Important crustal growth in the Phanerozoic: Isotopic evidence of granitoids from east-central Asia

The growth of the continental crust is generally believed to have been essentially completed in the Precambrian, and the amount of juvenile crust produced in the Phanerozoic is considered insignificant. Such idea of negligible growth in the Phanerozoic is now challenged by the revelation of very large volume of juvenile crust produced in the period of 500 to 100 Ma in several orogenic belts. While appreciable volumes of juvenile terranes in North America (Canadian Cordillera, Sierra Nevada and Peninsular Range, Appalachians) have been documented based on Nd isotopic data, the mass of new crust formed in the East-Central Asian Orogenic Belt (ECAOB), eastern part of the Altaid Tectonic Collage, appears to be much greater than the above terranes combined. New and published Nd-Sr isotope data indicate that the Phanerozoic granitoids from the southern belt of the ECAOB (Xinjiang-West Mongolia-Inner Mongolia-NE China) as well as from Mongolia and Transbaikalia were generated from sources dominated by a depleted mantle component. These granitoids represent a significant growth of juvenile crust in the Phanerozoic. Although most plutons in this huge orogenic belt belong to the calc-alkaline series, the ECAOB is also characterized by the emplacement of voluminous A-type granites. The origin of these rocks is probably multiple and is still widely debated. However, the isotopic data (Sr-Nd-O) and trace element abundance patterns of A-type granites from the ECAOB clearly indicate their mantle origin. The evolution of the ECAOB and the entire Altaid Collage is most likely related to successive accretion of arc complexes. However, the emplacement of a large volume of post-tectonic A-type granites requires another mechanism—probably through a series of processes including underplating of massive basaltic magma, partial melting of these basic rocks to produce granitic liquids, followed by extensive fractional crystallization. The proportion of juvenile to recycled, as well as that of arc-related to plume-generated, continental crust remains to be evaluated by more systematic dating and isotope tracer studies.     

燕山运动与东亚构造体制的转变

构造体制转变的本质是动力学体系的转变。东亚构造体制的转变是从一个汇聚碰撞的动力学体系转变为一个活动大陆边缘的动力学体系。其核心问题是古太平洋板块开始向新生的亚洲大陆下俯冲。在这一独特的动力学体系转变过程中 ,产生了陆缘俯冲消减增生杂岩带 ,火山弧和相关的表壳变形等一系列标志。文中强调以自然的、显著的、易于识别的标志———火山弧的出现代表东亚构造域动力学体系的转变 ;指出翁文灏命名的燕山运动A幕———髫髻山组火山岩下的不整合 ( ( 16 0± 5 )Ma前 )和B幕———张家口组火山岩下的不整合 ( ( 13 5± 1)Ma前 )代表这一转变。也就是说 ,燕山运动是东亚构造体制转变的产物 ,其出现有着深刻的地球动力学背景     

中国的全球构造位置和地球动力系统

现今之中国位于亚洲大陆东南部,西太平洋活动带中段;在全球板块构造图上,中国位于欧亚板块的东南部,南为印度板块,东为太平洋板块和菲律宾海板块。地质历史上,以中朝、扬子、塔里木等小克拉通为标志的中国主体属于冈瓦纳和西伯利亚两个大陆之间的转换(互换)构造域:古生代时期,位于古亚洲洋之南,属冈瓦纳结构复杂的大陆边缘;中生代阶段,位于特提斯之北,属劳亚大陆的一部分。显生宙中国大地构造演化依次受古亚洲洋、特提斯-古太平洋、太平洋-印度洋三大动力体系之控制,形成古亚洲洋、特提斯和太平洋三大构造域。不论古亚洲洋,还是特提斯,都不是结构简单的大洋盆地,而是由一系列海底裂谷带(小洋盆带)和众多微陆块组合而成的结构复杂的洋盆体系。加之中、新生代的太平洋构造域和特提斯构造域叠加在古生代的古亚洲洋构造域之上,使中国地质构造图像在二维平面上呈现镶嵌构造,在三维空间上呈现立交桥式结构,使中国不仅是亚洲,也是全球构造最复杂的一个区域。不同阶段的地球动力体系在中国的叠加、复合,使多旋回构造-岩浆和成矿作用成为中国地质最突出的特征。因而中国的造山带大多是多旋回复合造山带,成矿(区)带大多是多旋回复合成矿(区)带,大型含油气盆地大多是多旋回叠合盆地。     

Phanerozoic Tectonic Evolution, Metallogenesis and Formation of Mineral Systems in China

The continental Asia is mainly composed of three major tectonic regimes, the Tethys, Paleo Asian Ocean, and West Pacific. It underwent multi-stage plate convergences, ocean-continent transformations, and subductions, collisions and/or collages, and post collisional (orogenic) extensions in Phanerozoic. Tectonic evolution of the Asia brings up a unique fault system and tectonic geomorphological features in the mainland China. Also, it provides a geodynamic background for the formation and evolution of metallogeneses and mineral systems, resulting in nonuniform distribution of tectono-metallogenic systems and metallogenic belts. The spatiotemporal distribution of mineral deposits in China and adjacent areas exhibits periodic variation under controlling of the full life Wilson cycle and tectonic evolution, forming the plate convergence-related mineral system in East Asia. Porphyry Cu deposits are mainly related to compressional systems in Paleozoic and early Mesozoic, and more closely related to post-collision extensional settings in late Mesozoic and Cenozoic. Orogenic Au deposits mainly formed in post-orogeny extensional setting. Alkaline rock related rare earth element deposits formed mainly at margins of the North China and Yangtze cratons. Granite-pegmatite Li and other rare metal deposits formed mainly in early Mesozoic, related to Indosinian post-orogeny extension. Tectono-metallogenic systems provide important basis for the prospecting of mineral resources.     

Phanerozoic Paleomagnetism Characteristics of the Qomolangma Area in Tibet

This paper conducts systematic test research on the 2920 paleomagnetic directional samples taken from Ordovician-Paleogene sedimentary formation in the north slope of Qomolangma in south of Tibet and obtains the primary remanent magnetization component and counts the new data of paleomagnetism the times. Based on the characteristic remanent magnetization component, it calculates the geomagnetic pole position and latitude value of Himalaya block in Ordovician-Paleogene. According to the new data of paleomagnetism, it draws the palaeomagnetic polar wander curve and palaeolatitude change curve of the north slope of Qomolangma in Ordovician-Paleogene. It also makes a preliminary discussion to the structure evolution history and relative movement of Himalaya bloc. The research results show that many clockwise rotation movements had occurred to the Himalaya block in northern slope of Qomolangmain the process of northward drifting in the phanerozoic eon. In Ordovician-late Cretaceous, there the movement of about 20.0° clockwise rotation occurred in the process of northward drifting. However, 0.4° counterclockwise rotation occurred from the end of late Devonian epoch to the beginning of early carboniferous epoch; 6.0° and 8.0° counterclockwise rotation occurred in carboniferous period and early Triassic epoch respectively, which might be related with the tension crack of continental rift valley from late Devonian period to the beginning of early carboniferous epoch, carboniferous period and early Triassic epoch. From the Eocene epoch to Pliocene epoch, the Himalaya block generated about 28.0° clockwise while drifting northward with a relatively rapid speed. This was the result that since the Eocene epoch, due to the continuous expansion of mid-ocean ridge of the India Ocean, the neo-Tethys with the Yarlung Zangbo River as the main ocean basin closed to form orogenic movement and the strong continent-continent collision orogenic movement of the east and west Himalayas generated clockwise movement in the mid-Himalaya area. According to the calculation of palaeolatitude data, the Himalaya continent-continent collusion orogenic movement since the Eocene epoch caused the crustal structure in Indian Plate-Himalaya folded structural belt-Lhasa block to shorten by at least 1000 km. The systematic research on the paleomagnetism of Qomolangma area in the phanerozoic eon provides a scientific basis to further research the evolution of Gondwanaland, formation and extinction history of paleo-Tethys Ocean and uplift mechanism of the Qinghai-Tibet Plateau.     

祁漫塔格造山带——青藏高原北部地壳演化窥探

祁漫塔格是东昆仑造山带的一个分支,位于青藏高原中北部,夹持于柴达木盆地和库木库里盆地中间,向西被阿尔金走滑断裂错段。从元古代到早中生代,由于受到多期、多阶段大洋俯冲和关闭影响,导致不同地体间发生碰撞拼贴和大陆增生过程,并由此引发一系列的岩浆事件。祁漫塔格造山带内发育新元古代花岗岩(1000~820 Ma)是对Rodinia超大陆形成的响应。以阿达滩和白干湖逆冲断裂为界,划分为南、北祁漫塔格两地体。北祁漫塔格地体作为活动大陆边缘,发育大量的早古生代与俯冲有关的花岗岩和VA型蛇绿岩;南祁漫塔格地体最初为洋内俯冲形成的原始大洋岛弧,发育早古生代SSZ型蛇绿岩、岛弧拉斑玄武岩和钙碱性火山岩。随着持续俯冲,年轻岛弧伴伴随地壳加厚转变为成熟岛弧。南、北祁漫塔格地体间的碰撞(弧-陆碰撞)可能发生在晚志留世(422Ma),并持续到早泥盆世(398Ma)。在此期间(422~389Ma),南祁漫塔格地体内发育一系列同碰撞型花岗岩;北祁漫塔格地体内发育一系列的大洋岛弧花岗岩。南祁漫塔格作为外来地体,碰撞拼贴对于大陆边缘、大陆增生意义重大。之后,南、北祁漫塔格地体进入后碰撞环境并发育一系列板内花岗岩。此外,伸展导致造山带垮塌,发育中泥盆统磨拉石建造。碰撞使得海沟后退,海沟阻塞导致俯冲减弱甚至停止,因而产生了石炭-二叠纪(357~251 Ma)岩浆活动缺口。古特提斯祁漫塔格洋的最终关闭可能始于晚二叠世,使得库木库里微板块拼贴于大陆边缘;碰撞抬升导致缺失上二叠统-中三叠统地层。早中三叠世(251~237 Ma)由于碰撞,俯冲大洋板片回转,之后断离,软流圈地幔物质沿岩石圈地幔通道上涌,使得新生下地壳部分熔融;到了晚三叠世,大规模岩石圈地幔和下地壳物质拆沉,导致古老地壳物质发生熔融,形成了一系列后碰撞背景下的钙碱性和碱性花岗岩。     

东北亚晚古生代—中生代岩浆时空演化:多重板块构造体制范围及叠合的鉴别证据

东北亚大地构造发展经历了古亚洲洋、蒙古—鄂霍茨克洋和古太平洋的俯冲-碰撞作用。如何鉴别和厘定这三种构造体制的时空影响范围和叠合过程一直是一个难题。本文通过巨型岩浆岩带的建库编图,揭示了该地区晚古生代—中生代岩浆岩的时空迁移规律;据此,探讨和厘定了这三大板块构造体制的时空分布范围和构造叠合过程。二叠纪到三叠纪早期间,古亚洲洋体制经历了俯冲到碰撞,主要作用于阿拉善—华北北缘—大兴安岭一带;期间,鄂霍茨克洋主要为陆缘环境,影响范围限于中北部蒙古—外贝加尔一带,并在侏罗纪逐渐向蒙古—鄂霍茨克主缝合带迁移,到白垩纪,其造山带伸展垮塌阶段,影响范围增大,远程效应波及阿拉善—华北北缘—大兴安岭一带,叠加于古亚洲洋体制产物之上。古太平洋构造体制主要发育于三叠纪—侏罗纪时期,其平板俯冲影响范围抵达大兴安岭—太行山,在白垩纪,俯冲板片后撤,影响范围迁移至东亚大陆最东缘。这些作用叠加于古亚洲洋体制产物之上;并与蒙古—鄂霍茨克洋体制同时叠合于大兴安岭一带。     

Granitoid Series and Mineralization in the Circum-Pacific Phanerozoic Granitic Belts

Abstract: Throughout the Phanerozoic Era, magnetite-series and ilmenite-series granitoids are heterogeneously distributed on both sides of the Pacific Ocean. Ilmenite-series granitoids are dominant in the western Pacific rim, while magnetite-series granitoids prediminate in the eastern Pacific orogenic belt. Regional distribution patterns of the two series of paired belt are also recognized differently, implying different tectonic and geochemical settings on both sides of the Pacific Ocean. The differences reflect on the predominance of Sn-W deposits in the western Pacific but sulfide-forming mineral commodities in the eastern Pacific rims. To determine redox state of granitoids is the first step in mineral exploration of granitoid affinity.     

An Review of the Strontium Isotopic Vomposition of Phanerozoic Seawater

Strontium isotopic evolution of the Phanerozoic seawater is an emerging research field of the material cycle in the Earth’s outer-spheres. It is greatly significant for the research of the environmental change on the Earth’s surface during the geological history. The researches of the strontium isotopic evolution of the Phanerozoic seawater have gone through three stages: The early stage, the accumulated stage, and the integrated stage. In the early stage, the primitive evaluation of the diagenetic alteration and the low precision of the analytical instruments resulted in most strontium isotope data without stratigraphic significance. Most researches were only at the initially exploratory stage. In the accumulated stage, the gradually mature evaluation of the diagenetic alteration and higher precision of the analytical instruments made ongoing progress in the researches, especially the establishment and development of the high-resolution strontium isotopic evolution curves of the Cenozoic seawater had spawned a new interdisciplinary branch: Strontium isotope stratigraphy. In the integrated stage, the accumulated high-quality strontium isotope data had been integrated into some strontium isotope database of Phanerozoic seawater. These databases are becoming one of the effective tools to solve the problems in the stratigraphy, petrology, ore deposit, hydrology, and other related applications. Currently, many problems still have not been satisfactorily resolved in the researches of the strontium isotopic evolution of the Phanerozoic seawater, such as the preservation differences of the original seawater information in a sample, the age of uncertainty of samples, lower dating accuracy of more ancient samples, the materials and stratigraphic questions of the Cambrian samples, trace rubidium contamination of samples, the isotope fractionation between ⁸⁶Sr and ⁸⁸Sr, the interlaboratory bias, the uncertainty of the data fitting, etc. These problems are the difficulties to possess more practicability and applicability of strontium isotope stratigraphy. Based on the summary of the research progress, we attempted to systematically summarize the stages and differences of the researches of strontium isotopic composition of Phanerozoic seawater at different periods. We wish this paper offer some perspective to the researches of strontium isotopic composition of Phanerozoic seawater in future.     

新疆蛇绿岩时空分布特征及对增生造山过程的制约

聚焦新疆区内集中出露的61处蛇绿岩,据其物质组成、构造属性、形成时代、空间分布等特征,将其划分为14条蛇绿混杂岩带,其中多处发育洋岛海山、洋内弧等大洋岩石圈岩石组合,并以塔里木-敦煌地块为界,提出以北属古亚洲洋构造域、以南属特提斯洋构造域.结合俯冲增生造山过程中不同阶段的岩石学记录,确认古亚洲洋形成于新元古代末期至晚石...     

略论海陆成矿问题

地壳通过不均一性分异形成大陆型地壳和大洋型地壳, 陆核及地块的形成、大陆裂解与增生、洋壳的新生与消减、陆-陆碰撞拼接形成具有不同构造特征的海陆构造区。中国海陆构造演化经历了太古宙陆核形成、元古宙陆块形成、震旦纪至三叠纪联合大陆形成、中新生代联合大陆解体4个阶段, 形成北方(准噶尔—大兴安岭)、北部(塔里木—华北)、南部(扬子—华南)、南方(冈底斯—喜马拉雅), 东部(滨西太平洋)5个大陆及陆缘构造区。太古宙花岗绿岩带、元古宙裂谷(裂陷)带、显生宙大陆边缘是最重要的海陆成矿环境。海陆成矿有利因素的耦合对成矿至关重要, 而最佳耦合的机制及其发生在海陆构造区的时空位置是圈定有利成矿靶区、引导找矿突破的关键科学问题。     

岩石圈—软流圈物质循环促进大陆增生的新方式

大陆动力学研究地球内能量和物质的运动和伴随的信息传播,上地幔中的软流圈是地球内部的物质运动的关键部位之一。由于观测的技术方法少,人类对软流圈内部的地质作用过程所知甚少。在青藏高原,过去地震波三维层析成像的分辨率不高,难以对地壳上地幔构造进行准确的定位。我们收集和整理了地方地震台的数字化观测数据,使地震体波三维层析成像的准确度大大提高,为解决软流圈的地质构造准确成像提供了新的可能性。根据地震体波三维层析的成像结果,在古特提斯洋和特提斯洋俯冲板块前沿的软流圈底部410 km间断面上方,存在反映古大洋俯冲板块的高速体,它们在青藏高原、苏鲁和伊朗都有出现。清晰和稳定的高波速异常的位置表明,特提斯洋俯冲板块现在已经拆沉在软流圈的底部,古特提斯洋俯冲板块也可能曾经拆沉在软流圈的底部。对比青藏高原和苏鲁的地壳上地幔波速结构推测,拆沉造成软流圈中的轻元素物质上涌,进入大陆岩石圈,造成岩浆活动。上涌还使碰撞造山带地壳厚度减小,而岩石圈厚度增加。大约100 Ma后,俯冲下去的大洋残块会被软流圈物质磨蚀交代,使岩石圈厚度增加, 形成大陆下方的大陆根,造成大陆克拉通化和体积增生。大洋板块俯冲后在软流圈拆沉是岩石圈—软流圈物质循环的一种重要方式,对软流圈中物质均衡和体积稳定也起重要作用。     

新疆北部后碰撞幔源岩浆活动与陆壳纵向生长

新疆北部后碰撞幔源岩浆活动强烈。Nd、Sr和Pb同位素资料表明,在330～250Ma的后碰撞期间,有大量的幔源花岗岩类和少量的镁铁—超镁铁杂岩在上地壳侵位。与加里东、海西和喜马拉雅等造山带起源于再循环陆壳的花岗岩类不同,新疆北部后碰撞岩浆岩一般表现出ε_(Nd)(t)值高、(~(87)Sr/~(86)Sr)值相对较低、Nd和Pb模式年龄年轻等特点。阿尔泰山和天山的一些后碰撞花岗岩类可能具有陆壳源区的特点或表现出地壳物质对幔源岩浆及其分异产物有不同程度的混染,东、西准噶尔花岗岩类很少甚至没有受到陆壳物质混染。新疆北部后碰撞花岗岩类和镁铁—超镁铁杂岩主要是幔源岩浆及其分异产物在上地壳侵位的结果。这些幔源花岗岩类代表了新生的初始地壳,其时代可代表地壳形成时代。在后碰撞阶段,新疆北部的陆壳以纵向生长为特征。     

Sources of Phanerozoic granitoids in the transect Bayanhongor–Ulaan Baatar, Mongolia: geochemical and Nd isotopic evidence, and implications for Phanerozoic crustal growth

The Central Asian Orogenic Belt (CAOB) is renowned for massive generation of juvenile crust in the Phanerozoic. Mongolia is the heartland of the CAOB and it has been subject to numerous investigations, particularly in metallogenesis and tectonic evolution. We present new petrographic, geochemical and Sr–Nd isotopic analyses on Phanerozoic granitoids emplaced in west-central Mongolia. The data are used to delineate their source characteristics and to discuss implications for the Phanerozoic crustal growth in Central Asia. Our samples come from a transect from Bayanhongor to Ulaan Baatar, including three tectonic units: the Baydrag cratonic block (late Archean to middle Proterozoic), the Eo-Cambrian Bayanhongor ophiolite complex and the Hangay–Hentey Basin of controversial origin. The intrusive granitoids have ages ranging from ca. 540 to 120 Ma. The majority of the samples are slightly peraluminous and can be classified as granite (s.s.), including monzogranite, syenogranite and alkali feldspar granite. Most of the rocks have initial ⁸⁷Sr/⁸⁶Sr ratios between 0.705 and 0.707. Late Paleozoic to Mesozoic granitoids (≤250 Ma) are characterized by near-zero _Nd(T) values (0 to −2), whereas older granitoids show lower _Nd(T) values (−1.5 to −7). The data confirm the earlier observation of Kovalenko et al. [Geochemistry International 34 (1996) 628] who showed that granitoids emplaced outside of the Pre-Riphean basement rocks are characterized by juvenile positive _Nd(T) values, whereas those within the Pre-Riphean domain and the Baydrag cratonic block, as for the present case, show a significant effect of ‘contamination’ by Precambrian basement rocks. Nevertheless, mass balance calculation suggests that the granitoids were derived from sources composed of at least 80% juvenile mantle-derived component. Despite our small set of new data, the present study reinforces the general scenario of massive juvenile crust production in the CAOB with limited influence of old microcontinents in the genesis of Phanerozoic granitoids.     

新疆达拉布特蛇绿岩带玄武岩地球化学特征:古亚洲洋与特提斯洋的对比

发育在我国北部的古亚洲洋构造域和西南部的特提斯构造域是中国境内最重要的两个构造体系,有关这两个构造域的地幔地球化学特征是揭示它们的演化与交接关系的重要课题之一.本文选择发育在新疆西准噶尔地区达拉布特蛇绿岩带中阿克巴斯套和大棍的枕状玄武岩进行了系统的岩石学和地球化学与Sr-Nd-Pb同位素地球化学研究,结果表明,达拉布特蛇绿岩带中枕状玄武岩具有N-MORB和E-MORB特征,可能形成于大洋中脊环境.岩石的87Sr/86Sr为0.682112～0.706040之间;143Nd/144Nd为0.512713～0.512879,εNd(t)= 2.8～ 5.1,206Pb/204Pb、207Pb/204Pb和208Pb/204Pb的变化范围分别是18.341～20.085、15.541～15.651和38.292～40.534.将达拉布特玄武岩的微量元素特征比值、Nd-Pb同位素等与印度洋MORB和太平洋与北大西洋MORB,以及已知的特提斯和古亚洲洋地幔域进行对比表明,达拉布特蛇绿岩单元内MORB型玄武岩与特提斯构造域特蛇绿岩单元内MORB型玄武岩同位素特征一致,都显示了印度洋型的MORB特征.这意味着位于现今新疆西准噶尔地区的古亚洲洋地幔域没有显示出与特提斯不同的典型的太平洋和北大西洋的地球化学特征.     

内蒙古锡林格勒杂岩的地球化学研究:从Rodinia聚合到古亚洲洋闭合后碰撞造山的历史记录

内蒙古东部出露的锡林格勒杂岩主要由中元古代原岩为火成岩的黑云母片麻岩和斜长角闪岩透镜体组成。片麻岩显示轻稀土元素富集的中等分异特征 ,具明显的Eu负异常 ,其不相容元素特征与平均地壳类似但相对亏损Ba和Sr。斜长角闪岩构成一条Sm -Nd等时线 ,其年龄值为12 0 2± 6 5Ma ,εNd(1.2 0Ga)值为 6 .8。角闪岩的亏损地幔模式年龄 (tDM,1.2 6～ 1.32Ga)与其Sm -Nd同位素等时线年龄接近。角闪岩的Rb -Sr同位素等时线年龄为 393± 14Ma ,其87Sr/ 86 Sr初始比值为 0 .70 379± 0 .0 0 0 0 7,此Rb -Sr等时线年龄与本区出露的篮片岩Ar-Ar年龄 (～ 383Ma)一致 ,记录了中亚造山带东南部洋壳俯冲结束后由大陆碰撞造山引起的变质作用事件。黑云母片麻岩的Rb -Sr同位素等时线年龄为 2 79.5± 6 .4Ma ,87Sr/ 86 Sr初始比值为 0 .70 85 1± 0 .0 0 0 10 ,此Rb -Sr等时线年龄与本区广泛分布的早二叠世火山岩的Rb -Sr等时线年龄 (～ 2 77± 15Ma)一致 ,因此可能是由大规模岩浆活动诱发的变质作用的记录。锡林格勒杂岩因此不仅记录了Rodinia超大陆聚合的地质事件 ,并且通过对比研究本地区蛇绿岩和晚古生代岩浆岩的演化历史 ,可以恢复从Ro dinia超大陆聚合 (～ 1.2 0Ga)到古亚洲洋关闭 (～ 4 30Ma)、大陆碰撞造山 (～ 39     

Geochronology, Geochemistry and Sr-Nd-Hf Isotopes of Early–Middle Triassic Adakitic Plutons in Central-eastern Jilin Province, NE China: Constraints on the Non-synchronous Closure of Paleo-Asian Ocean

The Changchun–Yanji suture zone (CYSZ) in NE China is considered as the suture between the North China Craton (NCC) and Central Asian Orogenic Belt (CAOB). The geochronology, geochemistry and Sr-Nd-Hf isotopes of Early–Middle Triassic adakitic plutions from the CYSZ, are presented in this paper to discuss their petrogenesis and tectonic setting, as well as to constrain the timing and style of the Paleo-Asian Ocean''s final closure. In Early Triassic, the Dayushan pluton (ca. 250 Ma) from western CYSZ has negative εNd(t) values, bidirectional provenances (NCC and CAOB) of εHf(t), which are formed in a collision tectonic setting. In contrast, in eastern CYSZ, the early Triassic samples in Liangshan (ca. 242 Ma) were high Mg# values, positive εNd(t), single provenances (CAOB) of εHf(t) resulting from a subduction setting. In the Middle Triassic, the A-type granites in western CYSZ are found in previous studies representing a post-collisional extensional environment, whereas syn-collisional Lianyanfeng granites (ca. 237 Ma) in eastern CYSZ with low ISr and large scale εNd(t) and εHf(t) values from bidirectional provenances (NCC and CAOB), represent a collisional setting. The Paleo-Asian Ocean''s occurred in a scissor-like fashion along the CYSZ during the Triassic period.     

松辽盆地基底显生宙岩浆热事件:来自营城组火山岩捕获锆石的SHRIMP定年证据

盆地基底的研究对了解成盆历史及恢复区域古大地构背景具有重要意义.本文从松辽盆地北部早白垩世营城组火山岩的显生宙基底捕获锆石入手.对其进行SHRIMP U-Pb定年,得到7组显生宙年龄:482～481Ma、381～350Ma、297～290Ma、252～237Ma、225～219Ma、200～189Ma、183-158Ma.研究认为松辽盆地北部显生宙基底至少经历了晚泥盆世、早二叠世早期、三叠纪和早-中侏罗世等多次大规模的岩浆热事件,其中以中生代三叠纪和侏罗纪火山活动最为频繁,中生代火成岩是松辽盆地显生宙基底花岗岩的主体.这一系列显生宙的岩浆活动可能与晚古生代额尔古纳-兴安、松嫩-张广才岭、佳木斯.兴凯等地块相互间碰撞拼合后的岩石圈伸展作用、华北板块和西伯利亚板块在二叠纪末期碰撞拼合(古亚洲洋闭合造山)后的岩石圈伸展作用、侏罗纪佳木斯地块西缘洋壳俯冲并与松嫩地块拼合作用、东北亚古亚洲洋构造域向太平洋构造域转换等古大地构造运动有关.482～481Ma为变质成因锆石的年龄,代表了早奥陶世(Tremadocian阶)松辽盆地基底的变质增生作用,该变质过程可能与盆地西北部额尔古纳地块与兴安地块的拼合作用.     

从亚洲大陆块体拼贴过程看大陆造山带的形成与演化

本文就亚洲大陆喜马拉雅造山带和大别-苏鲁造山带构造演化模式进行详细评述,并据大地构造学和古地磁学最新研究成果讨论并总结大陆造山带形成与演化模式,即大陆碰撞造山带的演化可能涉及以下5个连续的过程: 碰撞旋转拼合陆内挤压反弹.     

青藏高原形成和演化的古地磁研究进展综述

20世纪80年代以来,特别是最近10年,中外古地磁学者在青藏高原获得了一大批古地磁数据,从构造古地磁角度,重建了青藏高原诸块体(喜马拉雅、拉萨地块、羌塘地块)的碰撞拼合过程,探讨了上述块体碰撞所造成的青藏高原陆内构造缩短量和变形模式。本文对近30年来青藏高原古地磁研究进行了回顾和总结,并在此基础上试图重建了中、新特提斯洋的演化过程,进一步探讨青藏高原形成和演化的动力学背景。