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1.
华北克拉通边界带区域深部结构的特征差异性及其构造意义 总被引:4,自引:1,他引:3
华北克拉通的显生宙破坏在空间上是高度不均匀的。克拉通自身岩石圈性质的横向差异及其周边块体的构造运动和相互作用,造成克拉通不同地区构造变形特征具有显著差异性。而这种差异性必然会在深部结构上留下印迹。因此,详细的深部结构信息能够为研究华北克拉通破坏的方式和动力学机制提供重要约束。对近年来基于华北内部结构计划(NCISP)密集流动地震台阵资料获得的华北克拉通边界带区域的深部结构图像进行介绍,并对比分析地壳、岩石圈结构和上地幔变形特征的区域变化,进而对克拉通破坏的空间差异性以及破坏的方式和过程做初步探讨。研究结果显示,华北克拉通东部的郯庐断裂带作为华北和扬子边界的构造薄弱带,具有克拉通全区最薄的岩石圈(~60 km)和明显减薄的地壳(<35 km),是克拉通东部岩石圈整体性减薄和破坏最强烈的区域;东北部燕山地区和西北部鄂尔多斯北边界区域都表现出厚、薄岩石圈共存和壳幔结构显著变化的特征,反映了这些地区岩石圈减薄和改造的空间不均匀性。燕山地区尖锐的Moho面、岩石圈结构和上地幔变形特征的小尺度变化可能是中生代多期挤压和晚中生代—新生代区域伸展共同作用的结果;而鄂尔多斯北边界附近稳定克拉通地区与新生代裂陷区壳幔结构的强烈差... 相似文献
2.
华北克拉通中生代破坏前的岩石圈地幔与下地壳 总被引:23,自引:11,他引:12
华北克拉通是世界上最古老的克拉通之一,有 38亿年的古老陆壳存在,它经历了复杂的地质变迁,在太古宙末(约2500Ma)基本完成克拉通化,在古元古代(约1900~1850Ma)整体受到了高级变质作用,最终完成了克拉通化。它的东部在中生代发生了重大的构造机制的转变,克拉通基底发生了破坏、置换和再造。在太行山重力梯度带以西的华北克拉通受中生代构造转折的改造程度较低,它们的下地壳和岩石圈地幔结构,大致保持了华北克拉通破坏前的状态。前寒武纪麻粒岩地体代表了掀翻抬升到地表的古元古代下地壳,出露地表的时间大致在1850~1800Ma。中、新生代火山岩中的地幔和麻粒岩捕虏体代表了现代的岩石圈地幔和下地壳的岩石。岩石学、地球化学和地球物理的研究,推测华北克拉通西部的岩石圈厚约200km,地壳厚度约45km~50km,是在古元古代(约1.9Ga)时期终极克拉通化作用形成的,其厚度和结构与全球典型的元古宙克拉通岩石圈相同。而太行山重力梯度带以东的克拉通岩石圈地幔受到程度不等的交代、改造、置换和减薄,下地壳大规模重熔,地壳厚度也发生减薄,指示了强烈的壳幔解耦、物质交换和重新耦合的过程。 相似文献
3.
华北克拉通晚中生代壳-幔拆离作用: 岩石流变学约束 总被引:6,自引:5,他引:1
大陆岩石圈的流变学结构对于岩石圈深部过程(壳/幔过程)有着深刻的影响,直接表现在岩石圈壳-幔结构与浅部构造上.本文注意到华北克拉通晚中生代岩石圈减薄期间地壳的伸展、拆离与减薄在不同地区的宏观、微观构造及地壳岩石流变学等方面的差异表现与区域变化,以及现今和晚中生代时期岩石圈厚度的不均匀性.讨论了以水为主体的地质流体的存在对于岩石圈流变性的影响.综合克拉通东部与西部地壳/地幔厚度变化特点以及下地壳和上地幔含水性特点,阐述了晚中生代时期华北克拉通岩石圈内部壳幔耦合与解耦的规律,提出了华北岩石圈壳-幔拆离作用模型以解释华北克拉通晚中生代岩石圈减薄的基本现象与深部过程.提出区域性伸展作用是岩石圈减薄的主要动力学因素,东部地区在晚中生代伸展作用过程中壳-幔具有典型的解耦性,上部地壳、下部地壳和岩石圈地幔的变形具有显著差异性.而西部区壳幔总体具有耦合性,下地壳与岩石圈地幔共同构成流变学强度很高且难以变形的岩石圈根. 相似文献
4.
华北克拉通东部是指大兴安岭—太行山重力梯度带以东的地区。该地区与东北及华南地区一样,也存在着岩石圈减薄和岩石圈破坏的现象。华北克拉通古生代与新生代的橄榄岩包体地热值分别为40mW/m~2和80mW/m~2,地热增高是岩石圈破坏的重要因素。中国东部—朝鲜半岛的GRACE卫星布格重力异常呈巨型环状展布,可能是地幔亚热柱所致。区内郯庐断裂带呈NNE向纵贯切割,最新的地震反射剖面成果反映,该断裂带以走滑为主,兼有逆冲和正断层,所组成的大型"花状"复杂断裂构造带,切穿地壳、莫霍面,直至岩石圈地幔,起到破坏岩石圈的作用。S波速成像结果证实,在苏鲁造山带下方,分布的碎块状波速扰动带延伸300km,应是中生代扬子板块走滑俯冲、断离、折返的产物;而在渤海湾盆地下方,下地幔也存在陡倾的破碎带,延伸300km,在岩石圈76km处及其深部,S波速降低,扰动很剧烈,可能是地幔柱头部呈粗大状的反映,故可认为渤海湾盆地是由蘑菇云状的地幔柱形成。再从华北克拉通的大陆根来看,东部为A型反时针pT轨迹麻粒岩分布,而中西部则为B型麻粒岩,这是因为东部新太古代绿岩带中赋存有科马提岩,其岩浆温度可高达1 600℃,如用幔柱构造模型解释成因最为合适。通过研究近年大量地震反射P波和S波层析资料,华北克拉通的东部在晚侏罗-早白垩世及新生代期间,受太平洋板块俯冲和地幔热柱上隆的相互作用,深部的地幔流体常沿构造破裂带运移,促使岩石圈拆沉,并发生热侵蚀作用,形成酸性大火成岩省(SLIP)、裂谷型盆地的广泛分布和成矿成藏作用的"大爆发"。由此认为,建立区域构造模型将有利于指导深部找矿工作。 相似文献
5.
壳幔物质与深部过程 总被引:13,自引:0,他引:13
文章对深部物质与过程的研究方法作了概述,对克拉通岩石圈根(或大陆根)的形成提出初步论证,并对造山带和裂谷带的深部状态作了进一步讨论。认为大陆根的形成主要完成于太古宙与古元古代时期,岩石圈地幔是分离出陆壳后的强亏损橄榄岩(贫Fe,Al,alk,挥发份),其低密度支撑的巨大浮力是克拉通构造上长期稳定的根本原因。提出青藏—喜马拉雅造山带可识别出三个类型的岩石圈:帕米尔型岩石圈冷根,念青唐古拉型相对薄的岩石圈和羌塘型温度相对高的岩石圈,可能分别代表碰撞造山的早期相、中期相和晚期相。提出地幔热柱可能有三种类型,分别来自400km界面、670km界面和核幔边界,对地幔热柱的识别作了概述,指出与造山带有关的岩浆活动不是地幔热柱在地表的表现,讨论了岩石圈减薄速率的类型及其对环境的长期效应。 相似文献
6.
大陆克拉通是地球表面上相对稳定的构造单元。从地热学的角度考虑,克拉通岩石圈的稳定意味着地表热流等于对流地幔岩石圈底部提供的热流加上岩石圈内部由放射性衰变产生的热量。太古代稳定克拉通一般具有冷的地热特征,且处于热平衡状态。打破克拉通热平衡的因素有多种,如岩石圈地幔的放射性生热、来自深部的地幔柱、板块俯冲等。华北是全球古老克拉通遭受破坏最明显和最典型的地区,其破坏与中生代太平洋板块向东亚的深俯冲密切相关。古太平洋板块快速俯冲并停滞在地幔转换带脱水、形成宽约1 000 km的低粘大地幔楔,导致地幔对流增强。在活跃地幔对流的热侵蚀与橄榄岩-熔体相互作用共同作用下,华北克拉通在中生代期间迅速减薄。经过中生代加热减薄的华北克拉通岩石圈强度显著变弱,在俯冲板块后撤作用下,岩石圈拉张并进一步减薄,地表热流升高。华北克拉通破坏是一个漫长的历程,期间大地热流的演化特征呈现出由中生代以前的低值演化至新生代的高值再过渡到现今的中等状态(接近全球大陆平均值)。 相似文献
7.
南海新生代构造演化及岩石圈三维结构特征 总被引:23,自引:2,他引:23
地震层析资料表明,南海地区,自红河口向南经南海、苏禄海到苏拉威西海,岩石圈速度低,底部横波速度仅4.4km/s,岩石圈厚度在60~80km之间,为薄岩石圈地区。软流层的速度也较低,在4.2-4.4km/s之间,但厚度较大,大于200km。从红河-莺歌海断裂带经南海到苏禄海,存在一条北西向宽约200km的上地幔北西向低速带,面波速度在4.05~4.25km/s之间。由上述资料可见,东亚大陆边缘及边缘海的上地幔存在一巨型低速带,在南海地区低速带的走向为北西向,在东海地区为北北西向。这种走向与地表的区域构造走向基本一致,反映这里新生代构造活动可能与地幔低速带分布有关,即上地幔低速带反映了岩石圈的区域流动。这类岩石圈区域流动引起岩石圈表层的张性构造,形成裂谷及稍后的海底扩张,在亚洲东部边缘形成一系列边缘海盆。 相似文献
8.
克拉通大陆通常有古老、巨厚且难熔的岩石圈地幔。这种地幔高度亏损玄武质组分,有密度低、刚性程度高的特点,能长期漂浮于软流圈之上而稳定存在。中国东部大陆主要由华北和华南两个古老地块在古生代—早中生代沿中央造山带拼合形成,在晚中生代时强烈活化,表现为构造变形、盆地形成、岩浆活动、巨量成矿等,其深部原因是什么?在分析东部大陆形成过程和岩石圈地幔属性基础上发现:块体初始规模小且发育薄弱带,后期容易受改造;特别是显生宙以来中国大陆受周边多个构造域夹持,板块俯冲作用会引起软流圈物质扰动和上涌并沿薄弱带侵蚀和改造上覆岩石圈,使之发生有效减薄、明显再富集和最终地幔置换。改造和置换后的岩石圈地幔富含玄武质组分,有较高密度和较低刚性程度,容易发生变形和部分熔融,使克拉通大陆活化。因此,块体规模大小并发育薄弱带以及周边构造环境是大陆稳定性控制重要的内、外在因素;中国东部大陆岩石圈显生宙强烈活化和地幔置换是由于块体规模较小而且周边多体系俯冲作用等内、外在有利因素协同作用下的结果。 相似文献
9.
从穿过华南陆块的6条P波地震层析剖面出发,综合引用海量出版物中部分成果,对华南岩石圈三维结构作了初步探讨。以川湘黔裂陷槽和钦杭断裂为界,可以将华南岩石圈分成三大部分。在钦杭断裂东南为华夏岩石圈。它是东南亚西太平洋低速带的一部分,它与东南亚西太平洋低速带的其他地区的共同特点是它们的岩石圈地幔都受到软流圈物质上升而被改造。部分地区幔源物质侵入地壳,形成丰富的矿藏。川湘黔裂陷槽以西的地区为上扬子岩石圈。它在地表是一个热块体,但在深部有延伸超过200 km的高速基底。上扬子岩石圈受到其西攀西地幔柱的改造,在壳幔过渡带产生峨眉山岩浆房,在古生代末曾引发玄武岩的大面积喷发,至今仍在滇西留有岩浆房,并产生丰富的热泉。在川湘黔裂陷槽与钦杭断裂之间的是中扬子岩石圈。中扬子在地表是一个冷块体,在湘中实测热流值低到小于20 mW m-2,根据热流值计算得到的岩石圈厚度达到300 km。具有低速、低电阻率特征。根据大地电磁测深得到的结果也与地热流计算得到的相似。 相似文献
10.
中国岩石圈的基本特征 总被引:11,自引:2,他引:9
中国及邻区岩石圈结构构造十分复杂,并具有若干明显的特点:中国大陆地壳西厚东薄、南厚北薄,青藏高原地壳平均厚度为60~65 km,最厚达80 km;东部地区一般为30~35 km,南中国海中央海盆平均只有5 km;中国大陆地壳平均厚度为476 km,大大超过全球地壳392 km的平均厚度。中国大陆及邻区岩石圈亦呈西厚东薄、南厚北薄的变化趋势,青藏高原及西北地区岩石圈平均厚度为165 km,塔里木盆地中东部、帕米尔与昌都地区岩石圈厚度可达180~200 km。大兴安岭-太行山-武陵山以东,包括边缘海为岩石圈减薄区,厚度为50~85 km。西部岩石圈、软流圈“层状结构”明显,反映了板块碰撞汇聚的动力学环境;东部岩石圈、软流圈呈“块状镶嵌结构”,岩石圈薄,软流圈厚,反映了地壳拉张、软流圈物质上涌的特点,并在东亚及西太平洋地区85~250 km深处形成一巨型低速异常体。中国东部上、下地壳及地壳、岩石圈地幔之间普遍存在“上老下新”年龄结构。 相似文献
11.
We have used Rayleigh wave dispersion analysis and inversion to produce a high resolution S-wave velocity imaging profile of the crust and uppermost mantle structure beneath the northeastern boundary regions of the North China Craton (NCC). Using waveform data from 45 broadband NCISP stations, Rayleigh wave phase velocities were measured at periods from 10 to 48 s and utilized in subsequent inversions to solve for the S-wave velocity structure from 15 km down to 120 km depth. The inverted lower crust and uppermost mantle velocities, about 3.75 km/s and 4.3 km/s on average, are low compared with the global average. The Moho was constrained in the depth range of 30–40 km, indicating a typical crustal thickness along the profile. However, a thin lithosphere of no more than 100 km was imaged under a large part of the profile, decreasing to only ~ 60 km under the Inner Mongolian Axis (IMA) where an abnormally slow anomaly was observed below 60 km depth. The overall structural features of the study region resemble those of typical continental rift zones and are probably associated with the lithospheric reactivation and tectonic extension widespread in the eastern NCC during Mesozoic–Cenozoic time. Distinctly high velocities, up to ~ 4.6 km/s, were found immediately to the south of the IMA beneath the northern Yanshan Belt (YSB), extending down to > 100-km depth. The anomalous velocities are interpreted as the cratonic lithospheric lid of the region, which may have not been affected by the Mesozoic–Cenozoic deformation process as strongly as other regions in the eastern NCC. Based on our S-wave velocity structural image and other geophysical observations, we propose a possible lithosphere–asthenosphere interaction scenario at the northeastern boundary of the NCC. We speculate that significant undulations of the base of the lithosphere, which might have resulted from the uneven Mesozoic–Cenozoic lithospheric thinning, may induce mantle flows concentrating beneath the weak IMA zone. The relatively thick lithospheric lid in the northern YSB may serve as a tectonic barrier separating the on-craton and off-craton regions into different upper mantle convection systems at the present time. 相似文献
12.
华北克拉通从稳定到破坏的演化过程对有关地球动力学的经典理论提出了挑战,研究其独特的演化历史是固体地球科学研究的一项重要内容。上地幔矿物晶体的各向异性记录了上地幔发生构造变形的信息,研究上地幔地震波各向异性能够揭示现今和构造历史时期所发生的构造运动。本文总结了近年来作者在华北克拉通地区所进行的高密度、覆盖广泛的地震波横波分裂观测研究结果。横波分裂的快轴方向与绝对板块运动方向的不一致,以及横波分裂参数快速的空间变化特征表明了华北克拉通的SKS横波分裂主要反映上地幔的变形。观测结果表明:鄂尔多斯块体保留了克拉通较弱的各向异性特征,其西端体现了元古代克拉通拼合的变形特征; 中新生代华北克拉通破坏事件以不同的机制主导了华北克拉通中部和东部的上地幔变形,在东部地区北西-南东向的拉张应力作用使得快轴方向平行于拉张方向,而在中部则因受到较厚岩石圈的阻挡使得地幔流动改变了方向,因此造成了北东和北北东向的岩石圈拉张。 相似文献
13.
We present a 3D thermochemical model of the North China Craton (NCC) from the surface down to 350 km by jointly inverting surface wave phase velocity data, geoid height, surface heat flow and absolute elevation with a multi-observable probabilistic inversion method. Our model reveals a thin (~ 65–100 km) and chemically fertile lithosphere (87 < Mg# < 90) beneath the Eastern NCC, consistent with independent results from mantle xenoliths, and supports the idea that the Eastern NCC experienced significant lithospheric destruction and refertilization during the Phanerozoic. In contrast, beneath the Trans-North China Orogen, Inner Mongolia Suture Zone and Yinshan belt, we observe a more heterogeneous (chemically and thermally) lithosphere, indicating that these areas have been partly involved in lithospheric modification and mechanical erosion at multiple scales. A cold and chemically refractory (Mg# > 90) lithospheric mantle is imaged beneath the central TNCO and Ordos Block, reaching depths > 260 km. This lithospheric “keel” is surrounded to the east by a high-temperature sublithospheric anomaly that originates at depths > 280 km. The spatial distribution of this anomaly and its correlation with the location of recent volcanism in the region suggest that the anomaly represents a deep mantle upwelling being diverted by the cratonic keel and spreading onto regions of shallow lithosphere. Our results indicate that the present-day thermochemical structure beneath the NCC is the result of a complex interaction between a large-scale return flow associated with the subduction of the Pacific slab and the shallow lithospheric structure. 相似文献
14.
华北陆块岩石圈减薄作用:热薄化与机械拉伸的数值模拟研究 总被引:18,自引:10,他引:8
针对华北陆块岩石圈减薄作用的动力学机制开展了一系列二维定量数值模拟研究。其模拟结果表明,在给定的岩石圈热传导和放射性生热条件下,岩石圈底部地幔热流(mantlethermalflux)的增加能导致岩石圈内热状态的明显改变,导致早古生代以来华北岩石圈厚度的巨大变化,当地幔热流达到35~40mWm-2,华北陆块的岩石圈厚度将减薄至100km以内。单纯的机械拉张同样能导致岩石圈厚度的薄化,但岩石圈厚度的减薄相对有限。即使拉张伸展率达25%,其岩石圈厚度最大减薄至150km。因此通过数值模拟的研究揭示了这样的事实,即华北陆块岩石圈厚度的减薄主要受制于岩石圈内热状态的变化,以热侵蚀的减薄方式为主,机械拉张作用可能对华北陆块岩石圈厚度的减薄作用有一定贡献。 相似文献
15.
Hong-Fu Zhang Ri-Xiang Zhu M. Santosh Ji-Feng Ying Ben-Xun Su Yan Hu 《Gondwana Research》2013,23(1):95-107
A comprehensive synthesis of U–Pb geochronology and Hf isotopes of zircons from granulite/pyroxenite xenoliths entrained in Phanerozoic magmatic rocks and inherited xenocrysts from the associated lower crust rocks from various domains of the North China Craton (NCC) provides new insights into understanding the Phanerozoic evolution of the lower crust in this craton. Episodic widespread magma underplating into the ancient lower crust during Phanerozoic has been identified throughout the NCC from early Paleozoic to Cenozoic, broadly corresponding to the Caledonian, Hercynian, Indosinian, Yanshanian, and Himalayan orogenies on the circum-craton mobile belts. The early Paleozoic (410–490 Ma) ages come from xenoliths in the northern and southern margins as well as the central domain of the Eastern Block of the craton which mark the first phase of Phanerozoic magma underplating since the final cratonization of the NCC in the Paleoproterozoic. The magmatism coincided with the northward subduction of the Paleotethysian Ocean in the south and the southward subduction of the Paleoasian Ocean in the north. The subduction not only triggered magma underplating but also led to the emplacement of the diamondiferous kimberlites on the craton, marking the initiation of decratonization. The late Paleozoic event as represented by the 315 Ma garnet pyroxenite and/or lherzolite xenoliths in Hannuoba was restricted to the northern and southern margins of the craton, correlating with the arc magmatism continuous associated with the subduction of the Paleotethysian and Paleoasian Oceans and resulting in the interaction between the melts from subducted slabs and the lithospheric mantle/lower crust. The early Mesozoic event also dominantly occurred in the northern and southern margins and was related with the final closure of the Paleotethysian and Paleoasian Oceans as well as the collisional orogeny between the NCC and the Yangtze Craton. The late Mesozoic (ca. 120 Ma) was a major and widespread magmatic event which manifested throughout the NCC, associated with the geothermal overturn due to the giant south Pacific mantle plume. The Cenozoic magmatism, identified only in the dark clinopyroxenite xenoliths in the Hannuoba, was probably induced by the Himalayan movement in eastern Asia and might also have been influenced by the subduction of the Pacific Ocean to some extent. These widespread and episodic magma underplating or rejuvenation of the ancient lower crust beneath the NCC revealed by U–Pb and Hf isotope data resulted from the corresponding addition of juvenile materials from mantle to lower crust, with a mixing of the old crust with melts. The process inevitably resulted in the compositional modification of the ancient lower crust, similar to the compositional transformation from the refractory lithospheric mantle to a fertile one through the refractory peridotite — infiltrated melt reaction as revealed in the lithospheric mantle beneath the craton. 相似文献
16.
华北克拉通破坏前的状态——对讨论华北克拉通破坏问题的一个建议 总被引:9,自引:4,他引:5
翟明国 《大地构造与成矿学》2008,32(4)
中生代华北克拉通破坏是目前引人关注的研究课题。鉴于目前一些文章在表达克拉通状态时引用的地质图件不准确,忽略了华北克拉通从古至今的不同阶段的演化,不能正确的表达克拉通在破坏之前或之后的状态,本文强调华北克拉通破坏前的状态是研究的重要基础。华北克拉通是经历过多期克拉通化形成的。 相似文献
17.
本文综合运用不同时代幔源包体平衡温压对比、玄武岩地球化学性质对岩石圈厚度的反演以及不同时代岩石圈地幔地球化学性质的对比的方法,把华北地块东部岩石圈的减薄时间限定在晚中生代至新生代之间。减薄的机制可能是华北东部地区晚白垩世以来大陆岩石圈的拉张作用。由于机械性拉薄和热、机械和化学侵蚀作用,岩石圈厚度最终减薄到70km以下。但古老的岩石圈地幔并没有完全因减薄而消失,残留部分受到了来自软流圈物质的强烈改造,使其Sr、Nd同位素组成类似于软流圈,但Os同位素没有受到明显的改变。改造后的岩石圈地幔成为华北地块东部新生代岩石圈地幔的主体。在时空上,岩石圈的减薄具有不均一的性质。 相似文献
18.
The structure of the lithosphere beneath the Eastern rift, East Africa, deduced from gravity studies 总被引:1,自引:0,他引:1
J.D. Fairhead 《Tectonophysics》1976,30(3-4):269-298
A compilation of all published and unpublished gravity data for the Eastern rift between latitudes 1°N and 5°S is presented. The Bouguer anomaly map reveals that the shape of the negative regional anomaly associated with the rift is approximately two-dimensional, striking east of north, of width 350 ± 50 km and amplitude500 ± 100 g.u. relative to the background value of−1300 ± 100 g.u. to the west. The regional anomaly is interpreted in terms of an upward thinning of the lithosphere and replacement by low-density asthenosphere. This model is different from previous interpretations in that major lithospheric thinning is restricted to the region of the Eastern rift affected by the domal uplift and does not extend beneath the Lake Victoria region to the west. The gravity and seismic models are compatible if the anomalous upper mantle (asthenospheric part), beneath the rift, is in a state of partial melt. A consequence of the revised regional anomaly is that it reduces previous amplitude estimates of the axial positive residual anomaly within the rift by at least 50% and generates negative anomalies over the rift shoulders in areas covered by Cenozoic volcanics. These negative anomalies are considered to be caused by the low density of the surface volcanics. Within the rift, elongated negative anomalies of amplitude 100–350 g.u. are associated with sedimentary basins and are attributed to low-density sediments up to 3 km thick. The positive residual anomaly along the axis of the rift can be interpreted in terms of either a dyke injection zone less than 15 km wide or by a dense infill body about 2.5 km thick. The positive anomaly is shown to be confined to the volcanic province of the Eastern rift and has its southern termination in the Magadi—Natron area, just north of where the Kenya rift valley changes to block faulting in N. Tanzania. This termination coincides with a change in the spatial distribution of the seismic and geothermal activity. 相似文献