Characteristic of Gravity and Magnetic Anomalies in the Daba Shan and the Sichuan basin, China: Implication for Architecture of the Daba Shan

The Dabashan nappe structural belt links the Hannan block to the west with the Huangling block to the east between Yangxian and Xiangfan. The Dabashan arc-shaped fold belt formed during late Jurassic and was superposed on earlier Triassic folds. To achieve an improved understanding of the deep tectonics of the Dabashan nappe structural belt, we processed and interpreted the gravity and magnetic data for this area using new deep reflection seismic and other geophysical data as constraints. The results show that the Sichuan basin and Daba Mountains lie between the Longmenshan and Wulingshan gravity gradient belts. The positive magnetic anomalies around Nanchong-Tongjiang-Wanyuan-Langao and around Shizhu result from the crystalline basement. Modeling of the gravity and magnetic anomalies in the Daba Mountains and the Sichuan basin shows that the crystalline basement around Nanchong-Tongjiang-Wanyuan-Langao extends to the northeast underneath the Wafangdian fault near Ziyang. The magnetic field boundary in the Zhenba-Wanyuan-Chengkou-Zhenping area is the major boundary of the Dabashan nappe thrusting above the Sichuan Basin. This boundary might be the demarcation between the south Dabashan and the north Dabashan structural elements. The low gravity anomaly between Tongjiang and Chengkou might be partly caused by thickened lower crust. The local low gravity anomaly to the south of Chengkou-Wanyuan might result from Mesozoic strata of low density in the Dabashan foreland depression area.     

绿洲荒漠过渡带生态环境变化预警线提取与分析研究以新疆和田绿洲为例

运用MODIS时间序列数据,以干旱区和田绿洲为例,在对2002年、2004年SMVC-NDVI（Seasonal Maximum Value Composite NDVI）图进行分类后,通过对土地覆盖变化类型多度、重要度和评价等级的计算,将干旱区绿洲的生态环境强烈变化区定位于低草和中草的界限,并以此提取了过渡带生态环境变化的预警线。结果表明：从2002—2004年,预警线呈现整体缩小趋势,说明绿洲整体的生态环境在这3 a内有所退化,向恶性发展。通过对以气候因子为主的自然和人类活动因素定量分析后,认为预警线对干旱区荒漠绿洲脆弱生态环境的连续实时监测和可持续性发展研究具有很好的指示作用。     

扬子板块东北缘中元古代的大地构造划分

扬子板块东北缘存在四条主要的中元古代变质带,自南向北依次为江南变质带、沿江变质带、云台一张八岭变质带和连云港一泗阳变质带。它们分别为中元古代的古弧后盆地、火山岛弧、裂谷及弧前盆地,扬子板块东北缘中元古代为活动大陆边缘构造体系。苏（北）胶（南）变质造山带应解体,其中一部分属扬子大陆边缘体系。     

江西武夷成矿带铜多金属矿产资源远景评价与展望

华南武夷山地区处于扬子、华夏两大构造单元交接叠加地段,构造变形复杂,中生代岩浆活动强烈,具有十分优越的成矿条件,矿产资源潜力巨大。本文以正在武夷山成矿带开展的矿产远景调查工作和资源评价工作所取得的阶段性成果为基础,分析了武夷山成矿带的成矿地质背景、主要矿床类型及近几年的找矿勘查成果,并对武夷成矿带江西省境内铜多金属矿产资源潜力进行了初步评价,划分了十七个找矿远景区。     

Ductile deformation and development of andalusite microstructures in the Hongusan area: Constraints on the metamorphism and tectonics of the Ryoke Belt

Abstract   The main mesoscopic features of the ductile deformation in the Hongusan region of the Ryoke Belt can be explained in terms of a single deformation phase, Dm . The associated stretching lineation is roughly east–west and has an associated top-to-the-west sense of shear. This information fills an important gap in our knowledge about the deformational history of the Ryoke metamorphic belt. Andalusite porphyroblasts are well-developed in the Hongusan area and their microstructure can be used to link the deformational history with the metamorphism. However, the andalusite porphyroblasts show both intertectonic and post-tectonic microstructures. Some porphyroblasts have an intertectonic core and post-tectonic rim. Analysis of associated metamorphic minerals and bulk-rock chemistry suggests that the distinct types of microstructure can be explained in terms of distinct formation reactions related to regional and contact metamorphism. The intertectonic microstructure shows the presence of a deformation pre-dating Dm , referred to as Dc . These two deformation stages are sufficient to account for all the main deformation features. The distribution of post-tectonic andalusite growth shows a very broad thermal effect around an intrusion in the area. This can help place constraints on the thermal history of the Ryoke metamorphic belt.     

某水电站坝基G23挤压蚀变破碎带成因及工程性质分析

G23挤压蚀变破碎带是某水电站坝基的主要工程地质问题。通过对该水电站枢纽区新构造运动及构造体系特征的综合分析,探讨了G23挤压蚀变破碎带的成因机制。基于典型岩样的物相及微形貌试验成果,分析了G23带构造岩的岩性特征,明确了G23带岩体的物理性质及其转变特征,预测了该挤压蚀变破碎带在工程作用下的变化趋势。结合蚀变岩样三轴压缩试验的变形破坏规律,阐述了G23带对工程作用的响应及其对工程的影响。     

新疆卡拉麦里地区晚古生代以来不同构造层特征及大地构造意义

摘要：卡拉麦里地区石炭纪以来的岩石地层系统由三大套构造岩石地层单位构成, 分别是以劈理、紧闭褶皱极为发育的卡拉麦里蛇绿混杂岩带为代表的造山带基底层系,以开阔褶皱为主要构造变形的石炭纪后碰撞构造层,和高角度正断层及平缓褶皱较发育的二叠-侏罗纪陆内湖盆构造层。它们分别记录了卡拉麦里地区前石炭纪碰撞造山阶段、石炭纪后碰撞阶段和二叠纪后板内断陷 坳陷阶段的沉积 变形特征。     

实践中发展的最大有效力矩准则

最大有效力矩准则发表以来, 不断得到新的野外观察和实验结果的验证, 正在得到国内外同行的支持。岩石的变形行为取决于自身力学性质、构造层次(包括温度、压力、流体压力等因素)和应变速率。浅构造层次中平面菱网状构造和剖面共轭膝褶带, 钝角面对缩短方向, 受最大有效力矩准则控制, 是对慢应变速率的构造响应。证明应变速率对变形行为的控制程度不亚于构造层次。韧、脆性构造的共存意味着构造演化过程为快、慢应变速率的交替。      

黑河下游地下水波动带地下水位动态变化研究

 黑河下游是生态环境特别脆弱的地区,地下水位具有重要的生态意义。研究该区域地下水位的波动变化,对于生态环境的恢复与管理具有重要的指导意义。以河流20 km缓冲区为研究区,基于观测数据对2006年地下水位与分水前（2000年）的地下水位进行对比,分析得出:随着生态输水工程的启动,地下水位在总体上得到明显升高,研究区北部横剖面线上地下水平均升高0.995 m,南部横剖面线上平均升高0.497 m。西河纵剖面上输水后地下水位在下游提升最为明显,平均水位上升2.41 m,中游提升不大,大约为0.22 m;东河纵剖面上下游水位提升比较明显,水位上升1.06 m,但中游地下水在分水后仍有显著下降,平均下降0.96 m,上游地下水位上升0.90 m。研究区不同区域地下水时间（1990—2010年）变化趋势不同。有持续上升型,有持续下降型,有下降转为上升型,2002年成为转折点;额济纳旗农业灌溉对局部地区地下水影响较大,农业用水与生态需水的矛盾逐渐显露出来。