大别山东部超高太变质带北侧的花岗片麻岩及其构造背景   总被引：1，自引：0，他引：1  

吴维平  徐树桐  江来利  刘贻灿  苏文  石永红  范高红  陈金苗  沈欢喜 《安徽地质》1998,(1)

大别山东部超高压变质带北侧的花岗片麻岩有下列特征。（１）化学成分富硅、富碱,一般ＳｉＯ２＜７５％,Ｋ２Ｏ＋Ｎａ２Ｏ＞８％,且Ｋ２Ｏ＞Ｎａ２Ｏ。（２）与变质表壳岩有侵入接触关系,有异源、深源包体。（３）主要为鳞片花岗变晶结构,有残留的岩浆结构,普遍具片麻状构造,钾长石常以眼球状巨晶出现,剪切带中发育Ｌ＞Ｓ型变形组构。（４）变质作用为角闪岩相,变质矿物为黑云母、角闪石以及少量石榴石、白云母、绿帘石等。。（５）锆石的乙—Ｐ６同位素年龄值为６２９Ｍａ。上述特征与超高压变质带中的含霓石变质花岗岩有明显的区别,因此,它可能是杨子大陆板块的俯冲基底。  相似文献   

Development of Tectonic Geomorphology Study Promoted by New Methods in China: A Viewpoint from Reviewing the Tian Shan Researches     

Lü Honghua  Youli Li 《地球科学进展》1986,35(6):594-606

Tectonic Geomorphology is an important branch of Geomorphology. Now the scope of tectonic geomorphology study has covered the interactions between tectonics, climate, surface processes and the influence on geomorphic evolution. The study of tectonic geomorphology in China started at the beginning of the 20th century, developed gradually in the 1950s, and entered a rapid development stage in the new century. Based on the long-term development, the study of tectonic geomorphology in China has formed a relatively complete theoretical and methodological system, and now presents a trend of the continuous intersection and integration with other adjacent disciplines. Now, several books on tectonic geomorphology have been published. The representative book abroad is Tectonic Geomorphology which was edited by Burbank D. W. and Anderson R. S., and was first published in 2001 and reprinted in 2012. In China, the first book on tectonic geomorphology is Active Tectonic Geomorphology which was edited by Yang Jingchun and Li Youli and was first published in 2011.In recent years, the tectonic geomorphology study has been absorbing and integrating the new ideas and new methods of other disciplines, significantly promoting the development of tectonic geomorphology. At the 2019 China Geographic Congress & the 110th anniversary of the establishment of the Chinese Geographical Society, the authors organized the session "Theory, Method and Application of Tectonic Geomorphology", aiming to present the recent progresses of tectonic geomorphology study in China. Later, invited by the editorial office, the authors organized the special column with the same name in the journal Advances in Earth Science. The contents of this column mainly dealt with the classical theoretical problems of geomorphology (the evolution and the controlling mechanism of river terrace, planation surface, and alluvial fan), new methods (such as K-feldspar thermoluminescence thermochronology, detrital zircon U-Pb chronology), and models and numerical simulation of tectonic geomorphology evolution. Because of the limited number of the articles, it was impossible for this column to comprehensively present the recent progresses in the study of tectonic geomorphology in China. Therefore, this paper first briefly reviewed the history of the development of tectonic geomorphology in China and the basic trend of tectonic geomorphology. The authors started the study of neotectonics and tectonic geomorphology in the Tian Shan range and its foreland basins about 15 years ago (exactly in 2002). The main aim of this paper was to explore the contributions of the interdisciplinary and new methods to the development of tectonic geomorphology study, by reviewing the main achievements in the tectonic geomorphology study conducted in the Tian Shan and its foreland basins during the past 20 years. These achievements include the history of uplift and exhumation during the Cenozoic times, the chronology and genesis of the late Cenozoic terrigenous sedimentary sequences in the foreland basins, the characteristics of the late Quaternary active tectonic deformation in the foreland and intermontane basins, the late Quaternary river geomorphology (geomorphic framework, chronology, and cause of formation), and erosion rates of the catchment basins. At the end of this paper, it was pointed out that, two aspects may need more attention in the future tectonic geomorphology study, i.e. the comparative study at different time scales and the better constraint of the formation age of river terrace.  相似文献   

Multiple generations of pseudotachylyte in the brittle to ductile regimes, Qinling–Dabie Shan ultrahigh-pressure metamorphic complex, central China     

Aiming Lin  Zhiming Sun  Zhenyu Yang 《Island Arc》2003,12(4):423-435

Abstract Pseudotachylytes are present along the Dahezhen shear zone in the Qinling–Dabie Shan collisional orogenic belt, central China. Two types of pseudotachylyte vein are documented in the shear zone: cataclasite‐related pseudotachylyte (C‐Pt) and mylonite‐related pseudotachylyte (M‐Pt). M‐Pt is associated with mylonite‐development and is overprinted by C‐Pt. All of the quartz and most of the feldspar porphyroclasts within the M‐Pt are plastically deformed, but not in the C‐Pt. Dynamically recrystallized fine‐grained quartz and feldspar bands are oriented subparallel to the mylonite and M‐Pt foliation, and partially surround the porphyroclasts. Our results suggest that the M‐Pt formed cyclically in the ductile region at estimated conditions of 400–650°C and 400–800 MPa due to propagation of seismic fracturing associated with the thrusting‐related rapid exhumation of the ultrahigh‐pressure metamorphic complex in the brittle regime down to a greater depth than the base of the seismogenic zone. The M‐Pt and mylonite formed in the Dahezhen shear zone at estimated conditions of 400–650°C and 400–800 MPa. The coexistence of C‐Pt and M‐Pt in the same shear zone suggests that repeated seismic slips occurred in both the brittle and ductile portions of the crust during the thrusting‐related rapid exhumation of the ultrahigh‐pressure metamorphic complex.  相似文献   

中国新疆天山博阿断裂晚第四纪右旋走滑运动特征   总被引：13，自引：3，他引：13       下载免费PDF全文

沈军  汪一鹏  李莹甄  姜慧  向志勇 《地震地质》2003,25(2):183-194,T001

利用遥感资料 ,通过野外实地考察并结合气候地貌事件的分析 ,对斜切北天山、长逾70 0km的博阿断裂 (博罗科努 -阿齐克库都克断裂 )的右旋走滑运动进行了定量研究。该断裂分为西部NW向断裂和东部NWW向断裂。西部NW向断裂长近 2 5 0km ,向西北延伸进入哈萨克斯坦 ,右旋走滑速率可达 5mm/a ;由 4～ 5个断裂段组成 ,其上发育 3～ 4条古地震或历史地震形变带 ,显示具有发生 7.5级地震的能力。东部NWW向断裂右旋走滑速率 1～ 1.4mm/a ;其上发现小规模古地震形变带 ,显示具备发生 7级左右地震的能力。该断裂与山前的逆冲推覆构造之间构成典型的挤压区应变分配形式 ,即在斜向挤压作用下 ,变形分配为山前的逆冲推覆构造和山内的走滑断裂  相似文献   

Intraplate mountain building in response to continent–continent collision—the Ancestral Rocky Mountains (North America) and inferences drawn from the Tien Shan (Central Asia)     

Patricia Wood Dickerson   《Tectonophysics》2003,365(1-4):129

The intraplate Ancestral Rocky Mountains of western North America extend from British Columbia, Canada, to Chihuahua, Mexico, and formed during Early Carboniferous through Early Permian time in response to continent–continent collision of Laurentia with Gondwana—the conjoined masses of Africa and South America, including Yucatán and Florida. Uplifts and flanking basins also formed within the Laurentian Midcontinent. On the Gondwanan continent, well inboard from the marginal fold belts, a counterpart structural array developed during the same period. Intraplate deformation began when full collisional plate coupling had been achieved along the continental margin; the intervening ocean had been closed and subduction had ceased—that is, the distinction between upper versus lower plates became moot. Ancestral Rockies deformation was not accompanied by volcanism. Basement shear zones that formed during Mesoproterozoic rifting of Laurentia were reactivated and exerted significant control on the locations, orientations, and modes of displacement on late Paleozoic faults.Ancestral Rocky Mountain uplifts extend as far south as Chihuahua and west Texas (28° to 33°N, 102° to 109°W) and include the Florida-Moyotes, Placer de Guadalupe–Carrizalillo, Ojinaga–Tascotal and Hueco Mountain blocks, as well as the Diablo and Central Basin Platforms. All are cored with Laurentian Proterozoic crystalline basement rocks and host correlative Paleozoic stratigraphic successions. Pre-late Paleozoic deformational, thermal, and metamorphic histories are similar as well. Southern Ancestral Rocky Mountain structures terminate along a line that trends approximately N 40°E (present coordinates), a common orientation for Mesoproterozoic extensional structures throughout southern to central North America.Continuing Tien Shan intraplate deformation (Central Asia) has created an analogous array of uplifts and basins in response to the collision of India with Eurasia, beginning in late Miocene time when full coupling of the colliding plates had occurred. As in the Laurentia–Gondwana case, structures of similar magnitude and spacing to those in Eurasia have developed in the Indian plate. Within the present orogen two ancient suture zones have been reactivated—the early Paleozoic Terskey zone and the late Paleozoic Turkestan suture between the Siberian and East Gondwanan cratons. Inverted Proterozoic to early Paleozoic rift structures and passive-margin deposits are exposed north of the Terskey zone. In the Alay and Tarim complexes, Vendian to mid-Carboniferous passive-margin strata and the subjacent Proterozoic crystalline basement have been uplifted. Data on Tien Shan uplifts, basins, structural arrays, and deformation rates guide paleotectonic interpretations of ancient intraplate mountain belts. Similarly, exhumed deep crustal shear zones in the Ancestral Rockies offer insight into partitioning and reorientation of strain during contemporary intraplate deformation.  相似文献   

Quaternary folding of the eastern Tian Shan, northwest China   总被引：3，自引：0，他引：3  

Bihong Fu  Aiming Lin  Ken-ichi Kano  Tadashi Maruyama  Jianming Guo 《Tectonophysics》2003,369(1-2):79-101

The Tian Shan, east–west trending more than 2000 km, is one of most active intracontinental mountain building belts that resulted from India–Eurasia collision during Cenozoic. In this study, Quaternary folding related to intracontinental mountain building of the Tian Shan orogenic belt is documented based on geologic interpretation and analyses of the satellite remote sensing images [Landsat Thematic Mapper (TM)/Enhanced Thematic Mapper (ETM) and India Remote Sensing (IRS) Pan] combined with field geologic and geomorphic observations and seismic reflection profiles. Analyses of spatial–temporal features of Quaternary folded structure indicate that the early Quaternary folds are widely distributed in both piedmont and intermontane basins, whereas the late Quaternary active folds are mainly concentrated on the northern range-fronts. Field observations indicate that Quaternary folds are mainly characterized by fault-related folding. The formation and migration of Quaternary folding are likely related to decollement surfaces beneath the fold-and-fault zone as revealed by seismic reflection profiles. Moreover, analysis of growth strata indicates that the Quaternary folding began in late stage of early Pleistocene (2.1–1.2 Ma). Finally, tectonic evolution model of the Quaternary deformation in the Tian Shan is presented. This model shows that the Quaternary folding and faulting gradually migrate toward the range-fronts due to the continuous compression related to India–Eurasia collision during Quaternary time. As a result, the high topographic relief of the Tian Shan was formed.  相似文献   

Morphological Comparison between Chinese Ayu and Japanese Ayu and Establishment of Plecoglossus altivelis chinensis Wu ＆ Shan subsp, nov.     

Shan Xiujuan  Wu Yunfei  Kang Bin 《中国海洋大学学报(英文版)》2005,4(1):61-66

The countable characters of Qingdao, Zhejiang, Liaoning and Japanese Ayu are compared. There are no substantial different characters among the former three Ayu, so the comprehensive values of them are taken as representative of Chinese Ayu, which is in turn compared with Japanese Ayu (Plecoglossus altivelis altivelis and Plecoglossus altivelis ryukyuensis). By the coefficient of difference test, 3 and 4 characters are found to be beyond the subspecies level between Chinese Ayu and nominate subspecies (Plecoglossus altivelis altivelis) and between Chinese Ayu (Plecoglossus altivelis chinensis) and Ryukyus subspecies (Plecoglossus altivelis ryukyuensis), respectively, which shows that they belong to different subspecies. The China mainland Ayu is a new subspecies, Plecoglossus altivelis chinensis Wu & Shan, the establishment of which and its forming causes are discussed.  相似文献   

Geochemical constraints of the eclogite and granulite facies metamorphism as recognized in the Raobazhai complex from North Dabie Shan,China     

Y. L. Xiao  J. Hoefs  A. M. Van Den Kerkhof  S. G Li 《Journal of Metamorphic Geology》2001,19(1):3-19

A combined study of major and trace elements, fluid inclusions and oxygen isotopes has been carried out on garnet pyroxenite from the Raobazhai complex in the North Dabie Terrane (NDT). Well‐preserved compositional zoning with Na decreasing and Ca and Mg increasing from the core to rim of pyroxene in the garnet pyroxenite indicates eclogite facies metamorphism at the peak metamorphic stage and subsequent granulite facies metamorphism during uplift. A P–T path with substantial heating (from c. 750 to 900 °C) after the maximum pressure reveals a different uplift history compared with most other eclogites in the South Dabie Terrane (SDT). Fluid inclusion data can be correlated with the metamorphic grade: the fluid regime during the peak metamorphism (eclogite facies) was dominated by N₂‐bearing NaCl‐rich solutions, whereas it changed into CO₂‐dominated fluids during the granulite facies retrograde metamorphism. At a late retrograde metamorphic stage, probably after amphibolite facies metamorphism, some external low‐salinity fluids were involved. In situ UV‐laser oxygen isotope analysis was undertaken on a 7 mm garnet, and impure pyroxene, amphibole and plagioclase. The nearly homogeneous oxygen isotopic composition (δ¹⁸O_VSMOW = c. 6.7‰) in the garnet porphyroblast indicates closed fluid system conditions during garnet growth. However, isotopic fractionations between retrograde phases (amphibole and plagioclase) and garnet show an oxygen isotopic disequilibrium, indicating retrograde fluid–rock interactions. Unusual MORB‐like rare earth element (REE) patterns for whole rock of the garnet pyroxenite contrast with most ultra‐high‐pressure (UHP) eclogites in the Dabie‐Sulu area. However, the age‐corrected initial ε_Nd(t) is ? 2.9, which indicates that the protolith of the garnet pyroxenite was derived from an enriched mantle rather than from a MORB source. Combined with the present data of oxygen isotopic compositions and the characteristic N₂ content in the fluid inclusions, we suggest that the protolith of the garnet pyroxenite from Raobazhai formed in an enriched mantle fragment, which has been exposed to the surface prior to the Triassic metamorphism.  相似文献   

Active Tectonics of the Longmen Shan Region on the Eastern Margin of the Tibetan Plateau   总被引：14，自引：0，他引：14       下载免费PDF全文

ZHOU Rongjun LI Yong Alexander L.DENSMORE Michael A. ELLIS HE Yulin LI Yongzhao LI Xiaogang 《《地质学报》英文版》2007,81(4):593-604

There is a massive amount of geomorphic evidence for active tectonics in the Longmen Shan at the eastern margin of the Tibetan plateau. We have surveyed some typical geomorphic markers including the Wenchuan-Maowen, Beichuan-Yingxiu and Pengxian-Guanxian faults, terrace offsets, scarps, fault-controlled saddles, dextral shutter ridges, dextral channel offsets, graben, shatter belts, and pull-apart basins. Electron spin resonance （ESR） and thermoluminescence（TL） ages were obtained using silty sand taken from below the surface of the sediments. According to these data, we calculated the rates of thrusting and strike-slip, and the results indicate that Cenozoic tectonic shortening at the plateau margin is minor with the rate of thrusting less than 1.10 mm/a and the rate of strike-slipping less than 1.46 mm/a. The Longmen Shan is a zone of NNE-trending dextral shear with slip-dip ratio of 6：1-1.3：1. From NW to SE, the thrust component becomes smaller, whereas the strike-slip component becomes larger.  相似文献   

青藏铁路风火山段晚第四纪断裂活动分析   总被引：2，自引：2，他引：0  

吴中海  吴珍汉  韩金良  张永双  胡道功  江万 《现代地质》2005,19(2):181-188

地表地质调查发现,第四纪期间在风火山逆冲-褶皱构造带以发生近东西向的伸展变形为特征。在该构造带中形成切割早期近东西向挤压变形构造带、指示近东西向伸展变形、整体沿北60°东向展布的二道沟断陷盆地。断裂活动的地质、地貌证据表明,控制该盆地晚第四纪断陷的主边界断裂位于其北缘,是一条断续延伸达24 km左右、可能兼具左旋走滑性质的正断层。根据该区晚第四纪沉积物的分布和时代,并对断裂所错动的晚第四纪地质-地貌体进行初步的年代学分析,可以初步断定该断裂的晚第四纪垂直活动速率应该介于0.2~0.4 mm/a之间。  相似文献