贵州瓮福磷矿中的硅化作用     

陈多福  陈先沛 《沉积学报》1993,(2)

贵州瓮福磷矿中广泛伴生着硅化作用,硅化岩类型以其交代程度可分成弱硅化岩、强硅化岩及结晶硅化岩三类,三类间相互过渡,在空间上有一定的配置关系。硅化岩的U、Th和稀土元素显示了热水沉积产物的特点,石英δ~(18)O值,结晶硅化岩为18.83‰,强硅化岩为20.80～23.67‰,,依氧同位素分馏平衡计算的形成温度为:结晶硅化岩101～115℃,强硅化岩66～98℃。  相似文献   

辽东林家三道沟-小佟家堡子地区金（银）矿成矿特征及成因   总被引：1，自引：0，他引：1  

张森  张迪  沙德喜  寇林林  赵东芳 《吉林大学学报(地球科学版)》2012,42(3):725-732

以林家三道沟、小佟家堡子金（银）矿床为例,系统总结了区内金（银）矿床的成矿条件及地质特征,对矿床的相关岩体、围岩及矿石进行了流体包裹体、稳定同位素测试分析。结果表明：矿床赋存于古元古界辽河群大石桥亚群杨树沟岩组第6岩段碎屑岩-碳酸盐岩建造和盖县亚群汤家沟岩组碎屑岩建造中;主要容矿岩石为硅化大理岩、变粒岩、片岩;近矿围岩蚀变主要为硅化、绢云母化、黄铁矿化和碳酸盐化;自然金的粒度以显微不可见金为主;均一温度（100～200 ℃）、成矿流体盐度（w（NaCl）（1.91 % ～9.73%）均较低;矿石石英中成矿流体δD值为-48.0‰～-93.0‰,δ¹⁸O_H2O计算值为-8.63‰～+1.31‰,表明成矿流体主要来自于地热水和原生地层水;矿石硫同位素δ³⁴S值平均为+8.61‰,赋矿围岩、岩体δ³⁴S为＋0.50‰～＋7.6‰,表明矿石中硫主要来自古元古代地层和印支晚期岩体;金（银）矿石中²⁰⁶Pb/²⁰⁴Pb为17.664～19.186 7,²⁰⁷Pb/²⁰⁴Pb为15.044～15.883,²⁰⁸Pb/²⁰⁴Pb为37.693～38.784,铅源具有壳幔混合源特点。矿床成因类型为沉积变质-岩浆热液叠加型。  相似文献   

山东莱州新城金矿床流体包裹体     

王力  潘忠翠  孙丽伟 《吉林大学学报(地球科学版)》2014,44(4):1166

山东新城金矿是胶东焦家-新城成矿带上重要的蚀变岩型金矿床。矿体主要赋存在焦家断裂带下盘靠近主裂面的黄铁绢英岩和黄铁绢英岩化碎裂岩内,严格受焦家断裂构造控制。矿石矿物主要有黄铁矿、黄铜矿、方铅矿、闪锌矿、自然金、银金矿和辉银矿等。区内围岩蚀变类型主要有黄铁绢英岩化、绢英岩化、绢云母化、硅化、钾化和碳酸盐化等,且矿化主要与黄铁绢英岩化和硅化关系密切。本次研究主要针对新城金矿床深部矿石中的流体包裹体进行了岩相学、显微测温、单个包裹体成分激光拉曼光谱及氢、氧同位素分析研究。研究表明：该矿床深部矿石中纯CO₂包裹体数量有明显增加现象,同时发育含CO₂包裹体和气液两相包裹体;成矿流体具有低盐度(w(NaCl))（2.06%~10.24%）、低密度（0.54~0.97 g/cm³）的特点;主成矿温度为260~300 ℃,成矿压力为65~113 MPa,成矿深度为6.51~8.82 km。成矿过程中流体经历了CO₂-NaCl-H₂O体系的不混溶作用。氢、氧同位素分析认为,成矿流体δD_SMOW为－75.1‰～－61.4‰,δ¹⁸O_水为4.80‰～6.40‰,并将新城金矿床与典型“焦家式”金矿床成矿流体特征及来源进行对比,认为新城金矿成矿流体主要以幔源流体为主。综合研究表明,新城金矿床成因类型为幔源流体参与成矿的中温热液脉型金矿床。  相似文献   

山东省寺庄金矿床成矿流体特征     

王力  孙丽伟 《吉林大学学报(地球科学版)》2016,46(6):1697-1710

莱州寺庄金矿床位于焦家成矿带南段,是焦家金矿田的一部分,也是焦家成矿带上重要的热液脉型金矿床。区内主要有黄铁绢英岩带、黄铁绢英岩化花岗碎裂岩带和黄铁绢英岩化花岗岩带3个控矿带,位于焦家断裂带下盘。矿石矿物主要为银金矿、黄铁矿、自然金、黄铜矿、方铅矿和闪锌矿等。该矿床发育了绢英岩化、硅化、钾化、碳酸盐化等蚀变类型,且硅化和绢英岩化与矿化关系最为密切。本文从流体包裹体岩相学特征、显微测温、单个包裹体成分激光拉曼光谱分析以及氢、氧同位素分析方面对山东省寺庄金矿床成矿流体特征进行综合研究。结果显示：该矿床金矿石中主要发育含CO₂相、气液两相和CO₂相三类包裹体。在成矿过程中,流体经历了CO₂-H₂O-NaCl体系的不混溶作用。成矿流体具有低盐度（w（NaCl）为（0.53%~10.24%））、低密度（0.50~1.03 g/cm³）的特点。成矿温度为260~340℃,压力为82~116 MPa,成矿深度为中成（7.40~8.94 km）。氢、氧同位素分析成矿流体δD_V-SNOW为-76.6‰~-69.0‰,δ¹⁸O_水为2.94‰~7.24‰,说明成矿流体以幔源流体为主,并有少量的岩浆水和大气降水参与。结合该矿床地质特征与实验结果综合分析,认为寺庄金矿的矿床成因类型为受断裂构造控制的幔源流体参与成矿的中温中成热液蚀变岩型金矿床。  相似文献   

浅析蚀变岩型金矿床的某些蚀变特征与金矿化的关系——以东湾金矿为例     

杨怀辉  白德胜  李俊生  王佩玉 《四川地质学报》2009,29(3):257-260,267

通过对蚀变岩型金矿床蚀变现象观察与分析,从金元素地球化学性质和行为入手,探讨金矿化与硅化、黄铁矿化蚀变的内在联系。硅化及黄铁矿化蚀变越强金矿化一般越好,但有硅化与黄铁矿化蚀变不成矿的现象也确实存在。在成矿有利的地球化学省内,可以把硅化与黄铁矿化蚀变作为寻找金矿床的标志。  相似文献   

新城金矿蚀变带构造与地球化学特征   总被引：4，自引：0，他引：4  

吕承训  吴淦国  陈小龙  张迎春  张迅与  赵海 《大地构造与成矿学》2011,35(4):618-627

通过新城金矿的构造和蚀变岩剖面实测、构造测量和岩石地球化学分析,获得以下构造和岩石地球化学同步变化特点:(1)以焦家断裂为中心蚀变岩分带为断层泥-硅化带-黄铁绢英岩带-强钾化花岗岩带-弱钾化花岗岩带-未蚀变花岗岩带;(2)金矿化主要集中在硅化带及黄铁绢英岩带;(3)断裂下盘依次发育糜棱岩-碎裂岩-花岗质碎裂岩-碎裂花岗...  相似文献   

伊犁盆地南缘有机-无机流体耦合铀成矿作用   总被引：2，自引：0，他引：2       下载免费PDF全文

丁 波刘红旭李 平王毛毛蒋宏张  晓潘澄雨修晓茜 《地质科学》2017,(3):871-894

伊犁盆地是中国西北部重要的产铀盆地,虽然前人对其成矿流体进行过较为系统的研究,但成矿流体的组分、来源等依然存在较大分歧,尤其是该区成矿流体与蚀变特征、铀成矿的内在联系研究较少。利用偏光显微镜、扫描电镜、电子探针等手段对含矿层砂岩蚀变特征进行系统分析,并通过分析流体包裹体特征、流体-围岩相互作用形成的蚀变矿物中稳定同位素的组成特征及该区构造演化特征,对有机-无机流体耦合铀成矿作用进行示踪。研究表明：该区流体包裹体主要含有气烃包裹体、液烃包裹体和盐水包裹体;与砂岩型铀矿有关的蚀变类型主要有黏土化、碳酸盐化、硅化及金属矿化,其中黏土化以高岭石化为主;高岭石δ¹⁸O_V-SMOW 为11.8‰～13.7‰,δD_V-SMOW 为-93‰～-48.3‰,与高岭石平衡流体的δ¹⁸O_{（水）V-SMOW}为-10.3‰ ～-5.1‰ ; 方解石胶结物δ¹³C^V-PDB 为-18.2‰ ～-7.2‰ , δ¹⁸O_V-PDB 为-14.5‰ ～-5.8‰ ,δ¹⁸O_V-SMOW 为15.9‰～24.9‰;黄铁矿δ³⁴S_V-CDT为-32.21‰～1.2‰。上述特征揭示,伊犁盆地南缘砂岩型铀矿成矿流体是由大气降水性质的地表水（无机）和煤系地层有机质热演化脱羧基作用产生的有机酸及伴生的CH₄ 等还原性气体（有机）两部分组成,铀矿体与蚀变矿物皆是有机-无机流体混合及其与周围砂岩相互作用的结果,且此过程伴有微生物的参与。  相似文献   

香格里拉陆家村银金多金属矿围岩蚀变及矿床成因     

韩艳伟 《云南地质》2010,29(4):494-498

矿床具斑岩型铜矿化蚀变特征,从岩体中心向外,蚀变呈环带状分带发育,依次为强硅化带→钾硅化带→绢英岩化带→青磐岩化带。矿化在浅部表现为断裂破碎带控制的热液脉型Cu、Au、Pb、Ag矿床,深部则为斑岩型Cu、Mo矿床。  相似文献   

云南普朗斑岩铜矿蚀变带成矿流体特征及其成矿意义   总被引：7，自引：2，他引：5  

郭欣  杜杨松  庞振山  李顺庭  李青 《现代地质》2009,23(3)

云南普朗铜矿位于义敦—中甸岛弧带南缘,是近年来我国发现的一个大中型斑岩铜矿床。该矿床具有典型的斑岩铜矿蚀变分带,由中心向外依次为钾硅化带、绢英岩化带、青盘岩化带。对矿区不同蚀变带中的石英流体包裹体进行了岩相学观察、均一温度测量和激光拉曼探针成分分析。均一温度测量结果表明,从普朗斑岩铜矿床钾硅化带到绢英岩化带再到青盘岩化带,成矿流体的平均均一温度从274.4℃到236.4℃再到203.0℃,呈明显下降趋势,可能与天水参与成矿有关。同时,激光拉曼探针成分分析结果表明,普朗斑岩铜矿床矿化期间的成矿流体属于富硫富氯流体,这种温度较高且富硫富氯的成矿流体在钾硅化带和绢英岩化带发生矿化作用将导致成矿物质强烈富集成矿。  相似文献   

赣中大王山钨多金属矿床流体包裹体及 H-O-S 同位素特征          下载免费PDF全文

杨庆坤宣璞琰  张小亮周万蓬 曲宏健 《地质科学》2017,(4):1282-1296

为确定赣中大王山钨多金属矿床成因类型及地质特征, 笔者对主成矿期石英和硫化矿物进行了流体包裹体、H-O-S 同位素研究。 结合野外矿体产出形态, 可以将研究区划分出3 期成矿作用, 早期以矿囊状为特征, 与围岩无明显的蚀变现象, 主成矿期为大脉状, 与围岩发生云英岩化, 成矿晚期可见含矿石英晶洞。 主成矿期包裹体岩相学和显微测温结果显示： 石英中主要发育气液二相包裹体、富气相包裹体、CO₂三相包裹体和气-液-固三相包裹体 ; 包裹体均一温度为 180 ℃ ～280 ℃（峰值为190 ℃ ～210 ℃）, 盐度为7.86% ～20.22% NaCl_eqv （峰值为11%～17% NaCl_eqv ）, 结合前人对赣中石英脉型黑钨矿中的黑钨矿测温结果, 推测大王山形成于中温、中高盐度;石英包裹体δD_V-SMOW 值介于- 93.1‰～-72.5‰, δ¹⁸O_H2O 值介于0.9‰～3.4‰, 石英包裹体的温度-盐度关系图显示成矿流体混入了低温、低盐度的流体相;δ³⁴S 值介于-1.3‰～+1.9‰之间, 表明成矿物质硫源主要来自深源岩浆。 结合前人研究显示, 黑钨矿较石英早结晶, 成矿流体以岩浆水为主, 大气降水参与成矿, 硫源与深部岩浆有关。 赋矿碱长花岗岩中见有W-Mo 多金属矿囊和细晶岩、伟晶岩脉, 其成岩时间和成矿时间一致。 指示了大王山钨多金属与围岩碱长花岗岩具有一定的亲源性, 并且岩浆-流体液态不混溶作用是导致W-Mo 多金属矿沉淀的主因。  相似文献   

从氧、碳同位素组成看蓟县元古宙碳酸盐岩特征   总被引：9，自引：0，他引：9  

赵震 《沉积学报》1995,13(3):46-53

蓟县元古宙碳酸盐岩出露广袤，厚度巨大，产状稳定，化石丰富，沉积形象众多。其内赋含的氧、碳同位素组成及其数值变化对成岩机制及沉积环境仍然蕴含着较清楚的内函关系。依据其数值演化，探讨了蓟县碳酸盐岩的成岩作用、古盐度，进而结合其沉积环境特征，阐释了碳酸盐岩，更主要是白云岩为原生沉积所成。  相似文献   

山西襄汾奥陶系岩石学特征及沉积环境分析   总被引：1，自引：0，他引：1  

邱艳生 《沉积学报》1993,11(4):67-72

山西襄汾地区奥陶系只有下、中统,主要由碳酸盐岩与蒸发岩组成.燧石及陆源碎屑岩少见。同位素资料表明δ13O较低（平均-5.832‰PDB）,δ13C（平均-1.210‰PDB）变化较小,表示古盐度的指数Z多大于120。微量元素表明碳酸盐岩沉积于近陆环境,受大气淡水影响强烈。沉积环境主要是潮上（膏泻湖）、潮间坪、潮下局限海及开阔海。峰峰期后最大的海退结束了本区海相沉积史。  相似文献   

我国海相火山铁铜矿床的成因类型及其某些成矿特征的讨论   总被引：2，自引：0，他引：2  

姜福芝 《矿床地质》1983,2(4):11-18

建国以来,我国在火山矿床的地质勘探和研究工作方面都积累了丰富的资料,并且有不少关于矿床成因和类型划分方面的叙述。作者近几年来有机会接触到一些这方面的工作。这里试将海底火山活动的重要产物之一——海相火山铁铜矿床作一个比较系统的成因类型的划分。限于水平,不当之处请批评指正。  相似文献   

Exceptional silica speleothems in a volcanic cave: A unique example of silicification and sub‐aquatic opaline stromatolite formation (Terceira,Azores)     

Raquel Daza Brunet  María Ángeles Bustillo Revuelta 《Sedimentology》2014,61(7):2113-2135

Silica stromatolites occur in a number of modern hydrothermal environments, but their formation in caves is very rare. The silica stromatolitic speleothems of the Branca Opala cave (Terceira Island, Azores), however, provide an excellent opportunity for their study. These formations may be analogous to ancient silica stromatolites seen around the world. Petrographic, mineralogical and geochemical analyses were undertaken on the silica speleothems of the above cave, and on the silica‐tufa deposits outside it, with the aim of understanding their genesis. The possible hydrothermal origin of their silica is discussed. X‐ray diffraction analyses showed opal‐A to be the sole silica phase. Negligible ordering of this opal‐A showed ageing to be insignificant, as expected for recent silica deposits. Most of the silica speleothems examined were definable as sub‐aquatic opaline stromatolites that are not currently growing. Optical microscopy clearly revealed a lower microlaminated, an intermediate and an upper microlaminated zone within the stromatolites. Stromatolite types (I, II and III) were classified with respect to their internal structure and distribution throughout the cave. Scanning electron microscopy showed silicified bacterial filaments within the stromatolites, the silicified plant remains and the silica‐tufa deposits. Bacteria therefore played a major role in the precipitation of the opal‐A. Plasma emission/mass spectrometry showed major, minor and rare earth elements to be present in only small quantities. The rare earth elements were mainly hosted within volcanic grains. Rapid silica precipitation from highly super‐saturated water would explain the intense silicification of the plant remains found inside and outside the cave. The opaline stromatolites, the silica‐tufa deposits and the above‐mentioned intense general silicification suggest a local hydrothermal source for the silica. Indeed, these deposits strongly resemble plant‐rich silica sinter associated with low‐temperature hot spring deposits that include bacterial filaments. However, no geochemical signals that might indicate a hydrothermal origin could be found.  相似文献   

藏南江孜盆地下白垩统硅化层的地质地球化学特征及其成矿意义   总被引：3，自引：2，他引：3  

付伟  周永章  杨志军  聂凤军  李文  何俊国  李振清  胡朋 《现代地质》2005,19(2):267-273

西藏南部江孜盆地的下白垩统地层为一套浊积海底扇沉积序列。在沙拉岗一带, 这套地层中发育一段明显的硅化层。矿物学和岩石地球化学分析表明: 硅化层主要由硅化程度不等的硅化泥岩和硅化灰岩组成, 其矿物组成单调,主要包括石英、低温钠长石和被交代残余的方解石; 硅化泥岩的地球化学特征以继承原岩为主, 而硅化灰岩则受硅化流体改造的程度较大; 硅化灰岩中的微量元素随着硅化程度的递进表现出4种类型的迁移规律, 硅化灰岩的w(∑REE)和w(LREE) /w(HREE)等指标均与硅化程度成正相关关系。综合这些特征表明, 参与硅化层发育的流体可能是一种富SiO2 的偏碱性中低温热流体, 它的活动导致了硅化层的发育并可能和该区内锑矿的产生具有直接的成因联系。  相似文献   

西成矿化集中区热水沉积岩物质来源的同位素示踪及其意义   总被引：11，自引：3，他引：11  

孙省利  曾允孚 《沉积学报》2002,20(1):41-46

利用硅同位素、锶同位素和碳氧同位素,对西成矿化集中区与矿体紧密伴生的热水沉积岩的物质来源进行了探讨。硅质岩的硅同位素δ3 0 SiNBS -2 8=- 0.6‰～ - 0.1‰,硅主要来源于下伏沉积岩;热水沉积岩的锶同位素比值87Sr/ 86Sr变化于 0.70 938～ 0.72 812之间,位于海洋锶和陆壳锶之间,为混合锶,其锶主要来源于下伏沉积地层柱;碳同位素组成略低于正常沉积碳酸盐岩,碳主要来源于下伏沉积地层柱在循环碳,同时又受其它来源碳的影响。同位素研究结果表明,热水沉积岩的组成物质主要来源于下伏沉积地层柱 (地壳内部 ),形成方式主要是外生沉积作用,即热水沉积岩是内生作用与外生作用共同作用的结果,是内外生矛盾的统一体。  相似文献   

Paleotectonic Setting of Dongyan Group of Middle and Upper Proterozoic in Central Fujian Province   总被引：2，自引：0，他引：2  

ZhangDaWuGanguo WuGanguo YeYujiang ZhangXiangxin WuJianshe WangQunfeng 《中国地质大学学报(英文版)》2004,15(1):29-35

The central Fujian Province, situated on the juncture of paleo-uplift of Wuyishan, Yongmei Late Paleozoic depression and the eastern volcanic rift-fanlting zone, is mainly composed of the outcropped metamorphic basements in the Middle-Late and Early Proterozoic, which constitute two upper and lower giant thick formations of Precambrian volcanic-sedimentary cycles, respectively. The formation of Dongyan Group is an important Middle-Upper Proterozoic component, and the Dongyan Group is directly related to massive sulfide deposit in this area. In recent years, plenty of lead, zinc, copper, silver and gold deposits have been found and explored. The Precambrian paleorift setting of the central Fujian Province served as a favorite metallogenic background for the formation of large- and superlargescale volcanic massive sulfide (VMS) lead and zinc polymetal deposits. The Dongyan Group consists chiefly of a set of ancient volcanic sedimentary formations that are composed mainly of greenschist. Its major lithologic types comprise greenschist, marble, quartzite and granofels class including various components. The metamorphic rocks of Dongyan Group are the main composition of Middle and Upper Proterozoic volcanic-sedimentary cycle. The original rock of Dongyan Group, a stable rock association, is volcanic sedimentation and normal marine sedimentation. But the original volcanic rocks, basic and acid, are bimodal. The volcanic rocks were formed in the extensional continental rift setting.  相似文献   

西成矿田海底热水喷溢沉积成因硅质岩及其与矿化关系   总被引：2，自引：0，他引：2  

宋春晖  周少平 《沉积学报》1992,10(4):60-67

硅质(化)岩与铅锌矿化关系十分密切是西成矿田显著特征之一,特别是毕家山型矿床,其主要矿体的容矿岩石为硅质岩,本文重点研究了该矿田硅质岩岩石学和地球化学特征及其与矿体(层)时空关系,认为该区硅质岩不是正常生物化学沉积成因的,而属热水沉积形成;并讨论了硅质岩与矿化关系以及硅质在成矿中的作用,为确定该类矿床的成因提供了重要证据.  相似文献   

Geochemistry and detrital modes of Proterozoic sedimentary rocks,Bayana Basin,north Delhi fold belt: implications for provenance and source-area weathering     

《International Geology Review》2012,54(1):111-129

Bayana Basin, sited along the eastern margin of the north Delhi fold belt of the Aravalli Craton, contains an ～3000?m-thick sequence comprising one volcanic and seven sedimentary formations of the Delhi Supergroup. The sedimentary units are the Nithar, Jogipura, Badalgarh, Bayana, Damdama, Kushalgarh, and Weir formations in order of decreasing age. Petrographic study of the sandstones as well as major and trace elements (including rare earth elements) and bulk-rock analyses of the shales and sandstones allow the determination of their provenance, source-rock weathering, and basinal tectonic setting. The sandstones are quartz rich and were derived mainly from exhumed granitoids typical of a craton interior. Geochemical patterns of the sandstones and shales are similar. However, trace element abundances are low in sandstones, probably due to quartz dilution. The coarser clastic Damdama and Weir sandstones, which occur at higher stratigraphic levels, have strikingly low trace element concentrations compared with the underlying Bayana and Badalgarh sandstones. All samples show uniform LREE-enriched patterns with negative Eu-anomalies (Eu/Eu*?=?0.16–0.23) and are similar to those of post-Archaean Australian shales (PAAS). However, the (La/Yb) _n ratios (averages 11–18) of all the sedimentary units are higher than those of PAAS, except for the Bayana Sandstone, which has low values (average 6.77). The chemical index of alteration (70–78) and the plagioclase index of alteration (87–97) values and the A–CN–K diagram suggest moderate to intense weathering of the source area.

The provenance analyses indicate that basin sedimentation was discontinuous. It received input from a terrain comprising granitoids, mafic rocks, sedimentary sequences, and tonalite-trondhjemite-granodiorite (TTG) suites. The Nithar and Badalgarh sandstones received input from a source consisting predominantly of granitoids. The succeeding Damdama and Weir sandstones received debris from granitoids and TTG in different proportions. The Kushalgarh shale was possibly derived from a source consisting granites and mafic rocks with a TTG component. The pre-existing sedimentary formations also contributed intermittently during the different phases of sedimentation.

Bulk-rock geochemical data suggest Mesoarchaean gneisses and late Archaean granites of BGC/BGGC (Banded Gneissic Complex/Bundelkhand Granitic Gneiss Complex) basement as possible source terrains. These data indicate deposition in a continental rift setting. The coeval formation of many rift-related Proterozoic sedimentary basins in the BGC/BGGC terrain suggests that the North Indian Craton underwent major intracratonic extension during Proterozoic time, probably triggering the break up of Earth's first supercontinent.  相似文献   

Sedimentary complexes of the cover of the Dzabkhan continental block: Different sedimentary basins and source areas     

E. F. Letnikova  I. A. Vishnevskaya  F. A. Letnikov  N. I. Vetrova  S. I. Shkolnik  Yu. A. Kostitsyn  E. A. Karakovskii  L. Z. Reznitskii  N. A. Kanygina 《Doklady Earth Sciences》2016,470(2):1071-1075

The geochemical and Sm–Nd isotope characteristics of Late Precambrian and Early Cambrian sandstones previously related to the sedimentary cover of the Dzabkhan continental block are reported. It is established that the Riphean and Vendian sedimentary rocks of the Ul’zitgol’skaya and Tsaganolomskaya Formations were accumulated within the Dzabkhan continental block as a result of recycling of the terrigenous deposits formed at the expense of destruction of basement rocks and younger granite. The formation of terrigenous rocks of the Bayangol’skaya Formation after a gap in sedimentation occurred in the sedimentary basin, where only the Late Riphean formations of the juvenile crust, probably of the Dzabkhan–Mandal block were the sources, without the contribution of the ancient crustal material. The Tsaganolomskaya and Bayangol’skaya Formations were formed in different sedimentary basins and cannot be related to the same complex.  相似文献