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1.
蒙古-鄂霍茨克造山带呈北东向从蒙古中部延至鄂霍茨克海的乌地湾,被认为是蒙古-鄂霍茨克洋侏罗纪-白垩纪闭合产物,其对于探讨东北亚区域大地构造演化以及欧亚大陆中生代聚合具有重要意义。蒙古-鄂霍茨克造山带具有典型的山弯构造格架,其“对折”的两翼发生了强烈的“自碰撞”造山作用。关于蒙古-鄂霍茨克山弯构造形成动力学机制,前人将其归因于西伯利亚与华北-阿穆尔陆块之间的挤压缩短、古亚洲洋俯冲板片不断的后撤和西伯利亚与华北的相向旋转等动力学过程,却忽视了蒙古-鄂霍茨克洋俯冲作用对蒙古-鄂霍茨克马蹄形弯曲过程的影响。最近,弧岩浆活动的迁移和山弯构造转折端构造变形解析研究暗示蒙古-鄂霍茨克洋俯冲板片后撤可能在山弯构造形成过程中起着重要作用,但这一新的解释模式还缺乏地质证据的支持和验证。围绕蒙古-鄂霍茨克山弯构造发育的与岛弧岩浆岩同时期的弧后盆地蛇绿岩、双峰式火山岩、A2型和S型花岗岩和伴生的沉积岩等地质记录,表明蒙古-鄂霍茨克洋在二叠纪-三叠纪时期发育多期次弧后伸展,总的延伸长度超过5000km,与蒙古-鄂霍茨克洋大规模俯冲板片后撤有关。弧后盆地带的厘定表明蒙古-鄂霍茨克洋发育西太平洋型活动大陆边缘,而非安第斯型活动大陆边缘。另外,蒙古-鄂霍茨克洋的弧后伸展盆地形成时间与蒙古-鄂霍茨克山弯构造弯曲的时间一致,进一步证实俯冲板片沿走向不均匀后撤在蒙古-鄂霍茨克山弯构造形成过程中扮演着重要角色。 相似文献
2.
漠河盆地位于蒙古?鄂霍茨克缝合带(MOSB)东段南缘,是研究蒙古?鄂霍茨克洋东段演化的绝佳窗口.本文对漠河盆地东缘出露的绣峰组砂岩进行详细的岩相学、U-Pb锆石定年和主微量元素地球化学分析,综合前人研究成果,限定了蒙古?鄂霍茨克洋乃至中亚造山带东段演化历史.结果表明,绣峰组砂岩碎屑物磨圆度较低、分选差,表现出近源剥蚀的特点;U-Pb锆石定年共获得217个谐和年龄,可划分为3个年龄组,其峰值均与盆地南缘额尔古纳地块的岩浆事件相吻合,其中最年轻的碎屑锆石206Pb/238U年龄加权平均值为158±2 Ma(N=5);样品相对富集大离子亲石元素(LILEs)和轻稀土元素(LREEs),亏损高场强元素(HFSEs)和重稀土元素(HREEs),具有明显的Eu负异常.样品源岩为上地壳长英质岩石,形成于大陆岛弧的构造环境,源区可能为漠河盆地南侧的大陆岛弧、额尔古纳地块以及盆地的古老基底.综上所述,绣峰组的最大沉积年龄为晚侏罗世,物源区构造背景为活动大陆边缘的大陆岛弧环境,形成于晚侏罗世蒙古?鄂霍茨克洋向南俯冲、闭合造山的构造背景下,指示在绣峰组沉积时期(约158 Ma),蒙古?鄂霍茨克洋仍处于俯冲阶段,尚未完全闭合.综合前人研究成果,推断蒙古?鄂霍茨克洋最终闭合的时间可能在晚侏罗世至早白垩世之间. 相似文献
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4.
俄罗斯远东地区是世界极其重要的内生金属聚集区,其金、银、铜、钨、锡等矿产资源量极其丰富。主要介绍研究区域涉及的地质构造单元,包括北亚克拉通东北部边缘之上扬斯克被动陆缘、上扬斯克—楚科奇造山带、鄂霍茨克—楚科奇造山(火山岩)带、科里亚克—勘察加造山带,简述俄罗斯远东地区东部地质构造演化,对鄂霍茨克—楚科奇成矿带及其毗邻地区的主要内生金属成矿作用进行了总结。在火山岩带,火山坳陷盆地的优势矿产是浅成低温热液型金银矿床,而在火山岩带相对隆起区的花岗质岩石分布区则发育斑岩型铜矿床和铜钼矿床。 相似文献
5.
漠河盆地上侏罗统物源分析及其地质意义 总被引:4,自引:0,他引:4
为了探讨晚侏罗世漠河盆地的构造类型,笔者等对其物源特征进行了系统分析。通过古水流分析、母岩成分分析和源区构造背景分析认为:①晚侏罗世漠河盆地的物源来自南北两个方向;②北部物源区位于西伯利亚板块南缘,为蒙古—鄂霍茨克造山带,母岩成分主要为花岗岩、变质岩、中酸性火山岩、中基性火山岩和沉积岩;③南部物源区位于大兴安岭北部,为下伏板块基底,母岩成分主要为花岗岩、变质岩和沉积岩;④北部造山带物源区的构造背景为早中生代的活动大陆边缘。晚侏罗世漠河盆地具有典型前陆盆地的双向物源特征,一方面来自北部造山带,一方面来自盆地下伏板块基底。根据物源特征、区域大地构造背景和俄罗斯上阿穆尔盆地(黑龙江在俄罗斯称为阿穆尔河)有关资料认为晚侏罗世漠河盆地可能为漠河—上阿穆尔周缘前陆盆地的南半部分,其形成和演化受蒙古—鄂霍茨克造山带制约。 相似文献
6.
本文利用地质地球物理资料分析了鄂霍茨克海及一些相邻陆区(Primorie岛、Sakhalin岛、Kuril岛)地质发展的主要阶段。 Primorie与Sakhalin区的不同火山机构形成于三叠纪,当时存在一个深海盆地鄂霍茨克海与日本海连接在一起。其后的演化主要特征表现在地球物理资料上。一个大致形成于白垩纪并在以后进一步发展的重力正异常系统沿子午线方向延伸了大于1000km,包括了东Sakhalin和中Hokkaido。起始于Schmidl半岛的一条强烈磁异常带 相似文献
7.
中国东北和华北地区中,新生代伸展盆地经历了3个主要阶段,即晚三叠世一早,中侏罗世,白垩纪和新生代3个旋回,简要地介绍了这3个旋回时期中国东部构造格局的巨大变化,通过火山岩和地质,地球物理资料综合分析构造特征,推断盆地的形成和改造与板块边缘活动有关,也即与蒙古-鄂霍茨克中生代洋,那丹哈达-锡霍特.阿林中生代洋以及新生代菲律宾板块向欧亚大陆俯冲和大别造山带再活动有关,此外,伸展,反转构造和走滑断层作用 相似文献
8.
漠河盆地上侏罗统沉积特征与构造背景 总被引:2,自引:0,他引:2
对晚侏罗世漠河盆地的沉积特征进行了分析,并探讨了其构造类型和成因机制。详细的沉积学研究表明:晚侏罗世漠河盆地主要发育冲积扇、扇三角洲和湖泊相沉积,属于前陆盆地的陆相磨拉石部分。晚侏罗世漠河盆地的物源来自南北两个方向,具有典型前陆盆地双向物源特点:北部物源区是蒙古-鄂霍茨克造山带,位于西伯利亚板块南缘;南部物源区是下伏板块基底,位于大兴安岭北部。根据沉积特征、区域大地构造背景和俄罗斯上阿穆尔盆地有关资料认为:晚侏罗世漠河盆地为漠河-上阿穆尔前陆盆地的南半部分,形成和演化受蒙古-鄂霍茨克造山带制约;晚侏罗世二十二站期和额木尔河期是漠河盆地的主要成盆期,该时期湖泊面积广阔、暗色泥岩发育,是烃源岩的重要形成期。 相似文献
9.
大兴安岭北部的漠河盆地广泛发育中生界二十二站组砂岩,其形成时代一直备受争议.首次利用碎屑锆石LA-ICP-MS U-Pb法测年对其形成时代作出较为精确的限定,并结合地球化学特征对其物源区及大地构造背景进行了探讨.研究结果表明,二十二站组砂岩碎屑物磨圆度较低、分选差,表现出源区相对不稳定,快速剥蚀、搬运及沉积的特征.锆石颗粒粗大,具有清晰的震荡环带,Th/U值为0.35~1.07,为典型的岩浆锆石.测年结果显示,90个测点年龄主要分布在3个群落:152~170Ma,峰值年龄约为158Ma,这一年龄区间揭示了二十二站组沉积成岩的下限为晚侏罗世;179~193Ma,峰值年龄约为190Ma;205~214Ma,峰值年龄约为210Ma.3个年龄峰值为蒙古-鄂霍茨克洋演化过程中一系列岩浆活动的地质记录,其中210Ma与190Ma峰值年龄与盆地南缘额尔古纳地块晚三叠世、早侏罗世的岩浆事件相吻合,而158Ma峰值年龄则对应于盆地北缘晚侏罗世的岩浆事件.主、微量元素构造判别图解揭示其物源区具有活动大陆边缘的特征,同时锆石定年数据显示其没有任何前中生代的碎屑物,暗示了该3期岩浆岩均形成于额尔古纳地块北缘的中生代活动大陆边缘环境,并为二十二站组的形成提供了主要碎屑物质.由此说明,二十二站组砂岩形成于晚侏罗世蒙古-鄂霍茨克洋闭合后的造山过程中,漠河盆地南北两侧物源区快速剥蚀、快速搬运与快速沉积的环境. 相似文献
10.
黑龙江漠河盆地构造特征与成盆演化 总被引:25,自引:0,他引:25
对漠河盆地的地层层序、构造特征和构造单元、盆地演化过程等进行了研究。漠河盆地盖层主要为侏罗纪陆相煤系地层及白垩系火山岩,属典型的二元结构。晚侏罗世中期由于蒙古—鄂霍茨克洋的关闭,额尔古纳微板块与西伯利亚板块碰撞,使盆地西部产生逆冲推覆构造,地层缩短量在64km以上。晚侏罗世晚期到晚白垩世,盆地进入西太平洋构造域演化阶段,处于拉张环境,在盆地中部和东部发生了三期大规模的火山活动,形成火山断陷盆地。因此,漠河盆地经历了蒙古—鄂霍茨克洋和西太平洋两种不同构造域的演化阶段,具有西部挤压推覆、中部和东部拉张断陷构造特点。 相似文献
11.
东亚大陆和西太平洋之间,存在着全球规模的边缘海-岛弧系。对于边缘海-岛弧系的成因,国内外学者众说纷云。我国大地构造学家张文佑(1983)简洁地概括为“拉张造海、挤压造陆”。本文对大量的有关边缘海的重、磁、地震、钻井和大地构造背景等资料综合分析之后,认为边缘海具有与大洋不同的演化旋回,而与陆缘地堑的演化阶段密切相关。 相似文献
12.
This paper reports the characteristics of granitoids from the Pacific slope of the Kuril island arc system, which were discovered by the authors during geological and geophysical operations in three cruises of the R/V Akademik M. Lavrent’ev. The major and trace element compositions of these rocks were determined, their role in the formation of the submarine Vityaz Ridge was evaluated, and they were compared with granitoids from the Brouton group of submarine volcanoes and xenoliths from Simushir Island and the Sea of Okhotsk. Granitoids from various structures of the basement of the Kuril island arc system are hypabyssal rocks derived from andesite magmas. Their common features are related to the formation on the continental crust under convergent geodynamic conditions involving compression due to the movement and subduction of the Pacific plate beneath the Asian continent. The problem of the basement of the Kuril island arc system was discussed, the composition and age of its rocks were determined, and the history of the geologic development of the Pacific slope of the arc starting from the Late Mesozoic was briefly described. 相似文献
13.
东海陆架盆地是位于中国大陆东部边缘大陆地壳之上的边缘海盆地。盆地新生代构造演化经历了断陷(初始沉降)和坳陷(热控沉降)两个阶段。本文利用钻井及地震反射剖面资料,通过钻井古地层剥蚀量和剥蚀时间的恢复,应用Mckenzie(1978)的均一拉伸模式和Sclater(1985)的双层拉伸模式对陆架盆地,主要是浙东坳陷的西湖凹陷进行了基底沉降和地壳岩石圈扩张率的定量估算。计算结果表明东海陆架盆地沉降速率早期较快,后期变慢。西湖凹陷新生代以来地壳岩石圈扩张率,在凹陷北部(D800测线)为40%-50%,中部(D688测线)为100%-140%,南部(G455测线)为60%-120%。 相似文献
14.
The results of deep seismic profiling through Southern Sakhalin, the southern Sea of Okhotsk, and the Southern Kuril Islands
allowed the identification of deep fault zones, the hypocenter locations, the features of the stress state, and the types
of seismic dislocations at the earthquake sources. The east side of the fault was upthrown relative to the west side beneath
the southern part of the Tatar Strait and Sakhalin Island and led, as a result of multiple thrusting events along the fault
over the geologic history, to the rise and 5-8 km displacement of the seismic boundaries. The true uplift of the Greater Kuril
arc block was determined using the focal mechanism solutions. The seismoctectonics and present-day dynamics of the crustal
blocks were estimated using a detailed joint analysis of the position of the structural boundaries at the seismic section
and the seismotectonic movements according to the earthquake focal mechanisms. 相似文献
15.
东海盆地石油地质研究在近二十年里主要取得五方面的进展 :证明了盆地是由一组大陆边缘新生界由西向东逐个变新的“盆地群体”组成 ,建立了陆架地区以组为单位的整个新生代地层单元 ,详细划分了西湖凹陷的内部地质结构 ,认定了煤和煤系沉积是东海陆架区的主力油气源岩 ,通过大量钻井验证了盆地中三类不同成因的圈闭。从环西太平洋盆地形成的地球动力学背景看 ,西太平洋是一个自北而南的沟—弧—盆 (陆缘海 )系统 ;大体以台湾海峡为界 ,东海盆地是一个由转换或被动边缘演化而来的聚敛边缘 ,而南海属于由活动或聚敛边缘转化而来的被动边缘。东海盆地与菲律宾海盆地具有相似的时空演化特征 ,由此论证了东海新生代盆地属于残余弧后向洋后退盆地 相似文献
16.
A geological density section of the Deryugin Basin (western part of the Sea of Okhotsk) was studied along the profile Sakhalin Island-Deryugin Basin-Central Okhotsk Rise. The investigations were conducted by the method of gravity modeling, which allowed us to trace the density variations of the Earth’s crust layers along the lateral. The horizontal density stratification of the Earth’s crust layers was found, which assumes a stratified-block model of its structure. The established density structure of the Earth’s crust showed that the Deryugin Basin is located in the junction zone between the Sakhalin-Hokkaido microplate and the Okhotsk Sea Plate separated by a structural suture. The western and eastern edges of the basin belong to the aforementioned plates, respectively. It was assumed that accumulations of various mineral associations are confined to the suture zone, while the “granite” layer (basement) of the Deryugin trough walls in the western edge of the Deryugin Basin presumably contains secondary reservoirs of hydrocarbons. 相似文献
17.
北萨哈林盆地作为俄罗斯远东地区最大的含油气盆地,其热流分布和演化过程对油气勘探有重要意义。本文通过单井和区域热流分析,恢复了北萨哈林盆地和鄂霍茨克海域各时期热流值的分布范围;对沉积盆地热演化各期次进行数值模拟,改进了简单沉降模型,使其适用于弧后拉分盆地;利用EASY%Ro 方法对热演化过程进行恢复,并与理论计算的热流值进行对比分析。研究表明,北萨哈林盆地各时期热流分布极为不均,热演化可以分成两个阶段:1) 古近纪,盆地内陆和海域具有各自的热流中心,其热演化过程相对独立;2) 晚渐新世后,盆地受弧后拉张和断裂剪切的共同作用,热流范围发生改变,构造拼合带成为新的热流中心。本文认为岩浆活动强弱和沉降速率差异是造成该现象的内因和外因。 相似文献
18.
We review the geological and geophysical structural framework of the deep Black Sea and Caspian Sea basins. Based on seismic evidence and subsidence history, we conclude that the deep basins have an oceanic crust formed in a marginal sea environment. We propose that the present deep basins are remnants of a much greater marginal sea formed during three separate episodes during the Mesozoic: in the Middle Jurassic, Upper Jurassic and Late Cretaceous. A tentative sketch of the geologic evolution of the area is presented. The marginal sea reached its greatest extent in the Early Tertiary when it was about 900 km wide and 3000 km long. The central part of the marginal sea has since disappeared during the collision between the Arabian promontory and the Eurasian margin. 相似文献
19.
针对极地冰雪显著影响中低纬气候的事实,利用1979-2017年长江流域116站降水资料和美国国家冰雪数据中心海冰资料,通过奇异值分解等统计学方法,研究北极海冰对长江流域主汛期降水的影响及可能的机制,结果表明:冬春季节,巴伦支海和鄂霍次克海海冰面积偏多、波佛特海海冰面积偏少时,主汛期长江上中游干流、汉江上游和雅砻江降水偏多;北极群岛、楚科奇海和拉普捷夫海以北海域海冰面积偏多时,主汛期两湖水系降水偏多,嘉陵江上游、汉江上游降水偏少;反之亦然。可能的机制为冬春季关键区海冰变化通过影响湍流热通量引发大气能量波动,这种波动以大气波列形式向东亚传播,影响东亚地区夏季的大气环流和水汽输送,从而间接影响长江流域主汛期降水。应用多元回归法,以关键区海冰面积作为预测因子建立4个流域内主汛期降水趋势预测模型,模型对预报区降水的定量预测有明显的波动,但对预报区总体的降水趋势有较好的预测效果。 相似文献
20.
《International Geology Review》2012,54(4):342-352
The Sea of Marmara Basin (SMB) is connected to the fully marine Mediterranean by the Dardanelles strait and to the brackish Black Sea by the Thracian Bosporus. This linkage to two different marine realms with contrasting water chemistry has been a prime control on the sedimentary history of the SMB, which in turn was controlled by its tectonics. Isolation from any of these realms resulted in drastic changes in its paleoceanographic conditions and made it a part either of the global ocean system or of a brackish-marine environment, depending on the realm from which the connection was severed. The SMB represents the inundated part of the northwestern Anatolian graben system that resulted from the interaction between the North Anatolian fault (NAF) zone and the present N-S extensional tectonic regime of the Aegean. The geologic history of this basin began during the late Serravallian when the NAF was initiated. The first inundation of the basin coincided in both time and space with this initiation. The invading sea was the Mediterranean, which stayed there for a short period and subsequently was replaced by the Paratethys during the late Miocene. Paratethyan conditions prevailed in the basin until the latest Pliocene, when the second flooding from the Mediterranean occurred through the Dardanelles. Owing to glacio-eustatic sea-level changes during the Pleistocene, Paratethyan/Black Sea and Mediterranean conditions alternated. In the last (Würm) glaciation, the SMB was completely isolated and turned into a euxinic lacustrine environment, similar to the Black Sea at that time. Following the Würm glaciation, the Mediterranean Sea broke its way once more into the SMB and filled it with salt water. When sea level in the basin rose above the Bosporous sill at 7.5 Ka B.P., the present dual flow regime was established. 相似文献