程裕淇院士为中国地质工作和地质科学事业的发展、为地质科技进步作出了卓越的贡献     

孙文盛 《地质论评》2006,52(5):600-600627

今天，我们隆重举行纪念程裕淇院士座谈会暨《程裕淇文选》首发式。这是一件很有意义的事情!借此机会，我代表国土资源部党组，对各位院士专家和出席这次会议的老领导、朋友们、同志们，表示热烈的欢迎和衷心的感谢!对尊敬的谭娟杰大姐，对程老生前身边的工作人员，致以崇高的敬意和诚挚的问候!  相似文献   

粤西河台金矿锆石SHRIMP年龄及其地质意义   总被引：14，自引：1，他引：14  

翟伟  李兆麟  孙晓明  黄栋林  梁金龙  苗来成 《地质论评》2006,52(5):690-699

河台金矿是一个受剪切带控制的金矿床,成矿作用分为韧性剪切变质成矿期的韧性剪切变质成矿作用阶段和热液蚀变成矿期的金硅化石英脉阶段、金硫化物阶段以及方铅矿闪锌矿碳酸盐脉阶段,金的成矿主要发生在热液蚀变成矿期的金石英脉阶段和金硫化物阶段。SHRIMP锆石U-Pb测年显示赋矿围岩混合岩中继承性锆石的核部和幔部年龄为343.9~1732Ma,代表形成混合岩原岩的源区岩石的年龄;继承性锆石边部和混合岩化变质作用中新生锆石的年龄平均值为239.6±3.9Ma,属印支期,为混合岩化变质作用的年龄,这一年龄与印支期印支板块与扬子板块、扬子板块与华北板块的碰撞时代相一致,证实在中国华南存在印支期的混合岩化变质作用。韧性剪切变质成矿作用的年龄小于混合岩化变质作用的年龄(239.6±3.9Ma);富硫化物含金石英脉中热液锆石普通铅含量高,为0.65%~2.27%,Th/U值变化围很小,为0.306~0.557,其年龄为152.5±3.1Ma,属燕山期,代表河台金矿主成矿期年龄。  相似文献   

李清地铅锌银矿区成矿地质特征及找矿新进展   总被引：6，自引：1，他引：6  

陈旺  孙紫英  刘国军  王金娃  王建平 《地质与勘探》2006,42(1):26-29

李清地铅锌银矿区,是一个勘查多年的老矿区,通过资料的重新开发,按照新的找矿思路,配合有效的勘查方法,发现了新的北西向隐伏Pb、Zn、Ag、Au富厚矿体,取得了找矿实质性进展,使老矿区的找矿重现生机.  相似文献   

滑坡的处治分类与治理模式探讨     

孙英勋 《地质与勘探》2006,42(1):85-88

针对目前滑坡分类复杂且侧重于理论研究的现状，通过以滑面深度、滑床岩性、滑面倾角三要素为分类重点，首次从治理角度上对滑坡进行新的分类，共划分出12种滑坡类型；对当前各种处治方法的应用范围、优缺点进行了详细的论述，从而针对不同类型的滑坡，建立了滑坡的处治模式，最后指出了滑坡处治中应注意的问题。  相似文献   

东天山石英滩金矿田控矿构造与原生晕深部预测   总被引：4，自引：1，他引：4  

马立成  杨兴科  王磊  李强  李国填  孙继东  陈文龙  韦振权 《地质与勘探》2006,42(2):24-28

新疆石英滩(西滩)金矿,前人多认为是浅成低温热液型矿床,近期在该区构造与成矿关系、矿田内东北夼、黄泥坡矿点原生晕指示元素分带序列和叠加晕研究中,发现了石英滩矿区、东北夼、黄泥坡等矿点地下不同深度均存在隐伏矿体,而三个矿区(点)的空间位置恰又与矿田内一近似椭圆的古火山机构同位,且三矿区(点)具有极其相似的地质构造、成岩(脉)成矿和原生晕特征,石英滩金矿区发现有古火山热液通道.这些控矿构造和原生晕特征反映了该金矿田成矿的特殊性,对进一步寻找和预测该区相类似的隐伏矿床(体)具有重要启示.  相似文献   

探讨矿业权经济意义加强矿业权市场建设   总被引：2，自引：0，他引：2  

张婷婷  李守义  孙英男  柴璐 《吉林地质》2006,25(2):84-88

本文探讨了矿业权价值及矿业权流转的问题,并针对目前矿业权的取得方式不够规范、矿业权流转过程中市场难以起到调节资源供需作用,以及国有地勘单位拥有探矿权的比例在不断下降等问题,提出了规范矿业权的取得方式、培育和加强矿业权市场、维护地勘单位在矿业权市场中的主体地位等建议。  相似文献   

吉林省前寒武纪地层   总被引：3，自引：1，他引：3  

周晓东  朱殿义  孙永杰 《吉林地质》2006,25(3):1-10

吉林省前寒武纪地层可见有太古宙变质表壳岩系、古元古代中深变质火山-沉积岩系、吉南新元古代陆源碎屑岩-碳酸盐岩组成的盖层沉积岩系和吉北造山带新元古代变质火山-沉积岩系4种类型.其中太古宙地层龙岗陆块具有多陆块拼贴的特点,可划分为龙岗岩群(四道砬子河岩组、杨家店岩组)、夹皮沟岩群(三道沟岩组、老牛沟岩组)、板石沟岩群、南岗岩群(鸡南岩组、官地岩组)、清原岩群.分别代表白山镇地块、夹皮沟镇地块、板石沟地块、和龙地块和清原地块的变质表壳岩系,其中除龙岗岩群可能为中太古代外,其余地质体的时代均为新太古代.古元古代地层有集安岩群、光华岩群和老岭岩群,前两者为古元古代早期裂谷环境沉积,分别可进一步划分为蚂蚁河岩组、荒岔沟岩组、大东岔岩组、双庙岩组和同心岩组,沉积时限为2 300～2 100Ma;后者为古元古代晚期内克拉通凹陷沉积,可进一步划分为林家沟岩组/达台山岩组、珍珠门岩组、花山岩组、临江岩组和大栗子岩组,沉积时限为1 900～1 800Ma.吉南新元古代地层的岩石地层学属性基本清楚,按新元古代三分的观点,其中细河群及其以下地层时代为青白口纪.浑江群时代为震旦纪,吉南地区缺失南华系.吉林省北部造山带中沿色洛河-海沟-青龙村-江域一线的元古宙地层事实上为不同时代、不同性质的构造岩片堆叠体,属于构造地层学范畴;具有层状地层特征的仅有敦化地区的塔东岩群、蛟河地区的新兴岩组、九台地区的机房沟岩群、辽源地区的西保安岩组以及安图地区的万宝岩组,时代可暂置于新元古代.  相似文献   

基坑支护中锚杆预应力损失机理分析   总被引：1，自引：0，他引：1  

史哲  马平  张晓科  孙强  邹登亮 《城市地质》2006,1(2)

目前基坑支护工程中,预应力锚杆加固技术已经得到广泛应用,但对于锚杆锁固以后的预应力变化规律还没有进行深入探讨研究,尤其是针对基坑侧壁为土质边坡的情况。针对锚杆锁固后,预应力的短期内损失和长期运行的稳定性缺乏全面的认识。通过对基坑锚杆预应力变化的系统监测和分析,揭示了锚杆预应力在运行过程中预应力变化的3个不同阶段,并分析了相应的作用因素。  相似文献   

What Happened in the Trans-North China Orogen in the Period 2560-1850 Ma？   总被引：5，自引：0，他引：5  

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   

U-Pb Age and Hf Isotope Study of Detrital Zircons from the Wanzi Supracrustals： Constraints on the Tectonic Setting and Evolution of the Fuping Complex, Trans-North China Orogen   总被引：1，自引：0，他引：1  

Xiaoping XIA Min SUN Guochun ZHAO WU Fuyuan XU Ping Jian ZHANG Yanhong HE ZHANG Jiheng 《《地质学报》英文版》2006,80(6):844-863

Located in the middle segment of the Trans-North China Orogen, the Fuping Complex is considered as a critical area in understanding the evolution history of the North China Craton （NCC）. The complex is composed of various high-grade and multiply deformed rocks, including gray gneiss, basic granulite, amphibolite, fine-grained gneiss and marble, metamorphosed to upper amphibolite or granulite facies. It can be divided into four rock units： the Fuping TTG gneisses, Longquanguan augen gneisses, Wanzi supracrustals, and Nanying granitic gneisses. U-Pb age and Hf isotope compositions of about 200 detrital zircons from the Wanzi supracrustals of the Fuping Complex have been analyzed. The data on metamorphic zircon rims give ages of 1.82-1.84 Ga, corresponding to the final amalgamation event of the NCC, whereas the data for igneous zircon cores yield two age populations at -2.10 and -2.51 Ga, with some inherited ages scattering between 2.5 and 2.9 Ga. These results suggest that the Wanzi supracrustals were derived from the Fuping TTG gneisses （-2.5 Ga） and the Nanying granitic gneisses （2.0-2.1 Ga） and deposited between 2.10 and 1.84 Ga. All zircons with -2.51 Ga age have positive initial εHf values from ＋1.4 to ＋10.9, suggesting an important crustal growth event at -2.5 Ga through the addition of juvenile materials from the mantle. The Hf isotope data for the detrital zircons further imply that the 2.8 Ga rocks are important components in the lower crust, which is consistent with a suggestion from Nd isotope data for the Eastern Block. The zircons of 2.10 Ga population have initial εHf values of-4.9 to ＋6.1, interpreted as mixing of crustal re-melt with minor juvenile material contribution at 2.1 Ga. These results are distinct from that for the Western Block, supporting that the Fuping Complex was emplaced in a tectonic active environment at the western margin of the Eastern Block.  相似文献