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内蒙古大地构造单元划分及其地质特征 总被引:3,自引:0,他引:3
依据地层建造类型、生物区系特征、各块体构造及边界构造特征、构造活动演化特点,采用板块构造学术观点,对内蒙古大地构造单元进行了重新认识和划分。划分为华北板块、西伯利亚板块、塔里木板块和哈萨克斯坦(准葛尔)板块四个一级构造单元。华北地块、华北北部陆缘增生带、哈萨克斯坦东南陆缘增生带、塔里木东部陆缘增生带、西伯利亚东南陆缘增生带五个二级构造单元。并进一步划分了火山型和非火山型被动陆缘等九个三级构造单元。对各构造单元地质特征及边界构造特征进行了论述,对几个重要地质问题进行了讨论。 相似文献
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本区位于华北板块与西伯利亚板块缝合带的北侧,经历了古生代西伯利亚板块陆缘增生和中-新生代滨太平洋板内演化两个大的发展阶段,使区域构造背景更为复杂;中-晚侏罗世,由于太平洋板块向欧亚板块的俯冲加剧,造成了大规模岩浆侵入和火山喷发.本区既有古构造的继承性,又有新构造的明显叠加,是多期次复合成矿作用的有利地区.通过地质特征、矿床特征的研究,对矿床成因进行了探讨,属斑岩型铅锌矿床、火山热液型银铅锌矿床的复合矿区.不同的矿床类型,在地表形成不同的找矿标志,勘查中要根据矿床类型选择不同的勘查手段. 相似文献
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Evaluating the annual runoff of traction load on the rivers in the north of Siberia and the Far East
For determining the water regime characteristics we suggest a modification of the technique which is based on taking into consideration the parameters of alluvium ridge movement and which has been used in evaluating the annual runoff of traction load on the rivers in the north of Siberia and in the north-east of Russia. The intrazonal character of the runoff of traction load is substantiated. We examine the role of geological and hydroclimatic conditions and ascertain a correlation between the flow rate of traction load and water flow rates. 相似文献
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China'stropicsliesintheregionsouthofabout24oN,occupyinganareaofabout51.85×104km2(5.4%ofChina).InChina,thistropicalregionisquiteclosetotheeasternandwesternconvergentboundariesbetweentwoplatessothatthegeomorphologicaleffectsofplatetectonicsaremoreobviousthanthoseinnorthernChina.Thisstudywillpresentsevenexamplesofappearanceofplatemovementingeomorphology.1ThesourceoftectonicforceTheregionofChina'stropicsundergoesconvergingattackfromeasternandwestern"fronts"ofplatemovement.Thewesternfrontofther… 相似文献
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The eastern and western fronts of plate movement in Taiwan Island and Tibetan Plateau respectively are the two major sources of tectonic force for the morphogensis during Quaternary in China′s tropics. Seven examples of geomorphological effects of plate movement are enumerated to discuss the differentiation of tectonic landforms in space and time during Quaternary. The tectonic movement tends to be more active since middle Pleistocene. Some phenomena such as the arc-shape mountain systems, volcanism and crustal deformation imply that the juncture zone of eastern and western tectonic forces is located at about 1 1O°E. 相似文献
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The eastern and western fronts of plate movement in Taiwan Island and Tibetan Plateau respectively are the two major sources of tectonic force for the morphogensis during Quaternary in China’s tropics. Seven examples of geomorphological effects of plate movement are enumerated to discuss the differentiation of tectonic landforms in space and time during Quaternary. The tectonic movement tends to be more active since middle Pleistocene. Some phenomena such as the arc-shape mountain systems, volcanism and crustal deformation imply that the juncture zone of eastern and western tectonic forces is located at about 110oE. 相似文献
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海阶是海平面变动、地壳变动或两者共同作用之结果.海阶研究不仅可据以推论古气候、往昔海平面变化及地壳变动状况,更可藉以了解各区域间变动的差异,对全盘了解大地构造具有基本的重要性.本文研究区位于欧亚大陆板块与菲律宾海板块的碰撞地带,地壳活动频繁,海阶的分布、规模等,除了受到海平面变动影响之外,尚受到区域性地壳隆升以及近期火山活动的影响.研究结果显示,淡水河两岸的海阶阶序,分别为北岸9阶,由低至高为第Ⅰ阶0~10m、第Ⅱ阶30~50m、第Ⅲ阶55~95m、第Ⅳ阶100~130m、第V阶135~173m、第Ⅵ阶190~275m、第Ⅶ阶285~310m、第Ⅷ阶320~365m、第Ⅸ阶375~405m.南岸有7阶,第Ⅰ阶0~10m、第Ⅱ阶25~50m、第Ⅲ阶65~95m、第Ⅳ阶115~138m、第V阶150~200m、第Ⅵ阶230~275m、第Ⅶ阶285~350m.利用海阶对比基图,得到各段阶地生成年代分别为北岸6kaBP(Ⅰ)、40kaBP(Ⅱ)、57kaBP(Ⅲ)、77.5kaBP(Ⅳ)、88.5kaBP(Ⅴ)、126.5kaBP(Ⅵ)、148.5kaBP(Ⅶ)、183kaBP(Ⅷ)、202kaBP(Ⅸ).淡水河口南岸分别为6kaBP(Ⅰ)、40kaBP(Ⅱ)、57kaBP(Ⅲ)、79kaBP(Ⅳ)、100kaBP(Ⅴ)、126.5kaBP(Ⅵ)、173.4kaBP(Ⅶ).淡水河两岸仅一水之隔,区域性地壳变动及海平面变动大致相同,但大屯火山之活动年代较观音火山之年代早,因而大屯山地势较高,经过比对,隆升速率影响地势高低与海阶发育特征,两岸之平均隆升速率分别是北岸的2.2mm/a和南岸的2.15mm/a,北岸略较南岸活跃,阶数多,地势高. 相似文献
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The eastern and western fronts of plate movement in Taiwan Island and Tibetan Plateau respectively are the two major sources
of tectonic force for the morphogensis during Quaternary in China’s tropics. Seven examples of geomorphological effects of
plate movement are enumerated to discuss the differentiation of tectonic landforms in space and time during Quaternary. The
tectonic movement tends to be more active since middle Pleistocene. Some phenomena such as the arc-shape mountain systems,
volcanism and crustal deformation imply that the juncture zone of eastern and western tectonic forces is located at about
110°E. 相似文献
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以"中国地壳运动观测网络"工程1999-2001年GPS观测数据以及"大陆强震机理与预测"国家基础研究项目青藏块体东北缘GPS网1999,2001,2003年的观测资料为基础,应用GAM IT/GLOBK软件对数据进行精密解算,获得了青藏块体东北缘1999-2001年相对于鼎新基准站以及欧亚板块的水平运动速度场。结合板块构造以及大地动力学理论,对青藏块体进行了块体的划分,分析了块体间的相互作用,并进一步分析了该地区的地壳水平运动特征,得出了以下结论:(1)GPS技术用于地壳运动的监测是可行的;(2)1999-2001年期间,祁连-海原断裂带GPS运动位移与地质结果十分吻合;(3)印度板块与欧亚板块的碰撞以碰撞后印度大陆继续以50 mm/a的速度向北推进是青藏块体东北缘的运动动力;(4)甘青块体西部子块体以北东向挤压运动为主;东部子块体主要表现为以海原断裂带为北边界的顺时针旋转为主;(5)鄂尔多斯块体存在逆时针旋转运动,其旋转速度在块体西南侧的六盘山断裂带一带最大,向北至块体西北部明显减小。 相似文献
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I.MesozoicEraVolcanicAchvityDlepre-Tertlalyl11etal11olphicbase111entisOnlyexposedalongtheeastemflankoftheBackboneRangeoftl1eCentraIRangeinTaiwan(Figurel).Overlpngthebasen1e11t,tl1estratumofTertiarytoQuaten1alysysten11sexposed(Flgure2).Deposltlonofthepre-TertlaryrocksprobablybopninPen1llanperiodandextendedintoMesozoic.Theserockswerelatertectonizedandlnotal1lorPhosedinlateMesozoictil11earldtl1el11aJororogenic111ovelnentisnamedYenshanlllovelnent(t1ieNanaoorogenylnTaiwan).A:lthe111eta11… 相似文献
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A. Gorbatov S. Widiyantoro Y. Fukao & E. Gordeev 《Geophysical Journal International》2000,142(1):27-36
A 3-D ray-tracing technique was used in a global tomographic inversion in order to obtain tomographic images of the North Pacific. The data reported by the Geophysical Survey of Russia (1955–1997) were used together with the catalogues of the International Seismological Center (1964–1991) and the US Geological Survey National Earthquake Information Center (1991–1998), and the recompiled catalogue was reprocessed. The final data set, used for following the inversion, contained 523 430 summary ray paths. The whole of the Earth's mantle was parametrized by cells of 2° × 2° and 19 layers. The large and sparse system of observation equations was solved using an iterative LSQR algorithm.
A subhorizontal high-velocity anomaly is revealed just above the 660 km discontinuity beneath the Aleutian subduction zone. This high-velocity feature is observed at latitudes of up to ~70°N and is interpreted as a remnant of the subducted Kula plate, which disappeared through ridge subduction at about 48 Ma. A further positive velocity perturbation feature can be identified beneath the Chukotka peninsula and Okhotsk Sea, extending from ~300 to ~660 km depth and then either extending further down to ~800 km (Chukotka) or deflecting along the 660 km discontinuity (Okhotsk Sea). This high-velocity anomaly is interpreted as a remnant slab of the Okhotsk plate accreted to Siberia at ~55 Ma. 相似文献
A subhorizontal high-velocity anomaly is revealed just above the 660 km discontinuity beneath the Aleutian subduction zone. This high-velocity feature is observed at latitudes of up to ~70°N and is interpreted as a remnant of the subducted Kula plate, which disappeared through ridge subduction at about 48 Ma. A further positive velocity perturbation feature can be identified beneath the Chukotka peninsula and Okhotsk Sea, extending from ~300 to ~660 km depth and then either extending further down to ~800 km (Chukotka) or deflecting along the 660 km discontinuity (Okhotsk Sea). This high-velocity anomaly is interpreted as a remnant slab of the Okhotsk plate accreted to Siberia at ~55 Ma. 相似文献