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1.
新疆博格达山主体由石炭系海相火山一沉积岩系组成,以发育两期双峰式火山岩,但不发育花岗岩为特征,对其晚古生代地层时代的划分和演化争议较大。本文重点对博格达山北部两个晚古生代砂岩进行了碎屑锆石U-Pb年代学分析,重新标定博格达山地区晚古生代地层的形成时代;利用物源区的演化,约束晚古生代构造演化。测年结果显示博格达上亚群砂岩的碎屑锆石表面年龄值分布范围较宽,主峰年龄为343~284 Ma(80%),次峰年龄为386~375 Ma(3%)、503~441Ma(7%)和871~735 Ma(10%);芦草沟组砂岩的碎屑锆石表面年龄值非常集中,主峰年龄为358~279 Ma(97%),次峰年龄为257~251 Ma(约3%)。博格达山中部原石炭纪博格达群上亚群与西部和南部下芨芨槽群相当,应属于早二叠世,中部一东部的石炭一二叠纪界线应在博格达下亚群一上亚群或居里得能组一沙雷塞尔克组之间的不整合面之中。博格达北部地区晚二叠世以南侧天山物源区供给为主,反映出晚古生代期间博格达山地区至少存在晚石炭世末和中二叠世两期构造隆升。结合区域火山岩与火山碎屑岩的研究,认为博格达山地区晚古生代主要经历4个演化阶段:早石炭世弧后盆地裂解阶段、晚石炭世碰撞拼贴阶段、早二叠世碰撞后伸展阶段、中-晚二叠世再次隆升到稳定阶段。 相似文献
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新疆北部地区上古生界火山岩分布及其构造环境 总被引:8,自引:2,他引:6
新疆北部地区石炭系火山岩主要发育于石炭纪-早二叠世由洋盆向陆内盆地转换阶段,发育碰撞与碰撞后伸展期两类构造环境火山岩; 围绕造山带构成西准噶尔、东准噶尔、准南三大岩区; 石炭系主要发育玄武岩-安山岩-英安岩-流纹岩组合,二叠系主要发育玄武岩-安山岩-流纹岩组合。下石炭统多表现为碰撞期活动陆缘构造环境海相中基性火山岩,上石炭统表现为被动陆缘海陆过渡相钙碱性系列中酸性火山岩; 下二叠统表现为陆相偏碱性中基性、中酸性火山岩。西准噶尔石炭系火山岩为一套海陆交互相中基性火山岩组合,具汇聚岛弧过渡壳特点。东准噶尔石炭系火山岩为一套基性、中酸性岩石组合,具早期岛弧挤压、晚期板内伸展环境特征; 准南博格达山前表现为典型裂谷环境火山岩。二叠系火山岩均为碰撞期后板内伸展构造环境,主要分布于西准噶尔岩区; 表现为东准卡拉麦里残留洋最先闭合隆升,西准达尔布特残留洋随后闭合,最后是北天山洋关闭构造演化次序。新疆北部地区上古生界石炭系-下二叠统火山岩油气成藏多遵循“源控论”,主要围绕石炭系与下二叠统烃源岩发育区、有效生烃中心于构造高部位成藏,晚石炭世伸展裂陷应为有利勘探领域。 相似文献
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新疆于田普鲁-阿羌石炭纪裂谷地质特征及成矿意义 总被引:8,自引:0,他引:8
新疆于田普鲁—阿羌石炭纪裂谷 ,发育于塔里木板块晚古生代被动陆缘之上。裂谷发展经历了两个阶段 ,即早石炭世裂谷形成发展阶段和晚石炭世—早二叠世裂谷敛合阶段 ,形成发展阶段主要为双峰式火山岩建造 ,敛合期以钙碱性安山岩、基性玄武岩为主间夹灰岩、砂砾岩等。该裂谷为塔里木南缘晚古生代活动带的一部分。活动带内大量火山岩浆活动为以铜为主的多金属成矿提供良好条件 ,同时深大断裂活动使金刚石成矿成为可能。对该活动带的深入研究不仅对古特提斯演化研究具有重要意义 ,而且对指导找矿具有非常重要的现实意义。 相似文献
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佳木斯地块位于中国东北微陆块群的最东缘,其东缘地区晚古生代的岩浆和沉积演变进程为欧亚大陆东缘由被动陆缘向活动陆缘构造环境的转化提供了关键证据。年代学和地球化学研究表明,佳木斯地块东缘中泥盆世黑台组砂岩,形成于被动陆缘的构造环境,黑台组上覆的老秃顶子组流纹岩也形成于被动陆缘的构造环境;晚石炭世珍子山组砂岩,形成于活动陆缘的构造环境;早二叠世的二龙山组安山岩以及相邻地区早二叠世的其它火成岩形成于活动陆缘的构造环境。同时,佳木斯地块东缘泥盆-二叠纪的沉积地层也呈现出由浅海相到陆相地层转化的特征。因此,佳木斯地块东缘由被动陆缘向活动陆缘的转化应该发生在中泥盆世到晚石炭世,而该构造环境的转化也为晚古生代时期蒙古-鄂霍茨克洋向欧亚大陆之下俯冲过程的研究提供了关键信息。 相似文献
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南祁连盆地在晚三叠世时期处于陆相沉积,上三叠统阿塔寺组碎屑岩十分发育。盆地三叠系砂岩的岩性及岩相特征与二叠系非常相似,但是源岩构造背景、物质组成及物质来源与二叠系有所差异。根据地球化学主量元素、微量元素分析结果,上三叠统阿塔寺组源岩构造背景活动性较强,以活动性较强的大陆岛弧及活动大陆边缘为主,源岩物质组成以长英质火成岩为主。结合区域地质构造背景判断,南祁连盆地上三叠统阿塔寺组沉积物源区以北物源为主,以南物源为辅,中祁连的前震旦系及下古生界变质结晶岩系及花岗岩为其主要物源。 相似文献
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新疆吾拉斯台一带下二叠统乌郎组火山岩地球化学特征 总被引:1,自引:0,他引:1
乌郎组火山岩分布于哈萨克斯坦-准噶尔板块(Ⅰ级)伊犁-伊塞克湖微板块(Ⅱ级)阿吾拉勒晚古生代裂谷系(Ⅲ级)中,为一套陆相的火山岩和碎屑岩组合.吾拉斯台一带火山活动较强,火山堆积厚度巨大,区内厚近4000 m,属乌郎组中上部层位.火山岩主要由偏碱性的基性和酸性岩组成,总体以双峰式火山岩为特征.岩石地球化学所反映的构造环境为板内玄武岩和大陆裂谷玄武岩,这与所处的大地构造位置相吻合.顶部层位的粗面玄武岩207Pb/206Pb同位素年龄为285±30 Ma,时代为早二叠世.由此推断,阿吾拉勒晚古生代裂谷系火山活动在早二叠世时即将结束,之后晚二叠世接受陆相磨拉石堆积,进入稳定陆内盆地发展阶段. 相似文献
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北山古生代火山岩尤其是石炭纪-二叠纪火山岩的形成环境及成因备受学者关注且长期以来存在争议。本文收集了近年来发表的关于北山石炭纪-二叠纪火山岩研究的地球化学数据,岩石地球化学特征显示北山石炭纪玄武岩主要为安山玄武岩,属拉斑系列,二叠纪火山岩主要为安山玄武岩和亚碱性玄武岩,落入拉斑系列及过渡区;石炭纪玄武岩和二叠纪玄武岩均具有LREE富集的球粒陨石标准化稀土元素配分模式,轻重稀土元素分馏程度均较低。在微量元素蛛网图上,石炭纪-二叠纪遭受地壳混染的玄武岩呈现出明显的Nb-Ta亏损和微弱的Ti亏损特征,而未遭受地壳混染作用的绝大多数石炭纪-二叠纪玄武岩主要呈现出与OIB相似的"隆起"状不相容元素标准化配分模式。岩石成因分析认为,石炭纪-二叠纪玄武质岩浆可能主要来源于地幔柱,部分石炭纪-二叠纪玄武岩在形成演化过程中遭受了明显的大陆地壳混染作用,导致其出现十分相似于岛弧或活动大陆边缘的地球化学特征。结合区域构造演化分析及构造环境判别,认为石炭纪-二叠纪玄武岩均形成于大陆板内环境。 相似文献
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兴蒙陆内造山带 总被引:21,自引:9,他引:12
本文提出了"兴蒙陆内造山带"的新概念(Xing-Meng Intracontinent Orogenic Belt,XMIOB),从大地构造、沉积建造、岩浆作用和变质作用等方面论述了XMIOB从晚古生代到中生代初的陆内伸展及陆内造山过程,为探讨晚古生代构造演化提供了新模式。根据对内蒙古中西部晚古生代构造格局的总体认识,可将XMIOB划分为五个构造单元即:早石炭世二连-贺根山裂谷带、晚石炭世陆表海盆地、早二叠世艾力格庙-二连伸展构造带、早-中二叠世盆岭构造带和晚二叠世索伦山-乌兰沟伸展构造带。晚石炭世末-二叠纪在兴蒙造山带基底上发育三期伸展构造:第一期见于内蒙古北部二连-艾力格庙地区,形成陆内裂谷盆地及其盆缘三角洲沉积,发育时代为302~298Ma;第二期在内蒙古中西部广泛分布,以隆起与凹陷相间分布的盆岭构造为特征,发育时代为290~260Ma;第三期见于内蒙古南部索伦山到温都尔庙乌兰沟一带,形成主动裂谷背景下的红海型小洋盆,发育时代为260~250Ma。晚古生代与伸展过程有关的岩浆活动可分四期:1)早石炭世贺根山期:以蛇绿岩为主,发育于具有前寒武纪古老基底和早古生代造山带年轻基底的陆壳伸展区; 2)晚石炭世达青牧场期:主要沿北造山带分布,以基性和酸性岩浆构成的双峰式侵火成岩为特征; 3)早二叠世大石寨期:形成的岩石种类多样,分布广泛,包括双峰式火山岩、双峰式侵入岩和碱性岩; 4)二叠纪末-三叠纪初索伦山期:形成陆缘型蛇绿岩或基性岩-超基性岩组合,产生于软流圈上涌造成的主动裂谷背景。兴蒙陆内造山带的构造变形可分为两期,第一期为晚古生代地层大范围褶皱变形,造成盆-岭构造带的缩短;第二期为沿盆-岭构造的边界强烈剪切变形,产生向东逃逸的挤出构造,其构造背景是北部蒙古-鄂霍茨克造山带和南部大别-秦岭中央造山带的远距离效应引起的被动闭合作用。兴蒙陆内造山带的变质作用分为两个阶段,早期变质作用主要表现为石炭纪期间与陆内伸展有关的低压高温变质,晚期为二叠纪末到三叠纪初区域大面积的低压绿片岩相变质以及沿构造边界的局部中-低压型低温变质。 相似文献
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本文选取内蒙古苏尼特右旗地区石炭-二叠纪地层及火山岩为研究对象,通过典型地层剖面测制、锆石U-Pb年代学、古生物和地球化学等方法,查明其形成时代、物质来源及沉积环境,并进一步探讨兴蒙造山带中段南缘晚古生代的演化过程。本巴图组2个碎屑岩样品最小年龄为299Ma和296Ma,结合古生物化石研究,其形成时代应为晚石炭-早二叠世;三面井组2个碎屑岩样品的最小年龄为271Ma和272Ma,同样结合其古生物化石资料,判断其形成时代为早-中二叠世。锆石组成和岩相特征显示本巴图组和三面井组形成于不同的沉积背景之下。本巴图组的沉积相变化显示为一个海进序列,形成于弧后伸展背景之下;三面井组则与之相反,显示沉积环境由稳定变为活动,形成于汇聚背景之下。安山岩的喷出年龄为277±1.4Ma,有着高镁安山岩的属性,显示出俯冲背景下陆缘弧火山岩的特征。结合以往区域地质资料,我们认为晚古生代兴蒙造山带南缘的构造演化过程可分为五个阶段:(1)泥盆纪,碰撞后伸展阶段;(2)早石炭世,俯冲开始阶段;(3)晚石炭,俯冲不强烈、局部发生伸展作用阶段,以本巴图组和阿木山组的碎屑岩-碳酸盐组合为代表;(4)早中二叠世,俯冲加强阶段,发育三面井组和大量的陆缘弧火山岩,此时古亚洲洋仍然存在;(5)晚二叠世之后,碰撞结束、古亚洲洋消失阶段,区域开始出现大量A型花岗岩,整体进入造山后环境。 相似文献
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天山南缘石炭系-三叠系碎屑岩成分及其对物源区大地构造属性的指示 总被引:2,自引:0,他引:2
本文通过对天山南缘石炭系-三叠系碎屑岩岩石学特征和地球化学特征的分析,揭示了研究区石炭系-三叠系碎屑岩的物质组分特征及其物源区的大地构造背景.碎屑岩的岩石学、地球化学分析表明,天山南缘石炭系、三叠系砂岩成分成熟度和结构成熟度均不高,杂基含量较高,从石炭系至三叠系砂岩不稳定组分依次增加.石炭系、二叠系具有相似的稀土元素含量特征,三叠系稀土元素含量明显低于石炭系和二叠系,石炭系-三叠系轻、重稀土元素分馏程度依次减弱,La/Th、La/Y 比值依次增大,Th/U比值减小,来自再旋回的物质依次增多.综合碎屑组分、常量元素、稀土元素及微量元素特征的判别,天山南缘石炭系物源区构造背景为既有指示大陆岛孤、活动大陆边缘的证据,也有指示为被动大陆边缘,二叠系物源区示为大陆岛弧,三叠系物源区示为大陆岛弧和含有古老沉积岩的陆块.对比石炭系、二叠系及三叠系物源区的大地构造属性,石炭系物源区示有多种属性,而二叠系、三叠系则相对较为单一,这可能与中天山-伊犁地块和塔里木陆块的碰撞有关. 相似文献
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Post-collisional crustal extension setting and VHMS mineralization in the Jinshajiang orogenic belt, southwestern China 总被引:2,自引:0,他引:2
Hou Zengqian Wang Liquan Khin Zaw Mo Xuanxue Wang Mingjie Li Dingmou Pan Guitang 《Ore Geology Reviews》2003,22(3-4):177-199
The Jinshajiang orogenic belt (JOB) of southwestern China, located along the eastern margin of the Himalayan–Tibetan orogen, includes a collage of continental blocks joined by Paleozoic ophiolitic sutures and Permian volcanic arcs. Three major tectonic stages are recognized based on the volcanic–sedimentary sequence and geochemistry of volcanic rocks in the belt. Westward subduction of the Paleozoic Jinshajiang oceanic plate at the end of Permian resulted in the formation of the Chubarong–Dongzhulin intra-oceanic arc and Jamda–Weixi volcanic arc on the eastern margin of the Changdu continental block. Collision between the volcanic arcs and the Yangtze continent block during Early–Middle Triassic caused the closing of the Jinshajiang oceanic basin and the eruption of high-Si and -Al potassic rhyolitic rocks along the Permian volcanic arc. Slab breakoff or mountain-root delamination under this orogenic belt led to post-collisional crustal extension at the end of the Triassic, forming a series of rift basins on this continental margin arc. Significant potential for VHMS deposits occurs in the submarine volcanic districts of the JOB. Mesozoic VHMS deposits occur in the post-collisional extension environment and cluster in the Late Triassic rift basins. 相似文献
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甘蒙北山地区下石炭统绿条山组
时代修正及其构造意义 总被引:9,自引:1,他引:8
甘肃—内蒙古北山地区位于中亚造山带中段,其晚古生代洋盆最终闭合时间倍受关注且久有争议。早石炭世是该区洋陆转换的关键时期之一,下石炭统下部绿条山组与下伏的下、中泥盆统之间的角度不整合被认为是该区构造隆升的主要证据之一。但由于研究程度限制,绿条山组的时代尚有争议,一定程度上制约了该区构造演化的深入分析。北山北部甜水井北与碎石山剖面绿条山组火山岩的LA-ICP-MS锆石U-Pb年龄分别为296.8±3.5Ma与311.1±3.2Ma,产出晚石炭世巴什基尔期(Bashkirian)菊石Gastrioceras和Branneroceras,时代应修订为晚石炭世—早二叠世早期。研究区下泥盆统—上石炭统沉积充填及生物群落特征表明该区可能在晚石炭世由大陆边缘浅海演化至裂谷盆地,上石炭统与下、中泥盆统之间的角度不整合代表洋陆转化造成的长时间隆升剥蚀。 相似文献
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With the aim of constraining the influence of the surrounding plates on the Late Paleozoic–Mesozoic paleogeographic and tectonic evolution of the southern North China Craton (NCC), we undertook new U–Pb and Hf isotope data for detrital zircons obtained from ten samples of upper Paleozoic to Mesozoic sediments in the Luoyang Basin and Dengfeng area. Samples of upper Paleozoic to Mesozoic strata were obtained from the Taiyuan, Xiashihezi, Shangshihezi, Shiqianfeng, Ermaying, Shangyoufangzhuang, Upper Jurassic unnamed, and Lower Cretaceous unnamed formations (from oldest to youngest). On the basis of the youngest zircon ages, combined with the age-diagnostic fossils, and volcanic interlayer, we propose that the Taiyuan Formation (youngest zircon age of 439 Ma) formed during the Late Carboniferous and Early Permian, the Xiashihezi Formation (276 Ma) during the Early Permian, the Shangshihezi (376 Ma) and Shiqianfeng (279 Ma) formations during the Middle–Late Permian, the Ermaying Group (232 Ma) and Shangyoufangzhuang Formation (230 and 210 Ma) during the Late Triassic, the Jurassic unnamed formation (154 Ma) during the Late Jurassic, and the Cretaceous unnamed formation (158 Ma) during the Early Cretaceous. These results, together with previously published data, indicate that: (1) Upper Carboniferous–Lower Permian sandstones were sourced from the Northern Qinling Orogen (NQO); (2) Lower Permian sandstones were formed mainly from material derived from the Yinshan–Yanshan Orogenic Belt (YYOB) on the northern margin of the NCC with only minor material from the NQO; (3) Middle–Upper Permian sandstones were derived primarily from the NQO, with only a small contribution from the YYOB; (4) Upper Triassic sandstones were sourced mainly from the YYOB and contain only minor amounts of material from the NQO; (5) Upper Jurassic sandstones were derived from material sourced from the NQO; and (6) Lower Cretaceous conglomerate was formed mainly from recycled earlier detritus.The provenance shift in the Upper Carboniferous–Mesozoic sediments within the study area indicates that the YYOB was strongly uplifted twice, first in relation to subduction of the Paleo-Asian Ocean Plate beneath the northern margin of the NCC during the Early Permian, and subsequently in relation to collision between the southern Mongolian Plate and the northern margin of the NCC during the Late Triassic. The three episodes of tectonic uplift of the NQO were probably related to collision between the North and South Qinling terranes, northward subduction of the Mianlue Ocean Plate, and collision between the Yangtze Craton and the southern margin of the NCC during the Late Carboniferous–Early Permian, Middle–Late Permian, and Late Jurassic, respectively. The southern margin of the central NCC was rapidly uplifted and eroded during the Early Cretaceous. 相似文献
16.
《地学前缘(英文版)》2020,11(4):1415-1429
As the southernmost segment of the Central Asian Orogenic Belt (CAOB), the northern Alxa orogenic belt (NAOB) connects the southeastern and southwestern segments of the CAOB. The NAOB amalgamated with the closure of the Paleo-Asian Ocean; however, the closure time of the Paleo-Asian Ocean is still on great debate. In this study, we reported new detrital zircon U–Pb geochronology and Hf–O isotopes for the Permo–Carboniferous sediments in the northern Alxa to constrain the provenance and its tectonic implications. The Permo–Carbonifereous Amushan Formation is composed of volcanic-carbonite-clastic rocks and was deposited in a shallow marine environment. Based on the zircon U–Pb geochronology, the Amushan Formation was deposited in the late Carboniferous to early Permian, but some outcrops of volcanic and clastic rocks in the Quaganqulu area were likely formed in the middle to late Permian. The integrated zircon age spectrum for the clastic rocks shows a wide range from late Archean to Paleoproterozoic, Mesoproterozoic (with a peak age at 1458 Ma), early Neoproterozoic (with peak ages of 988 Ma and 929 Ma), early Paleozoic (with a peak age at 447 Ma) and late Paleozoic (with a peak age at 294 Ma). Combined with the zircon Hf–O isotopes, the provenance was considered to be the Alxa Block, the Shalazhashan terrane and the Zhusileng–Hangwula block (and the southern Beishan orogenic belt). The multiple source regions to the south and north of the Paleo-Asian Ocean indicate the closure of this ocean before the late Carboniferous. The absence or small proportion of depositional age-approximated zircons in most samples makes their age spectra similar to extensional basins. Combined with the intra-plate volcanism, the deposits were considered to be formed in extensional settings. Accordingly, after the closure of the Paleo-Asian Ocean, the NAOB stepped into an extensional stage. 相似文献
17.
中亚造山带东段晚古生代伸展构造环境的证据:内蒙古双井地区哲斯组沉积学及年代学研究 总被引:2,自引:1,他引:1
本研究从沉积学与年代学角度切入,聚焦于中亚造山带东段晚古生代末期的演化历史。以内蒙古双井地区中二叠统哲斯组陆源粗碎屑沉积岩为研究对象,利用沉积剖面实测、岩相古地理分析及锆石年代学测试等方法,厘定其沉积时限与沉积构造环境,以探讨晚古生代末期中亚造山带东段的构造演化历史。来自哲斯组的2个砂岩样品的最年轻谐和锆石组的谐和年龄分别258. 1±1. 9Ma与261. 6±1. 7Ma,在误差范围内相等,限定了研究区内哲斯组地层的最大沉积年龄约为260Ma,处于中二叠世末的Capitanian期;其主要物质来源包括华北板块太古代至早元古代的结晶基底、华北板块北缘早古生代陆缘弧及中-晚泥盆世西别河组。碎屑锆石年代学与沉积学研究表明,研究区内哲斯组所处沉积盆地类型为伸展构造环境下的裂谷盆地,早期具有短时间内快速充填巨厚层粗碎屑沉积的补偿盆地特征,并伴有活跃的同沉积火山与构造活动,发育近岸水下扇相沉积;晚期逐渐转变为过补偿盆地,发育陆相干旱型冲积扇相沉积;表现出沉积环境由海相变为陆相、碎屑物供应充足且近源低成熟度碎屑增多的盆地充填过程。根据沉积相组合及展布、沉积年龄与碎屑锆石主要结晶年龄间隔等特征,结合研究区存在双峰式火山岩及碱性岩带等证据,哲斯组应代表晚古生代末期的裂谷盆地沉积。上述研究提供了中亚造山带东段二叠纪发生陆内伸展过程的证据。 相似文献
18.
内蒙古西部额济纳旗及邻区上石炭统—下二叠统
阿木山组的沉积特征和时代 总被引:4,自引:2,他引:2
额济纳旗地区是阿木山组分布的最西端,产出于伸展背景下的裂谷环境,火山岩比较发育,从下到上可分为火山岩段、灰岩段和碎屑岩段。火山岩段和灰岩段产丰富 的 类化石,灰岩段下部产丰富的珊瑚化石。珊瑚化石的时代主要为晚石炭世, 类从下到上分别属于Triticites组合和Pseudoschwagerina组合,从而确定阿木山组的3个岩性段之间以叠覆关系为主,地质时代为晚石炭世至早二叠世,其中火山岩段为晚石炭世小独山期或更早;灰岩段下部为小独山期,上部为紫松期;碎屑岩段为早二叠世紫松期或更晚一些至隆林期。 相似文献
19.
通过岩石学及地球化学分析方法,对鄂尔多斯盆地陇东地区二叠系山西组1段—石盒子组8段碎屑岩物源区的母岩类型和构造属性进行分析。研究结果表明: 山1段和盒8段的砂岩碎屑组成相似,具有基本相同的物源区组成,它们在构造背景、物源及物源特征上具有很好的继承性;砂岩碎屑颗粒镜下特征及石英阴极发光颜色显示母岩主要为变质岩和火成岩;轻矿物特征反映物源与再循环造山带源区中的碰撞缝合线及褶皱—逆掩带物源区密切相关;研究区与北秦岭地区秦岭群和宽坪群斜长石种类一致;构造环境判别图解反映物源区长期受被动大陆边缘物源影响,到晚古生代后期有向主动大陆边缘转换的趋势;源岩判别图解显示物源区主要是长英质岩石;山1段、盒8段沉积岩的REE配分模式均呈右倾型且基本相互平行,与北秦岭地区秦岭群、宽坪群变质岩的稀土元素配分模式相似;锆石U-Pb同位素定年结果显示物源主要来自元古代,有少部分来自晚古生代。综合分析认为研究区主要受被动大陆边缘物源影响,其次为主动大陆边缘物源,母岩主要为北秦岭下元古界秦岭群的片麻岩、石英岩等和中、上元古界宽坪群的绿泥石片岩、阳起石片岩,其次为北秦岭造山带晚古生代岩浆岩。 相似文献