云南峨山地区东川群黑山组流纹质碎斑熔岩锆石U－Pb年龄及其地质意义          下载免费PDF全文

刘军平  曾文涛  孙柏东  胡绍斌  关学卿  孙志明  王伟  宋冬虎  吕勃烨 《沉积与特提斯地质》2018,38(3):99-105

滇中地区中元古界"昆阳群"、"东川群"的地层层序是长期争议的重大基础地质问题。本次在峨山地区东川群黑山组中发育的厚近5m厚的流纹质碎斑熔岩采集样品D0023一件,选出120余粒锆石,获得的锆石LA-ICP-MS U-Pb加权平均年龄为(1569. 2±4. 5) Ma。样品锆石的Th/U值均大于0. 5,具有清晰的振荡环带结构,均为岩浆成因的锆石,表明东川群黑山组形成于中元古代早期,属非造山相关的火山岩系,可能是哥伦比亚超大陆裂解作用在扬子陆块的响应,为东川群的地层时代和层序研究增添了新资料。  相似文献   

Provenance and tectonic significance of late Mesoproterozoic detrital zircons from the Tonian system,northern margin of the North China Craton   总被引：1，自引：0，他引：1  

Xiaopeng Dong  Jianmin Hu  Wangbin Gong  Yong Yang  Yi Zhao 《International Geology Review》2018,60(15):1773-1791

The involvement of the North China Craton (NCC) in the assembly or breakup of Rodinia has long been debated. Studies of palaeomagnetism, mafic sills (dikes), igneous events, and sedimentary records have led to contrasting opinions on this topic. No igneous events related to the late Mesoproterozoic assembly of Rodinia have been reported in the NCC. However, the authors found numerous late Mesoproterozoic zircons in the Tonian system on the northern margin of the NCC. The Tonian Zhulazhagamaodao formation is composed of meta-sandstone, siltstone, slate, carbonate, and dolomine of the littoral to neritic facies and occurs mainly in the western part of the Bayan Obo–Zhaertai–Langshan rift. U–Pb dating of detrital zircons from the Tonian system reveals age peaks at 1079 ± 23 Ma, 1092 ± 22 Ma, 1175 ± 50 Ma, 1175 ± 18 Ma, 1260 ± 45 Ma, 1266 ± 16 Ma, and 1270 ± 26 Ma, which correspond to the timing of Rodinia assembly. Considering that coeval igneous rocks and orogenic belts developed mostly in the Laurentia–Baltica cratons, we propose that these cratons supplied clastic material to the northern margin of the NCC and that they had a close spatial relationship between each other during the Tonian.  相似文献   

Depositional age and correlation of the Oonah Formation: refining the timing of Neoproterozoic basin formation in Tasmania     

J. A. Mulder  R. F. Berry  J. A. Halpin  S. Meffre  J. L. Everard 《Australian Journal of Earth Sciences》2018,65(3):391-407

The Proterozoic Oonah Formation comprises a thick sequence of turbidites and mafic rocks that is widely exposed in western and northern Tasmania. The regional significance of the Oonah Formation is poorly understood as its contacts are faulted and estimates of its depositional age range from 1450 Ma to 700 Ma. Here we refine the depositional age of the Oonah Formation and clarify its relationship to other Proterozoic sequences in Tasmania. Magmatic apatite from the syn-sedimentary Cooee Dolerite has a ²⁰⁷Pb-corrected ²³⁸U/²⁰⁶Pb age of 733 ± 9 Ma that provides a robust estimate of the depositional age of the Oonah Formation. The Oonah Formation contains abundant 750 Ma detrital monazite and has detrital zircon age populations at 1800–1700 Ma, 1590 Ma, and 1450 Ma. The new age and provenance data support the interpretation that the Oonah Formation is a lateral equivalent of the base of the Togari Group and correlatives in Tasmania. We demonstrate that the stratigraphy and provenance of Neoproterozoic strata in Tasmania differ from time-equivalent sequences in Adelaide Rift Complex but are similar to the Pahrump Group (Death Valley, California) and the Cobham Formation (Transantarctic Mountains), which supports a southwest Laurentia—Tasmania—East Antarctica connection within supercontinent Rodinia.  相似文献   

滇中峨山地区中元古界昆阳群黑山头组火山岩锆石U-Pb年龄及其地质意义   总被引：2，自引：1，他引：1  

刘军平  曾文涛  徐云飞  胡绍斌  孙柏东  宋冬虎  吕勃烨  王伟 《地质通报》2018,37(11):2063-2070

滇中玉溪—昆阳一带广泛出露的中元古界昆阳群是一套与晋宁运动密切相关的浅变质火山-沉积岩系,其形成时代、沉积充填序列及大地构造属性一直存在争议。出露于峨山县美党地区的昆阳群黑山头组富良棚段发育有厚近百米的安山质熔结凝灰岩、晶屑凝灰岩、玄武岩及岩屑凝灰岩。对样品D0121-1及D0121-2进行同位素年代学研究,分别获得LA-ICP-MS锆石U-Pb年龄加权平均值为1007±13Ma和1005±18Ma;同时,样品D0121-2中还获较多的2200±15Ma继承性锆石,推测滇中地区应存在古元古代的地质体。2件样品锆石的Th/U值均大于0.3,均具清晰的振荡环带结构,均为岩浆成因的锆石,表明黑山头组富良棚段形成于中元古代晚期,属于与造山作用相关的火山岩系,可能是罗迪尼亚超大陆事件在扬子陆块的响应,是全球格林维尔期造山过程的组成部分。  相似文献   

Detrital zircon geochronology of the Lützow-Holm Complex,East Antarctica: Implications for Antarctica–Sri Lanka correlation     

《地学前缘(英文版)》2018,9(2):355-375

The Lützow-Holm Complex (LHC) of East Antarctica has been regarded as a collage of Neoarchean (ca. 2.5 Ga), Paleoproterozoic (ca. 1.8 Ga), and Neoproterozoic (ca. 1.0 Ga) magmatic arcs which were amalgamated through the latest Neoproterozoic collisional events during the assembly of Gondwana supercontinent. Here, we report new geochronological data on detrital zircons in metasediments associated with the magmatic rocks from the LHC, and compare the age spectra with those in the adjacent terranes for evaluating the tectonic correlation of East Antarctica and Sri Lanka. Cores of detrital zircon grains with high Th/U ratio in eight metasediment samples can be subdivided into two dominant groups: (1) late Meso- to Neoproterozoic (1.1–0.63 Ga) zircons from the northeastern part of the LHC in Prince Olav Coast and northern Sôya Coast areas, and (2) dominantly Neoarchean to Paleoproterozoic (2.8–2.4 Ga) zircons from the southwestern part of the LHC in southern Lützow-Holm Bay area. The ca. 1.0 Ga and ca. 2.5 Ga magmatic suites in the LHC could be proximal provenances of the detrital zircons in the northeastern and southwestern LHC, respectively. Subordinate middle to late Mesoproterozoic (1.3–1.2 Ga) detrital zircons obtained from Akarui Point and Langhovde could have been derived from adjacent Gondwana fragments (e.g., Rayner Complex, Eastern Ghats Belt). Meso- to Neoproterozoic domains such as Vijayan and Wanni Complexes of Sri Lanka, the southern Madurai Block of southern India, and the central-western Madagascar could be alternative distal sources of the late Meso- to Neoproterozoic zircons. Paleo- to Mesoarchean domains in India, Africa, and Antarctica might also be distal sources for the minor ∼2.8 Ga detrital zircons from Skallevikshalsen. The detrital zircons from the Highland Complex of Sri Lanka show similar Neoarchean to Paleoproterozoic (ca. 2.5 Ga) and Neoproterozoic (ca. 1.0 Ga) ages, which are comparable with those of the LHC, suggesting that the two complexes might have formed under similar tectonic regimes. We consider that the Highland Complex and metasedimentary unit of the LHC formed a unified latest Neoproterozoic suture zone with a large block of northern LH–Vijayan Complex caught up as remnant of the ca. 1.0 Ga magmatic arc.  相似文献   

沉积岩型层状铜矿床研究进展   总被引：11，自引：0，他引：11  

刘玄  范宏瑞  胡芳芳  杨奎锋  邱正杰 《地质论评》2015,61(1):45-63

沉积岩型层状铜矿床是全球第二重要的铜矿类型,重要性仅次于斑岩型铜矿床。并且,它们常伴生一定规模的钴、银、铅、锌、铀、金、铂族元素等其他金属资源。其矿体通常呈层状、似层状发育在沉积盆地的还原性岩石或地层中。大多数沉积岩型层状铜矿床形成于围岩的成岩作用或者成岩晚阶段,但也经常会受到成矿后变质作用、变形作用的改造,发生成矿物质的活化一再沉淀。原生成矿作用的发生通常要经历成矿流体(低温、中—高盐度、含硫)在矿体下盘的红层中持续、长期的循环,萃取铜等金属元素,随后沿着盆地边界断裂迁移至盆地还原性地层中或者被迁移的还原性物质(石油、天然气)还原而发生铜等成矿物质的沉淀。超大规模的层状铜矿化可能对应地球地质历史时期特殊的地质事件和地质条件,其中包括超大陆裂解、炎热干旱的古气候、大氧化事件以及冰期和富镁的海洋等。  相似文献   

Geochemistry and Tectonic Setting of Mafic Igneous Units in the Neoproterozoic Katangan Basin, Central Africa: Implications for Rodinia Break-up   总被引：1，自引：0，他引：1  

A.B. Kampunzu  F. Tembo  G. Matheis  D. Kapenda  P. Huntsman-Mapila 《Gondwana Research》2000,3(2)

Geochemical compositions of mafic igneous rocks in the Katangan basin in Central Africa (Democratic Republic of Congo, hereafter Congo, and Zambia) provide the basis for the geodynamic interpretation of the evolution of this Neoproterozoic basin located between the Congo and Kalahari cratons. The Katangan basin is subdivided into five major tectonic units: the Katangan Aulacogen, the External Fold and Thrust Belt, the Domes Region, the Synclinorial Belt and the Katangan High. The metamorphosed mafic igneous rocks investigated occur in the Katangan Aulacogen, the External Fold and Thrust Belt and the Domes Region. The earliest magmatic activity produced continental tholeiites emplaced on Paleoproterozoic crust during the early stages of intraplate break-up. This continental tholeiite magmatism was followed by an association of alkaline and tholeiitic basalts emplaced in the Katangan continental rift and then by tholeiitic basalts with E-MORB affinity marking a young oceanic crust. These volcanic associations mark different stages of evolution from pre-rift continental break-up up to a continental rift similar to the East African rift system and then to a Red Sea type incipient oceanic rift. A similar evolution occurs in the Damaran basin in southwestern Africa, although no pre-rift continental tholeiites have been recorded in this segment of the Pan-African belt system.  相似文献   

华北克拉通中元古界底界年龄与盆地性质讨论   总被引：14，自引：0，他引：14  

乔秀夫  王彦斌 《地质学报》2014,88(9):1623-1637

国际地层委员会将中元古界底界界线年龄定为1600Ma,1600~1400Ma为Calymmian(盖层系),表示全球地台盖层形成时期。华北地台基底固结时间为1800Ma,固结后即进入伸展裂解作用时期,首先是山西吕梁山区、晋南中条山、豫西熊耳山区裂解发展成三叉裂陷槽(Aulacogen)。吕梁山区小两岭组火山岩形成年龄有1778±20Ma(SHRIMP U-Pb锆石)及1779±20Ma(LA-ICP-MS U-Pb锆石)两个数值;豫西熊耳群顶部马家河组和中部鸡蛋坪组及下部许山组火山岩年龄分别为1776±20Ma、1791±20Ma和1783±13Ma(SHRIMP U-Pb锆石),1776~1800Ma为火山岩的形成年龄;将1800Ma作为小两岭组与熊耳群两个火山岩组的底界年龄应当是合理的。吕梁山区的汉高山群为碎屑岩夹火山岩,代表吕梁-陕豫三叉裂陷槽北支中的快速充填,与小两岭组为同时期沉积。汉高山群、大古石组(熊耳群底部沉积岩)为1800Ma裂解开始的盖层沉积,小两岭组火山岩、相关的辉绿岩墙及熊耳群火山岩均为裂解时期的岩浆作用产物。北京密云环斑花岗岩侵位时间为1700Ma,代表燕山-太行山裂陷槽裂解的起始时间也即燕山地区长城系常州沟组底界年龄。北京密云地区环斑花岗岩风化壳上覆常州沟组年龄可确定为1650Ma,它不应被看作常州沟组最低层位的年龄,而是裂陷槽裂解后密云地区开始接受沉积的年龄,1700Ma、1650Ma代表常州沟组在不同地区的底界年龄,但均不等于长城系或中元古界的底界年龄。1600Ma为高于庄组底界年龄,即长城系与蓟县系的界线年龄,也是国际地层委员会中元古界的底界年龄。1600Ma代表燕山-太行山裂陷槽闭合的年龄,也是华北地台始自1800Ma伸展裂解作用的最终结束时期。1600Ma是新的陆表海盆地发展的起始时间,是重要的华北地台构造转换的时期。因此,1800与1600Ma代表华北地台重大地质构造事件的年龄,具大区域构造意义,依据对前寒武系界线年龄确定的原则,两个年龄值均可被选择为中元古界底界的界线年龄。但本文赞同中国全国地层委员会采用1800Ma作为中元古界的底界年龄,因其更符合中国的地质构造实际:华北地台裂解-克拉通内裂陷槽中的盖层充填,底界为1800Ma。华北地台中元古界盆地在不同时期,它的构造性质完全不同:1800~1600Ma为裂陷槽;1600~1400Ma发展成陆表海;1400~1300Ma转化为弧后盆地;1800Ma、1600Ma及1400Ma代表中元古代三个重要的区域构造转换的时间点。  相似文献   

中国华泰克拉通与Rodinia          下载免费PDF全文

王荃 《地质科学》2014,(1):1-18

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   

Did natural fission of 235U in the earth lead to formation of the supercontinent Columbia?     

John J.W.Rogers 《地学前缘(英文版)》2012,3(4):369-374

Steady decline in the percentage of 235U in terrestrial uranium made natural fission impossible after about 1.8 Ga.Fission before 1.8 Ga disturbed the lead isotope system at various places worldwide,su...  相似文献