaltic rocks and crust-mantle interaction,SE China.Geological Journal of China Universities,11(3):318-334(in Chinese with English abstract)
Xu XS,Lu WM and He ZY.2007.Age and generation of Fogang granite batholith and Wushi diorite-hornblende gabbro body.Science in China(Series D),50(2):209-220
Xu ZQ,Cheng FG,Tang CY,Song H,Zhang CJ,Ni SJ,Guo JT and Qi JM.2012.Geological,geochemical and chronology characteristics and its significance of the dolerite in Daxin,Guangxi Province.Advances in Earth Science,27(10):1080-1086(in Chinese with English abstract)
Xu ZQ,Cheng FG,Liang J,Tang CY,Song H and Zhang CJ.2015.Metallogeny and Prospecting Direction of Carbonate-Siliceous-Pelitic Rock Type Uranium Deposit in Southwest Guangxi.Beijing:Science Press,1-199(in Chinese)
Zeng TZ.2002.Discussion on metallogenic characteristics,formation mechanism and prospecting vistas of carbonaceous-siliceous-argillitic rock type uranium deposits.Uranium Geology,18(1):46-51(in Chinese with English abstract)
Zhang C,Cai YQ,Dong Q and Xu H.2019.Cretaceous-Neogene basin control on the formation of uranium deposits in South China:Evidence from geology,mineralization ages,and H-O isotopes.International Geology Review,doi:10.1080/00206814.2019.1598898
Zhang CJ and Chen YL.2010.Discovery of vertical zoning in the 510-1uranium deposit and its geological implications.Geology and Exploration,46(3):434-441(in Chinese with English abstract)
Zhang DS.1982.The distribution and accumulation of uranium in the carbonate-siliceous-pelitic rock.Chinese Science Bulletin,(21):1320-1323(in Chinese)
Zhang DS.1992.Late Sinian-Palaeozoic uranium-bearing carbonatesiliceous-pelitic sedimentary formations and main uraniferous strata in China.Uranium Geology,8(1):1-8(in Chinese with English abstract)
Zhang DS.1994.Discussion on metallogenetic regularities of carbonatesiliceous-pelitic rock type uranium deposits in China.Uranium Geology,10(4):207-211,219(in Chinese with English abstract)
Zhang GS,Wen HJ and Qiu YZ.2004.Geochemistry of the late Mesozoic mafic dikes in western Fujian Province.Geochimica,33(3):243-253(in Chinese with English abstract)
Zhao FM.2009.An review on geology study of carbonaceous-siliceouspelitic rock type uranium deposit in China and the strategy for its development.Uranium Geology,25(2):91-97(in Chinese with English abstract)
Zhao KD,Jiang SY,Chen WF,Chen PR and Ling HF.2014.Mineralogy,geochemistry and ore genesis of the Dawan uranium deposit in southern Hunan province,South China.Journal of Geochemical Exploration,138:59-71
Zhu B,Ling HF,Shen WZ,Lu JJ,Deng P and Tan ZZ.2008.Geochemical characteristics of Late Cretaceous diabase porphyrite dikes in the Xiazhuang uranium orefield,northern Guangdong Province and its tectonic significance.Geological Review,54(1):26-36(in Chinese with English abstract)
Zuo YM,Wu JH and Zhou WX.2001.Summary for the lithostratigraphic division of the west zone of volcanic rock petrographic province in Late Mesozoic in Fujian,Zhejiang,Jiangxi,and Guangdong Province.Journal of East China Geological Institute,24(1):1-4(in Chinese with English abstract)
蔡煜琦,张金带,李子颖,郭庆银,宋继叶,范洪海,刘武生,漆富成,张明林.2015.中国铀矿资源特征及成矿规律概要.地质学报,89(6):1051-1069
曹豪杰,黄乐真,沈渭洲,凌洪飞,黄国龙,邓平,朱捌.2011.粤北牛岱辉绿岩脉的地球化学特征及其成因研究.东华理工大学学报(自然科学版),34(4):323-331
曹建劲,胡瑞忠,谢桂青,刘燊.2009.广东沿海地区基性岩脉地球化学及成因.岩石学报,25(4):984-1000
陈友良.2008.若尔盖地区碳硅泥岩型铀矿床成矿流体成因和成矿模式研究.博士学位论文.成都:成都理工大学
杜乐天,王玉明.1984.华南花岗岩型、火山岩型、碳硅泥岩型、砂岩型铀矿成矿机理的统一性.放射性地质,(3):1-10
段瑞春,凌文黎,李青,陈子万,杨红梅,刘立芬.2011.华南燕山晚期构造-岩浆事件与成矿作用---来自广西大瑶山龙头山金矿床的地球化学约束.地质学报,85(10):1644-1658
冯海生,尹征平,徐文雄,黄国龙.2009.诸广山棉花坑铀矿深部矿化特征及找矿前景.东华理工大学学报(自然科学版),32(2):101-107
侯可军,李延河,田有荣.2009.LA-MC-ICP-MS锆石微区原位U-Pb定年技术.矿床地质,28(4):481-492
胡瑞忠,毕献武,苏文超,彭建堂,李朝阳.2004.华南白垩-第三纪地壳拉张与铀成矿的关系.地学前缘,11(1):153-160
胡瑞忠,毛景文,华仁民,范蔚茗.2015.华南陆块陆内成矿作用.北京:科学出版社,1-903
李献华,胡瑞忠,饶冰.1997.粤北白垩纪基性岩脉的年代学和地球化学.地球化学,26(2):14-31
李献华.1999.华南白垩纪岩浆活动与岩石圈伸展---地质年代和地球化学制约.见:中国科学院地球化学研究所编.资源环境与可持续发展.北京:科学出版社,264-275
李治兴,漆富成,何中波,张字龙.2011a.大新矿床构造地球化学分带及铀多金属成矿规律研究.世界核地质科学,28(1):6-12
李治兴,漆富成,何中波,张字龙.2011b.大新铀矿床稀土元素地球化学特征及成矿机理.铀矿地质,27(3):152-159
李治兴,漆富成,何中波,张字龙.2012.大新铀矿床微量元素富集特征.铀矿地质,28(4):208-214
李治兴,漆富成,秦明宽,何中波,张字龙,王文全,付锦,刘祜.2018.西大明山成矿带碳硅泥岩型铀矿找矿靶区圈定及优选.铀矿地质,34(1):1-8
李子颖,李秀珍,林锦荣.1999.试论华南中新生代地幔柱构造、铀成矿作用及其找矿方向.铀矿地质,15(1):9-17,34
陆建军,吴烈勤,凌洪飞,沈渭洲,高剑峰,黄国龙,邓平,谭正中.2006.粤北下庄铀矿田黄陂-张光营辉绿岩脉的成因:元素地球化学和Nd-Sr-Pb-O同位素证据.岩石学报,22(2):397-406
罗超,徐争启,程发贵,张成江,倪师军,唐纯勇,梁军,张长俊.2013.广西373铀矿床微量元素地球化学特征及其成因探讨.地质学报,87(5):715-729
毛建仁,厉子龙,叶海敏.2014.华南中生代构造-岩浆活动研究:现状与前景.中国科学(地球科学),44(12):2593-2617
毛景文,谢桂青,李晓峰,张长青,梅燕雄.2004.华南地区中生代大规模成矿作用与岩石圈多阶段伸展.地学前缘,11(1):45-55
闵茂中.1995.某大型铀矿床的典型古岩溶地质特征.中国岩溶,14(4):289-294
倪师军,徐争启,张成江,宋昊,罗超.2012.西南地区黑色岩系铀成矿作用及成因模式探讨.地球科学进展,27(10):1035-1042
倪师军,张成江,徐争启,陈友良,李巨初,孙泽轩.2014.西南地区重大地质事件与铀成矿作用.北京:地质出版社,1-324
漆富成,张字龙,李治兴,何中波,王文全.2012.中国碳硅泥岩型铀矿床时空演化规律.铀矿地质,28(2):65-71
秦社彩,范蔚茗,郭锋,李超文,高晓峰.2010.浙闽晚中生代辉绿岩脉的岩石成因:年代学与地球化学制约.岩石学报,26(11):3295-3306
宋彪,张玉海,刘敦一.2002.微量原位分析仪器SHRIMP的产生与锆石同位素地质年代学.质谱学报,23(1):58-62
宋昊,徐争启,倪师军,张成江.2011.中国西南大面积低温成矿作用与铀矿成矿关系初探.矿物学报,31(增):289-290
宋昊,徐争启,倪师军,张成江,梁军,程发贵,唐纯勇.2012.试论广西373碳硅泥岩型铀矿床成矿-成岩关系.矿床地质,31(增):217-218
宋昊,徐争启,倪师军,张成江,梁军,程发贵,唐纯勇.2015.广西摩天岭岩体对江南造山带西南段构造演化的响应:来自新元古代花岗岩锆石U-Pb年代学证据.大地构造与成矿学,39(6):1156-1175
唐立梅,陈汉林,董传万,沈忠悦,程晓敢,付璐露.2010.中国东南部晚中生代构造伸展作用---来自海南岛基性岩墙群的证据.岩石学报,26(4):1204-1216
涂光炽.2002.我国西南地区两个别具一格的成矿带(域).矿物岩石地球化学通报,21(1):1-2
王清河.1988.373矿床成因新议与找矿.中国岩溶,(增2):36-44
王永磊,王登红,张长青,侯可军,王成辉.2011.广西钦甲花岗岩体单颗粒锆石LA-ICP-MS U-Pb定年及其地质意义.地质学报,85(4):475-481
吴元保,郑永飞.2004.锆石成因矿物学研究及其对U-Pb年龄解释的制约.科学通报,49(16):1589-1604
夏菲,陈军胜,王晓娜,蓝恒春,聂逢君,宋仕珠,刘国奇.2017.广东平远县278铀矿床流纹岩、次流纹斑岩和辉绿岩LA-ICP-MS锆石U-Pb定年及其地质意义.地质与勘探,53(1):109-123
夏宗强,李建红.2009.贵东-诸广山地区白垩纪中基性岩脉特征及其与铀成矿关系.矿物学报,29(增):641-643
谢桂青.2003.中国东南部晚中生代以来的基性岩脉(体)的地质地球化学特征及其地球动力学意义初探---以江西省为例.博士学位论文.贵阳:中国科学院地球化学研究所,1-128
邢集善,杨巍然,邢作云,刘建华.2019.中国东部中、新生代软流圈上涌与构造-岩浆-矿集区.地球科学,44(5):1570-1583
徐夕生,谢昕.2005.中国东南部晚中生代-新生代玄武岩与壳幔作用.高校地质学报,11(3):318-334
徐夕生,鲁为敏,贺振宇.2007.佛冈花岗岩基及乌石闪长岩-角闪辉长岩体的形成年龄和起源.中国科学(D辑),37(1):27-38
徐争启,程发贵,唐纯勇,宋昊,张成江,倪师军,郭景腾,祁家明.2012.广西大新地区辉绿岩地质地球化学、年代学特征及其意义.地球科学进展,27(10):1080-1086
徐争启,程发贵,梁军,唐纯勇,宋昊,张成江.2015.桂西南碳硅泥岩型铀矿成矿规律及找矿方向.北京:科学出版社,1-199
曾天柱.2002.碳硅泥岩型铀矿成矿特征、形成机理及找矿前景的讨论.铀矿地质,18(1):46-51
张成江,陈友良.2010.510-1铀矿床垂直分带规律的发现及其成因意义.地质与勘探,46(3):434-441
张待时.1982.铀在一些碳、硅、泥沉积岩中的分布和富集.科学通报,(21):1320-1323
张待时.1992.中国晚震旦-古生代海相含铀碳硅泥岩沉积建造及主要含铀层.铀矿地质,8(1):1-8
张待时.1994.中国碳硅泥岩型铀矿床成矿规律探讨.铀矿地质,10(4):207-211,219
张贵山,温汉捷,裘愉卓.2004.闽西晚中生代基性岩脉的地球化学研究.地球化学,33(3):243-253
赵凤民.2009.中国碳硅泥岩型铀矿地质工作回顾与发展对策.铀矿地质,25(2):91-97
朱捌,凌洪飞,沈渭洲,陆建军,邓平,谭正中.2008.粤北下庄矿田晚白垩世辉绿玢岩的地球化学特征及其构造意义.地质论评,54(1):26-36
左跃明,巫建华,周维勋.2001.闽浙赣粤中生代晚期火山岩岩石地层划分综述.华东地质学院学报,24(1):1-4
(1)刘兴忠,张待时,罗长本.1997.中国铀矿找矿指南.北京:中国核工业总公司地质总局,207-269
(2)广西305核地质大队.1964.大新铀矿床储量报告.柳州:广西305 核地质大队
© 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 |