从哥伦比亚超大陆裂解事件论古/中元古代的界限
|
摘要
国际前寒武纪地层表中始终把古/中元古代的界线置于1. 6Ga,我国则一直将这一界线置于1. 8Ga。存在认识分歧的根本原因是对1. 8Ga前后时期地质事件及其性质的理解与认识的差异或偏颇。本文通过阐述1. 8~1. 6Ga期间地质事件及其性质,重点分析和讨论古/中元古代(界)界限的划分及相关地质事件的标志与意义。大量的地质资料显示,超大陆从1. 8~1. 75Ga开始裂解,形成一系列的陆内盆地,如北美(劳伦古陆)的Thelon盆地、澳大利亚北部的Leichhardt超级盆地、南美巴西圣弗兰西斯科盆地、华北南缘的熊耳裂谷盆地以及扬子地块西南缘的东川盆地等。在这些盆地形成的早期沉积了冲积扇相、河流相的碎屑岩,之后伴有较广泛的火山岩喷发,中晚期从河流相、湖相碎屑岩沉积过渡到浅海碳酸盐台地沉积,反映一个拉伸裂解的过程。在复原的哥伦比亚超大陆内,广泛分布有1. 78~1. 72Ga的非造山花岗岩,包括AMCG组合(斜长岩、纹长二长岩、紫苏花岗岩和花岗岩)、环斑花岗岩、A型花岗岩等,以及广泛分布的基性岩墙群。这些岩浆岩都反映了拉伸裂解的地球动力学背景。在1. 8~1. 6Ga,不论是沉积事件还是岩浆事件,绝大部分与超大陆的拉伸裂解有关,并未显示造山作用、大陆固结和克拉通化的特点,用固结纪来概括这一阶段地质事件的性质并不合适。哥伦比亚超大陆上的许多盆地在1. 6Ga左右经历了一次广泛的抬升,使沉积作用短时间间断,之后原有盆地继续发展,接受了更广泛的沉积,这种沉积作用可以一直延续到1. 4~1. 3Ga左右。与裂解有关的岩浆事件也以幕式方式从1. 78Ga一直断续持续到1. 4~1. 32Ga左右。从1. 8Ga(或1. 78Ga)到1. 4~1. 3Ga,不论是盆地的沉积事件还是与裂解有关的岩浆事件,基本是连续的。以1. 6Ga作为年代界线划分古/中元古代,人为地隔断了连续的沉积事件和岩浆事件,显然与"尽可能少地截断沉积作用、火成侵位或造山运动的主要序列"的前寒武纪地层划分原则相悖。连续的裂谷盆地沉积事件和非造山岩浆事件可以追溯到1. 8Ga(或1. 78Ga)。因此,我们建议将古/中元古代的界线置于1. 8Ga或1. 78Ga。考虑到裂谷作用的本质是在已有超大陆或克拉通的基础上盖层的发育过程,因此我们建议将~1. 8Ga或1. 78~1. 4Ga都归入盖层系。
In the International Precambrian Stratigraphic Chart,the Paleo-/Mesoproterozoic boundary is always set at 1. 6 Ga while in Chinese literatures,this boundary is always placed at 1. 8 Ga. The fundamental reason for this difference is the understanding of the nature of the geological events in this period. This paper focuses on discussing the boundary between Paleoproterozoic and Mesoproterozoic from the nature of the geological events during 1. 8 ~ 1. 6 Ga. A large amount of geological data shows that the Columbia/Nuna supercontinent began to stretch and breakup from 1. 8 Ga to 1. 75 Ga and formed a series of intracontinental rifting-sag basins,such as Thelon basin in North America( Laurentia),Leichhardt superbasin in northern Australia,S2 o Francisco basin in South America,Xiong'er rifting basin in the southern margin of the North China Craton,Dongchuan basin in the southwestern margin of the Yangtze Block,and others. During the early stage of basin formation,the clastic rocks of alluvial fan facies and fluvial facies were deposited,followed by extensive volcanic eruptions. During the middle and late stage,the ealier fluvial facies and lacustrine facies rocks were overlied by carbonate platform sediments deposited in shallow sea,which reflects a process of stretching and breakup.Anorogenic magmatic rocks of 1. 78 ~ 1. 72 Ga distributed widely in continents/blocks that formed the Columbia supercontinent,including bimodal igneous rocks,AMCG assemblages( anorthosite,mangerite,charnockite and granite),rapakivi granite,A-type granite,etc.,as well as widely distributed mafic dyke swarms. All these igneous rocks reflect the stretching and breaking process.During 1. 8 ~ 1. 6 Ga,both sedimentary events and magmatic events were related to the stretching and breaking of the supercontinent,but did not show the characteristics of orogeny,continental solidation and cratonization. Therefore,it is not appropriate to use the Statherian to summarize the nature of the geological events in this stage. In Columbia supercongtinent,many intracontinental basins experienced a wide uplift at around 1. 6 Ga,resulting in a short interval of sedimentation. After that,the original basins continued to develop and accepted a wider range of sedimentation,which sustained until about 1. 4 ~ 1. 3 Ga. Magmatic events related to supercontinental stretching and breaking can also be intermittent from 1. 78 Ga to 1. 4 ~ 1. 32 Ga. From 1. 8 Ga( or 1. 78 Ga) to 1. 4 ~1. 3 Ga,both sedimentary events in the basins and magmatic events related to stretching and breaking are basically continuous.Therefore,the set of Paleo-Mesoproterozoic boundary at 1. 6 Ga artificially destroys the continuity of global sedimentary events and magmatic events,which were obviously contrary to the principle that the major sequences of sedimentation,igneous emplacement,or orogeny should be cut off as little as possible in the Precambrian stratigraphic division. Since the time of the successive depositional events in rifting-basins and of the anorogenic magmatic events in continents can be traced back to 1. 8 Ga( or 1. 78 Ga),we propose to place the Paleo-Mesoproterozoic boundary at 1. 8 Ga or 1. 78 Ga,rather then 1. 6 Ga. Considering that the rifting process leads to the development of the overlying strata on the preexisting supercontinent or craton,we suggest classifying the sediments of ca. 1. 8 ~ 1. 4 Ga into the Calymmian.
In the International Precambrian Stratigraphic Chart,the Paleo-/Mesoproterozoic boundary is always set at 1. 6 Ga while in Chinese literatures,this boundary is always placed at 1. 8 Ga. The fundamental reason for this difference is the understanding of the nature of the geological events in this period. This paper focuses on discussing the boundary between Paleoproterozoic and Mesoproterozoic from the nature of the geological events during 1. 8 ~ 1. 6 Ga. A large amount of geological data shows that the Columbia/Nuna supercontinent began to stretch and breakup from 1. 8 Ga to 1. 75 Ga and formed a series of intracontinental rifting-sag basins,such as Thelon basin in North America( Laurentia),Leichhardt superbasin in northern Australia,S2 o Francisco basin in South America,Xiong'er rifting basin in the southern margin of the North China Craton,Dongchuan basin in the southwestern margin of the Yangtze Block,and others. During the early stage of basin formation,the clastic rocks of alluvial fan facies and fluvial facies were deposited,followed by extensive volcanic eruptions. During the middle and late stage,the ealier fluvial facies and lacustrine facies rocks were overlied by carbonate platform sediments deposited in shallow sea,which reflects a process of stretching and breakup.Anorogenic magmatic rocks of 1. 78 ~ 1. 72 Ga distributed widely in continents/blocks that formed the Columbia supercontinent,including bimodal igneous rocks,AMCG assemblages( anorthosite,mangerite,charnockite and granite),rapakivi granite,A-type granite,etc.,as well as widely distributed mafic dyke swarms. All these igneous rocks reflect the stretching and breaking process.During 1. 8 ~ 1. 6 Ga,both sedimentary events and magmatic events were related to the stretching and breaking of the supercontinent,but did not show the characteristics of orogeny,continental solidation and cratonization. Therefore,it is not appropriate to use the Statherian to summarize the nature of the geological events in this stage. In Columbia supercongtinent,many intracontinental basins experienced a wide uplift at around 1. 6 Ga,resulting in a short interval of sedimentation. After that,the original basins continued to develop and accepted a wider range of sedimentation,which sustained until about 1. 4 ~ 1. 3 Ga. Magmatic events related to supercontinental stretching and breaking can also be intermittent from 1. 78 Ga to 1. 4 ~ 1. 32 Ga. From 1. 8 Ga( or 1. 78 Ga) to 1. 4 ~1. 3 Ga,both sedimentary events in the basins and magmatic events related to stretching and breaking are basically continuous.Therefore,the set of Paleo-Mesoproterozoic boundary at 1. 6 Ga artificially destroys the continuity of global sedimentary events and magmatic events,which were obviously contrary to the principle that the major sequences of sedimentation,igneous emplacement,or orogeny should be cut off as little as possible in the Precambrian stratigraphic division. Since the time of the successive depositional events in rifting-basins and of the anorogenic magmatic events in continents can be traced back to 1. 8 Ga( or 1. 78 Ga),we propose to place the Paleo-Mesoproterozoic boundary at 1. 8 Ga or 1. 78 Ga,rather then 1. 6 Ga. Considering that the rifting process leads to the development of the overlying strata on the preexisting supercontinent or craton,we suggest classifying the sediments of ca. 1. 8 ~ 1. 4 Ga into the Calymmian.
引文
Alkmim FF and Martins-Neto MA.2012.Proterozoic first-order sedimentary sequences of the S2o Francisco craton,eastern Brazil.Marine and Petroleum Geology,33(1):127-139
All China Commission of Stratigraphy.2001.Stratigraphical Guide of China and Its Explanation(Revised Edition).Beijing:Geological Publishing House,1-59(in Chinese)
All China Commission of Stratigraphy.2002.Regional Chronostratigraphic Chart of China(Geologic time).Beijing:Geological Publishing House:1-72(in Chinese)
Baker MJ,Crawford AJ and Withnall IW.2010.Geochemical,Sm-Nd isotopic characteristics and petrogenesis of Paleoproterozoic mafic rocks from the Georgetown Inlier,North Queensland:Implications for relationship with the Broken Hill and Mount Isa eastern succession.Precambrian Research,177(1-2):39-54
Bao ZW,Wang Q,Zi F,Tang GJ,Du FJ and Bai GD.2009.Geochemistry of the Paleoproterozoic Longwangzhuang A-type granites on the southern margin of North China Craton:Petrogenesis and tectonic implications.Geochimica,38(6):509-522(in Chinese with English abstract)
Betts PG,Giles D and Schaefer BF.2008.Comparing 1800~1600Ma accretionary and basin processes in Australia and Laurentia:Possible geographic connections in Columbia.Precambrian Research,166(1-4):81-92
Bogdanova SV,Pashkevich IK,Gorbatschev R and Orlyuk MI.1996.Riphean rifting and major Palaeoproterozoic crustal boundaries in the basement of the East European Craton:Geology and geophysics.Tectonophysics,268(1-4):1-21
Bogdanova SV,Gintov OB,Kurlovich DM,Lubnina NV,Nilsson MKM,Orlyuk MI,Pashkevich IK,Shumlyanskyy LV and Starostenko VI.2013.Late palaeoproterozoic mafic dyking in the Ukrainian Shield of Volgo-Sarmatia caused by rotations during the assembly of supercontinent Columbia(Nuna).Lithos,174:196-216
Bradshaw BE,Lindsay JF,Krassay AA and Wells AT.2000.Attenuated basin-margin sequence stratigraphy of the Palaeoproterozoic Calvert and Isa Superbasins:The Fickling Group,southern Murphy Inlier,Queensland.Australian Journal of Earth Sciences,47(3):599-623
Brown PE,Dempster TJ,Hutton DHW and Becker SM.2003.Extensional tectonics and mafic plutons in the Ketilidian rapakivi granite suite of South Greenland.Lithos,67(1-2):1-13
Campbell IH and Davies GF.2006.Do mantle plumes exist?Episodes,29(3):162-168
Chamberlain KR,Schmitt AK,Swapp SM,Harrison TM,SwobodaColberg N,Bleeker W,Peterson TD,Jefferson CW and Khudoley AK.2010.In situ U-Pb SIMS(IN-SIMS)micro-baddeleyite dating of mafic rocks:Method with examples.Precambrian Research,183(3):379-387
Chen WT,Zhou MF and Zhao XF.2013.Late Paleoproterozoic sedimentary and mafic rocks in the Hekou area,SW China:Implication for the reconstruction of the Yangtze Block in Columbia.Precambrian Research,231:61-77
China Geological Survey and All China Commission of Stratigraphy.2014.Geologic Time Scale of China.Beijing:Geological Publishing House,1(in Chinese)
Collerson KD,van Schmus RW,Lewry JF and Bickford ME.1988.Buried Precambrian basement in South-Central Saskatchewan:Provisional results from Sm-Nd model ages and U-Pb zircon geochronology.Saskatchewan Geological Survey,142-150
Condie KC.2002.Breakup of a Paleoproterozoic supercontinent.Gondwana Research,5(1):41-43
Cowie JW and Bassett MG.1989.Global stratigraphic chart with geochronometric and magnetostratigraphic calibration.Episodes,12(2):Supplement
Cui ML,Zhang BL,Peng P,Zhang LC,Shen XL,Guo ZH and Huang XF.2010.Zircon/baddeleyite U-Pb dating for the Paleo-proterozoic intermediate-acid intrusive rocks in Xiaoshan Mountains,west of Henan Province and their constraints on the age of the Xiong’er Volcanic Province.Acta Petrologica Sinica,26(5):1541-1549(in Chinese with English abstract)
Cui ML,Zhang BL and Zhang LC.2011.U-Pb dating of baddeleyite andzircon from the Shizhaigou diorite in the southern margin of North China Craton:Constrains on the timing and tectonic setting of the Paleoproterozoic Xiong’er Group.Gondwana Research,20(1):184-193
Cui ML,Zhang LC,Zhang BL and Zhu MT.2013.Geochemistry of1.78Ga A-type granites along the southern margin of the North China Craton:Implications for Xiong’er magmatism during the break-up of the supercontinent Columbia.International Geology Review,55(4):496-509
Danderfer A,De Waele B,Pedreira AJ and Nalini HA.2009.New geochronological constraints on the geological evolution of Espinha9o basin within the S2o Francisco Craton-Brazil.Precambrian Research,170(1-2):116-128
Danderfer Filho A,Lana CC,Nalini Junior HA and Costa AFO.2015.Constraints on the Statherian evolution of the intraplate rifting in a Paleo-Mesoproterozoic paleocontinent:New stratigraphic and geochronology record from the eastern S2o Francisco Craton.Gondwana Research,28(2):668-688
Davis WJ,Gall Q,Jefferson CW and Rainbird RH.2011.Fluorapatite in the Paleoproterozoic Thelon Basin:Structural-stratigraphic context,in situ ion microprobe U-Pb ages,and fluid-flow history.GSABulletin,123(5-6):1056-1073
Deng XQ,Zhao TP,Peng TP,Gao XY and Bao ZW.2015.Petrogenesis of 1600Ma Maping A-type granite in the southern margin of the North China Craton and its tectonic implications.Acta Petrologica Sinica,31(6):1621-1635(in Chinese with English abstract)
Didenko AN,Vodovozov VY,Peskov AY,Guryanov VA and Kosynkin AV.2015.Paleomagnetism of the Ulkan massif(SE Siberian platform)and the apparent polar wander path for Siberia in Late Paleoproterozoic-Early Mesoproterozoic times.Precambrian Research,259:58-77
Ernst RE and Buchan KL.2004.Igneous rock associations in Canada 3.Large Igneous Provinces(LIPS)in Canada and adjacent regions:3Ga to present.Geoscience Canada,31(3):103-126
Ernst RE.2014.Large Igneous Provinces.Cambridge:Cambridge University Press,1-653
Ernst RE,Hamilton MA,Soderlund U,Hanes JA,Gladkochub DP,Okrugin AV,Kolotilina T,Mekhonoshin AS,Bleeker W,LeC heminant AN,Buchan KL,Chamberlain KR and Didenko AN.2016.Long-lived connection between southern Siberia and northern Laurentia in the Proterozoic.Nature Geosciences,9(6):464-469
Evans DAD and Mitchell RN.2011.Assembly and breakup of the core of Paleoproterozoic-mesoproterozoic supercontinent Nuna.Geology,39(5):443-446
Fan HP,Zhu WG,Li ZX,Zhong H,Bai ZJ,He DF,Chen CJ and Cao CY.2013.Ca.1.5Ga mafic magmatism in South China during the break-up of the supercontinent Nuna/Columbia:The Zhuqing Fe-TiV oxide ore-bearing mafic intrusions in western Yangtze Block.Lithos,168-169:85-98
Furlanetto F,Thorkelson DJ,Rainbird RH,Davis WJ,Gibson HD and Marshall DD.2016.The Paleoproterozoic Wernecke Supergroup of Yukon,Canada:Relationships to orogeny in northwestern Laurentia and basins in North America,East Australia,and China.Gondwana Research,39:14-40
Gao LZ,Zhang CH,Shi XY,Zhou HR and Wang ZQ.2007.Zircon SHRIMP U-Pb dating of the tuff bed in the Xiamaling Formation of the Qingbaikouan System in North China.Geological Bulletin of China,26(3):249-255(in Chinese with English abstract)
Gao LZ,Zhang CH,Shi XY,Song B,Wang ZQ and Liu YM.2008a.Mesoproterozic age for Xiamaling Formation in North China Plate indicated by zircon SHRIMP dating.Chinese Science Bulletin,53(17):2665-2671
Gao LZ,Zhang CH,Yin CY,Shi XY,Wang ZQ,Liu YM,Liu PJ and Song B.2008b.SHRIMP zircon ages:Basis for refining the chronostratigraphic classification of the Meso-and Neoproterozoic strata in North China Oldland.Acta Geoscientica Sinica,29(3):366-376(in Chinese with English abstract)
Gao LZ,Zhang CH,Liu PJ,Ding XZ,Wang ZQ and Zhang YJ.2009.Recognition of Meso-and Neoproterozoic stratigraphic framework in North and South China.Acta Geoscientica Sinica,30(4):433-446 (in Chinese with English abstract)
Gao S,Qiu YM,Ling WL,McN aughton NJ and Groves DI.2001.Single zircon U-Pb dating of the Kongling high-grade metamorphic terrain:Evidence for>3.2Ga old continental crust in the Yangtze craton.Science in China(Series D),44(4):326-335
Gao S,Yang J,Zhou L,Li M,Hu ZC,Guo JL,Yuan HL,Gong HJ,Xiao GQ and Wei JQ.2011.Age and growth of the Archean Kongling terrain,South China,with emphasis on 3.3Ga granitoid gneisses.American Journal of Science,311(2):153-182
Gao W,Zhang CH,Gao LZ,Shi XY,Liu YM and Song B.2008.Zircon SHRIMP U-Pb age of rapakivi granite in Miyun,Beijing,China,and its tectono-stratigraphic implications.Geological Bulletin of China,27(6):793-798(in Chinese with English abstract)
Geng YS,Liu YQ,Gao LZ,Peng N and Jiang XJ.2012.Chronology of the Mesoproterozoic Tong’an Formation in southwestern margin of Yangtze Craton:New evidence from zircon LA-ICP-MS U-Pb ages.Acta Geologica Sinica,86(9):1479-1490(in Chinese with English abstract)
Geng YS,Shen QH,Du LL and Song HX.2016.Regional metamorphism and continental growth and assembly in China.Acta Petrologica Sinica,32(9):2579-2608(in Chinese with English abstract)
Geng YS,Kuang HW,Liu YQ and Du LL.2017.Subdivision and correlation of the Mesoproterozoic stratigraphy in the western and northern margins of Yangtze Block.Acta Geologica Sinica,91(10):2151-2174(in Chinese with English abstract)
Gibson GM,Henson PA,Neumann NL,Southgate PN and Hutton LJ.2012.Paleoproterozoic-earliest Mesoproterozoic basin evolution in the Mount Isa region,northern Australia and implications for reconstructions of the Nuna and Rodinia supercontinents.Episodes,35(1):131-141
Gibson GM,Champion DC,Withnall IW,Neumann NL and Hutton LJ.2018.Assembly and breakup of the Nuna supercontinent:Geodynamic constraints from 1800 to 1600Ma sedimentary basins and basaltic magmatism in northern Australia.Precambrian Research,313:148-169
Gladkochub DP,Donskaya TV,Mazukabzov AM,Stanevich A,Sklyarov EV and Ponomarchuk VA.2007.Signature of Precambrian extension events in the southern Siberian craton.Russian Geology and Geophysics,48(1):17-31
Gladkochub DP,Pisarevsky SV,Ernst R,Donskaya TV,S9derlund U,Mazukabzov AM and Hanes J.2010.Large igneous province of about 1750Ma in the Siberian Craton.Doklady Earth Sciences,430(2):168-171
Gradstein FM,Ogg JG,Smith AG,Bleeker W and Lourens LJ.2004.Anew geologic time scale,with special reference to Precambrian and Neogene.Episodes,27(2):83-100
Gradstein FM,Ogg JG,Schmitz MD and Ogg GM.2012.The Geological Time Scale 2012.Amsterdam:Elsevier
Greentree MR and Li ZX.2008.The oldest known rocks in south-western China:SHRIMP U-Pb magmatic crystallisation age and detrital provenance analysis of the Paleoproterozoic Dahongshan Group.Journal of Asian Earth Sciences,33(5-6):289-302
Guadagnin F and Junior FC.2015.Detrital zircon record of the Paleoproterozoic to Mesoproterozoic cratonic basins in the S2o Francisco Craton.Journal of South American Earth Sciences,60:104-116
Guadagnin F,Chemale Jr F,Magalh2es AJC,Santana A,Dussin I and Takehara L.2015.Age constraints on crystal-tuff from the Espinha9o Supergroup:Insight into the Paleoproterozoic to Mesoproterozoic intracratonic basin cycles of the Congo-S2o Francisco Craton.Gondwana Research,27(1):363-376
Guan JL,Zheng LL,Liu JH,Sun ZM and Cheng WH.2011.Zircons SHRIMP U-Pb dating of diabase from Hekou,Sichuan Province,China and its geological significance.Acta Geologica Sinica,85(4):482-490(in Chinese with English abstract)
Guo Y,Wang SW,Sun XM,Wang ZZ,Yang B,Liao ZW,Zhou BG,Jiang XF,Hou L and Yang B.2014.The Paleoproterozoic breakup event in the Southwest Yangtze Block:Evidence from U-Pb zircon age and geochemistry of diabase in Wuding,Yunnan Province,SWChina.Acta Geologica Sinica,88(9):1651-1665(in Chinese with English abstract)
Haapala I,Front K,Rantala E and Vaarma M.1987.Petrology of Nattanen-type granite complexes,northern Finland.Precambrian Research,35:225-240
Hahn K,Rainbird R and Cousens B.2013.Sequence stratigraphy,provenance,C and O isotopic composition,and correlation of the late Paleoproterozoic-early Mesoproterozoic upper Hornby Bay and lower Dismal Lakes groups,NWT and Nunavut.Precambrian Research,232:209-225
Halls HC,Li JH,Davis D,Hou GT,Zhang BX and Qian XL.2000.Aprecisely dated Proterozoic palaeomagnetic pole from the North China craton,and its relevance to paleocontinental reconstruction.Geophysical Journal International,143(1):185-203
Han BF,Zhang L,Wang YM and Song B.2007.Enriched mantle source for Paleoproterozoic high Mg and low Ti-P mafic dykes in central part of the North China Craton:Constraints from zircon Hf isotopic compositions.Acta Petrologica Sinica,23(2):277-284(in Chinese with English abstract)
Hazen RM,Papineau D,Bleeker W,Downs RT,Ferry JM,McC oy TJ,Sverjensky DA and Yang HX.2008.Mineral evolution.American Mineralogist,93(11-12):1693-1720
He YH,Zhao GC,Sun M and Xia XP.2009.SHRIMP and LA-ICP-MSzircon geochronology of the Xiong’er volcanic rocks:Implications for the Paleo-Mesoproterozoic evolution of the southern margin of the North China Craton.Precambrian Research,168(3-4):213-222
He ZJ,Zhang XY,Niu BG,Liu RY and Zhao L.2011a.The paleoweathering mantle of the Proterozoic rapakivi granite in Miyun County,Beijing and the relationship with the Changzhougou Formation of Changchengian System.Earth Science Frontiers,18(4):123-130(in Chinese with English abstract)
He ZJ,Niu BG,Zhang XY,Zhao L and Liu RY.2011b.Discovery of the paleo-weathered mantle of the rapakivi granites covered by the Proterozoic Changzhougou Formation in the Miyun area,Beijing and their detrital zircon dating.Geological Bulletin of China,30(5):798-802(in Chinese with English abstract)
Hou GT,Li JH and Qian XL.2001.The palaeomagnetism and geological significcance of Mesoproterozoic dyke swarms in the central North China Craton.Science in China(Series D),44(2):185-192
Hou GT,Li JH,Liu YL and Qian XL.2005.Late paleoproterozoic extension of the North China Craton:Aulacogen and mafic dyke swarm.Progress in Natural Science,15(11):1366-1373(in Chinese)
Hou GT,Santosh M,Qian XL,Lister G and Li JH.2008.Configuration of the Late Paleoproterozoic supercontinent Columbia:Insights from radiating mafic dyke swarms.Gondwana Research,14(3):395-409
Hou GT.2012.Mafic Dyke Swarms of North China.Beijing:Science Press,1-177(in Chinese)
Hou L,Ding J,Deng J,Liao ZW and Peng HJ.2013.Zircon LA-ICP-MS dating of the magmatic breccia from the Yinachang iron-copper deposit in Wuding County of Yunnan Province and its geological significance.Geological Bulletin of China,32(4):580-588(in Chinese with English abstract)
Hu GH,Hu JL,Chen W and Zhao TP.2010.Geochemistry and tectonic setting of the 1.78Ga mafic dyke swarms in the Mt.Zhongtiao and Mt.Song areas,the southern margin of the North China Craton.Acta Petrologica Sinica,26(5):1563-1576(in Chinese with English abstract)
Hutton LJ and Sweet IP.1982.Geological evolution,tectonic style,and economic potential of the Lawn Hill Platform cover,northwest Queensland.BMR Journal of Australian Geology and Geophysics,7(2):125-134
Irving E,Baker J,Hamilton M and Wynne PJ.2004.Early Proterozoicgeomagnetic field in western Laurentia:Implications for paleolatitudes,local rotations and stratigraphy.Precambrian Research,129(3-4):251-270
Jackson MJ,Scott DL and Rawlings DJ.2000.Stratigraphic framework for the Leichhardt and Calvert Superbasins:Review and correlations of the pre-1700Ma successions between Mt Isa and McA rthur River.Australian Journal of Earth Sciences,47(3):381-403
James HL.1978.Subdivision of the Precambrian:A brief review and a report on recent decisions by the Subcommission on Precambrian Stratigraphy.Precambrian Research,7(3):193-204
James HL.1983.Precambrian subcommission meets in Tanta,Egypt.Precambrian Research,20(1):1-2
Jiang N,Guo JH and Zhai MG.2011.Nature and origin of the Wenquan granite:Implications for the provenance of Proterozoic A-type granites in the North China Craton.Journal of Asian Earth Sciences,42(1-2):76-82
Jin TF,Li YG,Fei GC,Feng YC,Zhou H,Sha XB and Wu K.2017.Geochronology of zircon U-Pb from Hongshan Formation in the Dahongshan Group in the Southwest Yangtze Block for the redefinitions of the forming age of the protolith and metamorphic ages.Geological Review,63(4):894-910(in Chinese with English abstract)
Kaur P,Zeh A,Chaudhri N and Eliyas N.2017.Two distinct sources of1.73~1.70Ga A-type granites from the northern Aravalli orogen,NW India:Constraints from in situ zircon U-Pb ages and Lu-Hf isotopes.Gondwana Research,49:164-181
Khudoley A,Chamberlain K,Ershova V,Sears J,Prokopiev A,MacL ean J,Kazakova G,Malyshev S,Molchanov A,Kullerud K,Toro J,Miller E,Veselovskiy R,Li A and Chipley D.2015.Proterozoic supercontinental restorations:Constraints from provenance studies of Mesoproterozoic to Cambrian clastic rocks,eastern Siberian Craton.Precambrian Research,259:78-94
Kokonyangi J,Armstrong R,Kampunzu AB,Yoshida M and Okudaira T.2004.U-Pb zircon geochronology and petrology of granitoids from Mitwaba(Katanga,Congo):Implications for the evolution of the Mesoproterozoic Kibaran belt.Precambrian Research,132(1-2):79-106
Krassay AA,Domagala J,Bradshaw BE and Southgate PN.2000.Lowstand ramps,fans and deep-water Palaeoproterozoic and Mesoproterozoic facies of the Lawn Hill Platform:The Term,Lawn,Wide and Doom Supersequences of the Isa Superbasin,northern Australia.Australian Journal of Earth Sciences,47(3):563-597
Larin AM.2009.Rapakivi Granites in the geological history of the Earth.Part 1,Magmatic associations with rapakivi granites:Age,geochemistry,and tectonic setting.Stratigraphy and Geological Correlation,17(3):235-258
Larin AM.2014.Ulkan-Dzhugdzhur ore-bearing anorthosite-rapakivi granite-peralkaline granite association,Siberian Craton:Age,tectonic setting,sources,and metallogeny.Geology of Ore Deposits,56(4):257-280
Lenharo SLR,Moura MA and Botelho NF.2002.Petrogenetic and mineralization processes in Paleo-to Mesoproterozoic rapakivi granites:Examples from Pitinga and Goiás,Brazil.Precambrian Research,119(1-4):277-299
Li CD,Zhao LG,Chang QS,Xu YW and Xu T.2017.Zircon U-Pb dating of tuff bed from Luoyukou Formation in western Henan Province on the southern margin of the North China Craton and its stratigraphic attribution discussion.Geology in China,44(3):511-525(in Chinese with English abstract)
Li HK,Zhu SX,Xiang ZQ,Su WB,Lu SN,Zhou HY,Geng JZ,Li Sand Yang FJ.2010.Zircon U-Pb dating on tuff bed from Gaoyuzhuang Formation in Yanqing,Beijing:Further constraints on the new subdivision of the Mesoproterozoic stratigraphy in the northern North China Craton.Acta Petrologica Sinica,26(7):2131-2140(in Chinese with English abstract)
Li HK,Su WB,Zhou HY,Geng JZ,Xiang ZQ,Cui YR,Liu WC and Lu SN.2011.The base age of the Changchengian System at the northern North China Craton should be younger than 1670Ma:Constraints from zircon U-Pb LA-MC-ICPMS dating of a graniteporphyry dike in Miyun County,Beijing.Earth Science Frontiers,18 (3):108-120(in Chinese with English abstract)
Li HK,Lu SN,Su WB,Xiang ZQ,Zhou HY and Zhang YQ.2013.Recent advances in the study of the Mesoproterozoic geochronology in the North China Craton.Journal of Asian Earth Sciences,72:216-227
Li HK,Zhang CL,Yao CY and Xiang ZQ.2013.U-Pb zircon age and Hf isotope compositions of Mesoproterozoic sedimentary strata on the western margin of the Yangtze massif.Science China(Earth Sciences),56(4):628-639
Li HK,Su WB,Zhou HY,Xiang ZQ,Tian H,Yang LG,Huff WD and Ettensohn FR.2014.The first precise age constraints on the Jixian System of the Meso-to Neoproterozoic Standard Section of China:SHRIMP zircon U-Pb dating of bentonites from the Wumishan and Tieling formations in the Jixian Section,North China Craton.Acta Petrologica Sinica,30(10):2999-3012(in Chinese with English abstract)
Li SZ,Lin YX and Zhang XQ.1985.The ages of the Changzhougou and Chuanlinggou formations of the Changcheng system in Yanshan area.Precambrian Geology,2:129-134(in Chinese)
Li Y,Peng P,Wang XP and Wang HZ.2015.Nature of 1800~1600Ma mafic dyke swarms in the North China Craton:Implications for the rejuvenation of the sub-continental lithospheric mantle.Precambrian Research,257:114-123
Liu K,Lu GM,Wang ZZ,Huang SF,Xue EK and Wang W.2019.The Paleoproterozoic bimodal magmatism in the SW Yangtze block:Implications for initial breakup of the Columbia supercontinent.Lithos,332-333:23-38
Liu XY.2011.Chronological,petrological and geochemical characteristics of the Paleo-Mesoproterozoic alkali-rich intrusive rocks along the southern part of the North China Craton.Master Degree Thesis.Beijing:Chinese Academy of Geological Sciences,1-84(in Chinese with English summary)
Liu XY,Cai JH and Yan GH.2011.Lithogeochemistry and Geochronology of Xiong’er Group Yanyaozhai subvolcanics in the southern margin of the North China Craton and their geological signifans.Acta Geologica Sinica,85(7):1134-1145(in Chinese with English abstract)
Lobato LM,Pimentel MM,Cruz SCP,Machado N,Noce CM and Alkmim FF.2015.U-Pb geochronology of the Lagoa Real uranium district,Brazil:Implications for the age of the uranium mineralization.Journal of South American Earth Sciences,58:129-140
Lu SN and Sun DZ.1983.The background information about the subdivision of Proterozoic Eon.Overseas Precambrian Geology,(1):44-61(in Chinese)
Lu SN.1998.A review on subdivision of Proterozoic eon in China.Progress in Precambrian Research,21(4):1-9(in Chinese with English abstract)
Lu SN,Li HK,Li HM,Song B,Wang SY,Zhou HY and Chen ZH.2003.U-Pb isotopic ages and their significance of alkaline granite in the southern margin of the North China Craton.Geological Bulletin of China,22(12):762-768(in Chinese with English abstract)
Lu SN,Li HK,Wang HC and Chen ZH.2005.Brief introduction and comment on the special reference to the Precambrian subdivision by the International Commission on Stratigraphy.Geological Review,51(2):169-173(in Chinese with English abstract)
Lu SN,Zhao GC,Wang HC and Hao GJ.2008.Precambrian metamorphic basement and sedimentary cover of the North China Craton:A review.Precambrian Research,160(1-2):77-93
Lu GM,Wang W,Ernst RE,S9derlund U,Lan ZF,Huang SF and Xue EK.2019.Petrogenesis of Paleo-Mesoproterozoic mafic rocks in the southwestern Yangtze Block of South China:Implications for tectonic evolution and paleogeographic reconstruction.Precambrian Research,322:66-84
Martin DM and Thorne AM.2004.Tectonic setting and basin evolution of the Bangemall Supergroup in the northwestern Capricorn Orogen.Precambrian Research,128(3-4):385-409
Martins-Neto MA.2000.Tectonics and sedimentation in a Paleo/Mesoproterozoic rift-sag basin(Espinha9o basin,southeastern Brazil).Precambrian Research,103(3-4):147-173
Mccourt S,Armstrong RA,Kampunzu AB,Mapeo RBM and Morais E.2004.New U-Pb SHRIMP ages on zircons from the Lubango region,Southwest Angola:Insights into the proterozoic evolution of SouthWestern Africa.In:Proceedings of the 20thCAG.Orleans,France:Geoscience:Geological Society of South Africa,438-439
Meert JG.2002.Paleomagnetic evidence for a Paleo-Mesoproterozoic supercontinent Columbia.Gondwana Research,5(1):207-215
Meert JG.2012.What’s in a name?The Columbia(Paleopangaea/Nuna)supercontinent.Gondwana Research,21(4):987-993
Neumann NL,Southgate PN,Gibson GM and McI ntyre A.2006.New SHRIMP geochronology for the western fold belt of the Mt.Isa Inlier:Developing a 1800~1650Ma event framework.Australian Journal of Earth Sciences,53(6):1023-1039
Neumann NL,Gibson GM and Southgate PN.2009.New SHRIMP age constraints on the timing and duration of magmatism and sedimentation in the Mary Kathleen Fold Belt,Mt Isa Inlier,Australia.Australian Journal of Earth Sciences,56(7):965-983
Page RW.1983.Chronology of magmatism,skarn formation,and uranium mineralization,Mary Kathleen,Queensland,Australia.Economic Geology,78(5):838-853
Page RW,Jackson MJ and Krassay AA.2000.Constraining sequence stratigraphy in north Australian basins:SHRIMP U-Pb zircon geochronology between Mt Isa and McA rthur River.Australian Journal of Earth Sciences,47(3):431-459
Pang WH,Ren GM,Sun ZM and Yin FG.2015.Division and correlation of Paleo-Mesoproterozoic strata on the western margin of Yangtze block:Evidence from the U-Pb age of tuff zircon in the Tongan Formation.Geology in China,42(4):921-936(in Chinese with English abstract)
Pedreira AJ and De Waele B.2008.Contemporeaneous evolution of the Paleoproterozoic-Mesoproterozoic sedimentary basins of the S2o Francisco-Congo craton.In:Pankhurst RJ,Trouw RAJ,De Brito Neves BB and De Wit MJ(eds.).West Gondwana:Pre-Cenozoic Correlations across the South Atlantic Region.Geological Society,London,Special Publication,294:33-48
Peng M,Wu YB,Wang J,Jiao WF,Liu XC and Yang SH.2009.Paleoproterozoic mafic dyke from Kongling terrain in the Yangtze Craton and its implication.Chinese Science Bulletin,54(6):1098-1104
Peng M,Wu YB,Gao S,Zhang HF,Wang J,Liu XC,Gong HJ,Zhou L,Hu ZC,Liu YS and Yuan HL.2012b.Geochemistry,zircon U-Pb age and Hf isotope compositions of Paleoproterozoic aluminous A-type granites from the Kongling terrain,Yangtze Block:Constraints on petrogenesis and geologic implications.Gondwana Research,22(1):140-151
Peng N,Kuang HW,Liu YQ,Geng YS,Xia XX,Wang YC,Chen XSand Zheng HH.2018.Recognition of geological age for acanthomorphic acritarchs from the Ruyang Group,southern margin of North China Craton and its implication for evolution of early eukaryotes.Journal of Palaeogeography,20(4):595-608(in Chinese with English abstract)
Peng P,Zhai MG,Zhang HF and Guo JH.2005.Geochronological constraints on the Paleoproterozoic evolution of the North China Craton:SHRIMP zircon ages of different types of mafic dikes.International Geology Review,47(5):492-508
Peng P,Zhai MG and Guo JH.2006.1.80~1.75Ga mafic dyke swarms in the central North China craton:Implications for a plume-related break-up event.In:Hanski E,Mertanen S,Ram9 T and Vuollo J(eds.).Dyke Swarms-Time Markers of Crustal Evolution.London:Taylor&Francis,99-112
Peng P,Zhai MG,Guo JH,Kusky T and Zhao TP.2007.Nature of mantle source contributions and crystal differentiation in the petrogenesis of the 1.78Ga mafic dykes in the central North China craton.Gondwana Research,12(1-2):29-46
Peng P,Zhai MG,Ernst RE,Guo JH,Liu F and Hu B.2008.A 1.78Ga large igneous province in the North China craton:The Xiong’er Volcanic Province and the North China dyke swarm.Lithos,101(3-4):260-280
Peng P,Guo JH,Zhai MG and Bleeker W.2010.Paleoproterozoic gabbronoritic and granitic magmatism in the northern margin of the North China Craton:Evidence of crust-mantle interaction.Precambrian Research,183(3):635-659
Peng P,Liu F,Zhai MG and Guo JH.2012a.Age of the Miyun dyke swarm:Constraints on the maximum depositional age of the Changcheng System.Chinese Science Bulletin,57(1):105-110
Peng P.2015.Precambrian mafic dyke swarms in the North China Craton and their geological implications.Science China(Earth Sciences),58(5):649-675
Peng P.2016.Map of Precambrian Dyke Swarms and Related Plutonic/Volcanic Units in the North China Block(Instructions).Beijing:Science Press,1-90(in Chinese with English abstract)
Peterson TD,Scott JMJ,Le Cheminant AN and Jefferson CW.2015.The Kivalliq Igneous Suite:Anorogenic bimodal magmatism at 1.75Ga in the western Churchill Province,Canada.Precambrian Research,262:101-119
Qiao XF and Wang YB.2014.Discussions on the lower boundary age of the Mesoproterozoic and basin tectonic evolution of the Mesoproterozoic in North China Craton.Acta Geologica Sinica,88(9):1623-1637(in Chinese with English abstract)
Qiu YM,Gao S,McN aughton NJ,Groves DI and Ling WL.2000.First evidence of>3.2Ga continental crust in the Yangtze craton of South China and its implications for Archean crustal evolution and Phanerozoic tectonics.Geology,28(1):11-14
Rainbird RH,Hadlari T,Aspler LB,Donaldson JA,Le Cheminant ANand Peterson TD.2003.Sequence stratigraphy and evolution of the Paleoproterozoic intracontinental Baker Lake and Thelon basins,western Churchill Province,Nunavut,Canada.Precambrian Research,125(1-2):21-53
Rainbird RH,Davis WJ,Stern RA,Peterson TD,Smith SR,Parrish RRand Hadlari T.2006.Ar-Ar and U-Pb geochronology of a Late Paleoproterozoic rift basin:Support for a genetic link with Hudsonian orogenesis,western Churchill Province,Nunavut,Canada.The Journal of Geology,114(1):1-17
Rainbird RH and Davis WJ.2007.U-Pb detrital zircon geochronology and provenance of the late Paleoproterozoic Dubawnt Supergroup:Linking sedimentation with tectonic reworking of the western Churchill Province,Canada.GSA Bulletin,119(3-4):314-328
Rm9 OT,Haapala I,Vaasjoki M,Yu JH and Fu HQ.1995.1700Ma Shachang complex,northeast China:Proterozoic rapakivi granite not associated with Paleoproterozoic orogenic crust.Geology,23(9):815-818
Rankama K.1970.Global precambrian stratigraphy:Background and principles.Scientia,64(5):382
Reis NJ,Teixeira W,Hamilton MA,Bispo-Santos F,Almeida ME and D’Agrella-Filho MS.2013.Avanavero mafic magmatism,a Late Paleoproterozoic LIP in the Guiana Shield,Amazonian Craton:U-Pb ID-TIMS baddeleyite,geochemical and paleomagnetic evidence.Lithos,174:175-195
Ren GM,Pang WH,Sun ZM and Yin FG.2014.Zircon U-Pb chronology of the amphibolite of Tong’an Formation and its geological significance.Journal of Mineralogy and Petrology,34(2):33-39(in Chinese with English abstract)
Ren KX,Yan GH,Cai JH,Mu BL Li FT,Wang YB and Chu ZY.2006.Chronology and geological implication of the PaleoMesoproterozoic alkaline-rich intrusions belt from the northern part in the North China Craton.Acta Petrologica Sinica,22(2):377-386(in Chinese with English abstract)
Rogers JJW and Santosh M.2002.Configuration of Columbia,a Mesoproterozoic super-continent.Gondwana Research,5(1):5-22
Ross GM and Eaton DW.1997.Winagami reflection sequence:Seismic evidence for postcollisional magmatism in the Proterozoic of westernCanada.Geology,25(3):199-202
Roy AB and Purohit R.2015.Lithostratigraphic,geochronological and depositional framework of the Precambrian basins of the Aravalli Mountains and adjoining areas,Rajasthan,India.Geological Society,London,Memoirs,43:55-65
Schannor M,Lana C and Fonseca MA.2019.S2o Francisco-Congo Craton break-up delimited by U-Pb-Hf isotopes and trace-elements of zircon from metasediments of the Ara9uaíBelt.Geoscience Frontiers,10(2):611-628
Scott DL,Rawlings DJ,Page RW,Tarlowski CZ,Idnurm M,Jackson MJand Southgate PN.2000.Basement framework and geodynamic evolution of the Palaeoproterozoic superbasins of north-central Australia:An integrated review of geochemical,geochronological and geophysical data.Australian Journal of Earth Sciences,47(3):341-380
Scott JMJ,Peterson TD,Davis WJ,Jefferson CW and Cousens BL.2015.Petrology and geochronology of Paleoproterozoic intrusive rocks,Kiggavik uranium camp,Nunavut.Canadian Journal of Earth Sciences,52(7):495-518
Sears JW and Price RA.2002.The hypothetical Mesoproterozoic supercontinent Columbia:Implications of the Siberian-West Laurentian connection.Gondwana Research,5(1):35-39
Shankar R,Sarma DS,Babu NR and Parashuramulu V.2018.Paleomagnetic study of 1765Ma dyke swarm from the Singhbhum Craton:Implications to the paleogeography of India.Journal of Asian Earth Sciences,157:235-244
Shumlyanskyy L,Billstr9m K,Hawkesworth C and Elming S.2012.U-Pb age and Hf isotope compositions of zircons from the north-western region of the Ukrainian shield:Mantle melting in response to postcollision extension.Terra Nova,24(5):373-379
Shumlyanskyy L,Ernst RE,S9derlund U,Billstr9m K,Mitrokhin O and Tsymbal S.2016.New U-Pb ages for mafic dykes in the northwestern region of the Ukrainian shield:Coeval tholeiitic and jotunitic magmatism.GFF,138(1):79-85
Silveira EM,S9derlund U,Oliveira EP,Ernst RE and Menezes Leal AB.2013.First precise U-Pb baddeleyite ages of 1500Ma mafic dykes from the S2o Francisco Craton,Brazil,and tectonic implications.Lithos,174:144-156
Sims PK.1980.Subdivision of the Proterozoic and Archean Eons:Recommendations and suggestions by the International Subcommission on Precambrian Stratigraphy.Precambrian Research,13(4):379-380
Southgate PN,Bradshaw BE,Domagala J,Jackson MJ,Idnurm M,Krassay AA,Page RW,Sami TT,Scott DL,Lindsay JF,McC onachie BA and Tarlowski C.2000.Chronostratigraphic basin framework for Palaeoproterozoic rocks(1730~1575Ma)in northern Australia and implications for basemetal mineralisation.Australian Journal of Earth Sciences,47(3):461-483
Su WB,Zhang SH,Huff WD,Li HK,Ettensohn FR,Chen XY,Yang HM,Han YG,Song B and Santosh M.2008.SHRIMP U-Pb ages of K-bentonite beds in the Xiamaling Formation:Implications for revised subdivision of the Meso-to Neoproterozoic history of the North China Craton.Gondwana Research,14(3):543-553
Su WB,Li HK,Huff WD,Ettensohnd FR,Zhang SH,Zhou HY and Wan YS.2010.SHRIMP U-Pb dating for a K-bentonite bed in the Tieling Formation,North China.Chinese Science Bulletin,55(29):3312-3323
Su WB,Li HK,Xu L,Jia SH,Geng JZ,Zhou HY,Wang ZH and Pu HY.2012.Luoyu and Ruyang Groups at the south margin of the North China Craton(NCC)should belong in the Mesoproterozoic Changchengian System:Direct constraints from the LA-MC-ICPMSU-Pb age of the tuffite in the Luoyukou Formation,Ruzhou,Henan,China.Geological Survey and Research,35(2):96-108(in Chinese with English abstract)
Sun DZ and Lu SN.1983a.The International Precambrian Subcommission holds a meeting in Tanta,Egypt.Geological Review,29(3):302(in Chinese)
Sun DZ and Lu SN.1983b.Overview of the sixth meeting of theInternational Precambrian Subcommission of the International Union of Geological Sciences.Overseas Precambrian Geology,(1):41-44 (in Chinese)
Sun DZ and Lu SN.1985.A subdivision of the Precambrian of China.Precambrian Research,28(2):137-162
Sun ZD.1989.A new division and naming of the Precambrian Era.Bulletin of Mineralogy,Petrology and Geochemistry,(4):243-245(in Chinese)
Sun ZM,Yin FG,Guan JL,Liu JH,Li JM,Geng QR and Wang LQ.2009.SHRIMP U-Pb dating and its stratigraphic significance of tuff zircons from Heishan Formation of Kunyang Group,Dongchuan area,Yunnan Province,China.Geological Bulletin of China,28(7):896-900(in Chinese with English abstract)
The Working Group on the Geological Time Scale of China,MGMR.1987.A Geological Time Scale of China.Beijing:Geological Publishing House,1-146(in Chinese)
Turpin L,Maruejol P and Cuney M.1988.U-Pb,Rb-Sr and Sm-Nd chronology of granitic basement,hydrothermal albitites and uranium mineralizations(Lagoa Real,South-Bahia,Brazil).Contributions to Mineralogy and Petrology,98(2):139-147
Van Breemen O,Peterson TD and Sandeman HA.2005.U-Pb zircon geochronology and Nd isotope geochemistry of Proterozoic granitoids in the western Churchill Province:Intrusive age pattern and Archean source domains.Canadian Journal of Earth Sciences,42(3):339-377
Van Kranendonk MJ.2012.A chronostratigraphic division of the Precambrian:Possibilities and challenges.In:Gradstein FM,Ogg JG,Schmitz MD and Ogg GM(eds.).The Geological Time Scale2012.Amsterdam:Elsevier,299-392
Verbaas J,Thorkelson DJ,Crowley J,Davis WJ,Foster DA,Gibson HD,Marshall DD and Milidragovic D.2018.A sedimentary overlap assemblage links Australia to northwestern Laurentia at 1.6Ga.Precambrian Research,305:19-39
Wang C,Peng P,Wang XP,Li QL,Xu XY and Yang SY.2016.The generations and U-Pb dating of baddeleyites from the Taihang dyke swarm in North China and their implications for magmatic evolution.Acta Petrologica Sinica,32(3):646-658(in Chinese with English abstract)
Wang DB,Sun ZM,Yin FG,Wang LQ,Wang BD and Zhang WP.2012.Geochronology of the Hekou Group on the western margin of the Yangtze Block:Evidence from zircon LA-ICP-MS U-Pb dating of volcanic rocks.Journal of Stratigraphy,36(3):630-635(in Chinese with English abstract)
Wang DB,Yin FG,Sun ZM,Wang LQ,Wang BD,Liao SY,Tang Yand Ren GM.2013.Zircon U-Pb age and Hf isotope of Paleoproterozoic mafic intrusion on the western margin of the Yangtze Block and their implications.Geologcal Bulletin of China,32(4):617-630(in Chinese with English abstract)
Wang HZ.1982.On the use of“Sinian”from the perspective of stratigraphic specification and the division of the Precambrian Era in China.Journal of Stratigraphy,6(4):241-246(in Chinese)
Wang HZ.1986.Precambrian geochronologic and chronostratigraphic subdivision of China.Earth Science(Journal of China University of Geosciences),11(5):447-453(in Chinese with English abstract)
Wang W,Liu SW,Bai X,Li QG,Yang PT,Zhao Y,Zhang SH and Guo RR.2013.Geochemistry and zircon U-Pb-Hf isotopes of the Late Paleoproterozoic Jianping diorite-monzonite-syenite suite of the North China Craton:Implications for petrogenesis and geodynamic setting.Lithos,162-163:175-194
Wang W and Zhou MF.2014.Provenance and tectonic setting of the Paleo-to Mesoproterozoic Dongchuan Group in the southwestern Yangtze Block,South China:Implication for the breakup of the supercontinent Columbia.Tectonophysics,610:110-127
Wang W,Zhou MF,Zhao XF,Chen WT and Yan DP.2014b.Late Paleoproterozoic to Mesoproterozoic rift successions in SW China:Implication for the Yangtze Block-North Australia-Northwest Laurentia connection in the Columbia supercontinent.SedimentaryGeology,309:33-47
Wang W,Liu SW,Santosh M,Deng ZB,Guo BR,Zhao Y,Zhang SH,Yang PT,Bai X and Guo RR.2015.Late Paleoproterozoic geodynamics of the North China Craton:Geochemical and zircon U-Pb-Hf records from a volcanic suite in the Yanliao rift.Gondwana Research,27(1):300-325
Wang W,Cawood PA,Zhou MF and Zhao JH.2016.Paleoproterozoic magmatic and metamorphic events link Yangtze to northwest Laurentia in the Nuna supercontinent.Earth and Planetary Science Letters,433:269-279
Wang W,Cawood PA,Pandit MK,Zhou MF and Chen WT.2017.Zircon U-Pb age and Hf isotope evidence for an Eoarchean crustal remnant,and crustal episodic reworking in response to supercontinental cycles in NW India.Journal of the Geological Society,174(4):759-772
Wang W,Lu GM,Huang SF and Xue EK.2019.Geological Evolution of the Yangtze Block in Paleo-to Meso-Proterozoic and Its Implication on the Reconstruction of the Columbia Supercontinent.Bulletin of Mineralogy,Petrology and Geochemistry,38(1):30-52(in Chinese with English abstract)
Wang X,Zhu WB,Luo M,Ren XM and Cui X.2014a.Approximately1.78Ga mafic dykes in the Lüliang Complex,North China Craton:Zircon ages and Lu-Hf isotopes,geochemistry,and implications.Geochemistry,Geophysics,Geosystems,15(8):3123-3144
Wang XL,Jiang SY and Dai BZ.2010.Melting of enriched Archean subcontinental lithospheric mantle:Evidence from the ca.1760Ma volcanic rocks of the Xiong’er Group,southern margin of the North China Craton.Precambrian Research,182(3):204-216
Wang ZJ,Huang ZG,Yao JX and Ma XL.2014.Characteristics and main progress of the Stratigraphic Chart of China and Directions.Acta Geoscientica Sinica,35(3):271-276(in Chinese with English abstract)
Wang ZZ,Guo Y,Yang B,Wang SW,Sun XM,Hou L,Zhou BG and Liao ZW.2013.Discovery of the 1.73Ga Haizi anorogenic type granite in the western margin of Yantze Craton,and its geological significance.Acta Geologica Sinica,87(7):931-942(in Chinese with English abstract)
Wu TS.2002.Late Precambrian(Meso-to Neoproterozoic)lithostratigraphic units in North China and their multiple division and correlation.Geology in China,29(2):147-154(in Chinese with English abstract)
Wu YB,Gao S,Gong HJ,Xiang H,Jiao WF,Yang SH,Liu YS and Yuan HL.2009.Zircon U-Pb age,trace element and Hf isotope composition of Kongling terrane in the Yangtze Craton:Refining the timing of Palaeoproterozoic high-grade metamorphism.Journal of Metamorphic Geology,27(6):461-477
Xiang ZQ,Li HK,Lu SN,Zhou HY,Li HM,Wang HC,Chen ZH and Niu J.2012.Emplacement age of the gabbro-diabase dike in the Hongmen scenic region of Mount Tai,Shandong Province,North China:Baddeleyite U-Pb precise dating.Acta Petrologica Sinica,28(9):2831-2842(in Chinese with English abstract)
Xie GH.2005.Petrology and Geochemistry of the Damiao Anorthosite and the Miyun Rapakivi Granite.Beijing:Science Press,1-195(in Chinese)
Xiong Q,Zheng JP,Yu CM,Su YP,Tang HY and Zhang ZH.2009.Zircon U-Pb age and Hf isotope of Quanyishang A-type granite in Yichang:Signification for the Yangtze continental cratonization in Paleoproterozoic.Chinese Science Bulletin,54(3):436-446
Xu YH,Zhao TP,Peng P,Zhai MG,Qi L and Luo Y.2007.Geochemical characteristics and geological significance of the Paleoproterozoic volcanic rocks from the Xiaoliangling Formation in the Lüliang area,Shanxi Province.Acta Petrologica Sinica,23(5):1123-1132(in Chinese with English abstract)
Xu YH,Zhao TP,Zhang YX and Chen W.2008.Geochemical characteristics and geological significances of the Dagushi Formation siliciclastic rocks,the Paleoproterozoic Xiong’er Group from the southern North China Craton.Geological Review,54(3):316-326(in Chinese with English abstract)
Yang B,Wang WQ,Dong GC,Guo Y,Wang ZZ and Hou L.2015.Geochemistry,geochronology and their significances of Haizi bimodal intrusions in Kangdian fault-uplift zone,southwestern margin of Yangtze platform.Acta Petrologica Sinica,31(5):1361-1373(in Chinese with English abstract)
Yang B,Dong GC,Guo Y,Wang ZZ and Wang P.2016.Geochemistry,zircon U-Pb geochronology and significances of the Dazhupeng rhyolites in the western Yangtze platform.Journal of Mineralogy and Petrology,36(2):82-91(in Chinese with English abstract)
Yang H,Liu FL,Du LL,Liu PH and Wang F.2012.Zircon U-Pb dating for metavolcanites in the Laochanghe Formation of the Dahongshan Group in southwestern Yangtze block,and its geological significance.Acta Petrologica Sinica,28(9):2994-3014(in Chinese with English abstract)
Yang JH,Wu FY,Liu XM and Xie LW.2005.Zircon U-Pb ages and Hf isotopes and their geological significance of the Miyun rapakivi granites from Beijing,China.Acta Petrologica Sinica,21(6):1633-1644(in Chinese with English abstract)
Yin CQ,Lin SF,Davis DW,Zhao GC,Xiao WJ,Li LM and He YH.2013.2.1~1.85Ga tectonic events in the Yangtze Block,South China:Petrological and geochronological evidence from the Kongling Complex and implications for the reconstruction of supercontinent Columbia.Lithos,182-183:200-210
Youbi N,KouyatéD,S9derlund U,Ernst RE,Soulaimani A,Hafid A,Ikenne M,El Bahat A,Bertrand H,Chaham KR,Abbou MB,Mortaji A,El Ghorfi M,Zouhair M and El Janati M.2013.The1750Ma magmatic event of the West African Craton(Anti-Atlas,Morocco).Precambrian Research,236:106-123
Yu WJ,Luo ZH,Liu YS,Sun JY,Li Z,Wang Z and Tang ZX.2017.Petrogenesis of the Lala iron-copper deposit:Evidence by cryptoexplosive breccia CSD data and their zircon U-Pb data.Acta Petrologica Sinica,33(3):925-941(in Chinese with English abstract)
Zhai MG,Hu B,Peng P and Zhao TP.2014.Meso-Neoproterozoic magmatic events and multi-stage rifting in the NCC.Earth Science Frontiers,21(1):100-119(in Chinese with English abstract)
Zhang LJ,Ma CQ,Wang LX,She ZB and Wang SM.2011.Discovery of Paleoproterozoic rapakivi granite on the northern margin of the Yangtze block and its geological significance.Chinese Science Bulletin,56(3):306-318
Zhang SB,Zheng YF,Wu YB,Zhao ZF,Gao S and Wu FY.2006.Zircon isotope evidence for≥3.5Ga continental crust in the Yangtze Craton of China.Precambrian Research,146(1-2):16-34
Zhang SH,Liu SW,Zhao Y,Yang JH,Song B and Liu XM.2007.The1.75~1.68Ga anorthosite-mangerite-alkali granitoid-rapakivi granite suite from the northern North China Craton:Magmatism related to a Paleoproterozoic orogen.Precambrian Research,155(3-4):287-312
Zhang SH,Zhao Y,Yang ZY,He ZF and Wu H.2009.The 1.35Ga diabase sills from the northern North China Craton:Implications for breakup of the Columbia(Nuna)supercontinent.Earth and Planetary Science Letters,288(3-4):588-600
Zhang SH,Zhao Y and Santosh M.2012.Mid-Mesoproterozoic bimodal magmatic rocks in the northern North China Craton:Implications for magmatism related to breakup of the Columbia supercontinent.Precambrian Research,222-223:339-367
Zhang SH,Zhao Y,Ye H,Hu JM and Wu F.2013.New constraints on ages of the Chuanlinggou and Tuanshanzi formations of the Changcheng System in the Yan-Liao area in the northern North China Craton.Acta Petrologica Sinica,29(7):2481-2490(in Chinese with English abstract)
Zhang SH,Zhao Y,Li XH,Ernst RE and Yang ZY.2017.The 1.33~1.30Ga Yanliao large igneous province in the North China Craton:Implications for reconstruction of the Nuna(Columbia)supercontinent,and specifically with the North Australian Craton.Earth and Planetary Science Letters,465:112-125
Zhao GC,Cawood PA,Wilde SA and Sun M.2002a.Review of global2.1~1.8Ga orogens:Implications for a pre-Rodinia supercontinent.Earth-Science Reviews,59(1-4):125-162
Zhao GC,He YH and Sun M.2009a.The Xiong’er volcanic belt at the southern margin of the North China Craton:Petrographic and geochemical evidence for its outboard position in the PaleoMesoproterozoic Columbia Supercontinent.Gondwana Research,16(2):170-181
Zhao TP,Zhou MF,Jin CW,Guan H and Li HM.2001.Discussion on age of the Xiong’er Group in southern margin of North China Craton.Chinese Journal of Geology,36(3):326-334(in Chinese with English abstract)
Zhao TP,Zhou MF,Zhai MG and Xia B.2002b.Paleoproterozoic riftrelated volcanism of the Xiong’er Group,North China Craton:Implications for the breakup of Columbia.International Geology Review,44(4):336-351
Zhao TP,Zhai MG,Xia B,Li HM,Zhang YX and Wan YS.2004.Zircon U-Pb SHRIMP dating for the volcanic rocks of the Xiong’er Group:Constraints on the initial formation age of the cover of the North China Craton.Chinese Science Bulletin,49(23):2495-2502
Zhao TP,Chen FK,Zhai MG and Xia B.2004.Single zircon U-Pb ages and their geological significance of the Damiao anorthosite complex,Hebei Province,China.Acta Petrologica Sinica,20(3):685-690(in Chinese with English abstract)
Zhao TP,Chen W and Zhou MF.2009b.Geochemical and Nd-Hf isotopic constraints on the origin of the 1.74 Ga Damiao anorthosite complex,North China Craton.Lithos,113(3-4):673-690
Zhao TP,Deng XQ,Hu GH,Zhou YY,Peng P and Zhai MG.2015.The Paleoproterozoic-Mesoproterozoic boundary of the North China Craton and the related geological issues:A review.Acta Petrologica Sinica,31(6):1495-1508(in Chinese with English abstract)
Zhao XF,Zhou MF,Li JW,Sun M,Gao JF,Sun WH and Yang JH.2010.Late Paleoproterozoic to Early Mesoproterozoic Dongchuan Group in Yunnan,SW China:Implications for tectonic evolution of the Yangtze Block.Precambrian Research,182(1-2):57-69
Zhao XF and Zhou MF.2011.Fe-Cu deposits in the Kangdian region,SW China:A Proterozoic IOCG(iron-oxide-copper-gold)metallogenic province.Mineralium Deposita,46(7):731-747
Zhou GY,Wu YB,Wang H,Qin ZW,Zhang WX,Zheng JP and Yang SH.2017.Petrogenesis of the Huashanguan A-type granite complex and its implications for the early evolution of the Yangtze Block.Precambrian Research,292:57-74
Zhou JY,Mao JW,Liu FY,Tan HQ,Shen B,Zhu ZM,Chen JB,Luo LP,Zhou X and Wang Y.2011.SHRIMP U-Pb zircon chronology and geochemistry of albitite from the Hekou Group in the western Yangtze Block.Journal of Mineralogy and Petrology,31(3):66-73(in Chinese with English abstract)
Zhou MF,Zhao XF,Chen WT,Li XC,Wang W,Yan DP and Qiu HN.2014.Proterozoic Fe-Cu metallogeny and supercontinental cycles of the southwestern Yangtze Block,southern China and northern Vietnam.Earth-Science Reviews,139:59-82
Zhu HP,Fan WY,Zhou BG,Wang SW,Luo MJ,Liao ZW and Guo Y.2011.Assessing Precambrian stratigraphic sequence of Dongchuan area:Evidence from zircon SHRIMP and LA-ICP-MS dating.Geological Journal of China Universities,17(3):452-461(in Chinese with English abstract)
Zhu ZM,Hou KJ,Zhu KY and Tan HQ.2013.Geochronology and geochemistry of the Hekou Group in Sichuan Province,SW China.Geochemical Journal,47(1):51-64
包志伟,王强,资锋,唐功建,杜凤军,白国典.2009.龙王A型花岗岩地球化学特征及其地球动力学意义.地球化学,38(6):509-522
崔敏利,张宝林,彭澎,张连昌,沈晓丽,郭志华,黄雪飞.2010.豫西崤山早元古代中酸性侵入岩锆石/斜锆石U-Pb测年及其对熊耳火山岩系时限的约束.岩石学报,26(5):1541-1549
邓小芹,赵太平,彭头平,高昕宇,包志伟.2015.华北克拉通南缘1600Ma麻坪A型花岗岩的成因及其地质意义.岩石学报,31(6):1621-1635
地质矿产部中国同位素地质年表工作组.1987.中国同位素地质年表.北京:地质出版社,1-146
高林志,张传恒,史晓颖,周洪瑞,王自强.2007.华北青白口系下马岭组凝灰岩锆石SHRIMP U-Pb定年.地质通报,26(3):249-255
高林志,张传恒,史晓颖,宋彪,王自强,刘耀明.2008a.华北古陆下马岭组归属中元古界的锆石SHRIMP年龄新证据.科学通报,53(21):2617-2623
高林志,张传恒,尹崇玉,史晓颖,王自强,刘耀明,刘鹏举,宋彪.2008b.华北古陆中、新元古代年代地层框架SHRIMP锆石年龄新依据.地球学报,29(3):366-376
高林志,张传恒,刘鹏举,丁孝忠,王自强,张彦杰.2009.华北-江南地区中、新元古代地层格架的再认识.地球学报,30(4):433-446
高维,张传恒,高林志,史晓颖,刘耀明,宋彪.2008.北京密云环斑花岗岩的锆石SHRIMP U-Pb年龄及其构造意义.地质通报,27(6):793-798
耿元生,柳永清,高林志,彭楠,江小均.2012.扬子克拉通西南缘中元古代通安组的形成时代---锆石LA-ICP-MS U-Pb年龄.地质学报,86(9):1479-1490
耿元生,沈其韩,杜利林,宋会侠.2016.区域变质作用与中国大陆地壳的形成与演化.岩石学报,32(9):2579-2608
耿元生,旷红伟,柳永清,杜利林.2017.扬子地块西、北缘中元古代地层的划分与对比.地质学报,91(10):2151-2174
关俊雷,郑来林,刘建辉,孙志明,程万华.2011.四川省会理县河口地区辉绿岩体的锆石SHRIMP U-Pb年龄及其地质意义.地质学报,85(4):482-490
郭阳,王生伟,孙晓明,王子正,杨斌,廖震文,周邦国,蒋小芳,侯林,杨波.2014.扬子地台西南缘古元古代末的裂解事件---来自武定地区辉绿岩锆石U-Pb年龄和地球化学证据.地质学报,88(9):1651-1665
韩宝福,张磊,王亚妹,宋彪.2007.华北克拉通中部古元古代高Mg低Ti-P镁铁质岩墙的富集地幔源区---锆石Hf同位素的制约.岩石学报,23(2):277-284
和政军,张新元,牛宝贵,刘仁燕,赵磊.2011a.北京密云元古宙环斑花岗岩古风化壳及其与长城系常州沟组的关系.地学前缘,18(4):123-130
和政军,牛宝贵,张新元,赵磊,刘仁燕.2011b.北京密云元古宙常州沟组之下环斑花岗岩古风化壳岩石的发现及其碎屑锆石年龄.地质通报,30(5):798-802
侯贵廷,李江海,刘玉琳,钱祥麟.2005.华北克拉通古元古代末的伸展事件:拗拉谷与岩墙群.自然科学进展,15(11):1366-1373
侯贵廷.2012.华北基性岩墙群.北京:科学出版社,1-177
侯林,丁俊,邓军,廖震文,彭惠娟.2013.云南武定迤纳厂铁铜矿岩浆角砾岩LA-ICP-MS锆石U-Pb年龄及其意义.地质通报,32(4):580-588
胡国辉,胡俊良,陈伟,赵太平.2010.华北克拉通南缘中条山-嵩山地区1.78Ga基性岩墙群的地球化学特征及构造环境.岩石学报,26(5):1563-1576
金廷福,李佑国,费光春,冯裕昌,周恒,沙小保,吴愧.2017.扬子地台西南缘大红山群红山组的锆石U-Pb年代学研究---对其原岩形成时代和变质时代的再限定.地质论评,63(4):894-910
李承东,赵利刚,常青松,许雅雯,王世炎,许腾.2017.豫西洛峪口组凝灰岩锆石LA-MC-ICPMS U-Pb年龄及地层归属讨论.中国地质,44(3):511-525
李怀坤,朱士兴,相振群,苏文博,陆松年,周红英,耿建珍,李生,杨锋杰.2010.北京延庆高于庄组凝灰岩的锆石U-Pb定年研究及其对华北北部中元古界划分新方案的进一步约束.岩石学报,26(7):2131-2140
李怀坤,苏文博,周红英,耿建珍,相振群,崔玉荣,刘文灿,陆松年.2011.华北克拉通北部长城系底界年龄小于1670Ma:来自北京密云花岗斑岩岩脉锆石LA-MC-ICPMS U-Pb年龄的约束.地学前缘,18(3):108-120
李怀坤,张传林,姚春彦,相振群.2013.扬子西缘中元古代沉积地层锆石U-Pb年龄及Hf同位素组成.中国科学(地球科学),43(8):1287-1298
李怀坤,苏文博,周红英,相振群,田辉,杨立公,Huff WD,Ettensohn FR.2014.中-新元古界标准剖面蓟县系首获高精度年龄制约---蓟县剖面雾迷山组和铁岭组斑脱岩锆石SHRIMP U-Pb同位素定年研究.岩石学报,30(10):2999-3012
李顺智,林源贤,张学祺.1985.燕山地区长城系常州沟组、串岭沟组的年龄.前寒武纪地质,2:129-134
柳晓艳.2011.华北克拉通南缘古-中元古代碱性岩岩石地球化学与年代学研究及其地质意义.硕士学位论文.北京:中国地质科学院,1-84
柳晓艳,蔡剑辉,阎国翰.2011.华北克拉通南缘熊耳群眼窑寨组次火山岩岩石地球化学与年代学研究及其意义.地质学报,85(7):1134-1145
陆松年,孙大中.1983.有关元古宙划分的背景材料.国外前寒武纪地质,(1):44-61
陆松年.1998.关于中国元古宙地质年代划分几个问题的讨论.前寒武纪研究进展,21(4):1-9
陆松年,李怀坤,李惠民,宋彪,王世炎,周红英,陈志宏.2003.华北克拉通南缘龙王碱性花岗岩U-Pb年龄及其地质意义.地质通报,22(12):762-768
陆松年,李怀坤,王惠初,陈志宏.2005.对国际地层委员会前寒武纪划分参考方案的简介及评述.地质论评,51(2):169-173
庞维华,任光明,孙志明,尹福光.2015.扬子地块西缘古-中元古代地层划分对比研究:来自通安组火山岩锆石U-Pb年龄的证据.中国地质,42(4):921-936
彭楠,旷红伟,柳永清,耿元生,夏晓旭,王玉冲,陈骁帅,郑行海.2018.华北克拉通南缘汝阳群大型具刺疑源类时代再厘定及早期真核生物群演化意义.古地理学报,20(4):595-608
彭澎.2016.华北陆块前寒武纪岩墙群及相关岩浆岩地质图说明书:1∶2500000.北京:科学出版社,1-90
乔秀夫,王彦斌.2014.华北克拉通中元古界底界年龄与盆地性质讨论.地质学报,88(9):1623-1637
全国地层委员会.2001.中国地层指南及中国地层指南说明书.北京:地质出版社,1-59
全国地层委员会.2002.中国区域年代地层(地质年代)表说明书.北京:地质出版社,1-72
任光明,庞维华,孙志明,尹福光.2014.扬子西缘会理地区通安组角闪岩锆石U-Pb定年及其地质意义.矿物岩石,34(2):33-39
任康绪,阎国翰,蔡剑辉,牟保磊,李凤棠,王彦斌,储著银.2006.华北克拉通北部地区古-中元古代富碱侵入岩年代学及意义.岩石学报,22(2):377-386
苏文博,李怀坤,Huff WD,Ettensohn FR,张世红,周红英,万渝生.2010.铁岭组钾质斑脱岩锆石SHRIMP U-Pb年代学研究及其地质意义.科学通报,55(22):2197-2206
苏文博,李怀坤,徐莉,贾松海,耿建珍,周红英,王志宏,蒲含勇.2012.华北克拉通南缘洛峪群-汝阳群属于中元古界长城系---河南汝州洛峪口组层凝灰岩锆石LA-MC-ICPMS U-Pb年龄的直接约束.地质调查与研究,35(2):96-108
孙大中,陆松年.1983a.国际前寒武地层分会在埃及坦塔召开会议.地质论评,29(3):302
孙大中,陆松年.1983b.国际地质科学联合会前寒武地层分会第六次会议概况.国外前寒武纪地质,(1):41-44
孙大中.1989.前寒武时代的新划分和命名.矿物岩石地球化学通讯,(4):243-245
孙志明,尹福光,关俊雷,刘建辉,李军敏,耿全如,王立全.2009.云南东川地区昆阳群黑山组凝灰岩锆石SHRIMP U-Pb年龄及其地层学意义.地质通报,28(7):896-900
王冲,彭澎,王欣平,李秋立,徐希阳,杨书艳.2016.华北太行岩墙群斜锆石生长世代和U-Pb年龄及其对岩浆演化的启示.岩石学报,32(3):646-658
王冬兵,孙志明,尹福光,王立全,王保弟,张万平.2012.扬子地块西缘河口群的时代:来自火山岩锆石LA-ICP-MS U-Pb年龄的证据.地层学杂志,36(3):630-635
王冬兵,尹福光,孙志明,王立全,王保弟,廖世勇,唐渊,任光明.2013.扬子陆块西缘古元古代基性侵入岩LA-ICP-MS锆石U-Pb年龄和Hf同位素及其地质意义.地质通报,32(4):617-630
王鸿祯.1982.从地层规范观点论“震旦”一词的使用与中国前寒武纪的时代划分.地层学杂志,6(4):241-246
王鸿祯.1986.论中国前寒武纪地质时代及年代地层的划分.地球科学-武汉地质学院学报,11(5):447-453
王伟,卢桂梅,黄思访,薛尔堃,2019.扬子陆块古-中元古代地质演化与Columbia超大陆重建.矿物岩石地球化学通报,38(1):30-52
王泽九,黄枝高,姚建新,马秀兰.2014.中国地层表及说明书的特点与主要进展.地球学报,35(3):271-276
王子正,郭阳,杨斌,王生伟,孙晓明,侯林,周邦国,廖震文.2013.扬子克拉通西缘1.73Ga非造山型花岗斑岩的发现及其地质意义.地质学报,87(7):931-942
武铁山.2002.华北晚前寒武纪(中、新元古代)岩石地层单位及多重划分对比.中国地质,29(2):147-154
相振群,李怀坤,陆松年,周红英,李惠民,王惠初,陈志宏,牛健.2012.泰山地区古元古代末期基性岩墙形成时代厘定---斜锆石U-Pb精确定年.岩石学报,28(9):2831-2842
解广轰.2005.大庙斜长岩和密云环斑花岗岩的岩石学和地球化学:兼论全球岩体型斜长岩和环斑花岗岩类的时空分布及其意义.北京:科学出版社,1-195
徐勇航,赵太平,彭澎,翟明国,漆亮,罗彦.2007.山西吕梁地区古元古界小两岭组火山岩地球化学特征及其地质意义.岩石学报,23(5):1123-1132
徐勇航,赵太平,张玉修,陈伟.2008.华北克拉通南部古元古界熊耳群大古石组碎屑岩的地球化学特征及其地质意义.地质论评,54(3):316-326
杨斌,王伟清,董国臣,郭阳,王子正,侯林.2015.扬子地台西南缘康滇断隆带海孜双峰式侵入岩体年代学、地球化学及其地质意义.岩石学报,31(5):1361-1373
杨斌,董国臣,郭阳,王子正,王鹏.2016.扬子地台西南缘大竹棚流纹岩的年代学、地球化学特征及其地质意义.矿物岩石,36(2):82-91
杨红,刘福来,杜利林,刘平华,王舫.2012.扬子地块西南缘大红山群老厂河组变质火山岩的锆石U-Pb定年及其地质意义.岩石学报,28(9):2994-3014
杨进辉,吴福元,柳小明,谢烈文.2005.北京密云环斑花岗岩锆石U-Pb年龄和Hf同位素及其地质意义.岩石学报,21(6):1633-1644
于文佳,罗照华,刘永顺,孙君一,李重,王峥,唐泽勋.2017.拉拉铁铜矿床成因:来自隐爆角砾岩结构定量化和锆石U-Pb年代学的证据.岩石学报,33(3):925-941
翟明国,胡波,彭澎,赵太平.2014.华北中-新元古代的岩浆作用与多期裂谷事件.地学前缘,21(1):100-119
张拴宏,赵越,叶浩,胡健民,吴飞.2013.燕辽地区长城系串岭沟组及团山子组沉积时代的新制约.岩石学报,29(7):2481-2490
赵太平,周美夫,金成伟,关鸿,李惠民.2001.华北陆块南缘熊耳群形成时代讨论.地质科学,36(3):326-334
赵太平,陈福坤,翟明国,夏斌.2004.河北大庙斜长岩杂岩体锆石U-Pb年龄及其地质意义.岩石学报,20(3):685-690
赵太平,邓小芹,胡国辉,周艳艳,彭澎,翟明国.2015.华北克拉通古/中元古代界线和相关地质问题讨论.岩石学报,31(6):1495-1508
中国地质调查局,全国地层委员会.2014.中国地层表.北京:地质出版社,1
周家云,毛景文,刘飞燕,谭洪旗,沈冰,朱志敏,陈家彪,罗丽萍,周雄,王越.2011.扬子地台西缘河口群钠长岩锆石SHRIMP年龄及岩石地球化学特征.矿物岩石,31(3):66-73
朱华平,范文玉,周邦国,王生伟,罗茂金,廖震文,郭阳.2011.论东川地区前震旦系地层层序:来自锆石SHRIMP及LA-ICP-MS测年的证据.高校地质学报,17(3):452-461
All China Commission of Stratigraphy.2001.Stratigraphical Guide of China and Its Explanation(Revised Edition).Beijing:Geological Publishing House,1-59(in Chinese)
All China Commission of Stratigraphy.2002.Regional Chronostratigraphic Chart of China(Geologic time).Beijing:Geological Publishing House:1-72(in Chinese)
Baker MJ,Crawford AJ and Withnall IW.2010.Geochemical,Sm-Nd isotopic characteristics and petrogenesis of Paleoproterozoic mafic rocks from the Georgetown Inlier,North Queensland:Implications for relationship with the Broken Hill and Mount Isa eastern succession.Precambrian Research,177(1-2):39-54
Bao ZW,Wang Q,Zi F,Tang GJ,Du FJ and Bai GD.2009.Geochemistry of the Paleoproterozoic Longwangzhuang A-type granites on the southern margin of North China Craton:Petrogenesis and tectonic implications.Geochimica,38(6):509-522(in Chinese with English abstract)
Betts PG,Giles D and Schaefer BF.2008.Comparing 1800~1600Ma accretionary and basin processes in Australia and Laurentia:Possible geographic connections in Columbia.Precambrian Research,166(1-4):81-92
Bogdanova SV,Pashkevich IK,Gorbatschev R and Orlyuk MI.1996.Riphean rifting and major Palaeoproterozoic crustal boundaries in the basement of the East European Craton:Geology and geophysics.Tectonophysics,268(1-4):1-21
Bogdanova SV,Gintov OB,Kurlovich DM,Lubnina NV,Nilsson MKM,Orlyuk MI,Pashkevich IK,Shumlyanskyy LV and Starostenko VI.2013.Late palaeoproterozoic mafic dyking in the Ukrainian Shield of Volgo-Sarmatia caused by rotations during the assembly of supercontinent Columbia(Nuna).Lithos,174:196-216
Bradshaw BE,Lindsay JF,Krassay AA and Wells AT.2000.Attenuated basin-margin sequence stratigraphy of the Palaeoproterozoic Calvert and Isa Superbasins:The Fickling Group,southern Murphy Inlier,Queensland.Australian Journal of Earth Sciences,47(3):599-623
Brown PE,Dempster TJ,Hutton DHW and Becker SM.2003.Extensional tectonics and mafic plutons in the Ketilidian rapakivi granite suite of South Greenland.Lithos,67(1-2):1-13
Campbell IH and Davies GF.2006.Do mantle plumes exist?Episodes,29(3):162-168
Chamberlain KR,Schmitt AK,Swapp SM,Harrison TM,SwobodaColberg N,Bleeker W,Peterson TD,Jefferson CW and Khudoley AK.2010.In situ U-Pb SIMS(IN-SIMS)micro-baddeleyite dating of mafic rocks:Method with examples.Precambrian Research,183(3):379-387
Chen WT,Zhou MF and Zhao XF.2013.Late Paleoproterozoic sedimentary and mafic rocks in the Hekou area,SW China:Implication for the reconstruction of the Yangtze Block in Columbia.Precambrian Research,231:61-77
China Geological Survey and All China Commission of Stratigraphy.2014.Geologic Time Scale of China.Beijing:Geological Publishing House,1(in Chinese)
Collerson KD,van Schmus RW,Lewry JF and Bickford ME.1988.Buried Precambrian basement in South-Central Saskatchewan:Provisional results from Sm-Nd model ages and U-Pb zircon geochronology.Saskatchewan Geological Survey,142-150
Condie KC.2002.Breakup of a Paleoproterozoic supercontinent.Gondwana Research,5(1):41-43
Cowie JW and Bassett MG.1989.Global stratigraphic chart with geochronometric and magnetostratigraphic calibration.Episodes,12(2):Supplement
Cui ML,Zhang BL,Peng P,Zhang LC,Shen XL,Guo ZH and Huang XF.2010.Zircon/baddeleyite U-Pb dating for the Paleo-proterozoic intermediate-acid intrusive rocks in Xiaoshan Mountains,west of Henan Province and their constraints on the age of the Xiong’er Volcanic Province.Acta Petrologica Sinica,26(5):1541-1549(in Chinese with English abstract)
Cui ML,Zhang BL and Zhang LC.2011.U-Pb dating of baddeleyite andzircon from the Shizhaigou diorite in the southern margin of North China Craton:Constrains on the timing and tectonic setting of the Paleoproterozoic Xiong’er Group.Gondwana Research,20(1):184-193
Cui ML,Zhang LC,Zhang BL and Zhu MT.2013.Geochemistry of1.78Ga A-type granites along the southern margin of the North China Craton:Implications for Xiong’er magmatism during the break-up of the supercontinent Columbia.International Geology Review,55(4):496-509
Danderfer A,De Waele B,Pedreira AJ and Nalini HA.2009.New geochronological constraints on the geological evolution of Espinha9o basin within the S2o Francisco Craton-Brazil.Precambrian Research,170(1-2):116-128
Danderfer Filho A,Lana CC,Nalini Junior HA and Costa AFO.2015.Constraints on the Statherian evolution of the intraplate rifting in a Paleo-Mesoproterozoic paleocontinent:New stratigraphic and geochronology record from the eastern S2o Francisco Craton.Gondwana Research,28(2):668-688
Davis WJ,Gall Q,Jefferson CW and Rainbird RH.2011.Fluorapatite in the Paleoproterozoic Thelon Basin:Structural-stratigraphic context,in situ ion microprobe U-Pb ages,and fluid-flow history.GSABulletin,123(5-6):1056-1073
Deng XQ,Zhao TP,Peng TP,Gao XY and Bao ZW.2015.Petrogenesis of 1600Ma Maping A-type granite in the southern margin of the North China Craton and its tectonic implications.Acta Petrologica Sinica,31(6):1621-1635(in Chinese with English abstract)
Didenko AN,Vodovozov VY,Peskov AY,Guryanov VA and Kosynkin AV.2015.Paleomagnetism of the Ulkan massif(SE Siberian platform)and the apparent polar wander path for Siberia in Late Paleoproterozoic-Early Mesoproterozoic times.Precambrian Research,259:58-77
Ernst RE and Buchan KL.2004.Igneous rock associations in Canada 3.Large Igneous Provinces(LIPS)in Canada and adjacent regions:3Ga to present.Geoscience Canada,31(3):103-126
Ernst RE.2014.Large Igneous Provinces.Cambridge:Cambridge University Press,1-653
Ernst RE,Hamilton MA,Soderlund U,Hanes JA,Gladkochub DP,Okrugin AV,Kolotilina T,Mekhonoshin AS,Bleeker W,LeC heminant AN,Buchan KL,Chamberlain KR and Didenko AN.2016.Long-lived connection between southern Siberia and northern Laurentia in the Proterozoic.Nature Geosciences,9(6):464-469
Evans DAD and Mitchell RN.2011.Assembly and breakup of the core of Paleoproterozoic-mesoproterozoic supercontinent Nuna.Geology,39(5):443-446
Fan HP,Zhu WG,Li ZX,Zhong H,Bai ZJ,He DF,Chen CJ and Cao CY.2013.Ca.1.5Ga mafic magmatism in South China during the break-up of the supercontinent Nuna/Columbia:The Zhuqing Fe-TiV oxide ore-bearing mafic intrusions in western Yangtze Block.Lithos,168-169:85-98
Furlanetto F,Thorkelson DJ,Rainbird RH,Davis WJ,Gibson HD and Marshall DD.2016.The Paleoproterozoic Wernecke Supergroup of Yukon,Canada:Relationships to orogeny in northwestern Laurentia and basins in North America,East Australia,and China.Gondwana Research,39:14-40
Gao LZ,Zhang CH,Shi XY,Zhou HR and Wang ZQ.2007.Zircon SHRIMP U-Pb dating of the tuff bed in the Xiamaling Formation of the Qingbaikouan System in North China.Geological Bulletin of China,26(3):249-255(in Chinese with English abstract)
Gao LZ,Zhang CH,Shi XY,Song B,Wang ZQ and Liu YM.2008a.Mesoproterozic age for Xiamaling Formation in North China Plate indicated by zircon SHRIMP dating.Chinese Science Bulletin,53(17):2665-2671
Gao LZ,Zhang CH,Yin CY,Shi XY,Wang ZQ,Liu YM,Liu PJ and Song B.2008b.SHRIMP zircon ages:Basis for refining the chronostratigraphic classification of the Meso-and Neoproterozoic strata in North China Oldland.Acta Geoscientica Sinica,29(3):366-376(in Chinese with English abstract)
Gao LZ,Zhang CH,Liu PJ,Ding XZ,Wang ZQ and Zhang YJ.2009.Recognition of Meso-and Neoproterozoic stratigraphic framework in North and South China.Acta Geoscientica Sinica,30(4):433-446 (in Chinese with English abstract)
Gao S,Qiu YM,Ling WL,McN aughton NJ and Groves DI.2001.Single zircon U-Pb dating of the Kongling high-grade metamorphic terrain:Evidence for>3.2Ga old continental crust in the Yangtze craton.Science in China(Series D),44(4):326-335
Gao S,Yang J,Zhou L,Li M,Hu ZC,Guo JL,Yuan HL,Gong HJ,Xiao GQ and Wei JQ.2011.Age and growth of the Archean Kongling terrain,South China,with emphasis on 3.3Ga granitoid gneisses.American Journal of Science,311(2):153-182
Gao W,Zhang CH,Gao LZ,Shi XY,Liu YM and Song B.2008.Zircon SHRIMP U-Pb age of rapakivi granite in Miyun,Beijing,China,and its tectono-stratigraphic implications.Geological Bulletin of China,27(6):793-798(in Chinese with English abstract)
Geng YS,Liu YQ,Gao LZ,Peng N and Jiang XJ.2012.Chronology of the Mesoproterozoic Tong’an Formation in southwestern margin of Yangtze Craton:New evidence from zircon LA-ICP-MS U-Pb ages.Acta Geologica Sinica,86(9):1479-1490(in Chinese with English abstract)
Geng YS,Shen QH,Du LL and Song HX.2016.Regional metamorphism and continental growth and assembly in China.Acta Petrologica Sinica,32(9):2579-2608(in Chinese with English abstract)
Geng YS,Kuang HW,Liu YQ and Du LL.2017.Subdivision and correlation of the Mesoproterozoic stratigraphy in the western and northern margins of Yangtze Block.Acta Geologica Sinica,91(10):2151-2174(in Chinese with English abstract)
Gibson GM,Henson PA,Neumann NL,Southgate PN and Hutton LJ.2012.Paleoproterozoic-earliest Mesoproterozoic basin evolution in the Mount Isa region,northern Australia and implications for reconstructions of the Nuna and Rodinia supercontinents.Episodes,35(1):131-141
Gibson GM,Champion DC,Withnall IW,Neumann NL and Hutton LJ.2018.Assembly and breakup of the Nuna supercontinent:Geodynamic constraints from 1800 to 1600Ma sedimentary basins and basaltic magmatism in northern Australia.Precambrian Research,313:148-169
Gladkochub DP,Donskaya TV,Mazukabzov AM,Stanevich A,Sklyarov EV and Ponomarchuk VA.2007.Signature of Precambrian extension events in the southern Siberian craton.Russian Geology and Geophysics,48(1):17-31
Gladkochub DP,Pisarevsky SV,Ernst R,Donskaya TV,S9derlund U,Mazukabzov AM and Hanes J.2010.Large igneous province of about 1750Ma in the Siberian Craton.Doklady Earth Sciences,430(2):168-171
Gradstein FM,Ogg JG,Smith AG,Bleeker W and Lourens LJ.2004.Anew geologic time scale,with special reference to Precambrian and Neogene.Episodes,27(2):83-100
Gradstein FM,Ogg JG,Schmitz MD and Ogg GM.2012.The Geological Time Scale 2012.Amsterdam:Elsevier
Greentree MR and Li ZX.2008.The oldest known rocks in south-western China:SHRIMP U-Pb magmatic crystallisation age and detrital provenance analysis of the Paleoproterozoic Dahongshan Group.Journal of Asian Earth Sciences,33(5-6):289-302
Guadagnin F and Junior FC.2015.Detrital zircon record of the Paleoproterozoic to Mesoproterozoic cratonic basins in the S2o Francisco Craton.Journal of South American Earth Sciences,60:104-116
Guadagnin F,Chemale Jr F,Magalh2es AJC,Santana A,Dussin I and Takehara L.2015.Age constraints on crystal-tuff from the Espinha9o Supergroup:Insight into the Paleoproterozoic to Mesoproterozoic intracratonic basin cycles of the Congo-S2o Francisco Craton.Gondwana Research,27(1):363-376
Guan JL,Zheng LL,Liu JH,Sun ZM and Cheng WH.2011.Zircons SHRIMP U-Pb dating of diabase from Hekou,Sichuan Province,China and its geological significance.Acta Geologica Sinica,85(4):482-490(in Chinese with English abstract)
Guo Y,Wang SW,Sun XM,Wang ZZ,Yang B,Liao ZW,Zhou BG,Jiang XF,Hou L and Yang B.2014.The Paleoproterozoic breakup event in the Southwest Yangtze Block:Evidence from U-Pb zircon age and geochemistry of diabase in Wuding,Yunnan Province,SWChina.Acta Geologica Sinica,88(9):1651-1665(in Chinese with English abstract)
Haapala I,Front K,Rantala E and Vaarma M.1987.Petrology of Nattanen-type granite complexes,northern Finland.Precambrian Research,35:225-240
Hahn K,Rainbird R and Cousens B.2013.Sequence stratigraphy,provenance,C and O isotopic composition,and correlation of the late Paleoproterozoic-early Mesoproterozoic upper Hornby Bay and lower Dismal Lakes groups,NWT and Nunavut.Precambrian Research,232:209-225
Halls HC,Li JH,Davis D,Hou GT,Zhang BX and Qian XL.2000.Aprecisely dated Proterozoic palaeomagnetic pole from the North China craton,and its relevance to paleocontinental reconstruction.Geophysical Journal International,143(1):185-203
Han BF,Zhang L,Wang YM and Song B.2007.Enriched mantle source for Paleoproterozoic high Mg and low Ti-P mafic dykes in central part of the North China Craton:Constraints from zircon Hf isotopic compositions.Acta Petrologica Sinica,23(2):277-284(in Chinese with English abstract)
Hazen RM,Papineau D,Bleeker W,Downs RT,Ferry JM,McC oy TJ,Sverjensky DA and Yang HX.2008.Mineral evolution.American Mineralogist,93(11-12):1693-1720
He YH,Zhao GC,Sun M and Xia XP.2009.SHRIMP and LA-ICP-MSzircon geochronology of the Xiong’er volcanic rocks:Implications for the Paleo-Mesoproterozoic evolution of the southern margin of the North China Craton.Precambrian Research,168(3-4):213-222
He ZJ,Zhang XY,Niu BG,Liu RY and Zhao L.2011a.The paleoweathering mantle of the Proterozoic rapakivi granite in Miyun County,Beijing and the relationship with the Changzhougou Formation of Changchengian System.Earth Science Frontiers,18(4):123-130(in Chinese with English abstract)
He ZJ,Niu BG,Zhang XY,Zhao L and Liu RY.2011b.Discovery of the paleo-weathered mantle of the rapakivi granites covered by the Proterozoic Changzhougou Formation in the Miyun area,Beijing and their detrital zircon dating.Geological Bulletin of China,30(5):798-802(in Chinese with English abstract)
Hou GT,Li JH and Qian XL.2001.The palaeomagnetism and geological significcance of Mesoproterozoic dyke swarms in the central North China Craton.Science in China(Series D),44(2):185-192
Hou GT,Li JH,Liu YL and Qian XL.2005.Late paleoproterozoic extension of the North China Craton:Aulacogen and mafic dyke swarm.Progress in Natural Science,15(11):1366-1373(in Chinese)
Hou GT,Santosh M,Qian XL,Lister G and Li JH.2008.Configuration of the Late Paleoproterozoic supercontinent Columbia:Insights from radiating mafic dyke swarms.Gondwana Research,14(3):395-409
Hou GT.2012.Mafic Dyke Swarms of North China.Beijing:Science Press,1-177(in Chinese)
Hou L,Ding J,Deng J,Liao ZW and Peng HJ.2013.Zircon LA-ICP-MS dating of the magmatic breccia from the Yinachang iron-copper deposit in Wuding County of Yunnan Province and its geological significance.Geological Bulletin of China,32(4):580-588(in Chinese with English abstract)
Hu GH,Hu JL,Chen W and Zhao TP.2010.Geochemistry and tectonic setting of the 1.78Ga mafic dyke swarms in the Mt.Zhongtiao and Mt.Song areas,the southern margin of the North China Craton.Acta Petrologica Sinica,26(5):1563-1576(in Chinese with English abstract)
Hutton LJ and Sweet IP.1982.Geological evolution,tectonic style,and economic potential of the Lawn Hill Platform cover,northwest Queensland.BMR Journal of Australian Geology and Geophysics,7(2):125-134
Irving E,Baker J,Hamilton M and Wynne PJ.2004.Early Proterozoicgeomagnetic field in western Laurentia:Implications for paleolatitudes,local rotations and stratigraphy.Precambrian Research,129(3-4):251-270
Jackson MJ,Scott DL and Rawlings DJ.2000.Stratigraphic framework for the Leichhardt and Calvert Superbasins:Review and correlations of the pre-1700Ma successions between Mt Isa and McA rthur River.Australian Journal of Earth Sciences,47(3):381-403
James HL.1978.Subdivision of the Precambrian:A brief review and a report on recent decisions by the Subcommission on Precambrian Stratigraphy.Precambrian Research,7(3):193-204
James HL.1983.Precambrian subcommission meets in Tanta,Egypt.Precambrian Research,20(1):1-2
Jiang N,Guo JH and Zhai MG.2011.Nature and origin of the Wenquan granite:Implications for the provenance of Proterozoic A-type granites in the North China Craton.Journal of Asian Earth Sciences,42(1-2):76-82
Jin TF,Li YG,Fei GC,Feng YC,Zhou H,Sha XB and Wu K.2017.Geochronology of zircon U-Pb from Hongshan Formation in the Dahongshan Group in the Southwest Yangtze Block for the redefinitions of the forming age of the protolith and metamorphic ages.Geological Review,63(4):894-910(in Chinese with English abstract)
Kaur P,Zeh A,Chaudhri N and Eliyas N.2017.Two distinct sources of1.73~1.70Ga A-type granites from the northern Aravalli orogen,NW India:Constraints from in situ zircon U-Pb ages and Lu-Hf isotopes.Gondwana Research,49:164-181
Khudoley A,Chamberlain K,Ershova V,Sears J,Prokopiev A,MacL ean J,Kazakova G,Malyshev S,Molchanov A,Kullerud K,Toro J,Miller E,Veselovskiy R,Li A and Chipley D.2015.Proterozoic supercontinental restorations:Constraints from provenance studies of Mesoproterozoic to Cambrian clastic rocks,eastern Siberian Craton.Precambrian Research,259:78-94
Kokonyangi J,Armstrong R,Kampunzu AB,Yoshida M and Okudaira T.2004.U-Pb zircon geochronology and petrology of granitoids from Mitwaba(Katanga,Congo):Implications for the evolution of the Mesoproterozoic Kibaran belt.Precambrian Research,132(1-2):79-106
Krassay AA,Domagala J,Bradshaw BE and Southgate PN.2000.Lowstand ramps,fans and deep-water Palaeoproterozoic and Mesoproterozoic facies of the Lawn Hill Platform:The Term,Lawn,Wide and Doom Supersequences of the Isa Superbasin,northern Australia.Australian Journal of Earth Sciences,47(3):563-597
Larin AM.2009.Rapakivi Granites in the geological history of the Earth.Part 1,Magmatic associations with rapakivi granites:Age,geochemistry,and tectonic setting.Stratigraphy and Geological Correlation,17(3):235-258
Larin AM.2014.Ulkan-Dzhugdzhur ore-bearing anorthosite-rapakivi granite-peralkaline granite association,Siberian Craton:Age,tectonic setting,sources,and metallogeny.Geology of Ore Deposits,56(4):257-280
Lenharo SLR,Moura MA and Botelho NF.2002.Petrogenetic and mineralization processes in Paleo-to Mesoproterozoic rapakivi granites:Examples from Pitinga and Goiás,Brazil.Precambrian Research,119(1-4):277-299
Li CD,Zhao LG,Chang QS,Xu YW and Xu T.2017.Zircon U-Pb dating of tuff bed from Luoyukou Formation in western Henan Province on the southern margin of the North China Craton and its stratigraphic attribution discussion.Geology in China,44(3):511-525(in Chinese with English abstract)
Li HK,Zhu SX,Xiang ZQ,Su WB,Lu SN,Zhou HY,Geng JZ,Li Sand Yang FJ.2010.Zircon U-Pb dating on tuff bed from Gaoyuzhuang Formation in Yanqing,Beijing:Further constraints on the new subdivision of the Mesoproterozoic stratigraphy in the northern North China Craton.Acta Petrologica Sinica,26(7):2131-2140(in Chinese with English abstract)
Li HK,Su WB,Zhou HY,Geng JZ,Xiang ZQ,Cui YR,Liu WC and Lu SN.2011.The base age of the Changchengian System at the northern North China Craton should be younger than 1670Ma:Constraints from zircon U-Pb LA-MC-ICPMS dating of a graniteporphyry dike in Miyun County,Beijing.Earth Science Frontiers,18 (3):108-120(in Chinese with English abstract)
Li HK,Lu SN,Su WB,Xiang ZQ,Zhou HY and Zhang YQ.2013.Recent advances in the study of the Mesoproterozoic geochronology in the North China Craton.Journal of Asian Earth Sciences,72:216-227
Li HK,Zhang CL,Yao CY and Xiang ZQ.2013.U-Pb zircon age and Hf isotope compositions of Mesoproterozoic sedimentary strata on the western margin of the Yangtze massif.Science China(Earth Sciences),56(4):628-639
Li HK,Su WB,Zhou HY,Xiang ZQ,Tian H,Yang LG,Huff WD and Ettensohn FR.2014.The first precise age constraints on the Jixian System of the Meso-to Neoproterozoic Standard Section of China:SHRIMP zircon U-Pb dating of bentonites from the Wumishan and Tieling formations in the Jixian Section,North China Craton.Acta Petrologica Sinica,30(10):2999-3012(in Chinese with English abstract)
Li SZ,Lin YX and Zhang XQ.1985.The ages of the Changzhougou and Chuanlinggou formations of the Changcheng system in Yanshan area.Precambrian Geology,2:129-134(in Chinese)
Li Y,Peng P,Wang XP and Wang HZ.2015.Nature of 1800~1600Ma mafic dyke swarms in the North China Craton:Implications for the rejuvenation of the sub-continental lithospheric mantle.Precambrian Research,257:114-123
Liu K,Lu GM,Wang ZZ,Huang SF,Xue EK and Wang W.2019.The Paleoproterozoic bimodal magmatism in the SW Yangtze block:Implications for initial breakup of the Columbia supercontinent.Lithos,332-333:23-38
Liu XY.2011.Chronological,petrological and geochemical characteristics of the Paleo-Mesoproterozoic alkali-rich intrusive rocks along the southern part of the North China Craton.Master Degree Thesis.Beijing:Chinese Academy of Geological Sciences,1-84(in Chinese with English summary)
Liu XY,Cai JH and Yan GH.2011.Lithogeochemistry and Geochronology of Xiong’er Group Yanyaozhai subvolcanics in the southern margin of the North China Craton and their geological signifans.Acta Geologica Sinica,85(7):1134-1145(in Chinese with English abstract)
Lobato LM,Pimentel MM,Cruz SCP,Machado N,Noce CM and Alkmim FF.2015.U-Pb geochronology of the Lagoa Real uranium district,Brazil:Implications for the age of the uranium mineralization.Journal of South American Earth Sciences,58:129-140
Lu SN and Sun DZ.1983.The background information about the subdivision of Proterozoic Eon.Overseas Precambrian Geology,(1):44-61(in Chinese)
Lu SN.1998.A review on subdivision of Proterozoic eon in China.Progress in Precambrian Research,21(4):1-9(in Chinese with English abstract)
Lu SN,Li HK,Li HM,Song B,Wang SY,Zhou HY and Chen ZH.2003.U-Pb isotopic ages and their significance of alkaline granite in the southern margin of the North China Craton.Geological Bulletin of China,22(12):762-768(in Chinese with English abstract)
Lu SN,Li HK,Wang HC and Chen ZH.2005.Brief introduction and comment on the special reference to the Precambrian subdivision by the International Commission on Stratigraphy.Geological Review,51(2):169-173(in Chinese with English abstract)
Lu SN,Zhao GC,Wang HC and Hao GJ.2008.Precambrian metamorphic basement and sedimentary cover of the North China Craton:A review.Precambrian Research,160(1-2):77-93
Lu GM,Wang W,Ernst RE,S9derlund U,Lan ZF,Huang SF and Xue EK.2019.Petrogenesis of Paleo-Mesoproterozoic mafic rocks in the southwestern Yangtze Block of South China:Implications for tectonic evolution and paleogeographic reconstruction.Precambrian Research,322:66-84
Martin DM and Thorne AM.2004.Tectonic setting and basin evolution of the Bangemall Supergroup in the northwestern Capricorn Orogen.Precambrian Research,128(3-4):385-409
Martins-Neto MA.2000.Tectonics and sedimentation in a Paleo/Mesoproterozoic rift-sag basin(Espinha9o basin,southeastern Brazil).Precambrian Research,103(3-4):147-173
Mccourt S,Armstrong RA,Kampunzu AB,Mapeo RBM and Morais E.2004.New U-Pb SHRIMP ages on zircons from the Lubango region,Southwest Angola:Insights into the proterozoic evolution of SouthWestern Africa.In:Proceedings of the 20thCAG.Orleans,France:Geoscience:Geological Society of South Africa,438-439
Meert JG.2002.Paleomagnetic evidence for a Paleo-Mesoproterozoic supercontinent Columbia.Gondwana Research,5(1):207-215
Meert JG.2012.What’s in a name?The Columbia(Paleopangaea/Nuna)supercontinent.Gondwana Research,21(4):987-993
Neumann NL,Southgate PN,Gibson GM and McI ntyre A.2006.New SHRIMP geochronology for the western fold belt of the Mt.Isa Inlier:Developing a 1800~1650Ma event framework.Australian Journal of Earth Sciences,53(6):1023-1039
Neumann NL,Gibson GM and Southgate PN.2009.New SHRIMP age constraints on the timing and duration of magmatism and sedimentation in the Mary Kathleen Fold Belt,Mt Isa Inlier,Australia.Australian Journal of Earth Sciences,56(7):965-983
Page RW.1983.Chronology of magmatism,skarn formation,and uranium mineralization,Mary Kathleen,Queensland,Australia.Economic Geology,78(5):838-853
Page RW,Jackson MJ and Krassay AA.2000.Constraining sequence stratigraphy in north Australian basins:SHRIMP U-Pb zircon geochronology between Mt Isa and McA rthur River.Australian Journal of Earth Sciences,47(3):431-459
Pang WH,Ren GM,Sun ZM and Yin FG.2015.Division and correlation of Paleo-Mesoproterozoic strata on the western margin of Yangtze block:Evidence from the U-Pb age of tuff zircon in the Tongan Formation.Geology in China,42(4):921-936(in Chinese with English abstract)
Pedreira AJ and De Waele B.2008.Contemporeaneous evolution of the Paleoproterozoic-Mesoproterozoic sedimentary basins of the S2o Francisco-Congo craton.In:Pankhurst RJ,Trouw RAJ,De Brito Neves BB and De Wit MJ(eds.).West Gondwana:Pre-Cenozoic Correlations across the South Atlantic Region.Geological Society,London,Special Publication,294:33-48
Peng M,Wu YB,Wang J,Jiao WF,Liu XC and Yang SH.2009.Paleoproterozoic mafic dyke from Kongling terrain in the Yangtze Craton and its implication.Chinese Science Bulletin,54(6):1098-1104
Peng M,Wu YB,Gao S,Zhang HF,Wang J,Liu XC,Gong HJ,Zhou L,Hu ZC,Liu YS and Yuan HL.2012b.Geochemistry,zircon U-Pb age and Hf isotope compositions of Paleoproterozoic aluminous A-type granites from the Kongling terrain,Yangtze Block:Constraints on petrogenesis and geologic implications.Gondwana Research,22(1):140-151
Peng N,Kuang HW,Liu YQ,Geng YS,Xia XX,Wang YC,Chen XSand Zheng HH.2018.Recognition of geological age for acanthomorphic acritarchs from the Ruyang Group,southern margin of North China Craton and its implication for evolution of early eukaryotes.Journal of Palaeogeography,20(4):595-608(in Chinese with English abstract)
Peng P,Zhai MG,Zhang HF and Guo JH.2005.Geochronological constraints on the Paleoproterozoic evolution of the North China Craton:SHRIMP zircon ages of different types of mafic dikes.International Geology Review,47(5):492-508
Peng P,Zhai MG and Guo JH.2006.1.80~1.75Ga mafic dyke swarms in the central North China craton:Implications for a plume-related break-up event.In:Hanski E,Mertanen S,Ram9 T and Vuollo J(eds.).Dyke Swarms-Time Markers of Crustal Evolution.London:Taylor&Francis,99-112
Peng P,Zhai MG,Guo JH,Kusky T and Zhao TP.2007.Nature of mantle source contributions and crystal differentiation in the petrogenesis of the 1.78Ga mafic dykes in the central North China craton.Gondwana Research,12(1-2):29-46
Peng P,Zhai MG,Ernst RE,Guo JH,Liu F and Hu B.2008.A 1.78Ga large igneous province in the North China craton:The Xiong’er Volcanic Province and the North China dyke swarm.Lithos,101(3-4):260-280
Peng P,Guo JH,Zhai MG and Bleeker W.2010.Paleoproterozoic gabbronoritic and granitic magmatism in the northern margin of the North China Craton:Evidence of crust-mantle interaction.Precambrian Research,183(3):635-659
Peng P,Liu F,Zhai MG and Guo JH.2012a.Age of the Miyun dyke swarm:Constraints on the maximum depositional age of the Changcheng System.Chinese Science Bulletin,57(1):105-110
Peng P.2015.Precambrian mafic dyke swarms in the North China Craton and their geological implications.Science China(Earth Sciences),58(5):649-675
Peng P.2016.Map of Precambrian Dyke Swarms and Related Plutonic/Volcanic Units in the North China Block(Instructions).Beijing:Science Press,1-90(in Chinese with English abstract)
Peterson TD,Scott JMJ,Le Cheminant AN and Jefferson CW.2015.The Kivalliq Igneous Suite:Anorogenic bimodal magmatism at 1.75Ga in the western Churchill Province,Canada.Precambrian Research,262:101-119
Qiao XF and Wang YB.2014.Discussions on the lower boundary age of the Mesoproterozoic and basin tectonic evolution of the Mesoproterozoic in North China Craton.Acta Geologica Sinica,88(9):1623-1637(in Chinese with English abstract)
Qiu YM,Gao S,McN aughton NJ,Groves DI and Ling WL.2000.First evidence of>3.2Ga continental crust in the Yangtze craton of South China and its implications for Archean crustal evolution and Phanerozoic tectonics.Geology,28(1):11-14
Rainbird RH,Hadlari T,Aspler LB,Donaldson JA,Le Cheminant ANand Peterson TD.2003.Sequence stratigraphy and evolution of the Paleoproterozoic intracontinental Baker Lake and Thelon basins,western Churchill Province,Nunavut,Canada.Precambrian Research,125(1-2):21-53
Rainbird RH,Davis WJ,Stern RA,Peterson TD,Smith SR,Parrish RRand Hadlari T.2006.Ar-Ar and U-Pb geochronology of a Late Paleoproterozoic rift basin:Support for a genetic link with Hudsonian orogenesis,western Churchill Province,Nunavut,Canada.The Journal of Geology,114(1):1-17
Rainbird RH and Davis WJ.2007.U-Pb detrital zircon geochronology and provenance of the late Paleoproterozoic Dubawnt Supergroup:Linking sedimentation with tectonic reworking of the western Churchill Province,Canada.GSA Bulletin,119(3-4):314-328
Rm9 OT,Haapala I,Vaasjoki M,Yu JH and Fu HQ.1995.1700Ma Shachang complex,northeast China:Proterozoic rapakivi granite not associated with Paleoproterozoic orogenic crust.Geology,23(9):815-818
Rankama K.1970.Global precambrian stratigraphy:Background and principles.Scientia,64(5):382
Reis NJ,Teixeira W,Hamilton MA,Bispo-Santos F,Almeida ME and D’Agrella-Filho MS.2013.Avanavero mafic magmatism,a Late Paleoproterozoic LIP in the Guiana Shield,Amazonian Craton:U-Pb ID-TIMS baddeleyite,geochemical and paleomagnetic evidence.Lithos,174:175-195
Ren GM,Pang WH,Sun ZM and Yin FG.2014.Zircon U-Pb chronology of the amphibolite of Tong’an Formation and its geological significance.Journal of Mineralogy and Petrology,34(2):33-39(in Chinese with English abstract)
Ren KX,Yan GH,Cai JH,Mu BL Li FT,Wang YB and Chu ZY.2006.Chronology and geological implication of the PaleoMesoproterozoic alkaline-rich intrusions belt from the northern part in the North China Craton.Acta Petrologica Sinica,22(2):377-386(in Chinese with English abstract)
Rogers JJW and Santosh M.2002.Configuration of Columbia,a Mesoproterozoic super-continent.Gondwana Research,5(1):5-22
Ross GM and Eaton DW.1997.Winagami reflection sequence:Seismic evidence for postcollisional magmatism in the Proterozoic of westernCanada.Geology,25(3):199-202
Roy AB and Purohit R.2015.Lithostratigraphic,geochronological and depositional framework of the Precambrian basins of the Aravalli Mountains and adjoining areas,Rajasthan,India.Geological Society,London,Memoirs,43:55-65
Schannor M,Lana C and Fonseca MA.2019.S2o Francisco-Congo Craton break-up delimited by U-Pb-Hf isotopes and trace-elements of zircon from metasediments of the Ara9uaíBelt.Geoscience Frontiers,10(2):611-628
Scott DL,Rawlings DJ,Page RW,Tarlowski CZ,Idnurm M,Jackson MJand Southgate PN.2000.Basement framework and geodynamic evolution of the Palaeoproterozoic superbasins of north-central Australia:An integrated review of geochemical,geochronological and geophysical data.Australian Journal of Earth Sciences,47(3):341-380
Scott JMJ,Peterson TD,Davis WJ,Jefferson CW and Cousens BL.2015.Petrology and geochronology of Paleoproterozoic intrusive rocks,Kiggavik uranium camp,Nunavut.Canadian Journal of Earth Sciences,52(7):495-518
Sears JW and Price RA.2002.The hypothetical Mesoproterozoic supercontinent Columbia:Implications of the Siberian-West Laurentian connection.Gondwana Research,5(1):35-39
Shankar R,Sarma DS,Babu NR and Parashuramulu V.2018.Paleomagnetic study of 1765Ma dyke swarm from the Singhbhum Craton:Implications to the paleogeography of India.Journal of Asian Earth Sciences,157:235-244
Shumlyanskyy L,Billstr9m K,Hawkesworth C and Elming S.2012.U-Pb age and Hf isotope compositions of zircons from the north-western region of the Ukrainian shield:Mantle melting in response to postcollision extension.Terra Nova,24(5):373-379
Shumlyanskyy L,Ernst RE,S9derlund U,Billstr9m K,Mitrokhin O and Tsymbal S.2016.New U-Pb ages for mafic dykes in the northwestern region of the Ukrainian shield:Coeval tholeiitic and jotunitic magmatism.GFF,138(1):79-85
Silveira EM,S9derlund U,Oliveira EP,Ernst RE and Menezes Leal AB.2013.First precise U-Pb baddeleyite ages of 1500Ma mafic dykes from the S2o Francisco Craton,Brazil,and tectonic implications.Lithos,174:144-156
Sims PK.1980.Subdivision of the Proterozoic and Archean Eons:Recommendations and suggestions by the International Subcommission on Precambrian Stratigraphy.Precambrian Research,13(4):379-380
Southgate PN,Bradshaw BE,Domagala J,Jackson MJ,Idnurm M,Krassay AA,Page RW,Sami TT,Scott DL,Lindsay JF,McC onachie BA and Tarlowski C.2000.Chronostratigraphic basin framework for Palaeoproterozoic rocks(1730~1575Ma)in northern Australia and implications for basemetal mineralisation.Australian Journal of Earth Sciences,47(3):461-483
Su WB,Zhang SH,Huff WD,Li HK,Ettensohn FR,Chen XY,Yang HM,Han YG,Song B and Santosh M.2008.SHRIMP U-Pb ages of K-bentonite beds in the Xiamaling Formation:Implications for revised subdivision of the Meso-to Neoproterozoic history of the North China Craton.Gondwana Research,14(3):543-553
Su WB,Li HK,Huff WD,Ettensohnd FR,Zhang SH,Zhou HY and Wan YS.2010.SHRIMP U-Pb dating for a K-bentonite bed in the Tieling Formation,North China.Chinese Science Bulletin,55(29):3312-3323
Su WB,Li HK,Xu L,Jia SH,Geng JZ,Zhou HY,Wang ZH and Pu HY.2012.Luoyu and Ruyang Groups at the south margin of the North China Craton(NCC)should belong in the Mesoproterozoic Changchengian System:Direct constraints from the LA-MC-ICPMSU-Pb age of the tuffite in the Luoyukou Formation,Ruzhou,Henan,China.Geological Survey and Research,35(2):96-108(in Chinese with English abstract)
Sun DZ and Lu SN.1983a.The International Precambrian Subcommission holds a meeting in Tanta,Egypt.Geological Review,29(3):302(in Chinese)
Sun DZ and Lu SN.1983b.Overview of the sixth meeting of theInternational Precambrian Subcommission of the International Union of Geological Sciences.Overseas Precambrian Geology,(1):41-44 (in Chinese)
Sun DZ and Lu SN.1985.A subdivision of the Precambrian of China.Precambrian Research,28(2):137-162
Sun ZD.1989.A new division and naming of the Precambrian Era.Bulletin of Mineralogy,Petrology and Geochemistry,(4):243-245(in Chinese)
Sun ZM,Yin FG,Guan JL,Liu JH,Li JM,Geng QR and Wang LQ.2009.SHRIMP U-Pb dating and its stratigraphic significance of tuff zircons from Heishan Formation of Kunyang Group,Dongchuan area,Yunnan Province,China.Geological Bulletin of China,28(7):896-900(in Chinese with English abstract)
The Working Group on the Geological Time Scale of China,MGMR.1987.A Geological Time Scale of China.Beijing:Geological Publishing House,1-146(in Chinese)
Turpin L,Maruejol P and Cuney M.1988.U-Pb,Rb-Sr and Sm-Nd chronology of granitic basement,hydrothermal albitites and uranium mineralizations(Lagoa Real,South-Bahia,Brazil).Contributions to Mineralogy and Petrology,98(2):139-147
Van Breemen O,Peterson TD and Sandeman HA.2005.U-Pb zircon geochronology and Nd isotope geochemistry of Proterozoic granitoids in the western Churchill Province:Intrusive age pattern and Archean source domains.Canadian Journal of Earth Sciences,42(3):339-377
Van Kranendonk MJ.2012.A chronostratigraphic division of the Precambrian:Possibilities and challenges.In:Gradstein FM,Ogg JG,Schmitz MD and Ogg GM(eds.).The Geological Time Scale2012.Amsterdam:Elsevier,299-392
Verbaas J,Thorkelson DJ,Crowley J,Davis WJ,Foster DA,Gibson HD,Marshall DD and Milidragovic D.2018.A sedimentary overlap assemblage links Australia to northwestern Laurentia at 1.6Ga.Precambrian Research,305:19-39
Wang C,Peng P,Wang XP,Li QL,Xu XY and Yang SY.2016.The generations and U-Pb dating of baddeleyites from the Taihang dyke swarm in North China and their implications for magmatic evolution.Acta Petrologica Sinica,32(3):646-658(in Chinese with English abstract)
Wang DB,Sun ZM,Yin FG,Wang LQ,Wang BD and Zhang WP.2012.Geochronology of the Hekou Group on the western margin of the Yangtze Block:Evidence from zircon LA-ICP-MS U-Pb dating of volcanic rocks.Journal of Stratigraphy,36(3):630-635(in Chinese with English abstract)
Wang DB,Yin FG,Sun ZM,Wang LQ,Wang BD,Liao SY,Tang Yand Ren GM.2013.Zircon U-Pb age and Hf isotope of Paleoproterozoic mafic intrusion on the western margin of the Yangtze Block and their implications.Geologcal Bulletin of China,32(4):617-630(in Chinese with English abstract)
Wang HZ.1982.On the use of“Sinian”from the perspective of stratigraphic specification and the division of the Precambrian Era in China.Journal of Stratigraphy,6(4):241-246(in Chinese)
Wang HZ.1986.Precambrian geochronologic and chronostratigraphic subdivision of China.Earth Science(Journal of China University of Geosciences),11(5):447-453(in Chinese with English abstract)
Wang W,Liu SW,Bai X,Li QG,Yang PT,Zhao Y,Zhang SH and Guo RR.2013.Geochemistry and zircon U-Pb-Hf isotopes of the Late Paleoproterozoic Jianping diorite-monzonite-syenite suite of the North China Craton:Implications for petrogenesis and geodynamic setting.Lithos,162-163:175-194
Wang W and Zhou MF.2014.Provenance and tectonic setting of the Paleo-to Mesoproterozoic Dongchuan Group in the southwestern Yangtze Block,South China:Implication for the breakup of the supercontinent Columbia.Tectonophysics,610:110-127
Wang W,Zhou MF,Zhao XF,Chen WT and Yan DP.2014b.Late Paleoproterozoic to Mesoproterozoic rift successions in SW China:Implication for the Yangtze Block-North Australia-Northwest Laurentia connection in the Columbia supercontinent.SedimentaryGeology,309:33-47
Wang W,Liu SW,Santosh M,Deng ZB,Guo BR,Zhao Y,Zhang SH,Yang PT,Bai X and Guo RR.2015.Late Paleoproterozoic geodynamics of the North China Craton:Geochemical and zircon U-Pb-Hf records from a volcanic suite in the Yanliao rift.Gondwana Research,27(1):300-325
Wang W,Cawood PA,Zhou MF and Zhao JH.2016.Paleoproterozoic magmatic and metamorphic events link Yangtze to northwest Laurentia in the Nuna supercontinent.Earth and Planetary Science Letters,433:269-279
Wang W,Cawood PA,Pandit MK,Zhou MF and Chen WT.2017.Zircon U-Pb age and Hf isotope evidence for an Eoarchean crustal remnant,and crustal episodic reworking in response to supercontinental cycles in NW India.Journal of the Geological Society,174(4):759-772
Wang W,Lu GM,Huang SF and Xue EK.2019.Geological Evolution of the Yangtze Block in Paleo-to Meso-Proterozoic and Its Implication on the Reconstruction of the Columbia Supercontinent.Bulletin of Mineralogy,Petrology and Geochemistry,38(1):30-52(in Chinese with English abstract)
Wang X,Zhu WB,Luo M,Ren XM and Cui X.2014a.Approximately1.78Ga mafic dykes in the Lüliang Complex,North China Craton:Zircon ages and Lu-Hf isotopes,geochemistry,and implications.Geochemistry,Geophysics,Geosystems,15(8):3123-3144
Wang XL,Jiang SY and Dai BZ.2010.Melting of enriched Archean subcontinental lithospheric mantle:Evidence from the ca.1760Ma volcanic rocks of the Xiong’er Group,southern margin of the North China Craton.Precambrian Research,182(3):204-216
Wang ZJ,Huang ZG,Yao JX and Ma XL.2014.Characteristics and main progress of the Stratigraphic Chart of China and Directions.Acta Geoscientica Sinica,35(3):271-276(in Chinese with English abstract)
Wang ZZ,Guo Y,Yang B,Wang SW,Sun XM,Hou L,Zhou BG and Liao ZW.2013.Discovery of the 1.73Ga Haizi anorogenic type granite in the western margin of Yantze Craton,and its geological significance.Acta Geologica Sinica,87(7):931-942(in Chinese with English abstract)
Wu TS.2002.Late Precambrian(Meso-to Neoproterozoic)lithostratigraphic units in North China and their multiple division and correlation.Geology in China,29(2):147-154(in Chinese with English abstract)
Wu YB,Gao S,Gong HJ,Xiang H,Jiao WF,Yang SH,Liu YS and Yuan HL.2009.Zircon U-Pb age,trace element and Hf isotope composition of Kongling terrane in the Yangtze Craton:Refining the timing of Palaeoproterozoic high-grade metamorphism.Journal of Metamorphic Geology,27(6):461-477
Xiang ZQ,Li HK,Lu SN,Zhou HY,Li HM,Wang HC,Chen ZH and Niu J.2012.Emplacement age of the gabbro-diabase dike in the Hongmen scenic region of Mount Tai,Shandong Province,North China:Baddeleyite U-Pb precise dating.Acta Petrologica Sinica,28(9):2831-2842(in Chinese with English abstract)
Xie GH.2005.Petrology and Geochemistry of the Damiao Anorthosite and the Miyun Rapakivi Granite.Beijing:Science Press,1-195(in Chinese)
Xiong Q,Zheng JP,Yu CM,Su YP,Tang HY and Zhang ZH.2009.Zircon U-Pb age and Hf isotope of Quanyishang A-type granite in Yichang:Signification for the Yangtze continental cratonization in Paleoproterozoic.Chinese Science Bulletin,54(3):436-446
Xu YH,Zhao TP,Peng P,Zhai MG,Qi L and Luo Y.2007.Geochemical characteristics and geological significance of the Paleoproterozoic volcanic rocks from the Xiaoliangling Formation in the Lüliang area,Shanxi Province.Acta Petrologica Sinica,23(5):1123-1132(in Chinese with English abstract)
Xu YH,Zhao TP,Zhang YX and Chen W.2008.Geochemical characteristics and geological significances of the Dagushi Formation siliciclastic rocks,the Paleoproterozoic Xiong’er Group from the southern North China Craton.Geological Review,54(3):316-326(in Chinese with English abstract)
Yang B,Wang WQ,Dong GC,Guo Y,Wang ZZ and Hou L.2015.Geochemistry,geochronology and their significances of Haizi bimodal intrusions in Kangdian fault-uplift zone,southwestern margin of Yangtze platform.Acta Petrologica Sinica,31(5):1361-1373(in Chinese with English abstract)
Yang B,Dong GC,Guo Y,Wang ZZ and Wang P.2016.Geochemistry,zircon U-Pb geochronology and significances of the Dazhupeng rhyolites in the western Yangtze platform.Journal of Mineralogy and Petrology,36(2):82-91(in Chinese with English abstract)
Yang H,Liu FL,Du LL,Liu PH and Wang F.2012.Zircon U-Pb dating for metavolcanites in the Laochanghe Formation of the Dahongshan Group in southwestern Yangtze block,and its geological significance.Acta Petrologica Sinica,28(9):2994-3014(in Chinese with English abstract)
Yang JH,Wu FY,Liu XM and Xie LW.2005.Zircon U-Pb ages and Hf isotopes and their geological significance of the Miyun rapakivi granites from Beijing,China.Acta Petrologica Sinica,21(6):1633-1644(in Chinese with English abstract)
Yin CQ,Lin SF,Davis DW,Zhao GC,Xiao WJ,Li LM and He YH.2013.2.1~1.85Ga tectonic events in the Yangtze Block,South China:Petrological and geochronological evidence from the Kongling Complex and implications for the reconstruction of supercontinent Columbia.Lithos,182-183:200-210
Youbi N,KouyatéD,S9derlund U,Ernst RE,Soulaimani A,Hafid A,Ikenne M,El Bahat A,Bertrand H,Chaham KR,Abbou MB,Mortaji A,El Ghorfi M,Zouhair M and El Janati M.2013.The1750Ma magmatic event of the West African Craton(Anti-Atlas,Morocco).Precambrian Research,236:106-123
Yu WJ,Luo ZH,Liu YS,Sun JY,Li Z,Wang Z and Tang ZX.2017.Petrogenesis of the Lala iron-copper deposit:Evidence by cryptoexplosive breccia CSD data and their zircon U-Pb data.Acta Petrologica Sinica,33(3):925-941(in Chinese with English abstract)
Zhai MG,Hu B,Peng P and Zhao TP.2014.Meso-Neoproterozoic magmatic events and multi-stage rifting in the NCC.Earth Science Frontiers,21(1):100-119(in Chinese with English abstract)
Zhang LJ,Ma CQ,Wang LX,She ZB and Wang SM.2011.Discovery of Paleoproterozoic rapakivi granite on the northern margin of the Yangtze block and its geological significance.Chinese Science Bulletin,56(3):306-318
Zhang SB,Zheng YF,Wu YB,Zhao ZF,Gao S and Wu FY.2006.Zircon isotope evidence for≥3.5Ga continental crust in the Yangtze Craton of China.Precambrian Research,146(1-2):16-34
Zhang SH,Liu SW,Zhao Y,Yang JH,Song B and Liu XM.2007.The1.75~1.68Ga anorthosite-mangerite-alkali granitoid-rapakivi granite suite from the northern North China Craton:Magmatism related to a Paleoproterozoic orogen.Precambrian Research,155(3-4):287-312
Zhang SH,Zhao Y,Yang ZY,He ZF and Wu H.2009.The 1.35Ga diabase sills from the northern North China Craton:Implications for breakup of the Columbia(Nuna)supercontinent.Earth and Planetary Science Letters,288(3-4):588-600
Zhang SH,Zhao Y and Santosh M.2012.Mid-Mesoproterozoic bimodal magmatic rocks in the northern North China Craton:Implications for magmatism related to breakup of the Columbia supercontinent.Precambrian Research,222-223:339-367
Zhang SH,Zhao Y,Ye H,Hu JM and Wu F.2013.New constraints on ages of the Chuanlinggou and Tuanshanzi formations of the Changcheng System in the Yan-Liao area in the northern North China Craton.Acta Petrologica Sinica,29(7):2481-2490(in Chinese with English abstract)
Zhang SH,Zhao Y,Li XH,Ernst RE and Yang ZY.2017.The 1.33~1.30Ga Yanliao large igneous province in the North China Craton:Implications for reconstruction of the Nuna(Columbia)supercontinent,and specifically with the North Australian Craton.Earth and Planetary Science Letters,465:112-125
Zhao GC,Cawood PA,Wilde SA and Sun M.2002a.Review of global2.1~1.8Ga orogens:Implications for a pre-Rodinia supercontinent.Earth-Science Reviews,59(1-4):125-162
Zhao GC,He YH and Sun M.2009a.The Xiong’er volcanic belt at the southern margin of the North China Craton:Petrographic and geochemical evidence for its outboard position in the PaleoMesoproterozoic Columbia Supercontinent.Gondwana Research,16(2):170-181
Zhao TP,Zhou MF,Jin CW,Guan H and Li HM.2001.Discussion on age of the Xiong’er Group in southern margin of North China Craton.Chinese Journal of Geology,36(3):326-334(in Chinese with English abstract)
Zhao TP,Zhou MF,Zhai MG and Xia B.2002b.Paleoproterozoic riftrelated volcanism of the Xiong’er Group,North China Craton:Implications for the breakup of Columbia.International Geology Review,44(4):336-351
Zhao TP,Zhai MG,Xia B,Li HM,Zhang YX and Wan YS.2004.Zircon U-Pb SHRIMP dating for the volcanic rocks of the Xiong’er Group:Constraints on the initial formation age of the cover of the North China Craton.Chinese Science Bulletin,49(23):2495-2502
Zhao TP,Chen FK,Zhai MG and Xia B.2004.Single zircon U-Pb ages and their geological significance of the Damiao anorthosite complex,Hebei Province,China.Acta Petrologica Sinica,20(3):685-690(in Chinese with English abstract)
Zhao TP,Chen W and Zhou MF.2009b.Geochemical and Nd-Hf isotopic constraints on the origin of the 1.74 Ga Damiao anorthosite complex,North China Craton.Lithos,113(3-4):673-690
Zhao TP,Deng XQ,Hu GH,Zhou YY,Peng P and Zhai MG.2015.The Paleoproterozoic-Mesoproterozoic boundary of the North China Craton and the related geological issues:A review.Acta Petrologica Sinica,31(6):1495-1508(in Chinese with English abstract)
Zhao XF,Zhou MF,Li JW,Sun M,Gao JF,Sun WH and Yang JH.2010.Late Paleoproterozoic to Early Mesoproterozoic Dongchuan Group in Yunnan,SW China:Implications for tectonic evolution of the Yangtze Block.Precambrian Research,182(1-2):57-69
Zhao XF and Zhou MF.2011.Fe-Cu deposits in the Kangdian region,SW China:A Proterozoic IOCG(iron-oxide-copper-gold)metallogenic province.Mineralium Deposita,46(7):731-747
Zhou GY,Wu YB,Wang H,Qin ZW,Zhang WX,Zheng JP and Yang SH.2017.Petrogenesis of the Huashanguan A-type granite complex and its implications for the early evolution of the Yangtze Block.Precambrian Research,292:57-74
Zhou JY,Mao JW,Liu FY,Tan HQ,Shen B,Zhu ZM,Chen JB,Luo LP,Zhou X and Wang Y.2011.SHRIMP U-Pb zircon chronology and geochemistry of albitite from the Hekou Group in the western Yangtze Block.Journal of Mineralogy and Petrology,31(3):66-73(in Chinese with English abstract)
Zhou MF,Zhao XF,Chen WT,Li XC,Wang W,Yan DP and Qiu HN.2014.Proterozoic Fe-Cu metallogeny and supercontinental cycles of the southwestern Yangtze Block,southern China and northern Vietnam.Earth-Science Reviews,139:59-82
Zhu HP,Fan WY,Zhou BG,Wang SW,Luo MJ,Liao ZW and Guo Y.2011.Assessing Precambrian stratigraphic sequence of Dongchuan area:Evidence from zircon SHRIMP and LA-ICP-MS dating.Geological Journal of China Universities,17(3):452-461(in Chinese with English abstract)
Zhu ZM,Hou KJ,Zhu KY and Tan HQ.2013.Geochronology and geochemistry of the Hekou Group in Sichuan Province,SW China.Geochemical Journal,47(1):51-64
包志伟,王强,资锋,唐功建,杜凤军,白国典.2009.龙王A型花岗岩地球化学特征及其地球动力学意义.地球化学,38(6):509-522
崔敏利,张宝林,彭澎,张连昌,沈晓丽,郭志华,黄雪飞.2010.豫西崤山早元古代中酸性侵入岩锆石/斜锆石U-Pb测年及其对熊耳火山岩系时限的约束.岩石学报,26(5):1541-1549
邓小芹,赵太平,彭头平,高昕宇,包志伟.2015.华北克拉通南缘1600Ma麻坪A型花岗岩的成因及其地质意义.岩石学报,31(6):1621-1635
地质矿产部中国同位素地质年表工作组.1987.中国同位素地质年表.北京:地质出版社,1-146
高林志,张传恒,史晓颖,周洪瑞,王自强.2007.华北青白口系下马岭组凝灰岩锆石SHRIMP U-Pb定年.地质通报,26(3):249-255
高林志,张传恒,史晓颖,宋彪,王自强,刘耀明.2008a.华北古陆下马岭组归属中元古界的锆石SHRIMP年龄新证据.科学通报,53(21):2617-2623
高林志,张传恒,尹崇玉,史晓颖,王自强,刘耀明,刘鹏举,宋彪.2008b.华北古陆中、新元古代年代地层框架SHRIMP锆石年龄新依据.地球学报,29(3):366-376
高林志,张传恒,刘鹏举,丁孝忠,王自强,张彦杰.2009.华北-江南地区中、新元古代地层格架的再认识.地球学报,30(4):433-446
高维,张传恒,高林志,史晓颖,刘耀明,宋彪.2008.北京密云环斑花岗岩的锆石SHRIMP U-Pb年龄及其构造意义.地质通报,27(6):793-798
耿元生,柳永清,高林志,彭楠,江小均.2012.扬子克拉通西南缘中元古代通安组的形成时代---锆石LA-ICP-MS U-Pb年龄.地质学报,86(9):1479-1490
耿元生,沈其韩,杜利林,宋会侠.2016.区域变质作用与中国大陆地壳的形成与演化.岩石学报,32(9):2579-2608
耿元生,旷红伟,柳永清,杜利林.2017.扬子地块西、北缘中元古代地层的划分与对比.地质学报,91(10):2151-2174
关俊雷,郑来林,刘建辉,孙志明,程万华.2011.四川省会理县河口地区辉绿岩体的锆石SHRIMP U-Pb年龄及其地质意义.地质学报,85(4):482-490
郭阳,王生伟,孙晓明,王子正,杨斌,廖震文,周邦国,蒋小芳,侯林,杨波.2014.扬子地台西南缘古元古代末的裂解事件---来自武定地区辉绿岩锆石U-Pb年龄和地球化学证据.地质学报,88(9):1651-1665
韩宝福,张磊,王亚妹,宋彪.2007.华北克拉通中部古元古代高Mg低Ti-P镁铁质岩墙的富集地幔源区---锆石Hf同位素的制约.岩石学报,23(2):277-284
和政军,张新元,牛宝贵,刘仁燕,赵磊.2011a.北京密云元古宙环斑花岗岩古风化壳及其与长城系常州沟组的关系.地学前缘,18(4):123-130
和政军,牛宝贵,张新元,赵磊,刘仁燕.2011b.北京密云元古宙常州沟组之下环斑花岗岩古风化壳岩石的发现及其碎屑锆石年龄.地质通报,30(5):798-802
侯贵廷,李江海,刘玉琳,钱祥麟.2005.华北克拉通古元古代末的伸展事件:拗拉谷与岩墙群.自然科学进展,15(11):1366-1373
侯贵廷.2012.华北基性岩墙群.北京:科学出版社,1-177
侯林,丁俊,邓军,廖震文,彭惠娟.2013.云南武定迤纳厂铁铜矿岩浆角砾岩LA-ICP-MS锆石U-Pb年龄及其意义.地质通报,32(4):580-588
胡国辉,胡俊良,陈伟,赵太平.2010.华北克拉通南缘中条山-嵩山地区1.78Ga基性岩墙群的地球化学特征及构造环境.岩石学报,26(5):1563-1576
金廷福,李佑国,费光春,冯裕昌,周恒,沙小保,吴愧.2017.扬子地台西南缘大红山群红山组的锆石U-Pb年代学研究---对其原岩形成时代和变质时代的再限定.地质论评,63(4):894-910
李承东,赵利刚,常青松,许雅雯,王世炎,许腾.2017.豫西洛峪口组凝灰岩锆石LA-MC-ICPMS U-Pb年龄及地层归属讨论.中国地质,44(3):511-525
李怀坤,朱士兴,相振群,苏文博,陆松年,周红英,耿建珍,李生,杨锋杰.2010.北京延庆高于庄组凝灰岩的锆石U-Pb定年研究及其对华北北部中元古界划分新方案的进一步约束.岩石学报,26(7):2131-2140
李怀坤,苏文博,周红英,耿建珍,相振群,崔玉荣,刘文灿,陆松年.2011.华北克拉通北部长城系底界年龄小于1670Ma:来自北京密云花岗斑岩岩脉锆石LA-MC-ICPMS U-Pb年龄的约束.地学前缘,18(3):108-120
李怀坤,张传林,姚春彦,相振群.2013.扬子西缘中元古代沉积地层锆石U-Pb年龄及Hf同位素组成.中国科学(地球科学),43(8):1287-1298
李怀坤,苏文博,周红英,相振群,田辉,杨立公,Huff WD,Ettensohn FR.2014.中-新元古界标准剖面蓟县系首获高精度年龄制约---蓟县剖面雾迷山组和铁岭组斑脱岩锆石SHRIMP U-Pb同位素定年研究.岩石学报,30(10):2999-3012
李顺智,林源贤,张学祺.1985.燕山地区长城系常州沟组、串岭沟组的年龄.前寒武纪地质,2:129-134
柳晓艳.2011.华北克拉通南缘古-中元古代碱性岩岩石地球化学与年代学研究及其地质意义.硕士学位论文.北京:中国地质科学院,1-84
柳晓艳,蔡剑辉,阎国翰.2011.华北克拉通南缘熊耳群眼窑寨组次火山岩岩石地球化学与年代学研究及其意义.地质学报,85(7):1134-1145
陆松年,孙大中.1983.有关元古宙划分的背景材料.国外前寒武纪地质,(1):44-61
陆松年.1998.关于中国元古宙地质年代划分几个问题的讨论.前寒武纪研究进展,21(4):1-9
陆松年,李怀坤,李惠民,宋彪,王世炎,周红英,陈志宏.2003.华北克拉通南缘龙王碱性花岗岩U-Pb年龄及其地质意义.地质通报,22(12):762-768
陆松年,李怀坤,王惠初,陈志宏.2005.对国际地层委员会前寒武纪划分参考方案的简介及评述.地质论评,51(2):169-173
庞维华,任光明,孙志明,尹福光.2015.扬子地块西缘古-中元古代地层划分对比研究:来自通安组火山岩锆石U-Pb年龄的证据.中国地质,42(4):921-936
彭楠,旷红伟,柳永清,耿元生,夏晓旭,王玉冲,陈骁帅,郑行海.2018.华北克拉通南缘汝阳群大型具刺疑源类时代再厘定及早期真核生物群演化意义.古地理学报,20(4):595-608
彭澎.2016.华北陆块前寒武纪岩墙群及相关岩浆岩地质图说明书:1∶2500000.北京:科学出版社,1-90
乔秀夫,王彦斌.2014.华北克拉通中元古界底界年龄与盆地性质讨论.地质学报,88(9):1623-1637
全国地层委员会.2001.中国地层指南及中国地层指南说明书.北京:地质出版社,1-59
全国地层委员会.2002.中国区域年代地层(地质年代)表说明书.北京:地质出版社,1-72
任光明,庞维华,孙志明,尹福光.2014.扬子西缘会理地区通安组角闪岩锆石U-Pb定年及其地质意义.矿物岩石,34(2):33-39
任康绪,阎国翰,蔡剑辉,牟保磊,李凤棠,王彦斌,储著银.2006.华北克拉通北部地区古-中元古代富碱侵入岩年代学及意义.岩石学报,22(2):377-386
苏文博,李怀坤,Huff WD,Ettensohn FR,张世红,周红英,万渝生.2010.铁岭组钾质斑脱岩锆石SHRIMP U-Pb年代学研究及其地质意义.科学通报,55(22):2197-2206
苏文博,李怀坤,徐莉,贾松海,耿建珍,周红英,王志宏,蒲含勇.2012.华北克拉通南缘洛峪群-汝阳群属于中元古界长城系---河南汝州洛峪口组层凝灰岩锆石LA-MC-ICPMS U-Pb年龄的直接约束.地质调查与研究,35(2):96-108
孙大中,陆松年.1983a.国际前寒武地层分会在埃及坦塔召开会议.地质论评,29(3):302
孙大中,陆松年.1983b.国际地质科学联合会前寒武地层分会第六次会议概况.国外前寒武纪地质,(1):41-44
孙大中.1989.前寒武时代的新划分和命名.矿物岩石地球化学通讯,(4):243-245
孙志明,尹福光,关俊雷,刘建辉,李军敏,耿全如,王立全.2009.云南东川地区昆阳群黑山组凝灰岩锆石SHRIMP U-Pb年龄及其地层学意义.地质通报,28(7):896-900
王冲,彭澎,王欣平,李秋立,徐希阳,杨书艳.2016.华北太行岩墙群斜锆石生长世代和U-Pb年龄及其对岩浆演化的启示.岩石学报,32(3):646-658
王冬兵,孙志明,尹福光,王立全,王保弟,张万平.2012.扬子地块西缘河口群的时代:来自火山岩锆石LA-ICP-MS U-Pb年龄的证据.地层学杂志,36(3):630-635
王冬兵,尹福光,孙志明,王立全,王保弟,廖世勇,唐渊,任光明.2013.扬子陆块西缘古元古代基性侵入岩LA-ICP-MS锆石U-Pb年龄和Hf同位素及其地质意义.地质通报,32(4):617-630
王鸿祯.1982.从地层规范观点论“震旦”一词的使用与中国前寒武纪的时代划分.地层学杂志,6(4):241-246
王鸿祯.1986.论中国前寒武纪地质时代及年代地层的划分.地球科学-武汉地质学院学报,11(5):447-453
王伟,卢桂梅,黄思访,薛尔堃,2019.扬子陆块古-中元古代地质演化与Columbia超大陆重建.矿物岩石地球化学通报,38(1):30-52
王泽九,黄枝高,姚建新,马秀兰.2014.中国地层表及说明书的特点与主要进展.地球学报,35(3):271-276
王子正,郭阳,杨斌,王生伟,孙晓明,侯林,周邦国,廖震文.2013.扬子克拉通西缘1.73Ga非造山型花岗斑岩的发现及其地质意义.地质学报,87(7):931-942
武铁山.2002.华北晚前寒武纪(中、新元古代)岩石地层单位及多重划分对比.中国地质,29(2):147-154
相振群,李怀坤,陆松年,周红英,李惠民,王惠初,陈志宏,牛健.2012.泰山地区古元古代末期基性岩墙形成时代厘定---斜锆石U-Pb精确定年.岩石学报,28(9):2831-2842
解广轰.2005.大庙斜长岩和密云环斑花岗岩的岩石学和地球化学:兼论全球岩体型斜长岩和环斑花岗岩类的时空分布及其意义.北京:科学出版社,1-195
徐勇航,赵太平,彭澎,翟明国,漆亮,罗彦.2007.山西吕梁地区古元古界小两岭组火山岩地球化学特征及其地质意义.岩石学报,23(5):1123-1132
徐勇航,赵太平,张玉修,陈伟.2008.华北克拉通南部古元古界熊耳群大古石组碎屑岩的地球化学特征及其地质意义.地质论评,54(3):316-326
杨斌,王伟清,董国臣,郭阳,王子正,侯林.2015.扬子地台西南缘康滇断隆带海孜双峰式侵入岩体年代学、地球化学及其地质意义.岩石学报,31(5):1361-1373
杨斌,董国臣,郭阳,王子正,王鹏.2016.扬子地台西南缘大竹棚流纹岩的年代学、地球化学特征及其地质意义.矿物岩石,36(2):82-91
杨红,刘福来,杜利林,刘平华,王舫.2012.扬子地块西南缘大红山群老厂河组变质火山岩的锆石U-Pb定年及其地质意义.岩石学报,28(9):2994-3014
杨进辉,吴福元,柳小明,谢烈文.2005.北京密云环斑花岗岩锆石U-Pb年龄和Hf同位素及其地质意义.岩石学报,21(6):1633-1644
于文佳,罗照华,刘永顺,孙君一,李重,王峥,唐泽勋.2017.拉拉铁铜矿床成因:来自隐爆角砾岩结构定量化和锆石U-Pb年代学的证据.岩石学报,33(3):925-941
翟明国,胡波,彭澎,赵太平.2014.华北中-新元古代的岩浆作用与多期裂谷事件.地学前缘,21(1):100-119
张拴宏,赵越,叶浩,胡健民,吴飞.2013.燕辽地区长城系串岭沟组及团山子组沉积时代的新制约.岩石学报,29(7):2481-2490
赵太平,周美夫,金成伟,关鸿,李惠民.2001.华北陆块南缘熊耳群形成时代讨论.地质科学,36(3):326-334
赵太平,陈福坤,翟明国,夏斌.2004.河北大庙斜长岩杂岩体锆石U-Pb年龄及其地质意义.岩石学报,20(3):685-690
赵太平,邓小芹,胡国辉,周艳艳,彭澎,翟明国.2015.华北克拉通古/中元古代界线和相关地质问题讨论.岩石学报,31(6):1495-1508
中国地质调查局,全国地层委员会.2014.中国地层表.北京:地质出版社,1
周家云,毛景文,刘飞燕,谭洪旗,沈冰,朱志敏,陈家彪,罗丽萍,周雄,王越.2011.扬子地台西缘河口群钠长岩锆石SHRIMP年龄及岩石地球化学特征.矿物岩石,31(3):66-73
朱华平,范文玉,周邦国,王生伟,罗茂金,廖震文,郭阳.2011.论东川地区前震旦系地层层序:来自锆石SHRIMP及LA-ICP-MS测年的证据.高校地质学报,17(3):452-461
© 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 |