共查询到20条相似文献,搜索用时 156 毫秒
1.
Cao Zhimin Luo Yaonan Li Youguo Song Xieyan Chen Cuihua Yang Zhusheng He Hong WT ”BX 《地学前缘》2000,(Z1)
Cu-Ni-PGES MINERALIZATION OF MELANOCRATIC ROCKS IN SOUTHEAST MARGIN OF THE QINGHAI-XIZANG(TIBET) PLATEAU, HKTERALIZAtheprojectsupportedbyNNSFofChina 相似文献
2.
ANISOTROPIC FEATURE OF QIANGTANG MASSIF TEXTURE 总被引:2,自引:1,他引:1
ANISOTROPIC FEATURE OF QIANGTANG MASSIF TEXTURE 相似文献
3.
TRIASSIC OROGENESIS IN SOUTHWEST CHINA: THE STRUCTURAL ORIGINS OF THE NORTHEAST TIBETAN PLATEAU 相似文献
4.
It seems to be progressively recognized that the stress of the India-Asia convergent front can be transferred rapidly through the southern and central Tibetan lithosphere to the northern Tibet, hence leading to the crustal thickening deformation there during or immediately after the onset of the India-Asia collision(ca.55 Ma).This study focuses on the late Cenozoic deformation and tectonic uplift of the northern Tibet and Tian Shan area.Detailed compilations of a variety of proxy data from sediments and bedrocks suggest that the northern Tibet and Tian Shan area underwent one stage of approximately synchronous widespread contractile deformation since 25–20 Ma, which seemed to decrease at circa 18 Ma as revealed by low-temperature thermochronological data.The latest Oligocene-early Miocene was also significant basin-forming episodes when many intermontane subbasins began to receive syntectonic sedimentation in the northeastern Tibet.Subsequently, the other phase of compressional deformation began to encroach more widely into the northern Tibet and Tian Shan area in episodic steps or continuously from 16–12 Ma to present. 相似文献
5.
6.
THE UPWARPING AND DOWNWARPING STRUCTURAL SYSTEM OF MOHO—SURFACE IN CHINESE AND NEAR REGION AND THE GENETIC MECHANICS OF QINGHAI—TIBET PLATEAU TECTONIC 相似文献
7.
Zhang Chunhe Yang Jingsui Xu Zhiqin Li Haibing Zhang Jianxin Wu Cailai Shi Rendeng Meng Fancong Song SuguangWT ”BX 《地学前缘》2000,(Z1)
STUDY ON THE SEISMIC SOURCE MECHANISMS OF THE TIBETAN PLATEAU 相似文献
8.
Early Cenozoic Tectonics of the Tibetan Plateau 总被引:1,自引:0,他引:1
Geological mapping at a scale of 1:250000 coupled with related researches in recent years reveal well Early Cenozoic paleo-tectonic evolution of the Tibetan Plateau. Marine deposits and foraminifera assemblages indicate that the Tethys-Himalaya Ocean and the Southwest Tarim Sea existed in the south and north of the Tibetan Plateau, respectively, in Paleocene-Eocene. The paleooceanic plate between the Indian continental plate and the Lhasa block had been as wide as 900km at beginning of the Cenozoic Era. Late Paleocene transgressions of the paleo-sea led to the formation of paleo-bays in the southern Lhasa block. Northward subduction of the Tethys-Himalaya Oceanic Plate caused magma emplacement and volcanic eruptions of the Linzizong Group in 64.5-44.3 Ma, which formed the Paleocene-Eocene Gangdise Magmatic Arc in the north of Yalung-Zangbu Suture (YZS), accompanied by intensive thrust in the Lhasa, Qiangtang, Hoh Xil and Kunlun blocks. The Paleocene-Eocene depression of basins reached to a depth of 3500-4800 m along major thrust faults and 680-850 m along the boundary normal faults in central Tibetan Plateau, and the Paleocene-Eocene depression of the Tarim and Qaidam basins without evident contractions were only as deep as 300-580 m and 600-830 m, respectively, far away from central Tibetan Plateau. Low elevation plains formed in the southern continental margin of the Tethy-Himalaya Ocean, the central Tibet and the Tarim basin in Paleocene-Early Eocene. The Tibetan Plateau and Himalaya Mts. mainly uplifted after the Indian-Eurasian continental collision in Early-Middle Eocene. 相似文献
9.
JIANG Zhenxue YANG Haijun LI Zhuo PANG Xiongqi HAN Jianf LI Dongxu HUANG Yuyan 《《地质学报》英文版》2010,84(5):1116-1127
<正>The Tazhong paleouplift is divided into the upper and the lower structural layers,bounded by the unconformity surface at the top of the Ordovician carbonate rock.The reservoirs in the two layers from different parts vary in number,type and reserves,but the mechanism was rarely researched before.Therefore,an explanation of the mechanism will promote petroleum exploration in Tazhong paleouplift.After studying the evolution and reservoir distribution of the Tazhong paleouplift,it is concluded that the evolution hi late Caledonian,late Hercynian and Himalayan periods resulted in the upper and the lower structural layers.It is also defined that in the upper structural layer,structural and stratigraphic overlap reservoirs are developed at the top and the upper part of the paleouplift,which are dominated by oil reservoirs,while for the lower structural layer,lithological reservoirs are developed in the lower part of the paleouplift,which are dominated by gas reservoirs,and more reserves are discovered in the lower structural layer than the upper. Through a comparative analysis of accumulation conditions of the upper and the lower structural layers,the mechanism of enrichment differences is clearly explained.The reservoir and seal conditions of the lower structural layer are better than those of the upper layer,which is the reason why more reservoirs have been found in the former.The differences in the carrier system types,trap types and charging periods between the upper and the lower structural layers lead to differences in the reservoir types and distribution.An accumulation model is established for the Tazhong paleouplift.For the upper structural layer,the structural reservoirs and the stratigraphic overlap reservoirs are formed at the upper part of the paleouplift,while for the lower structural layer,the weathering crust reservoirs are formed at the top,the reef-flat reservoirs are formed on the lateral margin,the karst and inside reservoirs are formed in the lower part of the paleouplift. 相似文献
10.
Ling Zan Zhihuan Zhang Jiajia Fei Yuyuan Wu Zhenying Zhang Liming Qin Ling Mei Wenhao Li 《中国地球化学学报》2011,30(2):255-263
Through natural gas exploration in the Changling Fault Depression,abundant natural gas flows were obtained and high-quality source rocks were also reveiled.Based on bulk analyses,organic matter abundance,organic matter type and thermal maturity of the source rocks were studied systematically.At the same time,gas gener-ating intensity and gas generating quantity were quantitatively analyzed by using basin modeling technologies.The results indicated that gas source rocks of the Shahezi Formation are characterized by abundant organic matter and dark mudstone distributions and high-over thermal maturity.They possess high gas generating intensity with the biggest value surpassing 500×108 m3/km2,and large gas generating quantity,accounting from 74.40% of the total amount.The Yingcheng Formation has good gas-source rocks with moderate dark mudstone and relatively high organic matter.It has type-Ⅲ organic matter and low-over thermal maturity.The gas generating intensity is moderate,between 20×108 and 60×108 m3/km2.The gas generating quantity is 13.63% of the total amount.The Huoshiling Formation has relatively good source rocks with limited dark mudstone and low organic matter.It has type-Ⅲ kerogen and over-thermal maturity.The gas generating quantity is 7.10% of the total amount.The Denglouku Formation has poor-gas source rocks,and is characterized by undeveloped dark mudstone and low organic matter abundance.It has type-Ⅲ organic matter and low-high thermal maturity.Hydrocarbon gases in the Changling Fault Depression mainly originated from the Shahezi Formation,and secondarily from the Yingcheng Formation.The contribution of the Huoshiling Formation gas source rocks is relatively small. 相似文献
11.
THE LATE QUATERNARY RIGHT LATERAL STRIKE-SLIPPING OF ZHONGDIAN—DAJU FAULT IN NORTHWEST YUNNAN, CHINA
THE LATE QUATERNARY RIGHT LATERAL STRIKE-SLIPPING OF ZHONGDIAN—DAJU FAULT IN NORTHWEST YUNNAN, CHINAthesubject“TherecentdisplacementandDynamicsoflithosphereintheQinghai XizangPlateau”ofnation
alclimbingproject“Therecentdisp 相似文献
12.
LATE QUATERNARY FAULTING OF JIALI FAULT1 ChungS ,LoC ,LeeT ,etal.DiachronousupliftoftheTibetanplateaustarting 40Myrago[J].Nature ,1998,394:76 9~773.
2 ColemanM ,HodgesK .EvidenceforTibetanplateauupliftbefore 14Myragofromanewminimumageforeast westexten sion[J].Nature ,1995 ,374:49~ 5 2 .
3 HarlandWB ,ArmstrongRL ,CoxAV ,etal.Ageologictimescale 1989[J].Cambridge ,U .K :CambridgeUnivPress,1990 .
4 HarrisonTM ,CopelandP ,KiddWSF ,etal.RaisingTibet[J].… 相似文献
13.
14.
CHARACTERISTICS OF ALKALINE VOLCANIC ROCKS OF PLIOCENE IN THE WESTERN PART OF HONGHE FAULT ZONE 相似文献
15.
RESEARCH PROGRESS OF ALTYN FAULT IN WESTERN CHINA 总被引:2,自引:0,他引:2
RESEARCH PROGRESS OF ALTYN FAULT IN WESTERN CHINATheresearchisfundedbyNSFC (No.4 9772 157) 相似文献
16.
THE GROWTH MODE OF ALTUN FAULT AND IT'S DYNAMICS 相似文献
17.
CENOZOIC LARGE-SCALE STRIKE-SLIP FAULT IN WEST YUNNAN, CHINA1 ZhongDalaiTapponnierP ,WuHaiwei,etal.Large scalesstrikeslipfault:themajorstructureofintracontinentaldeformationaftercollision[J] .ChineseScienceBulletin ,1990 ,35:77~ 97.
2 TapponnierP ,LacassinR ,LeloupPH ,etal.TheAilaoShan/RedRivermetamorphicbelt:tertiaryleft lateralshearbetweenIndochinaandSouthChina[J] .Nature,1990 ,343:4 31~ 4 37.
3 LiKang ,ZhongDalai.Themicrostructurecharacteristicso… 相似文献
18.
DIRECT DATING OF LEFT-LATERAL SLIP ALONG THE RED RIVER SHEAR ZONE 相似文献
19.
MANTLE SOURCE NATURE OF ORE FLUIDS FOR THE JINDING Pb-Zn DEPOSIT, LANPING, YUNNANtheNationalClimbingProgram(95 Pre .39;;3 1 2 )andMLMRStrategicKeyProgram (95 0 110 3) 相似文献
20.
西南三江构造体系突出表现为以昌都-兰坪-思茅地块为中轴的不对称走滑对冲构造,次为与走滑断裂相伴的伸展滑脱、走滑拉分盆地构造体系,再次为块体内部的近北东、北西向走滑断裂系。西南三江造山带构造体系演化分为挤压收缩变形、走滑深熔热隆、走滑剪切伸展、走滑剥蚀隆升等4个阶段。自晚白垩世开始,印度板块与欧亚板块碰撞,西南三江造山带对冲体构造体系初始形成。自渐新世开始,印度板块持续向北楔入欧亚大陆,印度板块与扬子克拉通构成力偶,两者相向、相对运动,挤压与剪切特提斯大洋缝合带及两大陆边缘弧盆系等地质体,西南三江造山带对冲体构造体系进一步发展,近南北向剪切走滑构造体系形成,构造方向也由近东西转为近南北向。而与近南北向主走滑断裂带之相伴的伸展滑脱构造、拉分盆地,块体内部近北东、北西“X”型剪切走滑断裂同时相伴形成。这样,就形成了西南三江造山带大规模的对冲、走滑、旋转及其伴生的伸展、拉分盆地构造的构造体系。 相似文献