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1.
柴达木和欧龙布鲁克陆块基底的组成和变质作用及中国中西部古大陆演化关系初探 总被引:18,自引:0,他引:18
中国西部的柴达木陆块和欧龙布鲁克陆块的基底岩系虽然在地球化学上与扬子陆块具有亲缘性,但它们之间的组成和变质作用历史却显著不同。欧龙布鲁克陆块下部基底德令哈杂岩和达肯大坂岩群于~1.95Ga发生了角闪岩相-麻粒岩相区域变质作用并克拉通化,响应了全球Columbia超大陆汇聚事件;随后又与中元古代万洞沟岩群一道于~1.0Ga发生绿片岩相变质作用,共同响应了全球Rodinia超大陆汇聚事件;新元古代中晚期裂解后于中奥陶纪受原特提斯洋关闭影响而隆起。柴达木陆块基底主体由中元古代金水口岩群白沙河岩组(柴南缘)和沙柳河岩群乌龙滩岩组(柴北缘)组成,以S-型花岗岩的侵入活动和相应的变质作用响应了全球Rodinia超大陆汇聚事件。晚泛非期(520~480Ma)柴达木陆块与冈瓦纳主大陆俯冲碰撞,发生中压角闪岩相-麻粒岩相和高压超高压变质作用,经短暂拼贴后很快进入到原特提斯洋域,随460~420Ma的大洋关闭而发生变质叠加。区域对比表明,在基底组成和地壳演化史上,欧龙布鲁克陆块与阿拉善陆块和塔里木陆块(包括扬子陆块)相似,柴达木陆块则与北秦岭陆块以及祁连陆块相似,因而分属两个陆块群。塔—欧陆块群记录的~500Ma热事件与塔—欧和柴—秦陆块群共同记录的~450Ma热事件是两个性质不同的构造热事件。 相似文献
2.
The main stages of the evolution of newly formed structural elements are considered against the background of breakup of the
epi-Grenville Rodinia supercontinent, which started about 950 Ma ago. The paleomagnetic data on pathways of the traveling
of Rodinia’s fragments are analyzed and evidence for their geology, magmatism, and sedimentation are integrated with special
emphasis on the evolution of the continental margins. A series of paleotectonic maps with elements of paleogeography for time
intervals of 950–900, 850–800, 750–700, 650–630, and 570–550 Ma ago has been compiled on the basis of palinspastic reconstructions
with allowance for new paleomagnetic data primarily concerning the position of Siberia in the Late Precambrian. Objects all
over the world, not only in Russia, are involved in the analysis, though with less thoroughly described paleogeography. The
structural elements of the Paleoasian ocean are included into the system of global paleooceans and framing paleocontinents.
The history of the Paleoasian ocean is traced through 400 Ma from the breakup of the Rodinia supercontinent to the origin
of the new Paleogondwana supercontinent about 550 Ma ago. 相似文献
3.
Rodinia超大陆构造演化研究的新进展和主要目标 总被引:13,自引:1,他引:13
概略评述了1997年以来国际上有关Rodinia超大陆构造演化问题的研究成果,并提出今后工作的主要目标。Rodinia超大陆的聚合造山发生在1300-1000Ma,基本形式表现为早期弧一陆碰撞和晚期陆-陆碰撞,并在1000-900Ma继以伸展作用。Rodinia超大陆的裂解发生于830Ma之后,但其过程具有明显的时,空分布不均一性,地幔柱可能是导致超大陆裂解的主要机制,大火成岩省”是地幔柱发育的关键性标志,已经初步证实裂解过程影响地球大气圈和水圈中二氧化碳的循环,进而改变晚前寒武纪的全球气候,控制生物圈的兴衰和岩石圈表层的碳酸盐,铁,锰和磷等沉积,这些现象可用“雪球化地球”(Snowball Earth)模式概括。 相似文献
4.
柴达木盆地北缘新元古代-早古生代大洋的形成、发展和消亡 总被引:4,自引:0,他引:4
柴达木盆地北缘构造带是一条典型的早古生代造山带,是由陆壳深俯冲形成的高压/超高压变质带,产于其中的高压/超高压变质岩石原岩形成时代普遍大于750Ma,原岩的性质为陆壳属性,但柴北缘东段都兰沙柳河地区出露的含柯石英榴辉岩原岩的形成时代为516Ma,原岩的性质为洋壳属性,证实柴北缘局部地段还存在洋壳深俯冲,柴北缘地区可能记录了从大洋俯冲到大陆俯冲再到碰撞造山这一完整的演化历史。本文主要从岩石学、年代学、地球化学以及同位素地球化学等方面对柴北缘地区陆壳深俯冲前新元古代-早古生代大洋发展与演化的岩石记录进行了系统总结,认为柴北缘地区在700~850Ma时受Rodinia超大陆裂解事件的影响发生了裂解;535~700Ma时在裂解事件的基础上形成了一个新元古代-早古生代的大洋,沿柴北缘连续分布的岩石记录表明该洋盆可能在早古生代已具有一定的规模;460~535Ma时该洋壳发生了俯冲消减作用;450~460Ma期间洋盆闭合消失。这一认识对全面深入了解柴北缘高压/超高压变质带早古生代构造演化历史具有重要意义。 相似文献
5.
GAO StephenShangxing LIU KellyHong FU Xiaofei Haider DAHM KONG Fansheng LIU Lin Cory REED SUN Muchen YU Youqiang 《《地质学报》英文版》2019,93(Z2):3-4
The North Qaidam is an Early Paleozoic UHP metamorphic belt located at the north margin of the Tibet plateau. Eclogites in this belt contain both continental‐and oceanic‐type ones. In which, the continental‐type eclogites have protolith ages of 750–850 Ma and WPB or CFB geochemical signatures and are believed to have formed in a continental rift or an incipient oceanic basin setting related to the breakup of the Rodinia supercontinent, their metamorphic ages (421–458 Ma) and P–T paths are comparable to their host gneisses; oceanic‐type eclogites have cumulate gabbro or E‐MORB geochemical signatures, their protolith and metamorphic ages are 510–516 Ma and 425–450 Ma, respectively(Zhang et al., 2008). Therefore, the North Qaidam UHP belt was thought to record the whole Neoprotoerozoic–Paleozoic Wilson cycle (Song et al., 2014). In this study, we reported three new kinds of eclogites: kyanite‐bearing eclogite, lawsonite pseudomorph‐bearing eclogite and double mineral eclogite. They occur as big lentoid blocks in regional granitic gneiss in the western part of the belt. Phase equilibrium modelling and zircon LA‐ICPMS U‐Pb dating show that all these three eclogites experienced a clockwise P–T path with peak metamorphic conditions close to or fall in the coesite stability field, and their peak metamorphic age were around 436‐439 Ma, similar to those continental‐type eclogites in this belt. But their protolith ages are between 1273 and 1070 Ma, and some of them recorded an amphibolite facies metamorphic age of 927 Ma, and geochemical data and zircon Lu‐Hf and O isotope analysis indicate these eclogites have features of present day N‐MORB. Combined with the existing results, we propose that the North Qaidam is a polycyclic composite orogenwhich recorded tectonic evolution of Mesoproterozoic ocean floor spreading, assembly and breakup of Rodinia supercontinent, Early Paleozoic oceanic deep subduction and subsequently continental deep subduction. 相似文献
6.
The large-scale tectonics in the last billion years (Ga) are predominated by the assembly and breakup of supercontinents Rodinia and Pangea. The mechanisms controlling the assembly of supercontinents are not clear. Here, we investigate the assembly of a supercontinent with 1) stochastic models of randomly-moving continental blocks and 2) 3-D spherical models of mantle convection with continental blocks. For the stochastic models, we determined the time required for all the blocks to assemble into a single supercontinent on a spherical surface. We found that the assembly time from our stochastic models is significantly longer than inferred for Pangea and Rodinia. However, our study also suggests that the assembly time from stochastic models is sensitive to the rules for randomly assigning continental motion in the models. In our dynamic models of mantle convection, continental blocks are modeled as deformable and compositionally distinct materials from the mantle. We found that mantle convective planform has significant effects on supercontinent assembly. For models with moderately strong lithosphere and the lower mantle relative to the upper mantle that lead to degree-1 mantle convection, continental blocks always assemble to a supercontinent in 250 million years (Ma) and this assembly time is consistent with inferred for Pangea and Rodinia. However, for models with intrinsically small-scale mantle flows, we found that even when continental blocks merge to form a supercontinent, the assembly times are too long and the convective structures outside of supercontinent regions are of too small wavelengths, compared with observed. 相似文献
7.
华北陆块对Rodinia超大陆的响应及其特征 总被引:13,自引:0,他引:13
研究揭示华北陆块1300-1000Ma和800-650Ma都存在比较弱的岩浆-变质事件,它们可能对应于华南陆块的碰撞(四堡运动)和裂解事件。华北陆块的四堡期蛇绿混杂岩可能只见于新元古代秦岭造山带中。秦岭造山带北缘识别出了一些花岗质分清入体,它们具有碰撞或碰撞后花岗岩的特征。华北陆块北缘的火山沉积岩生活费不具有离散边界杂岩的特征,它们可能揭示了大陆边缘或者大陆伸展过程。华北陆块与800-650Ma事件相关的岩石主要为来自富集地幔的基性岩墙和来自陆内裂谷的沉积岩,它们很可能与Rodinia裂解有关。沉积学和古生物学特征表明元古宙华北陆块不同华南陆块,而与西伯利亚陆块相似。据此可以认为华北陆块是Rodinia超大陆的一部分,它位于超大陆的边缘,可以不与华南陆块紧邻,而与西伯利亚陆地较近。 相似文献
8.
对额尔古纳地块新元古代花岗岩进行了锆石LA-ICP-MS U-Pb年代学、岩石地球化学和锆石Hf同位素研究,以便对其新元古代岩浆作用历史与微陆块构造属性给予制约.所测花岗质岩石中锆石的CL图像特征和Th/U比值(0.17~1.46) 显示其为岩浆成因.测年结果并结合前人定年结果,可以判定额尔古纳地块上至少存在~929 Ma、~887 Ma、~850 Ma、~819 Ma、~792 Ma、~764 Ma和~738 Ma岩浆事件.岩石地球化学特征显示,~887 Ma花岗岩为一套后碰撞花岗岩类;而850~737 Ma花岗质岩石整体上属于A-型花岗岩,也有部分岩体(漠河、阿木尔、碧水和室韦岩体)显示I-型花岗岩特征.锆石Hf同位素特征反映这些花岗岩的源区既有中-新元古代(TDM2=884~1 563 Ma)新增生地壳物质的部分熔融,同时伴有少量古老地壳物质的混染,也有残留的古老中基性下地壳物质的部分熔融.综合研究区新元古代侵入岩的地球化学特征,同时对比新元古代全球构造热事件,认为额尔古纳地块上新元古代岩浆活动记录了Rodinia超大陆形成和演化过程中的地壳响应:927~880 Ma的岩浆作用应是Rodinia超大陆汇聚造山的产物;而850~737 Ma的岩浆作用应是对Rodinia超大陆快速裂解的记录.通过岩浆事件对比发现,额尔古纳地块与邻近的西伯利亚南缘微陆块(如中蒙古地块和图瓦地块)具有亲缘性,而与塔里木板块和华南板块至少在新元古代岩浆活动上具有一定的相似性,而明显区别于华北板块和西伯利亚板块. 相似文献
9.
十余年来,全球构造的核心课题是各期超级大陆的复原或再造。为了鉴别散布全球各地的克拉通、造山带及裂谷带是否具有亲缘关系,本文应用了地质DNA的概念。一个古老的陆壳块体必然会有许多独特的标志,类似于生物学领域的遗传基因,在母体分裂解体和离散之后被保留在子体之中。根据地质DNA的对比和异同,笔者确定华泰克拉通来源于Rodinia,并给出了其后续演化历程的路线图和时间表。与前人结论不同的是,华北地台、西伯利亚地台和劳伦古陆三者共同构成的古劳亚大陆不是Rodinia的一部分,而是与其并存的另一联合古陆。SWEAT设想的误区在于将落基山带代表整个北美,实际上就劳伦古陆和北美地台而言,落基山带只是一个外来移植地体。后者与华泰克拉通一样,均为Rodinia的组成部分。华泰与华北二克拉通的拼接,以及落基山带与北美地台的拼接,都是全球性的古劳亚与Rodinia构造拼接的组成部分。生物地层学的研究表明,此次拼接发生于536 Ma前后,这是形成真正超级大陆Pannotia的重大地质事件。寒武纪末期(510 Ma)Pannotia解体,原来的古劳亚大陆携带着华泰克拉通和落基山带,与古冈瓦纳大陆分离,并在其间的地域形成了南太平洋。直到奥陶纪晚期(440 Ma前后),古劳亚大陆分裂,华泰与华北二克拉通作为一个整体漂离加拿大地盾和北美内陆地台,同时形成北太平洋。所以,太平洋的形成不是原设想的720 Ma,而是510~440 Ma之后。 相似文献
10.
Evolution of the Western Margin of Australia during the Rodinian and Gondwanan Supercontinent Cycles
S.A. Wilde 《Gondwana Research》1999,2(3):481
The proto-Darling Fault zone and its successor, the Darling Fault, extend for 1, 000 km along the western continental margin of Australia and appear to have been active at several periods during the geological past. Deformation commenced at 2,570 Ma and affected Late Archaean granitoids along the western margin of the Yilgarn Craton. Much of the later activity reflects events related to the accretion and breakup associated with the Rodinia and Gondwanaland supercontinent cycles.In the north, rocks of the Northampton and Mullingarra Complexes form part of a high-grade Grenvillian orogenic belt lying to the west of the Darling Fault, referred to as the Pinjarra Orogen. They underwent granulite facies metamorphism 1080 Ma ago and form part of the global collisional event that resulted in the amalgamation of Rodinia. These rocks extend southward beneath Phanerozoic sedimentary cover (the Perth Basin), where they are constrained to the east by the Darling Fault and to the west by the Dunsborough Fault, the latter marking the eastern boundary of the Leeuwin Complex.The Leeuwin Complex is a fragment of Pan-African crust that has traditionally been considered part of the Pinjarra Orogen. It is composed predominantly of upper amphibolite to granulite facies felsic orthogneisses derived from A-type, anorogenic granitoids. Conventional and SHRIMP U-Pb zircon geochronology has established that the granitoids evolved between 780 Ma and 520 Ma and were metamorphosed at 615 Ma. These events are equated with rifting associated with the breakup of Rodinia. Sm-Nd whole rock data support the juvenile nature of the crust and provide no evidence for the involvement of pre-existing Archaean continental material.During the Phanerozoic, the Dunsborough and Darling Faults were reactivated, as normal faults defining the inner arm of a major rift system within Eastern Gondwanaland and controlling sedimentation in the Perth Basin that now overlies the Grenvillian terrane. Major normal movement on the Darling Fault ceased by the Late Jurassic and it appears that continental breakup in the Early Cretaceous occurred along fractures closely related to the western boundary of the Leeuwin Complex that defined the eastern margin of the outer arm of the rift system. Breakup between Australia and Greater India commenced at 132 Ma and was followed by eruption of the Bunbury Basalt at 130 Ma and 123 Ma. This possibly resulted from hot spot activity beneath Eastern Gondwanaland and may have been a reflection of the Kerguelen plume, though the evidence is equivocal.It is argued from the petrographic, geochemical and isotopic characteristics, together with the likely contiguity of the Eastern Gondwanaland continents since the assembly of Rodinia, that the Leeuwin Complex evolved within an intracrustal rift and is not an exotic terrane. It is distinct from adjacent portions of the Pinjarra Orogen and should be considered a separate terrane. It is recommended that use of the term ‘Pinjarra Orogen’ be confined to rocks recording the Grenvillian events, thereby excluding those rocks (the Leeuwin Complex) that evolved during the later Pan-African orogeny. 相似文献
11.
北大巴山凤凰山岩体锆石U Pb LA ICP MS年龄及其构造意义 总被引:1,自引:0,他引:1
北大巴山凤凰山岩体是扬子陆块北缘典型的新元古代侵入岩群,对采自岩体的6个花岗岩(闪长岩)样品进行了LA-ICP-MS锆石U-Pb同位素定年分析。定年数据显示,岩浆活动可分为早期(797±6Ma)、中期(770±6Ma、774±5Ma)、晚期(755±6Ma、750±13Ma和743±6Ma)三个阶段,证实凤凰山岩体为多期岩浆侵入形成。这几期岩浆活动在扬子陆块具同步性和普遍性,广泛被记录在黄陵、汉南等其它新元古代杂岩中。凤凰山花岗岩完整记录了扬子陆块北缘南华纪初期的区域拉张—裂陷事件,其形成可能与导致Rodinia超大陆裂解作用的幕式地幔柱活动有关。本次研究对认识扬子陆块新元古代地壳生长与再造过程及Rodinia超大陆裂解机制具有重要意义。 相似文献
12.
中国新元古代大陆拼合与Rodinia超大陆 总被引:46,自引:0,他引:46
在对前人研究成果分析的基础上,结合对中祁连块块前寒武纪基底的研究,认为新元古代(1000-9000Ma)中国各主要克拉通地块(包括华夏地块、扬子地块、华北地块、阿拉善-祁连-柴达木地块、塔里木地块)曾经通过晋宁期碰撞拼合带发生过一次全面的多块体复杂拼贴。这次拼贴过程是全球性新元古代格林威尔碰撞造山作用和Rodinia超大陆形成过程的一个组成部分。新元古代拼合的古中国地块在当时位于Rodinia超大陆中北部澳大利亚、劳伦提亚和西伯利亚克拉通地块之同。中国的各主要克拉通地块只不过是巨型格林威尔碰撞带之中夹裹的一些小型地块,且都处于新元古代晚期Rodinia超大陆破裂的中心部位,这些正是中国大陆上克拉通地块活动性大的早期地质背景。 相似文献
13.
14.
XU Yadong ZHANG Kexin HE Weihong YU Yang KOU Xiaohu SONG Bowen LUO Mansheng WANG Lijun MA Zhongjie YANG Fengli 《《地质学报》英文版》2020,94(4):914-941
The continent of China developed through the coalescence of three major cratons(North China, Tarim and Yangtze) and continental micro-blocks through the processes of oceanic crust disappearance and acceretionary-collision of continental crusts. The strata of the Chinese continental landmass are subdivided into 12 tectonic-strata regions. Based on the composition of geological features among the three main cratons, continental micro-blocks and other major global cratons, their affinities can be preliminarily deduced during the Tonian period, using evidence from sedimentary successions, paleobiogeography, tectonic and magmatic events. The Yangtze and Tarim cratons show that they have close affinities during the assembly-dispersal milestone of the Rodinia Supercontinent. The sedimentary record and magmatic age populations in the blocks suggest that there was a widespread, intensive magmatic event that resulted from a subduction process during ~1000–820 Ma, related to continental rifting around the Yangtze and Tarim cratons. However, they differ greatly from the North China Craton. The continental micro-blocks in the Panthalassic Ocean could have some missing connection with the North China Craton that persisted until the Middle-Late Devonian. In contrast, the Alxa Block showed a strong affinity with the Tarim Craton. The revised Tonian paleogeography of the Rodinia Supercontinent is a good demonstration of how to show the relationship between the main cratons and the continental micro-blocks. 相似文献
15.
高温低压变质岩的形成要求高的热梯度(>30℃/km),所对应的构造环境一直受到地质学界的关注.本文总结了我们对华南陆块北缘新元古代Rodinia超大陆裂解(breakup)时期形成的变质花岗岩和变质玄武岩所进行的岩石学和地球化学研究成果,强调大陆裂断(rift)带是形成高温低压变质岩最可能的构造环境.高温低压变质作用主要记录在含铝硅酸盐矿物的变质花岗岩中,其中所含的红柱石和夕线石为变质成因,由白云母脱水反应产生.根据含铝硅酸盐矿物的峰期矿物组合和视剖面计算,得到变质温压条件为560~660℃/1.0~3.5 kbar.变质红柱石具有非常负的δ18O值,并且与岩浆锆石处于氧同位素不平衡状态,进一步证明它是岩浆结晶后变质作用的产物.变质榍石U-Pb定年得到高温低压变质作用的年龄为751±11 Ma,与Rodinia超大陆裂解峰期年龄一致.变质玄武岩显示岛弧型微量元素分布特征,指示其源区为受俯冲大洋地壳来源流体交代的地幔楔,因此地幔源区形成于格林威尔期Rodinia超大陆聚合过程中.由此可见,导致超大陆裂解的大陆裂断是在古俯冲带基础上发育的.通过对比形成变质峰期矿物组合所需的热流值和变质花岗岩中产热元素提供的热流值,得知大陆裂断带确实存在来自软流圈地幔的异常高热流,这使得超大陆裂解过程可以发育高温低压变质作用. 相似文献
16.
塔里木陆块周缘的新元古界地层记录了涉及Rodinia聚合和裂解的构造热事件,但塔里木在Rodinia超大陆中的位置以及在Rodinia裂解后如何运动尚无定论.采用收集的古地磁数据,并结合塔里木西北缘阿克苏地区的野外工作以及塔里木周缘代表性岩石如A型花岗岩、基性岩墙群、大陆溢流玄武岩和双峰式火山岩等的同位素年代学数据,将塔里木陆块从Rodinia超大陆中裂解的时间限制在830~ 700 Ma BP.之后,塔里木陆块随澳洲板块一起加入冈瓦纳大陆.约在450Ma BP,塔里木陆块和澳洲板块发生分离,并快速北漂,最终在晚古生代加入劳亚大陆.新元古代—早古生代,塔里木陆块整体上从北半球较高纬度向南半球漂移,并在奥陶纪向北半球快速回返. 相似文献
17.
A Cordilleran model for the evolution of Avalonia 总被引:2,自引:0,他引:2
Striking similarities between the late Mesoproterozoic–Early Paleozoic record of Avalonia and the Late Paleozoic–Cenozoic history of western North America suggest that the North American Cordillera provides a modern analogue for the evolution of Avalonia and other peri-Gondwanan terranes during the late Precambrian. Thus: (1) The evolution of primitive Avalonian arcs (proto-Avalonia) at 1.2–1.0 Ga coincides with the amalgamation of Rodinia, just as the evolution of primitive Cordilleran arcs in Panthalassa coincided with the Late Paleozoic amalgamation of Pangea. (2) The development of mature oceanic arcs at 750–650 Ma (early Avalonian magmatism), their accretion to Gondwana at ca. 650 Ma, and continental margin arc development at 635–570 Ma (main Avalonian magmatism) followed the breakup of Rodinia at ca. 755 Ma in the same way that the accretion of mature Cordilleran arcs to western North America and the development of the main phase of Cordilleran arc magmatism followed the Early Mesozoic breakup of Pangea. (3) In the absence of evidence for continental collision, the diachronous termination of subduction and its transition to an intracontinental wrench regime at 590–540 Ma is interpreted to record ridge–trench collision in the same way that North America's collision with the East Pacific Rise in the Oligocene led to the diachronous initiation of a transform margin. (4) The separation of Avalonia from Gondwana in the Early Ordovician resembles that brought about in Baja California by the Pliocene propagation of the East Pacific Rise into the continental margin. (5) The Late Ordovician–Early Silurian sinistral accretion of Avalonia to eastern Laurentia emulates the Cenozoic dispersal of Cordilleran terranes and may mimic the paths of future terranes transferred to the Pacific plate.This close similarity in tectonothermal histories suggests that a geodynamic coupling like that linking the evolution of the Cordillera with the assembly and breakup of Pangea, may have existed between Avalonia and the late Precambrian supercontinent Rodinia. Hence, the North American Cordillera is considered to provide an actualistic model for the evolution of Avalonia and other peri-Gondwanan terranes, the histories of which afford a proxy record of supercontinent assembly and breakup in the late Precambrian. 相似文献
18.
从罗迪尼亚到冈瓦纳超大陆——对新元古代超大陆研究几个问题的思考 总被引:24,自引:2,他引:22
概略介绍了中—新元古代罗迪尼亚和冈瓦纳超大陆研究工作取得的主要进展 ,简要总结了中国中部年轻造山带和相邻克拉通区新元古代早期陆块汇聚和嗣后所发生的裂解地质记录的特征和时代 ,指出中国新元古代重大热构造事件所发生的时间滞后于北美格林威尔造山运动 ,二者不是同一时代。同时根据中国西部已获得的不少 60 0~ 5 0 0Ma之间的同位素年代学信息 ,强调不应忽视泛非期超大陆事件对我国西部地区的影响。在研究中国大陆新元古代地质时 ,应通过比较大地构造地质学的研究 ,立足于中国的实际 ,重视全球构造研究 ,推进超大陆研究工作 相似文献
19.
康滇地轴元古代成矿作用对Rodinia事件的响应 总被引:2,自引:0,他引:2
中一新元古代,全球发生了重大的Rodinia超大陆地质事件。近年研究表明,中国在华南板块发生的晋宁造山运动是Rodinia事件的重要组成部分。大量研究数据显示,康滇地轴前寒武纪地层中所形成的金属矿床大多集中在900~700Ma间。这些矿床的形成与大规模基性、酸性岩浆活动密切相关,与晋宁一澄江运动构造一热液作用密切相关,显示构造环境由挤压向拉伸发展,这正是全球Rodinia超大陆由汇聚转变为裂解的重要时期。本文从同位素地质年代学、沉积环境方面探讨该时期的成矿作用对Rodinia事件的响应,铀成矿作用与Rodinia事件的关系。 相似文献