澜沧江南带三叠纪火山岩岩石学、地球化学特征、Ar-Ar年代学研究及其构造意义

滇西三江地区澜沧江南带广泛发育三叠纪火山岩。在北部云县一带,中晚三叠世火山岩出露齐全,自下而上可划分为中三叠统忙怀组(T₂m),上三叠统小定西组(T₃x)和上三叠统芒汇河组(T₃mh)。忙怀组以酸性火山岩为主,为一套流纹岩夹火山碎屑岩组合;小定西组发育为中基性火山熔岩夹火山碎屑岩;芒汇河组具有流纹质火山碎屑岩与玄武岩共存的"双峰式"火山岩特征。地球化学特征表明,南澜沧江带三叠纪火山岩具有弧火山岩与大陆板内火山岩的双重属性,推测其形成环境为过渡型的大陆边缘造山带环境。对南澜沧江带南部景洪附近采集到的石英安山岩样品进行Ar-Ar年龄测试,得到的坪年龄为236.7±2.2Ma,为中三叠世。结合火山岩年代学结果,推测澜沧江洋主碰撞期为早三叠世,中三叠世与晚三叠世早期分别为碰撞后的应力松弛阶段与洋盆继续俯冲期,到晚三叠世末期,俯冲作用结束,澜沧江洋关闭。     

云南德钦鲁春—红坡牛场上叠裂谷盆地演化

鲁春－红坡牛场上叠裂谷盆地是在金沙江弧－陆碰撞之后的地壳伸展环境下形成,时间上发育于中三叠世晚期至晚三叠世,空间上叠置于江达－德钦－维西陆缘火山弧上。盆地中发育由浅水→深水→浅水的沉积组合序列和由玄武岩－－流纹岩组合成的“双峰式”火山岩系,岩石地球化学特征和Nd,Sr同位素结果表明玄武岩与流纹岩为同一岩浆源,从早期的基性岩浆演化为晚期的酸性岩浆。鲁春－红坡牛场上叠裂谷盆地的拉裂速度为0．43cm/a,扩宽距离为140km。中三叠世晚期至晚三叠世的上叠裂谷盆地已成为金沙江带中生代重要的赋矿盆地。     

东昆仑阿尼玛卿地区古特提斯火山作用和板块构造体系

东昆仑阿尼玛卿蛇绿岩带标志古特提斯洋关闭后的板块缝合带。在该缝合带及周围识别出4套与洋盆扩张和俯冲作用有关的火山岩,由南至北,分别为洋底玄武岩、岛弧火山岩、弧后盆地玄武岩和后碰撞火山岩。板块构造体系说明洋壳俯冲极性从南向北。已有年代学证据表明:阿尼玛卿洋盆的开启时代至少可以早到晚石炭世(308Ma),洋盆关闭可能在早三叠世;岛弧火山岩的时代为晚二叠世(260Ma);弧后盆地火山岩的时代为早中三叠世;后碰撞火山岩的时代为晚三叠世。三叠纪沿缝合带及其北部形成了一系列巨大的左旋走滑断裂系,包括东昆仑南缘左旋走滑断裂(200~220Ma)、阿尔金断裂的早期走滑剪切断裂系(220~230Ma)以及南祁连南缘巨型左旋走滑断裂(240~250Ma)。认为它们形成于阿尼玛卿古特提斯洋的关闭和斜向碰撞作用,但主要在俯冲板块折返阶段或逆冲岩片的抬升阶段,其时也是后碰撞岩浆活动和火山喷发阶段。     

云南景洪勐海花岗岩锆石U-Pb年龄及意义

云南景洪勐海花岗岩体属于临沧花岗岩基南段的一部分,其岩石类型主要为黑云二长花岗岩,本文采用激光剥蚀法(LA-ICP-MS)对勐海花岗岩进行了锆石U-Pb年龄测定,获得了4个年龄值,分别为214. 93±1. 1Ma、223. 46±1. 1Ma、224. 96±1. 1Ma和224. 9±1. 3Ma,均属晚三叠世。结合临沧花岗岩基中、北段花岗岩中还曾获得过中三叠世侵位年龄,表明整个临沧花岗岩基的形成时代应为中-晚三叠世。临沧花岗岩的岩石地球化学特征显示,其属于后碰撞过铝质"S"型花岗岩,表明滇西古特提斯洋在早-中三叠世洋盆就完全关闭,俯冲消减作用也随即停止,从而转入弧-陆碰撞造山的构造发展阶段。     

金沙江缝合带弯岛湖蛇绿混杂岩带的岩石地球化学特征及其构造背景

弯岛湖蛇绿混杂岩带是金沙江缝合带西段的重要组成部分。蛇绿岩混杂于上三叠统变质碎屑岩夹变质火山岩中,成份主要为镁铁质-超镁铁质杂岩,岩石类型有变质橄榄岩、变质堆晶质辉长岩及其伴生的岛弧型花岗岩系。岩石化学及地球化学特征表明:蛇绿岩主要为低Ti(岛弧-弧后)型、富集型洋中脊(E-MORB)拉斑玄武岩;与之共(伴)生的基性喷出岩、辉绿岩脉属板内洋岛型裂谷型碱性玄武岩及其过渡类型系列。在变质辉长岩获得全岩Sm-Nd等时线年龄值为232±11Ma,代表了镁铁质-超镁铁质杂岩的形成年龄,可能为洋壳初始俯冲变质的时间。在蛇绿岩上覆的硅质岩中发现有中三叠世拉丁晚期至晚三叠世卡宁早期的放射虫化石,表明弯岛湖镁铁质-超镁铁质杂岩可能形成于中三叠世多岛洋盆或弧后盆地构造环境。     

对雅鲁藏布江结合带形成演化的再探讨

通过1∶5万区域地质调查和收集相关资料的综合研究,本文对雅鲁藏布江结合带的形成演化作了进一步的探讨。雅鲁藏布江特提斯洋具有弧后扩张洋盆的性质,在早三叠世至中三叠世中期洋盆初步形成,中三叠世晚期至晚三叠世洋盆全面形成,从早侏罗世至晚白垩世洋盆逐步萎缩,到古新世至始新世关闭。南带的蛇绿岩主要为洋中脊扩张型(MORB型),形成于中三叠世晚期至晚三叠世。北带的蛇绿岩主要为与洋内俯冲相关的俯冲带上盘型(SSZ型),形成于早中侏罗世。带内侏罗纪至白垩纪其他岩浆岩主要为前弧玄武岩类(FAB型)。显示雅鲁藏布江特提斯洋从早侏罗世开始发生了洋内俯冲,并同步向北向冈底斯带之下主动俯冲消减和向南向喜马拉雅地块之下被动俯冲消减,持续发展到晚白垩世,在古新世至始新世俯冲碰撞消亡转化为结合带。     

澜沧江构造带中南段小定西组火山岩形成时代的厘定及其构造意义

三叠纪忙怀组、小定西组火山岩是澜沧江构造带中南段火山岩带的重要组成部分,是澜沧江古特提斯缝合带构造演化的产物。本文报道了小定西组巨厚玄武岩中安山岩和流纹岩夹层的岩石学、地球化学及锆石LA-ICP-MS年代学及Lu-Hf同位素特征。流纹岩锆石LA-ICP-MS U-Pb定年结果显示小定西组火山岩形成于230Ma。安山岩为高Al2O3的高钾钙碱性岩类,其较强的Nb、Sr和Ti负异常、较弱的Eu负异常、较低的Mg#、(La/Yb)N比值和Cr、Ni含量等特征与小定西组高铝玄武岩极为相似,说明安山岩岩浆与玄武岩岩浆来源相同或相似,是交代地幔物质部分熔融形成的玄武岩浆熔离分异的产物。流纹岩的过铝质特征,强烈Ba、Nb、Ta、Sr、P、Eu和Ti的负异常,与芒怀组流纹岩和临沧花岗岩极为相似,Nb/Ta、Th/Ce和Th/U比值与大陆地壳一致,以及εHf(t)值为-11.6~+9.6,峰值分布于-6.0~+2.0之间,对应的地壳模式年龄(tDM2)为658~1990Ma,大部分集中在1100~1600Ma范围内,反映其岩浆来源于中上地壳物质部分熔融的产物,并加入少量幔源组分的混合岩浆。小定西组玄武岩夹层中的安山岩和流纹岩都具有Rb、Ba、Th、U富集和Nb、Ta和Ti亏损,在微量元素构造环境判别图解上分布于陆缘弧或同碰撞岩浆岩区的特征。结合该区早三叠世地层缺失、晚三叠世磨拉石建造不整合覆盖在下伏地层之上,以及高压变质带的存在等分析认为澜沧江构造带中南段火山岩带中生代火山岩形成于同碰撞环境。在保山地块与印支地块碰撞过程中,交代地幔楔物质部分熔融形成的基性岩浆在上升过程中诱发地壳物质部分熔融形成酸性岩浆,下部基性和上部酸性两个岩浆房的岩浆间歇式喷发,形成下部以酸性火山岩为主(芒怀组),上部以基性火山岩为主(小定西组)的"双峰式"中三叠世火山岩带。     

晚古生代—中三叠世右江盆地的格局和转换

晚古生代—中三叠世右江盆地是在夷平的南华加里东造山带基础上再生裂陷的大陆边缘盆地,该盆地的形成与金沙江—哀牢山古特提斯洋盆关系密切,是一个具有台地与台间海槽相间结构的大陆边缘裂谷盆地。右江盆地自早泥盆世埃姆斯晚期开始裂陷,到石炭纪盆地与越北地块之间出现一个与古特提斯洋相关的局限小洋盆或深海盆。至二叠纪,该洋盆开始向西南俯冲于越北地块之下,形成活动大陆边缘。早三叠世晚期以后,随着该洋盆的闭合和碰撞造山,在凭祥、那坡等地出现同碰撞型的火山活动,右江盆地也于中三叠世转变为以复理石为特征的前陆盆地。因此右江盆地经历了裂谷盆地(早泥盆世晚期—晚泥盆世)、被动大陆边缘(早石炭世—早三叠世)、前陆盆地(中三叠世)的构造演化阶段。     

金沙江沟—弧—盆体系岩石组合特征

金沙江海西印支期海沟－岛弧－弧后盆地－陆缘裂谷体系是从晚二叠世开始发育,有近于典型大洋蛇绿岩套。残余洋壳有两个时代（二叠纪和中下三叠纪）,主弧火山岩发育良好,极性清晰。弧后为次生洋盆蛇绿岩及二叠－中三叠世玄武岩,晚三叠世出现反极,是金沙江岛弧发展演化独具特色的演化阶段。     

老挝岩浆岩成因

老挝的岩浆活动分为三个阶段:早期古元古代—早石炭世,中期晚石炭世—中三叠世,晚期晚三叠世—第四纪。早期以中酸性及中基性侵入岩、火山岩为主,中期从超基性—酸性均有出露,晚期则为中酸性侵入岩,火山岩及玄武岩。反映不同构造位置及成因。     

华北陆块南部元古宙熊耳群火山岩的成因与构造环境：事实与争议

位于华北陆块南部的熊耳群形成于古元古代1.80~1.75 Ga,以火山熔岩占绝对优势,沉积岩和火山碎屑岩仅占地层总厚度的4.3%。熊耳群火山岩是华北陆块结晶基底形成后规模最大、涉及范围最广的火山活动产物,基岩出露面积约7 000 km2,地层厚度3 000~7 000 m,以玄武安山岩、安山岩为主,次为英安-流纹岩,SiO2=60%±的岩石较少,显示双峰特点。中基性熔岩的主要造岩矿物是斜长石和辉石,几乎没有角闪石和黑云母。其岩石化学成分的突出特点是高Fe,K,而低Al,Ca和Mg,火山岩显示富集大离子亲石元素和轻稀土元素、相对亏损高场强元素的岛弧型地球化学特征。Nd同位素和微量元素特征表明,这种地球化学特征是地幔源区遭受地壳组分改造及少量岩浆上升过程中的地壳混染造成的。熊耳群中的沉积岩主要分布在大古石组及马家河组。沉积岩的岩石学和地球化学特征表明熊耳群形成于被动大陆边缘的构造环境,结合火山岩的结构、构造特征,表明火山喷发的主体环境是海相,经历了陆相到海相再到陆相的演变过程,即：伴随着裂谷的发育、地面沉降和海水的侵入,以及随着火山喷发的进行最后又高出海面暴露于地表的全过程。熊耳群形成后,海侵范围更广、海水逐渐加深,表明地壳逐步向更大的凹陷发展。熊耳群形成于夭折的三叉裂谷环境,其火山岩所具有的岛弧型火山岩的地球化学特征是继承于受俯冲组分改造的陆下岩石圈富集地幔源区。熊耳期岩浆活动在华北陆块广泛分布,除了陕西宝鸡附近及山西吕梁地区的火山岩,还广泛分布1.75 Ga前后的基性岩墙群、A-型花岗岩以及比熊耳群稍晚的斜长岩、奥长环斑花岗岩等（1.75-1.70 Ga）和碱性花岗岩类（~1.65 Ga）。这些岩浆岩和熊耳群火山岩在源区性质、岩石 成因及其形成的构造背景等方面,可能存在必然的联系。上述岩浆岩的发育,说明华北陆块在1.80 Ga后处于地壳拉伸、减薄,很可能沿早先拼合的薄弱部位最先发生破裂,是华北陆块裂解的产物。     

Late Paleozoic tectonic -magmatic evolution history of the northeastern ChinaSCIEI北大核心CSCD

Northeastern China is suited in the eastern part of the Central Asian Orogenic Belt, and it is mainly composed of Erguna Massif, Xing'an Massif, Songnen-Zhangguangcai Range Massif, Jiamusi Massif, and Nadanhada Terrane. The Late Paleozoic magmatism was relatively intense accompanied with multiple stages of amalgamation in several microcontinents, therefore these magmatic products are an important media in recording the Late Paleozoic tectonic evolution history of the northeastern China. According to the petrological, geochronological, and geochemical characteristics of Late Paleozoic igneous rocks in the northeastern China, we found that the Late Paleozoic magmatism was based on Carboniferous -Permian igneous rocks. The Early Carboniferous magmatic products are gabbro, diorite and granite, the Late Carboniferous magmatic products are mainly composed of granitoids with minor gabbro, and the Permian magmatic products are mainly granitoids. Meanwhile, these Late Paleozoic igneous rocks mostly exhibit typical arc characteristics. In addition, the Late Paleozoic igneous rocks in eastern Jilin and Heilongjiang provinces are mainly Permian granitoids with minor gabbro, and these Permian igneous rocks show typical arc characteristics. Combined with petrological, geochronological, geochemical and isotopic characteristics, we suggest that the Late Paleozoic igneous rocks in the Great Xing'an Range and eastern Jilin and Heilongjiang provinces underwent different magmatic evolution history, and the microcontinents in NE China had different crustal growth history.     

Geochemistry of a Triassic dyke swarm in the North Patagonian Massif,Argentina. Implications for a postorogenic event of the Permian Gondwanide orogeny

Permo-Triassic magmatism is widespread in the eastern North Patagonian Massif and has been related to the Gondwanide orogeny. Although a magmatic arc setting is widely accepted for the Permian plutonic rocks, the origin and geotectonic setting for the Triassic plutonic and volcanic rocks are still unknown. A NW-SE Triassic dyke swarm composed of andesites and latites with minor rhyolites was previously described in the Sierra Grande – Rincon de Paileman area. The dyke swarm was associated with extensional tectonics which was linked to a postorogenic process.In this paper we present new geochemical data of the rocks that form the swarm. Trachyandesites and rhyolites were separated based on their geochemical characteristics. Both groups may be considered originated from different sources. On the other hand, the content of incompatible elements (LILE and HFSE) indicates a strong relation between the swarm and an active continental margin. The samples also show a transitional signature between continental-arc and postcollisional or anorogenic settings.The new geochemical data on the dyke swarm support the idea of a magmatism that was linked to a postorogenic extensional tectonic regime related to a continental magmatic arc. Such an extension started in the Paleopacific margin of Pangea during the Anisian and might indicate the beginning of the Pangea break-up.     

Iranian ultrapotassic volcanism at ~11 Ma signifies the initiation of post‐collisional magmatism in the Arabia–Eurasia collision zone

Ultrapotassic rocks are a common, but volumetrically minor, hallmark of post‐collisional magmatism along the Alpine–Himalayan orogenic belt. Here, we document the occurrence of ultrapotassic volcanic rocks from the Eslamy peninsula, NW Iran in the Arabia–Eurasia collision zone. Our results indicate that magma genesis involved melting of phlogopite‐ and apatite‐bearing peridotites in the sub‐continental lithospheric mantle at ~11 Ma. These peridotites likely formed by metasomatism involving components derived from subducted sediments during Neotethyan subduction. The ~11 Ma ultrapotassic volcanism was preceded by a magmatic gap of ~11 Ma after the cessation of arc magmatism in NW Iran and Armenia, thus likely representing the initiation of post‐collisional magmatism. The age coincides with the onset of collision‐related magmatic activity and topographic uplift in the Caucasus–Iran–Anatolia region, and also with other regional geological events including the closure of the eastern Tethys gateway, the end of Arabian underthrusting and the start of escape tectonics in Anatolia.     

Geochronological Framework and Geodynamic Implications of Mafic Magmatism in the Liaodong Peninsula and Adjacent Regions, North China Craton

Mafic rocks are widespread on the Liaodong Peninsula and adjacent regions of the North China Craton. The majority of this magmatism was originally thought to have occurred during the Pre-Sinian, although the precise geochronological framework of this magmatism was unclear. Here, we present the results of more than 60 U–Pb analyses of samples performed over the past decade, with the aim of determining the spatial and temporal distribution of mafic magmatism in this area. These data indicate that Paleoproterozoic–Mesoproterozoic mafic rocks are not as widely distributed as previously thought. The combined geochronological data enabled the subdivision of the mafic magmatism into six episodes that occurred during the middle Paleoproterozoic, the late Paleoproterozoic, the Mesoproterozoic, the Late Triassic, the Middle Jurassic, and the Early Cretaceous. The middle Paleoproterozoic (2.1–2.2 Ga) mafic rocks formed in a subduction-related setting and were subsequently metamorphosed during a ca. 1.9 Ga arc–continent collision event. The late Paleoproterozoic (ca. 1.87–1.82 Ga) bimodal igneous rocks mark the end of a Paleoproterozoic tectono-thermal event, whereas Mesoproterozoic mafic dike swarms record global-scale Mesoproterozoic rifting associated with the final breakup of the Columbia supercontinent. The Late Triassic mafic magmatism is part of a Late Triassic magmatic belt that was generated by post-collisional extension. The Middle Jurassic mafic dikes formed in a compressive tectonic setting, and the Early Cretaceous bimodal igneous rocks formed in an extensional setting similar to a back-arc basin. These latter two periods of magmatism were possibly related to subduction of the Paleo-Pacific plate.     

Geochronology in the southern Midyan terrane: a review of constraints on the timing of magmatic pulses and tectonic evolution in a northwestern part of the Arabian Shield

The southern Midyan terrane is a composite Tonian to Ediacaran tectonostratigraphic crustal block in the northern Arabian Shield that prior to Red Sea opening was contiguous with coeval rocks in the Eastern Desert of Egypt and Sinai. Ion microprobe (sensitive high-resolution ion microprobe [SHRIMP]) dating of 12 rock samples described here and the results of other dating programmes establish a clear timeframe for depositional, intrusive, and structural events in the region and provide a chronology of tectonism in this part of the Arabian-Nubian Shield. Deposition of Zaam and Bayda group volcanosedimentary rocks and emplacement of mafic-ultramafic complexes and TTG-type diorite, tonalite, and granodiorite denote formation of the Tonian (780–715 Ma) Zaam arc and fore-arc ophiolite above a possible west-dipping subduction system in the southern part of the Midyan terrane. Convergence with the Hijaz terrane farther south and obduction of ophiolite nappes resulted by ~700 Ma in development of the Yanbu suture. Ongoing or a new subduction system led to a ~705–660 Ma Cryogenian pulse of magmatism represented by I-type calc-alkaline diorite, granodiorite, and granite that have volcanic-arc and syn-collisional granite affinities. This was followed, after a brief end-Cryogenian hiatus, by a 635–~570 Ma period of Ediacaran magmatism marked by monzogranite, syenogranite, and minor gabbro and diorite. These rocks are reported to have within-plate to volcanic-arc and syncollision chemical characteristics but their precise tectonic setting is uncertain. Structurally, the intrusions are diapiric and were evidently emplaced in an extensional regime consistent with an overlap between intrusion and Najd faulting associated, at this time, with transpressional collision and northward extension through much of the ANS. Terminal magmatism in the southern Midyan terrane postdated cessation of Najd faulting at ~575 Ma and resulted in the emplacement of undeformed within-plate A-type alkali-feldspar granites and mafic (lamprophyre) and felsic dikes.     

塔里木北部二叠纪长英质火山岩年代学及地球化学特征

大面积分布于塔里木盆地的二叠纪玄武岩构成了面积250000km²的大火成岩省(LIP),长英质火山岩的发现为塔里木二叠纪火山作用的研究打开了新的窗口。本文从塔北地区约5000m深的钻井中收集了4件二叠纪长英质火山岩的样品。通过对其进行锆石U-Pb同位素测试,得出其形成时代为274~282Ma,为塔里木大火成岩省晚期岩浆作用的产物。岩石具有高钾的特征K₂O+Na₂O=7.29%~8.34%,K₂O/Na₂O>1,大部分属于高钾钙碱性系列,且属于过铝质(A/CNK=1.32~1.53)。具有富集LREE和Zr、Hf、Y,亏损Sr、P、Ti、Nb、Ta等特征,微量元素分布曲线形态与地壳相近,具有右倾的稀土元素配分曲线,且显示出一定的负铕异常。通过Sr-Nd-Pb同位素的分析得出其源区有大量地壳物质,这与其具有较高的Th、U含量和与地壳平均值相似的Nb/La、Nb/U、Th/Ta相一致。综合年代学、地球化学特征及构造环境的判断,认为塔北地区二叠纪长英质火山岩形成于地幔柱活动背景下的地壳物质的部分熔融。     

Mineralization,geochronology, and Pb isotope studies of the shoshonitic lava-hosted Nariniya Pb deposit,central Tibet: linking ore formation to post-collisional potassic magmatism

Abstract

A newly discovered, shoshonitic lava-hosted Pb deposit at Nariniya in central Tibet provides an excellent example to help improve our understanding of the linkage between post-collisional potassic magmatism and ore formation in Tibet. The Pb ores exist as veins or veinlets in NWW-striking fracture zones within the potassic lava (trachyte). The veins contain quartz, galena, pyrite, and sericite (muscovite) as well as minor chalcopyrite, sphalerite, calcite, and dolomite with sericitization, pyritization, and minor silicification. The ⁴⁰Ar–³⁹Ar plateau age of the hydrothermal muscovite is 37.95 ± 0.30 Ma, which represents the Pb mineralization age. This obtained age is indistinguishable, within analytical error, from the zircon U–Pb age of 37.88 ± 0.22 Ma for potassic lava. Therefore, the ore formation can be genetically linked to potassic magmatism. Galena has similar Pb isotopic composition to magmatic feldspar from the host lava, suggesting the derivation of Pb from the magmatic system. Previous studies have suggested that S- and ore-forming fluids are of magmatic origin. Published data show that the Nariniya volcanic rocks are acidic, shoshonitic, akakitic, peraluminous, and enriched in Sr–Nd–Pb isotopes. Thus, they are geochemically different from other potassic volcanic rocks (no adakitic affinity) in the North Qiangtang terrane, but similar to the 46–38 Ma high-K calc-alkaline peraluminous adakitic rocks in this terrane and the late Eocene Cu-generating potassic porphyries from the Sanjiang region of eastern Tibet. As such, the Nariniya potassic magma likely originated from melting of subducted continental crust, with or without interaction with the overlying enriched mantle. Such post-collisional potassic rocks in Tibet are thought to be potential targets for prospecting of both Pb–Zn and porphyry Cu ores. Note that other ore styles (in addition to the Nariniya ore style) may exist in the potassic volcanic districts of Tibet.     

热液型铀矿空间定位的控制因素

通过对华南热液型铀矿与区域断裂构造、区域岩浆岩的时空关系、成因联系进行综合分析,笔者认为,中新生代断陷红色碎屑沉积盆地(简称断陷红盆)的控盆深源断裂构造、多期多阶段富铀岩浆活动中心联合控制了铀矿田的空间定位。铀成矿与晚白垩世区域拉张作用时间相耦合,区域铀成矿作用主要发生在晚白垩世,与导致断陷红盆形成的控盆深源断裂构造关系密切,控盆深源断裂构造为铀矿区域控矿构造。铀成矿与中生代多期富铀岩浆岩(火山岩和花岗岩)关系密切,富铀岩浆活动中心指示深部地壳存在铀的高场;来源于地幔的流体交代富铀地壳及岩浆岩,形成铀成矿流体,而富铀岩浆岩则成为热液型铀矿的主要围岩。     

Crctaccous magmatism in NE China and adjacent areas and its relationship with the paleo-pacific plate subduction北大核心CSCD

This paper briefly reviewed the tectonic evolution history of the Paleo-Pacific Plate and tectonic regimes of NE China and adjacent areas. It also summarized the spatial and temporal association and petrogenesis of Cretaceous igneous rocks, proposing its relationship with Paleo-Pacific Plate subduction. The Erguna, Xing'an, Songliao, and Jiamusi blocks of NE China have significant igneous activities in 145-88 Ma, characterized by a spatial and temporal eastward migration and an association of I-And A-Type granites and asthenosphere-derived basaltic rocks, with minor OlB-Type basalts after ~ 88 Ma. The Cretaceous magmatism in the Wandashan-Sikhote-Alin and Vanbian area is also characterized by eastward migration but an association of intermediate to acidic rocks including high-Mg andesites, adakites, and I -And S-Type granites. Cretaceous magmatism in Erguna-Xing'an-Songliao-Jiangmusi and Wandashan-Sikhote-Alin-Yanbian areas was thought to be formed in back-Arc( intra-plate) and continental arc settings, respectively, and was controlled by roll-back of the Paleo- Pacific Plate. The Early Cretaceous continental arc accompanied with back-Arc extension was most likely to result from subduction of old oceanic lithosphere, which rarely occurred in the modem earth. The Late Cretaceous continental arc at NE China, characterized by back-Arc compression, was similar to the present Chilean continental margin.