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1.
The Meso-Cenozoic geodynamic evolution of the eastern Pontides orogenic belt provides a key to evaluate the volcanogenic massive sulfide (VMS) deposits associated with convergent margin tectonics in a Cordilleran-type orogenic belt. Here we present new geological, geochemical and zircon U–Pb geochronological data, and attempt to characterize the metallogeny through a comprehensive overview of the important VMS mineralizations in the belt. The VMS deposits in the northern part of the eastern Pontides orogenic belt occur in two different stratigraphic horizons consisting mainly of felsic volcanic rocks within the late Cretaceous sequence. SHRIMP zircon U–Pb analyses from ore-bearing dacites yield weighted mean 206Pb/238U ages ranging between 91.1 ± 1.3 and 82.6 ± 1 Ma. The felsic rocks of first and second horizons reveal geochemical characteristics of subduction-related calc-alkaline and shoshonitic magmas, respectively, in continental arcs and represent the immature and mature stages of a late Cretaceous magmatic arc. The nature of the late Cretaceous magmatism in the northern part of the eastern Pontides orogenic belt and the various lithological associations including volcaniclastics, mudstones and sedimentary facies indicate a rift-related environment where dacitic volcanism was predominant. The eastern Pontides VMS deposits are located within the caldera-like depressions and are closely associated with dome-like structures of felsic magmas, with their distribution controlled by fracture systems. Based on a detailed analyses of the geological, geophysical and geodynamic information, we propose that the VMS deposits were generated either in intra arc or near arc region of the eastern Pontides orogenic belt during the southward subduction of the Tethys oceanic lithosphere. 相似文献
2.
Nafiz Maden 《地学前缘(英文版)》2013,4(4):389-398
The numerical results of thermal modeling studies indicate that the lithosphere is cold and strong beneath the Black Sea basin.The thermal lithospheric thickness increases southward from the eastern Pontides orogenic belt(49.4 km) to Black Sea basin(152.2 km).The Moho temperature increases from 367℃in the trench to 978℃in the arc region.The heat flow values for the Moho surface change between 16.4 mW m-2 in the Black Sea basin and 56.9 mW m-2 in the eastern Pontides orogenic belt. Along the southern Black Sea coast,the trench region has a relatively low geothermal potential with respect to the arc and back-arc region.The numerical studies support the existence of southward subduction beneath the Pontides during the late Mesozoic-Cenozoic. 相似文献
3.
Yener Eyuboglu M.Santosh Francis O.Dudas Enver Akaryali Sun-Lin Chung Kemal Akdag Osman Bektas 《地学前缘(英文版)》2013,4(4):353-375
The eastern Pontides orogenic belt provides a window into continental arc magmatism in the Alpine-Himalayan belt.The late Mesozoic-Cenozoic geodynamic evolution of this belt remains controversial.Here we focus on the nature of the transition from the adakitic to non-adakitic magmatism in the Kale area of Gumushane region in NE Turkey where this transition is best preserved.The adakitic lithologies comprise porphyries and hyaloclastites.The porphyries are represented by biotite-rich andesites,hornblende-rich andesite and dacite.The hayaloclastites represent the final stage of adakitic activity and they were generated by eruption/intrusion of adakitic andesitic magma into soft carbonate mud.The non-adakitic lithologies include basaltic-andesitic volcanic and associated pyroclastic rocks. Both rock groups are cutting by basaltic dikes representing the final stage of the Cenozoic magmatism in the study area.We report zircon U-Pb ages of 48.71±0.74 Ma for the adakitic rocks,and 44.68±0.84 Ma for the non-adakitic type,suggesting that there is no significant time gap during the transition from adakitic to non-adakitic magmatism.We evaluate the origin,magma processes and tectonic setting of the magmatism in the southern part of the eastern Pontides orogenic belt.Our results have important bearing on the late Mesozoic-Cenozoic geodynamic evolution of the eastern Mediterranean region. 相似文献
4.
新疆东昆仑鸭子泉蛇绿岩的基本特征及其大地构造意义 总被引:19,自引:2,他引:17
鸭子泉蛇绿岩位于新疆东昆仑祁漫塔格山系中部, 与阿尔金断裂平行产出, 由超基性岩、基性岩和拉斑玄武岩等组成。它侵位于早石炭世含放射虫的深海沉积物中, 可能代表了东昆仑祁漫塔格地区晚古生代的板块俯冲带。蛇绿岩可能来源于俯冲带附近的由小型扩张中心形成的次生洋壳, 之后由于消减作用, 侵位到深海沉积物中, 形成了造山带中的蛇绿岩。 相似文献
5.
中国造山带动力学研究中的数值模拟应用与发展 总被引:1,自引:1,他引:0
数值模拟为造山带动力学研究提供了有效的量化工具,但即使研究人员根据造山带不同的动力问题进行针对性模拟,也很难对各种模型的优劣进行判断。文章在研究和分析国内外学者运用数值模拟研究中国造山带动力学成果的基础上,系统总结了造山带动力学数值模拟的方法及研究成果,并对未来的研究方向及趋势进行了展望。与国外造山带研究相比,中国复杂造山带的数值模拟研究仍存在不足,需要加强洋—陆俯冲模拟结果与实际地质情况的对比力度。运用多场耦合以及高精度模拟和高级求解方法相结合的数值模拟是造山带动力学模拟研究的趋势。 相似文献
6.
The genesis of the slab window-related Arzular low-sulfidation epithermal gold mineralization (eastern Pontides, NE Turkey) 总被引:1,自引:0,他引:1
The Arzular mineralization is one of the best examples of epithermal gold deposits in the eastern Pontides orogenic belt.The mineralization is hosted by the subduction-related basaltic andesites and is mainly controlled by E-W and NE-SW trending fracture zones.The main ore minerals are galena, sphalerite,pyrite.chalcopyrite.tetrahedrite and gold.Homogenization temperatures of fluid inclusions are between 130 and 295℃ for quartz and between 90 and 133℃ for sphalerite.Sulphur isotope values obtained from pyrite,galena and sphalerite vary between 1.2‰ and 3‰.indicating that sulphur belongs to magmatic origin and was derived from the Lutetian non-adakitic granitic intrusions in the region.Oxygen isotope values are between 15.0‰ and 16.7‰ and hydrogen isotope values are between -87‰ and -91‰ The sulphur isotope thermometer yielded temperatures in the range of 244-291℃ for the ore formation.Our results support the hypothesis that the Arzular mineralization is a low-sulfidation epithermal gold deposit associated with non-adakitic subduction- related granitic magmas that were generated by slab window-related processes in a south-dipping subduction zone during the Lutetian. 相似文献
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当前,增生型造山带和碰撞型造山带的研究均取得了丰富的成果和创新性认识。二者过渡期间常常发生陆壳俯冲。然而,该俯冲具有什么样的构造变形特点,并如何影响造山带演化过程,长期未受到足够的关注。基于此,文中选择曾发生了陆壳俯冲的两个新生代时期的造山带(中国台湾造山带和雅鲁藏布江造山带)和一个中生代时期的造山带(羌塘造山带)开展研究,以期阐明陆壳俯冲的独特构造变形特征以及和造山过程的交互作用。研究发现,陆壳俯冲常常在造山带形成双层结构,上部为一套由史密斯地层组成的逆冲叠瓦扇构造体系,下部为一套具“岩块–基质”结构特征的俯冲杂岩。双层结构的上下部分物质组成相似,均以斜坡相–海底扇相沉积为主,也有陆棚相沉积。因此,由于构造变形时间相近,双层结构应是由同一套被动陆缘物质俯冲形成的深浅不同的构造体系。研究认为,在陆壳俯冲过程中,早期的斜坡–海底扇俯冲是形成双层结构的主要因素。后续的陆棚俯冲则对碰撞作用的发生起到了主导作用,从而使应变逐渐向克拉通内部扩展,形成前陆褶皱–冲断带。随着碰撞作用的持续,双层结构常常遭到构造破坏,深部的俯冲杂岩因此得以剥露至浅表。因此,文章的研究强调了陆壳俯冲和深俯冲物质的折返在造山带演化中的重要意义。 相似文献
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秦昆结合部独特的地质组成与复杂的造山带结构受到广泛关注。前人对该地区沉积物质来源进行了初步分析,但存在较大争议。选取隆务河组碎屑岩为研究对象,运用碎屑锆石LA-ICP-MS U-Pb同位素年代学方法,探讨隆务河组物源特征。U-Pb测年结果表明,隆务河组碎屑锆石年龄谱明显分为4组:2 746~2 084 Ma,1 094~775 Ma,492~411 Ma,372~237 Ma。其中,372~237 Ma年龄组约占总体的56.79%,所占比例最大,年龄相对集中,且呈现出强烈的峰值,代表了阿尼玛卿洋向北俯冲碰撞产生的一系列构造岩浆事件,其余年龄段所占比例则较少。综合分析显示,隆务河组碎屑沉积物质来源较为复杂,具有明显的多元性,存在祁连造山带、柴北缘构造带和东昆仑造山带3个物源区,其中东昆仑造山带提供了大部分物源,为隆务河组贡献最大的物源区。 相似文献
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缝合带是两个板块之间的分隔带,其规模和形态在不同类型的造山带中多有不同。本文从缝合带和缝合面的定义出发,以典型造山带为案例探讨缝合面的变形及其对造山带结构解析、沉积盆地性质判别的影响。俯冲阶段的主滑脱面是一个没有厚度的应变带,在碰撞后又作为增生杂岩的底界得以保留。这一界面严格区分了上盘和下盘沉积盆地之间的物源亲缘性,因而将之定义作为缝合面可有效帮助解析造山带不同位置盆地的性质。蛇绿岩带、高压变质岩带和大型断裂等线状要素仅能用以大致限定缝合带的位置,而不能用以精确限定缝合面的位置。不同于俯冲阶段相对平直的主滑脱面,缝合面的形态可以在碰撞过程中、甚至碰撞后被逆冲推覆和走滑所改造。在阿尔卑斯、喜马拉雅、东准噶尔等典型造山带中,缝合面都经历了向着前陆方向的远距离推覆及褶皱变形,这一变形的缝合面经历风化剥蚀过程后,在地表的形态呈复杂的指状交叉的特征,甚至由于飞来峰和构造窗的出现而呈现多个出露点。而在双向俯冲系统中,缝合面天然具有Z型的特征,经历后期变形后其形态会更加复杂。在苏鲁-大别造山带,多期次的后期变形叠加在早期的线状缝合面之上,特别是走滑断裂将包括缝合面在内的造山带切割为不连续的断夹块,极大地改造了缝合面在地表的出露形态。综上,在解析造山带结构,特别是进行沉积大地构造研究时,缝合面的复杂形态必须要得到重视。错误的缝合面位置可能造成错误盆地性质判断。 相似文献
10.
Yener Eyuboglu Sun-Lin Chung M. Santosh Francis O. Dudas Enver Akaryalı 《Gondwana Research》2011,19(2):413-429
The formation of the eastern Pontides orogenic belt has been widely assigned to a northward subduction of the Neotethyan oceanic slab during the late Mesozoic–Cenozoic. Here we provide an alternate model based on new geological, geochemical and isotopic data. The magmatic activity in the far south of the belt started in the early Campanian with shoshonitic trachyandesites and associated pyroclastics. This sequence is covered by the late Campanian–early Maastrichtian reefal limestones and another stage of high-K volcanism represented by analcimized leucite-rich ultrapotassic rocks of the Maastrichtian–early Paleocene (?) ages. The shoshonitic and ultrapotassic rocks, with K2O contents ranging from 0.26 to 6.95 wt.%, display broadly similar rare earth and multi-element distribution patterns. Both rock types are enriched in LILE and LREE and depleted in HFSE (Nb, Ta and Ti), suggesting a subduction-enriched mantle source for the magma generation. Subsequently, during the late Paleocene, a stage of acidic magmatism (SiO2 of 53.25–73.61 wt.%) that shows adakitic geochemical characteristics including high Sr/Y (46–416) and La/Yb (11–51) and low Y (2.6–12.2 ppm), is documented characterized by melting of a mafic source such as the MORB crust with garnet in the residue. The adakitic magmatism began at ~ 56 Ma and migrated toward the north through time, culminating with porphyritic andesites (~ 47 Ma) that were emplaced in the Gumushane–Bayburt line and its vicinity. North of this line, coeval magmas show typical calc-alkaline nature and continued to develop toward further north until the middle to late Eocene. Based on the spatial and temporal variations in the magmas generated in the eastern Pontides orogenic belt, we propose a new geodynamic model to explain the tectonomagmatic evolution of these rocks and correlate the adakitic magmatism to ridge subduction and slab window process within a south-dipping subduction zone. Our model is in contrast to the previous proposals which envisage partial melting or delamination of thickened lower continental crust due to the collision in the south during the Paleocene–Eocene. 相似文献
11.
阿尔金造山带中、新生代的演化 总被引:18,自引:2,他引:18
塔里木盆地东缘的阿尔金造山带中、新生代经历了一个复杂的大地构造演化历程:中生代早期(T)为隆升夷平,中生代中后期(J-K)为裂陷沉积阶段;自古新世一中新世因塔里木盆地向东挤压使得阿尔金造山带东南缘出现了右行走滑仰冲,柴达木壳体向阿尔金造山带之下俯冲,阿尔金造山带隆起。塔里木盆地相对柴达木盆地向北移动,最大距离可达400~500km,使得原来统一的塔里木-敦煌-柴达木联合盆地裂解。由于逆冲走滑使阿尔金造山带内部发育了一系列小型的走滑盆地,形成了复杂的盆地沉积建造,并伴有动力变质及火山作用;中新世末,东西向挤 相似文献
12.
山东鲁东碰撞造山型金矿成矿作用探讨 总被引:1,自引:0,他引:1
碰撞造山成矿作用是大陆动力学研究的重要内容,大地构造相编图是研究山东大陆块体离散、会聚、碰撞、造山的大陆动力学过程的主要载体和具体表达形式.作者在编制1:50万山东省大地构造相图时发现,鲁东地区中生代有两次重要的碰撞造山事件——印支和燕山碰撞造山作用.印支造山作用主要表现为扬子板块向华北板块俯冲,形成苏鲁高压-超高压变... 相似文献
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秦昆(秦岭-昆仑)结合区在不同地质背景基础上于柴达木东缘次级造山带南东段的拉龙洼和满丈岗地区发育了两期基性岩墙群,~(40)Ar/~(39)Ar定年结果分别为393.5Ma和197.5Ma,它们分别代表着东古特提斯洋北支及其北侧秦昆间共和坳拉谷的初始伸展离散和这一构造系统封闭碰撞造山后的伸展垮塌构造岩浆事件。结合区域资料进一步分析表明,晚古生代中晚期东昆南-阿尼玛卿和阿尼玛卿-文县-勉略两支裂谷发育成相互沟通的东古特提斯洋北支时,苦海-赛什塘一支发生“夭折”而形成共和坳拉谷,这一构造系统于三叠纪晚期各区段几乎是同时发生收缩、闭合、碰撞造山,东昆南-阿尼玛卿-文县-勉略有限洋盆的向北俯冲碰撞造山形成统一的秦昆造山带,共和坳拉谷的封闭使西秦岭与东昆仑完成了侧向间的衔接。本文的研究给这一秦昆衔接的动力学演化过程提供了时代依据。 相似文献
15.
青海南山侵入体岩石类型为二长花岗岩、花岗闪长岩及英云闪长岩,具俯冲型花岗岩类的地球化学特征。通过高精度的LA-ICP-MS(激光剥蚀等离子体质谱)单颗粒锆石微区U-Pb同位素年龄测定,分别在二长花岗岩、花岗闪长岩及英云闪长岩中获得446.1±3.5Ma、447.2±5.3Ma、443.6±8.6Ma的锆石U-Pb年龄值,为成岩年龄,代表了加里东运动在祁连造山带的地质记录。3种不同岩石类型的成岩年龄可能代表了拉脊山造山带向南俯冲的时代。青海南山地区俯冲型侵入体的形成时代及构造环境的确定,对研究拉脊山造山带的构造演化及动力学机制具有重要意义。 相似文献
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西南“三江”造山带由多条缝合带及其间多个大小不等的中间陆块构成,其大地构造属性与划分方案历来受地学界关注与争论。本文以大地构造相理论为切入点,将西南“三江”造山带划分出11个一级及其若干二级大地构造相,包括俯冲、消减杂岩、仰冲等一级大地构造相以及与其相伴的后造山及走滑大地构造相。俯冲大地构造相类包括块体变质相、前陆褶冲相、前陆盆地相;消减杂岩大地构造相包括洋壳残片相、陆壳残片相、增生变质杂岩相、活化基底相、侵入岩相、上叠磨拉石相;仰冲板块大地构造相包括弧前盆地相、岛弧相、弧后及弧间盆地相。特提斯洋向北消减,使泛华夏大陆群各块体先拼接,其后弧后扩张、闭合、造山,从而形成了“三江”造山带“多缝合带”、“多陆体”特征。 相似文献
18.
北祁连加里东造山带从挤压到伸展造山机制的转换 总被引:1,自引:0,他引:1
早古生代早期,北祁连造山带发生强烈的挤压变形作用,形成加里东期的俯冲-增生杂岩、高压变质岩,并使造山带岩石圈地壳加厚缩短。志留纪末期,加厚的造山带岩石圈由于垮塌作用及根部的拆沉作用,使造山带从挤压造山机制转换为伸展造山机制,并进入后造山伸展作用阶段,增厚的岩石圈开始减薄,发生不同层次的伸展作用,同时伴随花岗岩及An∈变质岩的穹隆以及泥盆纪磨拉石盆地上叠盆地(C-T)的形成。石炭纪末,北祁连造山带岩石圈地壳已基本减薄到正常厚度。而现今的北祁连造山带的缩短和抬升则为喜马拉雅期再造山作用的产物 相似文献
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The Eastern Pontides Orogenic Belt represents one of the best examples of fossil convergent margins in the eastern Mediterranean region. However, the origin and geodynamic setting of the late Mesozoic–Cenozoic magmatism in this belt remain controversial due to lack of systematic geological, geochemical and chronological data. The general consensus is that the late Mesozoic–Cenozoic igneous activity is related to northward subduction of oceanic lithosphere in the late Mesozoic and following collision between Tauride and Pontide blocks in the early Cenozoic. Here we present a comprehensive study focusing on the origin and geodynamic setting of gabbro bodies exposed along a narrow zone, parallel to the southeastern coast of the eastern Black Sea basin, in the Northern Zone of the Eastern Pontides Orogenic Belt.The studied gabbro bodies are hosted within late Cretaceous basaltic, andesitic, and dacitic volcanics including pyroclastic rocks and interbedded sedimentary rocks. The gabbro bodies range in size from 0.1 km2 to 1.5 km2, and outcrop patterns vary from round or elliptical to markedly elongate with sharp and discordant contact with the host rocks. Their mineral assemblage includes mainly clinopyroxene, plagioclase, minor olivine, amphibole, magnetite and rarely orthopyroxene, biotite, zircon and titanite. The occurrence of sutured grain boundaries on clinopyroxene and plagioclase, and the presence of reverse compositional zoning in clinopyroxene and olivine suggest mixing between magmas of contrasting compositions during mineral growth. Thermobarometric computations indicate that the temperature at the beginning of crystallization was ~ 1250 °C and crystallization was polybaric. Zircon and titanite U–Pb ages indicate that these small intrusions were emplaced into crustal rocks of the Eastern Pontides Orogenic Belt during Lutetian (45 ± 2 Ma). The depletion of HFSE is consistent with the involvement of an arc-related source in the petrogenesis of these rocks, and low to moderate enrichment Ce, Rb, Ba, K, Pb, Sr and Th suggests that involvement of subducted oceanic sediment was modest. The low Th content and low Th/Yb indicate that the role of sediment addition was nevertheless limited. The Nd, Sr and Pb isotopic data are consistent with the interpretation that the dominant source component in these gabbros is a depleted, peridotitic mantle, and that crustal contamination is relatively unimportant. We suggest that mafic magmas that produced the gabbroic intrusions were derived from melting of a depleted mantle source under the forearc region of the Eastern Pontides Orogenic Belt during southward subduction of two oceanic plates separated by a mid-ocean ridge, leading to the formation of a slab window. We also infer fractional crystallization and assimilation during both magma storage in the crust–mantle transition zone and transfer into the overlying arc crust. 相似文献
20.
The subduction polarity of Tethyan oceanic lithosphere during Jurassic is a controversial topic in relation to the geodynamic evolution of the Alpine–Himalayan system. We present new geological, geochemical and zircon U–Pb data from four different regions of the Eastern Pontides Orogenic Belt, a key area of the Alpine–Himalayan system. We discuss the origin of the magmatism and also the existence of an ocean in the eastern Mediterranean region during the Jurassic period. Jurassic intrusions, predominantly gabbro, tonalite and minor diorite, are well exposed in the southern and axial zones of the orogenic belt. Thermobarometry indicates that high-pressure (6–10 kb) crystallization of these intrusions occurred at temperatures of 1183–1250 °C. Zircon U–Pb dating from 10 samples show ages between 195 and 165 Ma, indicating that magmatism occurred between Sinemurian and Callovian time. We characterize the intrusions from electron microprobe, zircon geochronology, and whole rock and Sr, Nd, and Pb isotopes. Our data show that the studied intrusions are broadly tholeiitic, except for two calc-alkaline bodies, and formed in an arc-related setting with minimal involvement of older crust or sediment.The most widely accepted model proposes that the ultramafic–mafic rocks exposed between the Pontide arc and the Tauride belt are remnants of a Jurassic Penrose-type and/or suprasubduction zone ophiolite. However, new zircon U–Pb age data from mafic lithologies cutting the Kop ultramafic massif do not support this model and clearly indicate that the ultramafic lithologies are Paleozoic or older in age and are not remnants of a Jurassic ocean that known as ‘’Northern Branch of Neotehtys”. 相似文献