柴达木盆地北缘全吉地块东端变基性岩体LA-ICP-MS锆石U-Pb年龄：中元古代陆块裂解的证据     

廖梵汐  龚松林  董彦君  王勤燕  张璐  陈能松 《中国区域地质》2012,(8):1279-1286

全吉地块东端古元古代二长花岗片麻岩中普遍发育变质的基性岩体,它们的形成时代、变质作用时代和对地块基底构造演化的指示意义尚不清楚。应用LA-ICP-MS技术测定其中的一个变基性岩体的锆石U-Pb年龄,获得的10个测点数据显示,锆石受到热事件的强烈改造而发生严重铅丢失,但拟合的不一致线仍给出相关性较好的上交点年龄1712Ma±47Ma和下交点年龄472Ma±29Ma,MSWD=1.4。这表明,变质基性岩的原岩形成于中元古代早期,是全吉地块在古元古代末期汇入Columbia超大陆之后于中元古代早期初始裂解而侵位的基性岩体。这些基性岩体在早古生代卷入了柴北缘碰撞带而发生角闪岩相变质作用,并受到构造肢解。  相似文献   

柴北缘都兰地区片麻岩的起源及形成时代:锆石U-Pb年代学、REE和Hf同位素的证据   总被引：1，自引：1，他引：0  

于胜尧  张建新 《岩石学报》2010,26(7):2083-2098

在柴北缘HP-UHP变质带东端的都兰地区,大量正、副片麻岩中包裹有少量榴辉岩和超基性岩。这些片麻岩普遍显示出角闪岩相变质作用特征,但是野外关系和少量副片麻岩中的柯石英包体显示这些片麻岩与榴辉岩一起经历了超高压变质作用。本文通过两个片麻岩样品的锆石U-Pb年代学测定,结合稀土元素和Hf同位素分析,来确定这些片麻岩的原岩起源和变质作用时代。锆石的阴极发光图像分析、稀土元素特征、U-Pb定年结果显示锆石具有明显的核、幔、边结构;岩浆成因的锆石核部获得的不一致线上交点年龄为2322～2365Ma,反映了源区经历过一期古元古代早期的岩浆热事件;岩浆和变质成因的幔部给出的不一致上交点年龄为1830～1837Ma,反映了片麻岩在古元古代晚期经历的变质和深熔作用。锆石幔部获得的不一致线下交点年龄451～465Ma与边部3个近于谐和点的加权平均年龄466Ma在误差范围内基本一致,结合锆石增生的边部较为平坦的重稀土配分型式、低的Th/U值,代表片麻岩发生榴辉岩相变质作用的时代。古元古代早期和晚期年龄的锆石大部分具有负的εHf(t)值,锆石的二阶段Hf模式年龄主要分布于2725～2835Ma之间,说明片麻岩的继承性碎屑锆石源区存在太古代的地壳生长事件,并在古元古代经历过两期再循环和改造事件。都兰地区的部分片麻岩具有与其北侧欧龙布鲁克微陆块中变质基底相似的早期演化历史,但前者在早古生代与所夹的榴辉岩的原岩一起发生了深俯冲作用。  相似文献   

浙西南玉岩花岗片麻岩锆石U-Pb年代学——华夏地块古老基底物质的探讨     

吕昭英  刘兵  马昌前  刘园园  陈沐龙  傅杨荣  李孙雄  云平 《矿产与地质》2016,(4):681-688

通过对浙西南遂昌县玉岩古元古代花岗片麻岩锆石LA-ICP-MS U-Pb年代学研究,以探讨和揭示华夏地区基底的物质组成。玉岩花岗片麻岩锆石可分为两类:第一类锆石年龄相对年轻,其~(207)Pb/~(206)Pb年龄介于597~1917 Ma之间,结合稀土元素特征,表明为变质成因锆石,在锆石谐和图上,15个年轻锆石点整体上构成了一条不一致线,其上交点年龄为1904±19Ma,代表了片麻岩形成的变质时间,表明华夏地区存在古老的古元古代晚期岩浆岩-变质岩基底,下交点年龄为262±47Ma,可能记录了华夏地块晚二叠世―早三叠世构造-变质作用的响应。第二类锆石年龄相对较老,锆石~(207)Pb/~(206)Pb年龄介于2087~2523Ma之间,锆石发育核幔结构并有明显的振荡环带,较老的锆石年龄表明华夏地区可能存在太古宙末至2.5Ga的古老基底物质。  相似文献   

内蒙古大青山地区新太古代晚期岩浆作用:来自锆石SHRIMP U-Pb定年的证据   总被引：6，自引：4，他引：2  

徐仲元  万渝生  董春艳  马铭株  刘敦一 《岩石学报》2015,31(6):1509-1517

本文报道了华北克拉通西部大青山地区新太古代晚期变质深成侵入岩的锆石SHRIMP年龄。本文涉及的3个样品取自大青山的石拐南部,岩性为黑云母二长花岗质片麻岩、紫苏石英闪长质片麻岩和闪长质片麻岩。根据矿物组合,黑云母二长花岗质片麻岩和紫苏石英闪长质片麻岩遭受高角闪岩相-麻粒岩相变质,闪长质片麻岩遭受角闪岩相变质。锆石具核-幔-边或核-边结构。岩浆锆石年龄为2484±7Ma、2494±12Ma和2495±10Ma,考虑到岩石遭受后期构造热事件强烈改造,岩浆锆石发生不同程度变质重结晶,振荡环带变得模糊,年龄很可能偏年轻,岩浆锆石真实的形成年龄应更大一些,形成于新太古代晚期。2个样品记录早期变质锆石年龄为2441±7Ma和2481±10Ma;2个样品记录晚期变质锆石年龄为1847±35Ma和为1919±73Ma。结合前人工作,可得出如下结论:1)石拐地区存在新太古代晚期二长花岗岩、石英闪长岩和闪长岩等不同类型变质深成侵入岩。新太古代晚期岩浆作用在整个大青山地区很可能广泛发育,古元古代晚期孔兹岩带是在太古宙基底之上或其邻区发展起来的。2)与大青山地区其它古元古代早期以前的地质体类似,新太古代晚期变质深成侵入岩普遍遭受古元古代早期和晚期构造热事件叠加改造。  相似文献   

柴达木盆地北缘全吉群皱节山组碎屑锆石年代学特征及其地质意义          下载免费PDF全文

李猛  王超  李荣社  彭岩  邵东  陈奋宁  陈守建  潘晓萍 《地球科学》2018,43(12):4390-4398

柴达木盆地北缘的全吉群主要为一套未变质的砂砾岩、石英岩、砂页岩、白云岩和冰碛岩的地层,为全吉地块基底之上的最古老的直接沉积盖层.对全吉群上部皱节山组2件紫红色细砂岩样品进行碎屑锆石LA-ICP-MS U-Pb年龄测定,碎屑锆石207Pb/206Pb年龄谱特征显示,皱节山组沉积物主要以1 750~1 990 Ma（约占84.7%）的锆石年龄最为集中,其次为2 400~2 500 Ma的年龄值,结合区域热事件,说明皱节山组沉积物可能主要来自于全吉地块古元古代末达肯大坂岩群,部分来自德令哈杂岩体.此外,~1.95 Ga和~1.85 Ga的碎屑锆石具有显著优势,它记录了全吉地块在古元古代的2期重要的热事件——古元古代末镁铁质岩墙群的侵入作用和古元古代晚期的区域变质-深熔作用.   相似文献   

柴北缘构造带深部岩石的LA-ICP-MS锆石U-Pb年龄及微量元素研究:对全吉地块基底演化的启示     

刘一珉  任收麦  郭天旭  王浩  周志  王胜建  丁海生 《世界地质》2018,37(2):334-351

通过LA-ICP-MS方法对柴北缘全吉地块基底的斜长角闪岩和花岗闪长岩进行了锆石U-Pb年代学及锆石微区微量元素的研究。斜长角闪岩中的岩浆锆石上交点年龄为2 396±26 Ma,代表了锆石结晶的年龄,下交点为905±140 Ma,代表了锆石发生铅丢失事件的年龄。其岩浆锆石具有U/Yb较高(0.1~1),Hf值较低(10 000×10~(-6)),U值较低(150×10~(-6))的特点,显示其岩浆源区与富集地幔密切相关。在锆石微量元素判别图解中数据主要落在陆弧区和洋岛区,指示其形成的构造环境为弧后盆地。花岗闪长岩中岩浆锆石的加权平均年龄为484±21 Ma,岩浆锆石具有U/Yb较高(1)和U值较高(平均值为640×10~(-6))的特点,显示岩浆源区为典型陆壳。锆石微量元素判别图解显示其形成于陆弧。研究结果表明,全吉地块基底除前寒武纪岩石外,还包含早古生代的岩石组合。全吉地块基底内部岩石组合与形成时代的复杂性,与全吉地块经历的多次洋壳俯冲、陆陆碰撞密切相关。  相似文献   

庐山地区星子群碎屑锆石SIMS U-Pb年龄及其地质意义   总被引：1，自引：0，他引：1  

关俊朋  何斌  李德威 《大地构造与成矿学》2010,34(3)

江西庐山地区出露的星子群为一套遭受角闪岩相变质的中深变质岩系,前人将其划分为古元古代地层,并将其与华南早期地壳的形成与演化和中生代变质核杂岩构造相联系。本文通过对星子群浅粒岩中碎屑锆石U-Pb SIMS年代学研究,获得了(834±4)Ma碎屑锆石年龄,代表了该套地层沉积时代的下限;再结合其上覆筲箕洼组(830±5)Ma的火山岩年龄,将星子群的地层时代限定于新元古代。这一研究结果表明庐山地区并未出露古元古代的变质基底;而且野外也并未找到典型大规模拆离断层的存在,因此前人厘定的中生代变质核杂岩构造也值得商榷。根据碎屑锆石U-Pb不一致线下交点年龄为(133±20)Ma,推断星子群的变质作用发生在中生代。另外,由星子群单一的碎屑锆石年龄、锆石形态特征及矿物组成特征推断,星子群是源区花岗质岩石快速抬升、风化剥蚀和搬运沉积的产物,暗示着强烈的地壳运动过程,可能与Rodinia超大陆的裂解有关。  相似文献   

北大别两类浅色体的锆石LA-ICPMS年龄——古元古代深熔作用和三叠纪俯冲证据?   总被引：1，自引：0，他引：1  

龚松林  陈能松  李晓彦  柳小明 《高校地质学报》2007,13(3):574-580

黄土岭一带的北大别杂岩发育4类浅色体。其中的第二类浅色体发育在黑云母片麻岩中,为二长花岗质;第三类浅色体发育在长英质麻粒岩的基质中,为钾长花岗质,并与石榴石变斑晶分解有关的含紫苏辉石后成合晶同期。LA-ICPMS测定表明,第二类浅色体中熔体结晶锆石的上下交点年龄分别为:2040±14Ma和242±27Ma;第三类浅色体变质锆石的上下交点年龄分别为:2056 35/-26Ma和244 180/-210Ma。这表明,第二类浅色体和第一类浅色体都是古元古代麻粒岩相变质作用同期深熔产物。古元古代熔体结晶和变质结晶锆石在三叠纪发生了严重的放射性成因铅丢失,可反映长英质麻粒岩和黑云母片麻岩都响应了三叠纪深俯冲事件。  相似文献   

坦桑尼亚西部基戈马—姆藩达地区前寒武纪地质特征及锆石测年新资料          下载免费PDF全文

郭鸿军  林晓辉  刘焕然  秦磊  付方建  秦正永 《地质找矿论丛》2009,24(3):260-266

基戈马-姆藩达地区位于坦桑尼亚西部,前寒武纪地层分布广泛。近年来,在该区获得了一批新的同位素测年数据：Shanwe hill英云闪长岩的上交点年龄（2．64Ga）说明岩体形成于新太古代,但下交点的年龄（0．7Ga）可能为变质年龄,也有可能是继承锆石的年龄;Filimult hill花岗岩（1893±3）Ma的年龄值表明岩体为古元古代晚阿宾迪纪产物;Gua花岗岩（1889±40）Ma的测定结果说明是与Filimult hill花岗岩同构造期的产物;Nyamahanga粒玄岩年龄（1337±47）Ma代表新元古代基性岩墙侵入的时代。  相似文献   

全吉地块莫河片麻岩原岩侵位年龄的再研究   总被引：2，自引：0，他引：2  

巴金  龚松林  廖梵汐  张璐 《地质科技情报》2012,(6):98-101

莫河片麻岩位于全吉地块东段,其原岩为花岗闪长质-二长花岗质侵入体。前人对该片麻岩的锆石年龄测定结果相差约120Ma。在野外详细地质观察基础上重新采集样品,用LA-ICP-MS法重新测定了15颗岩浆成因锆石的U-Pb年龄,结果得上交点年龄为(2 394±31)Ma(2$)(MSWD=0.82)。由于锆石也受到变质变形作用的强烈改造,认为该年龄可能更接近于该片麻岩原岩的侵位年龄。新的定年结果表明,全吉地块存在近2.4Ga的花岗岩类侵入活动。  相似文献   

额尔古纳地块新元古代花岗岩榍石原位微区LA- ICP- MS U- Pb定年及其地质意义   总被引：1，自引：0，他引：1  

赵硕  张进  李锦轶  许文良  曲军峰  刘建峰  郑荣国  葛茂卉 《地质学报》2020,94(3):757-767

本文首次报道了额尔古纳地块新元古代花岗岩榍石原位微区LA-ICP-MS U-Pb定年数据,以明确其形成时代,进而为准确厘定额尔古纳地块新元古代岩浆作用期次提供新的证据,并进一步揭示其地质意义。研究区内分别采自满归岩体和莫尔道嘎岩体的2个代表性样品中的榍石呈菱形自形—半自形晶,不具有变质榍石特有的杏仁孔或孔洞特征,暗示其为岩浆成因。对原生榍石的定年结果显示,满归岩体和莫尔道嘎岩体数据点的线性拟合性均较好,拟合线下交点年龄分别为873±22 Ma和783±31 Ma,均与~(206)Pb/~(238)U加权平均年龄(872±18Ma和789±17 Ma)相一致。同时结合已有研究成果表明,原定为额尔古纳地块新元古代最早期岩浆作用产物的满归岩体实际形成于～850 Ma,而非前人认为的957～927 Ma;莫尔道嘎岩体形成于～790 Ma,也并非前人认为的～762 Ma。综合校正后的岩体年龄以及近年来前人研究成果,现阶段额尔古纳地块新元古代岩浆作用期次可大致分为五个阶段,即915～905 Ma、～847 Ma、818～808 Ma、～792 Ma和～738 Ma。  相似文献   

U-Pb age of igneous and metamorphic events on the Fisher Massif (East Antarctica) and its significance for geodynamic reconstruction     

N. L. Alexeev  T. F. Zinger  V. A. Glebovitsky  I. N. Kapitonov 《Doklady Earth Sciences》2010,435(1):1435-1441

This report presents the main results of LA-ICPMS studies of zircon from metamorphosed magmatic rocks of the Fisher Massif in East Antarctica. The minimum age of crystallization for still unexplored granitoid intrusion in the southeastern part of the massif amounts to 1399 ± 11 Ma. The presence of inherited zircon of 1786 ± 23 Ma age in the rocks points to their fusion from a crustal source of Paleoproterozoic age. The time of the eruption of vulcanites of basite composition amounts to 1244 ± 11 Ma. The vulcanites contain xenogenic zircon of Late Archean and Middle Proterozoic age; hence, their initial melt interacted with the heterogeneous continental crust. The earliest metamorphism of the amphibolite facies proceeded 1213 ± 16 Ma ago, and was accompanied with intense shift deformations. The time of volcanism complies with the age of a large basite dike swarm in Vestfold Hills, intruded about 1250 Ma ago, which is associated with the destruction of the hypothetical Paleoproterozoic Nuna (Columbia) continent.  相似文献   

Early Paleoproterozoic magmatism in the Quanji Massif, northeastern margin of the Qinghai-Tibet Plateau and its tectonic significance: LA-ICPMS U-Pb zircon geochronology and geochemistry   总被引：5，自引：0，他引：5  

Songlin Gong  Nengsong Chen  Qinyan WangT.M. Kusky  Lu Wang  Lu ZhangJin Ba  Fanxi Liao 《Gondwana Research》2012,21(1):152-166

The Quanji Massif is located on the north side of the Qaidam Block and is interpreted as an ancient cratonic remnant that was detached from the Tarim Craton. There are regionally exposed granitic gneisses in the basement of the Quanji Massif whose protoliths were granitic intrusive rocks. Previous studies obtained intrusion ages for some of these granitic gneiss protoliths. The intrusion ages span a wide range from ~ 2.2 Ga to ~ 2.47 Ga. This study has determined the U-Pb zircon age of four granitic gneiss samples from the eastern, central and western parts of the Quanji Massif. CL images and trace elements show that the zircons from these four granitic gneisses have typical magmatic origins, and experienced different degrees of Pb loss due to strong metamorphism and deformation. LA-ICPMS zircon dating yields an upper intercept age of 2381 ± 41 (2σ) Ma from monzo-granitic gneiss in the Hudesheng area and 2392 ± 25 (2σ) Ma from granodioritic gneiss in the Mohe area, eastern Quanji Massif, and 2367 ± 12 (2σ) Ma from monzo-granitic gneiss in the Delingha area, central Quanji Massif, and 2372 ± 22 (2σ) Ma from monzo-granitic gneiss in the Quanjishan area, western Quanji Massif. These results reveal that the intrusive age of the protoliths of the widespread granitic gneisses in the Quanji Massif basement was restricted between 2.37 and 2.39 Ga, indicating regional granitic magmatism in the early Paleoproterozoic, perhaps related to the fragmentation stage of the Kenorland supercontinent. Geochemical results from the granodioritic gneiss from the Mohe area indicate that the protolith of this gneiss is characterized by adakitic rocks derived from partial melting of garnet-amphibolite beneath a thickened lower crust in a rifting regime after continent-continent collision and crustal thickening, genetically similar to the TTG gneisses in the North China Craton. This suggests that the Quanji Massif had a tectonic history similar to the Archean Central Orogenic Belt of North China Craton during the early Paleoproterozoic. We tentatively suggest that the Quanji Massif and the parental Tarim Craton and the North China Craton experienced rifting in the early Paleoproterozoic, after amalgamation at the end of the Archean. The Tarim Craton and North China Craton might have had close interaction from the late Neoarchean to the early Paleoproterozoic.  相似文献   

U-Pb age of detrital zircons from neoproterozoic placers of the Erementau-Niyaz massif as a reflection of stages of Precambrian tectono-magmatic evolution of northern Kazakhstan     

V. P. Kovach  A. V. Ryazantsev  A. A. Tretyakov  K. E. Degtyarev  E. V. Tolmacheva  Kuo-Lun Wang  A. B. Kotov  Sun-Lin Chun  Bor-Min Jahn 《Doklady Earth Sciences》2014,455(1):254-258

A typical feature of the Precambrian complexes of the Kokshetau, Ishkeolmess, Erementau-Niyaz, and Aktau-Dzhungaria massifs of Northern and Central Kazakhstan is the presence of the end Mesoproterozoic-beginning of the Neoproterozoic quartzite-schist sequences in these sections. The lower and upper parts of these sequences are mostly composed of schists with interlayers of quartzites and marbles and of quartzitic sandstones, respectively. It is suggested that the quartzite-schist sequences represent the sub-platform cover of a large continental block and were formed in the regressive basin with widely abundant facies of submarine deltas and a littoral shoal. The presence of horizons and the lenses enriched in zircon-rutile heavy concentrate with the amount of accessory minerals of 10-70% characterizes the quartzite-schist sections of the Kokshetau and Erementau-Niyaz massifs. The U-Pb age of zircons from one such locality in the central part of the Erementau-Niyaz massif was analyzed by LA-ICP-MS. The Concordia ages of zircons are in the intervals 1041 ± 13-1519 ± 14, 1623 ± 14-1931 ± 14, and 2691 ± 14-2746 ± 14 Ma. One age was 2850 ± 14 Ma. The age distribution is characterized by clear peaks of 1.08, 1.20. 1.34, 1.46, 1.65, 1.89, and 2.70 Ga and weak peaks of 1.13 and 1.68 Ga. The age of the majority of zircons ranges from 1309 ± 14 to 1519 ± 14 Ma. Our data indicate that mostly Neoproterozoic rocks with a subordinate role of Paleoproterozoic and Neoarchean complexes served the feeding sources for the quartzite-schist sequence of the Erementau-Niyaz massif. The Mesoproterozoic and Paleoproterozoic events identified for the detrital zircons of the Erementau-Niyaz massif are completely manifested only in Laurentia. In the first approximation, these events coincide with the assembly and breakup of the Columbia/Nuna supercontinent (～1650–1580 and 1450–1380 Ma) and assembly of the Rodinia supercontinent (1300–900 Ma).  相似文献   

牡丹江地区黑龙江杂岩锆石U-Pb年代学特征及地质意义     

赵亮亮  徐福忠  张岩  倪斌  马晓辉 《地质与资源》2021,30(4):405-413

黑龙江杂岩主要出露在佳木斯地块西缘,沿牡丹江断裂分布,为佳木斯地块与松嫩地块拼合过程中形成的构造混杂岩.杂岩以强烈变形的长英质糜棱岩为主体,其中含有大量具洋壳性质的超基性岩、变基性熔岩（蓝片岩）及变硅质岩和大理岩等岩块或岩片.对出露于黑龙江省东部牡丹江地区的长英质糜棱岩进行了锆石LA-ICP-MS研究.获得两组²⁰⁶Pb/²³⁸U年龄数据,其加权平均年龄分别为509.4±7.1 Ma（n=9,MSWD=1.3）和269±1.9 Ma（n=22,MSWD=0.93）.其中最老2 420和2 459 Ma锆石年龄的出现,表明杂岩中有来自古元古界古老物质;509 Ma左右是佳木斯地块中麻山群的高级变质和花岗质岩浆作用年龄;约269 Ma年龄说明黑龙江杂岩变形基质形成于晚二叠世之后,可能与晚古生代古亚洲洋闭合事件相关.  相似文献   

Zirconology of ultrabasic rocks of the Karabash massif (Southern Urals)     

A. A. Krasnobaev  P. M. Valizer  V. N. Anfilogov  S. A. Sergeev  A. I. Rusin  S. V. Busharina  E. V. Medvedeva 《Doklady Earth Sciences》2016,469(1):674-679

Dating of zircon (SHRIMP) from dunite and harzburgite of the Karabash massif was carried out for the first time. Relics of ancient crystals (1940 ± 30 Ma in harzburgite, 1860 ± 16 Ma in dunite) provide evidence for the Paleoproterozoic age of the protolith. The morphological peculiarities of zircon crystals allow us to assume differentiation of the magmatic source 1720 m. y. ago. The major variety of zircons indicates stages of metamorphic evolution in the Neoproterozoic (530–560 Ma) and Early–Late Ordovician (440–480 Ma).  相似文献   

朝鲜半岛平南盆地中元古代岩浆事件   总被引：4，自引：2，他引：2  

朴贤旭  翟明国  杨正赫  金正男  郑哲珠  吴福元  金胜贤  韩龙渊  朴雄  金明哲  侯泉林 《岩石学报》2016,32(10):3033-3044

朝鲜平南盆地翁津地区发育中元古代黄海群和同时期(称之为瓮津期)花岗岩,花岗岩体侵入于黄海群。本文采用锆石原位微区U-Pb定年技术,对黄海群中的酸性火山岩及花岗岩进行了年龄测试。获得的数据表明,黄海群中下部层位及上部层位的酸性火山岩分别在1235±5Ma和1203±7Ma喷发,由此说明黄海群的沉积时代应为中元古代,而不是传统上认为的古元古代;两个翁津期花岗岩体(翁津和黄衣山岩体)的侵位年龄分别为1251±22Ma和1248±13Ma,为中元古代花岗质岩浆活动的产物。上述1251~1203Ma年龄的获得,表明朝鲜半岛发育中元古代岩浆作用,从而明确朝鲜黄海裂谷与华北东缘裂谷在时间上具有同期性,同时也表明中国华北与朝鲜在中元古代具有类似的发展历史。  相似文献   

Carbonatite magmatism of the southern Siberian Craton 1 Ga ago: Evidence for the beginning of breakup of Laurasia in the early Neoproterozoic     

V. B. Savelieva  Yu. V. Danilova  E. P. Bazarova  A. V. Ivanov  V. S. Kamenetsky 《Doklady Earth Sciences》2016,471(1):1140-1143

Apatite and biotite from dolomite?ankerite and calcite?dolomite carbonatite dikes emplaced into the Paleoproterozoic metamorphic rock complex in the southern part of the Siberian Craton are dated by the U–Pb (LA-ICP-MS) and ⁴⁰Ar–³⁹Ar methods, respectively. Proceeding from the lower intercept of discordia with concordia, the age of apatite from calcite?dolomite carbonatite is estimated to be 972 ± 21 Ma and that for apatite from dolomite?ankerite carbonatite, as 929 ± 37 Ma. Values derived from their upper intercept have no geological sense. The ages obtained for biotite by the ⁴⁰Ar–³⁹Ar method are 965 ± 9 and 975 ± 14 Ma. It means that the formation of carbonatites reflects the earliest phases of the Neoproterozoic stage in extension of the continental lithosphere.  相似文献