四川江油地区上泥盆统-下石炭统灰岩的岩石磁学研究     

李学森  吴汉宁  黄宝春  邓成龙  张小浩 《地球物理学进展》2002,17(1):107-112

四川江油地区上泥盆统三分量样品和下石炭统样品的岩石磁学研究表明：上泥盆统样品的主要载磁矿物为磁铁矿，且以假单畴、多畴和少量单状态存在，下石炭统样品的载磁矿物则主要是假单畴和多畴磁铁矿的混合物，从样品中分离出的中温分量由假单畴磁铁矿携带，上泥盆统样品的高温分量则由记录了岩石原生剩磁的单畴磁铁矿携带。  相似文献   

MAPGIS在地质科技期刊插图制作中的应用     

张玲  王滋平  邓贵安 《矿产与地质》2003,17(4):580-582

地质论文中的插图具有自身的特殊性，根据地质科技期刊对其插图的要求，应用各种绘图软件制作插图，经对比认为MAPGIS是一种方便、快捷、功能强大、最适合制作地质插图的矢量化软件。  相似文献   

霍什布拉克铅锌矿床成因研究   总被引：5，自引：0，他引：5  

邓贵安  蔡宏渊 《矿产与地质》2003,17(6):687-691

矿体赋存在上泥盆统坦盖塔尔组上段碎屑岩向碳酸盐岩过渡部位，具有双层结构。矿石组构具有明显的热水沉积成因特征，研究表明：矿床成矿物质主要来源于深部寒武-奥陶系的基底地层。矿床系下渗的海水和大气水混合淬取了基底丰富的成矿物质形成上升热卤水在海盆中喷流沉积而成。  相似文献   

赣西铜铅锌矿床类型、地质特征及找矿认识   总被引：1，自引：0，他引：1  

钱国华 《矿产与地质》2003,17(Z1):338-341

通过总结赣西地区铜铅锌成矿系列、类型及地质特征,指出该区找矿方向.  相似文献   

三元长石地质温度计及其在我国粤西花岗岩中的应用     

王联魁  沙连堃  徐文新  邓高强 《华南地质与矿产》2003,(4):1-9

根据Green et al(1986)提出的三元长石温压计公式．以长石三元固溶体和矿物相平衡为基础，通过热力学推导，建立了联立方程法和迭代法两种计算三元长石温度的方法。根据联立求解可获得TAb-Or、TOr-An,TAb-An三个温度值，迭代法求解可获得TAb,TOr,TAn三个温度值。因此，一个样品可计算出6个温度数据。选择粤西地区有代表性的18个花岗岩体，按混合岩建造→深熔花岗岩建造→岩浆建造南岭系列花岗岩→岩浆建造长江系列花岗岩的顺序，进行三元长石法的温度计算，所得到的相应各建造和系列花岗岩的上限温度为755℃→766℃→865℃→970℃；下限温度为664℃→665℃→775℃→814℃，亦即上下限温度都逐渐升高，其规律性与地质和地球化学研究结果完全一致，体现了三元长石地质温度计的可靠性和准确性。  相似文献   

被污染土壤的植物修复研究   总被引：11，自引：1，他引：11  

周国华 《物探与化探》2003,27(6):473-475,489

植物修复是利用植物吸收、降解、挥发、根滤、稳定、泵吸等作用机理,达到去除土壤、水体中污染物,或使污染物固定以减轻其危害性,或使污染物转化为毒性较低化学形态的现场治理技术.植物修复对于重金属污染土壤的治理修复具有重要意义.已有研究在累积与超累积植物的寻找筛选、植物对重金属等有害物的耐毒和解毒机理、植物修复现场环境调控及根际处理技术等方面取得了大量成果.现代分子生物学、基因工程技术发展有可能使植物修复技术取得重大突破.  相似文献   

区域土壤环境地球化学研究——异常成因判别·环境质量·污染程度评价的思路与方法   总被引：8，自引：2，他引：8  

周国华  刘占元 《物探与化探》2003,27(3):223-226

从概念内涵和应用目标出发,认为土壤环境地球化学质量评价应该分为质量现状和污染程度两个方面.在此基础上探讨了区域地球化学资料在土壤环境现状质量评价、异常成因识别、污染元素累积速率和土壤污染程度评价研究的基本思路和方法.  相似文献   

中国大陆活动地块的运动与应变状态   总被引：49，自引：0，他引：49  

李延兴  杨国华  李智  郭良迁  黄珹  朱文耀  符养  王琪  江在森  王敏 《中国科学D辑》2003,33(Z1):65-65

从地壳运动与应变的角度给出了活动地块的定义,根据中国大陆及周边地区最近几年GPS观测得到的由1598个GPS站速度组成的统一速度场,估计了各个活动地块的运动与应变参数,分析了各个活动地块的运动与应变状态。中国大陆各地块存在一致的向东运动分量,但其南北分量是不一致的。西部地块存在一致的向北运动分量,东部地块存在一致的向南运动分量。在90°E以东,从喜马拉雅地块向NE方向,各地块的运动方向按顺时针方向旋转,各地块的运动速率是不相同的。从总体上看是西部大、东部小,南部大、北部小,西部大约是东部的3～4倍。各地块主压应变方向的空间分布是不相同的。在90°E以西各地块的主应变方向基本上为SN向,在青藏高原的东北部各地块的主压应变方向基本为NE向,在青藏高原东南部各地块的主压应变方向绕喜马拉雅构造东端顺时针方向旋转。各地块的主应变与剪应变率也是不同的,其中喜马拉雅、天山地块的主压和最大剪应变率最高,其次是拉萨、羌塘、滇西南、祁连与川滇地块。东部各地块的应变率较小。根据应变状态推测,喜马拉雅地块南北向的缩短速率为(15.2±1.5)mm/a,仍然是现今构造活动最强烈的地区,其次是天山地块,天山地块南北向的缩短速率为(10.1±0.9)mm/a。这两个地块目前仍处于隆升状态,从面应变看,面膨胀在中国大陆占优势,东部基本都是膨胀区,在西部面压缩与面膨胀从南向北相间分布。中国大陆的大多数东西向或近东西向断裂两侧的相对运动都是左旋或类似左旋走滑型的,大多数南北向断裂两侧的相对运动都是右旋或类似右旋走滑型的。GPS测定的阿尔金断裂中部的左旋走滑速为(4.8±1.3)mm/a,鲜水河断裂的左旋走滑速为(9.8±2.2)mm/a。地块边界断裂带的运动为地块运动创造了条件,地块及其边界的运动是协调一致的统一的,各个地块的活动程度是不相同的,统计检验结果表明,大多数地块之间的相对运动是显著的与非常显著的,这证明活动地块是客观存在的,喜马拉雅、拉萨、天山、羌塘和滇西南是活动最强烈的地块,中蒙、中朝西、阿拉善和华南是较稳定的地块,印度、太平洋、菲律宾板块与欧亚板块的互相作用力是中国大陆地块运动的主要驱动力。青藏高原地壳物质在印度板块NNE向的强烈推挤下,向NNE和NE方向运动,由于受到北部、东北部和东部地块的阻挡,经高原的东南部向印度洋方向运移,  相似文献   

添加剂对土体的加固作用及冻胀防治研究     

邓友生  马巍  何平  周成林 《冰川冻土》2003,25(6):644-647

将研制的高分子有机材料作为添加剂，加入到土体中，经过拌和夯实、干燥固结，能够起到稳定和提高土体的强度，并具有低渗透和低吸水等特性．冻胀试验表明：加入添加剂不仅能阻止土体冻胀的产生、外来水源的入侵及水分的迁移，还能隔断土体孔隙之间的联系，使水分在土体孔隙中不能运移，从而达到了防治冻胀的目的。  相似文献   

Movement and strain conditions of active blocks in the Chinese mainland   总被引：2，自引：0，他引：2  

李延兴  杨国华  李智  郭良迁  黄珹  朱文耀  符养  王琪  江在森  王敏 《中国科学D辑(英文版)》2003,46(Z2)

The definition of active block is given from the angles of crustal deformation and strain. The movement and strain parameters of active blocks are estimated according to the unified velocity field composed of the velocities at 1598 GPS stations obtained from GPS measurements carried out in the past years in the Chinese mainland and the surrounding areas. The movement and strain conditions of the blocks are analyzed. The active blocks in the Chinese mainland have a consistent E-trending movement component, but its N and S components are not consistent. The blocks in the western part have a consistent N-trending movement and the blocks in the eastern part have a consistent S-trending movement. In the area to the east of 90°E, that is the area from Himalayas block towards NE, the movement direction of the blocks rotates clockwisely and the movement rates of the blocks are different. Generally, the movement rate is large in the west and south and small in the east and north with a difference of 3 to 4 times between the rates in the west and east. The distributions of principal compressive strain directions of the blocks are also different. The principal strain of the blocks located to the west of 90oE is basically in the SN direction, the principal compressive strain of the blocks in the northeastern part of Qingzang plateau is roughly in the NE direction and the direction of principal compressive strain of the blocks in the southeastern part of Qingzang plateau rounds clockwisely the east end of Himalayas structure. In addition, the principal strain and shear strain rates of the blocks are also different. The Himalayas and Tianshan blocks have the largest principal compressive strain and the maximum shear strain rate. Then, Lhasa, Qiangtang, Southwest Yunnan (SW Yunnan), Qilian and Sichuan-Yunan (Chuan-Dian) blocks followed. The strain rate of the blocks in the eastern part is smaller. The estimation based on the stain condition indicates that Himalayas block is still the area with the most intensive tectonic activity and it shortens in the NS direction at the rate of 15.2±1.5 mm/a. Tianshan block ranks the second and it shortens in the NS direction at the rate of 10.1±0.9 mm/a. At present, the two blocks are still uprising. It can be seen from superficial strain that the Chinese mainland is predominated by superficial expansion. Almost the total area in the eastern part of the Chinese mainland is expanded, while in the western part, the superficial compression and expansion are alternatively distributed from the south to the north. In the Chinese mainland, most EW-trending or proximate EW-trending faults have the left-lateral or left-lateral strike-slip relative movements along both sides, and most NS-trending faults have the right-lateral or right-lateral strike-slip relative movements along both sides. According to the data from GPS measurements the left-lateral strike-slip rate is 4.8±1.3 mm/a in the central part of Altun fault and 9.8±2.2 mm/a on Xianshuihe fault. The movement of the fault along the block boundary has provided the condition for block movement, so the movements of the block and its boundary are consistent, but the movement levels of the blocks are different. The statistic results indicate that the relative movement between most blocks is quite significant, which proves that active blocks exist. Himalayas, Tianshan, Qiangtang and SW Yunnan blocks have the most intensive movement; China-Mongolia, China-Korea (China-Korea), Alxa and South China blocks are rather stable. The mutual action of India, Pacific and Philippine Sea plates versus Eurasia plate is the principal driving force to the block movement in the Chinese mainland. Under the NNE-trending intensive press from India plate, the crustal matter of Qingzang plateau moves to the NNE and NE directions, then is hindered by the blocks located in the northern, northeastern and eastern parts. The crustal matter moves towards the Indian Ocean by the southeastern part of the plateau.  相似文献