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81.
DONG Shuwen Chinese Academy of Geological Sciences Baiwanzhuang Ro Beijing WU Hongling LIU Xiaochun XUE Huaimin Institute of Geomechanics Chinese Academy of Geological Sciences Beijing Fei Zhenbi 《《地质学报》英文版》2002,76(1):69-80
Up to now it is known that almost all ultrahigh-pressure (UHP) metamorphism of non-impact origin occurred in continent-continent collisional orogenic belt, as has been evidenced by many outcrops in the eastern hemisphere. UHP metamorphic rocks are represented by coesite- and diamond-bearing eclogites and eclogite facies metamorphic rocks formed at 650-800℃ and 2.6-3.5 GPa, and most of the protoliths of UHP rocks are volcanic-sedimentary sequences of continental crust. From these it may be deduced that deep subduction of continental crust may have occurred. However, UHP rocks are exposed on the surface or occur near the surface now, which implies that they have been exhumed from great depths. The mechanism of deep subduction of continental crust and subsequent exhumation has been a hot topic of the research on continental dynamics, but there are divergent views. The focus of the dispute is how deep continental crust is subducted so that UHP rocks can be formed and what mechanism causes it to be subducte 相似文献
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83.
以中国大陆西北地区地震层析成像的结果为基础,通过分析大陆块体内部岩石层和软流层的深部形态,提出西部造山带与相邻块体之间几种可能的碰撞类型:天山与塔里木之间存在地块的嵌入拼合、俯冲、岩石层拆离下沉以及层间插入等多种构造样式;青藏高原与北部地质单元之间存在十分清晰的深部边界,反映出上地幔物质向北扩展的痕迹;推测青藏高原的岩石层在向北运动的过程中由于受到塔里木刚性块体的阻滞发生弯曲甚至折断,但是祁连山以北较浅的软流层相当于一个开放边界,使高原的上地幔物质得以进一步向北迁移.大陆碰撞不仅造成中国西部造山带岩石层结构的变动,而且导致软流层中一部分熔融的岩浆体沿着碰撞边界上涌到岩石层底部,它们对青藏高原以及西部造山带的形成演化起到重要的作用. 相似文献
84.
中国三大地带经济增长差异的系统分析 总被引:24,自引:2,他引:24
中国的城乡差异是独特的,以人均GDP作为衡量标准来描述区域差异和进行国际比较不甚确切,文章以统计数据为基础 ,在考察了三大地带农民人均纯收入和城市居民可支配收入差异的基础上,对1978-1998年20年间三大地带经济不平衡发展作了系统分析,通过定量计算得结论;三大地带之间的差距虽然明显,但不可怕,造成三大地带经济增长差异的原因,除了历史基础和自然条件以外,首先是投入强度(尤其是人均外商直接投资额),其次是出口能力和经济体制(所有制结构),产业结构和社会文化因素也有一定影响。为缓解三大地带的差距,并保证国家整体经济实力的持续增强,近期的投资重点应放在中部地带,尤其是中部城市。 相似文献
85.
86.
Tectonics of Precambrian basement of the Tarim craton 总被引:4,自引:0,他引:4
The Altyn Tagh Mountain is the main area where the Precambrian basements of Tarim craton are exposed. There are two ophiolitic
belts in Altyn Tagh: one belt is exposed in the northern margin of Altyn Tagh whose formation age is about (829±60) Ma, the
other is situated along the southern margin of Altyn Tagh and has a formation age of about (1449±270) Ma. This paper proposes
a simple tectonic model for the Precambrian basement of Tarim craton established from ophiolites in Altyn Tagh area. The south
Tarim block had amalgamated with Qaidam block during about 1400-1500 Ma along the present Altyn fault, while the south Tarim-Qaidam
united block was still separated from the north Tarim block by an ocean. The united block of south Tarim and Qaidam collided
with north Tarim block along the zone of high positive anomaly of central Tarim, Hongliugou and Lapeiquan in about 800 Ma.
So since the Sinian (beginning at 800 Ma) there has been an integrated basement for Tarim craton. 相似文献
87.
山东南墅地区孔兹岩系变质矿物的成因及演化 总被引:3,自引:0,他引:3
南墅地区孔兹岩系的变质矿物具有多成因、多世代的特征 ,其经历三阶段五幕的变质作用 ,形成了以Sil+Gt +Cord +Bi +Kf +Pl+Q为代表的共生矿物组合。通过对主要变质矿物成因及演化特征的分析 ,结合温压计估算 ,确定该区孔兹岩系峰期变质作用温度为 70 0~ 75 0℃ ,压力为 0 .6~0 .7GPa ,变质程度达角闪麻粒岩相。确立 pTt轨迹具顺时针演化特点 ,反映一种陆 -陆碰撞造山带式构造演化模式。 相似文献
88.
中国热带,亚热带西部地区热量带的划分 总被引:3,自引:0,他引:3
我国热带,亚热带西部地区山多,高原广,垂直地带性的影响,给热量带的划分带来了困难,因为垂直气候都具有在该地区纬向气候带的基础上衍生而生的,因此,亚热带西部地区热量带的划分也应以纬向地带性为主,基带气候为中亚热带的云贵高原和金沙江河谷仍应归属于中亚热带,青藏高原破坏了纬向地带性规律,其东侧应有一条亚热带西界,这一界线应是北、中、南亚热带遇到青藏高原后的中断界线,而不是北、中、南亚热带与青藏高原寒气候 相似文献
89.
90.
Guochun ZHAO LIU Shuwen Min SUN LI Sanzhong Simon WILDE Xiaoping XIA Jian ZHANG Yanhong HE 《《地质学报》英文版》2006,80(6):790-806
The Trans-North China Orogen (TNCO) was a Paleoproterozic continent-continent collisional belt along which the Eastern and Western Blocks amalgamated to form a coherent North China Craton (NCC). Recent geological, structural, geochemical and isotopic data show that the orogen was a continental margin or Japan-type arc along the western margin of the Eastern Block, which was separated from the Western Block by an old ocean, with eastward-directed subduction of the oceanic lithosphere beneath the western margin of the Eastern Block. At 2550-2520 Ma, the deep subduction caused partial melting of the medium-lower crust, producing copious granitoid magma that was intruded into the upper levels of the crust to form granitoid plutons in the low- to medium-grade granite-greeustone terranes. At 2530-2520 Ma, subduction of the oceanic lithosphere caused partial melting of the mantle wedge, which led to underplating of mafic magma in the lower crust and widespread mafic and minor felsic volcanism in the arc, forming part of the greenstone assemblages. Extension driven by widespread mafic to felsic volcanism led to the development of back-arc and/or intra-arc basins in the orogen. At 2520-2475 Ma, the subduction caused further partial melting of the lower crust to form large amounts of tonalitic-trondhjemitic-granodioritic (TTG) magmatism. At this time following further extension of back-arc basins, episodic granitoid magmatism occurred, resulting in the emplacement of 2360 Ma, -2250 Ma 2110-21760 Ma and -2050 Ma granites in the orogen. Contemporary volcano-sedimentary rocks developed in the back-arc or intra-are basins. At 2150-1920 Ma, the orogen underwent several extensional events, possibly due to subduction of an oceanic ridge, leading to emplacement of mafic dykes that were subsequently metamorphosed to amphibolites and medium- to high-pressure mafic granulites. At 1880-1820 Ma, the ocean between the Eastern and Western Blocks was completely consumed by subduction, and the dosing of the ocean led to the continent-arc-continent collision, which caused large-scale thrusting and isoclinal folds and transported some of the rocks into the lower crustal levels or upper mantle to form granulites or eclogites. Peak metamorphism was followed by exhumation/uplift, resulting in widespread development of asymmetric folds and symplectic textures in the rocks. 相似文献