秦皇岛市区断裂活动性的SEM研究

近年来,应用断层泥扫描电子显微(SEM)构造来研究断裂的活动性,已引起了国内、外地震地质和工程地质的重视。本文通过对秦皇岛市区几条断裂带断层泥和断层泥中石英颗粒表面SEM构造特征的研究,对断裂带的相对活动时限及活动特征进行了探讨。研究成果与野外宏观调查、现场仪器测试、遥感101系统图象处理结果基本吻合,在微观领域为市区断裂活动性研究提供了依据。这说明该方法在工程地质领域具有重要的实际应用价值。     

东南地洼区的地球物理特征及其深部构造力源机制探讨

本文较全面地探讨了东南地洼区反映深部构造特点的地球物理特征(波速结构,地温分布,电性,密度,重、磁场异常),综合分析了该区地洼构造形成、演化的力源机制,讨论了地洼构造与板块构造的力源机制关系问题。     

1961-2010年绥化市温度和降水变化特征分析

以绥化市测站数据为基础,同时选取气温和降水2个主要气象要素指标,采用线性倾向估计最小二乘法和滑动平均法对1961-2010年绥化市温度和降水的变化趋势进行探讨并统计年代际特征。结果表明：近50 a来,绥化市春季、秋季、冬季平均气温以及年平均气温均呈明显的增加趋势,夏季虽有增温趋势,但不显著。降水量呈波动变化并略有减少。     

青藏高原东部暴雨强降水的特征

该文简要地介绍了贵州省气候中心近期主持完成的一项关于青藏高原东部暴雨强降水成因及特征的研究成果。这一成果使用多种方法综合研究了青藏高原东部暴雨的标准、暴雨的水汽通道、暴雨的天气气候特征、暴雨的小范围、短历时特征、暴雨的高效率特征、夜雨特征、暴雨强降水的巨大地形差异、青藏高原特有的雪暴强降水特征、暴雨面雨量的计算、最大可能降水量的估算、暴雨过程的地面径流特征、青藏高原东部的水平衡特征等课题,填补了青藏高原暴雨研究的空白。     

田阳县近50a降水变化趋势特征分析

利用气候倾向率及相关系数分析方法,对站田阳站1959～2008年的年、季降水量、降水日数作统计分析。结果发现,田阳站50a年、季降水量随时间变化总趋势平稳少变,年降水气候倾向率为3.09mm/10a;小雨、中雨量级降水日数气候倾向率呈负值,小雨日数50a趋减9d;大雨以上强降水气候倾向率呈正值,表明强降水日数趋增。     

近46年来华东及周围地区最高与最低气温时空演变的气候特征

选用华东及周围地区157个气象观测站1960-2005年6~8月逐日最高、 最低气温资料, 利用分段线性突变检验、 EOF分解等方法, 分析了我国华东地区最高, 最低气温的空间分布及时间演变特征。结果表明： 高温主要出现在长江以南; 长江以北夏季气温分布受地形影响显著。最高气温分布具有良好的空间一致性, 主要受大尺度天气系统影响; 最低气温更多表现出局地变化特征; 华东夏季最高、 最低气温分布形态较为类似, 有“全区一致型”和“南北反向型”两种, 1980年是夏季气温的一个突变点。1980年以前, 最高、 最低气温都呈下降趋势; 1980年以后则呈升温趋势; 最高气温的演变以“高温-低温-高温”的年代际振荡为主, 极端高温主要发生在两个时段： 第一次在1960-1965年之间; 第二次在2000年以后, 而极端最低气温以升温趋势为主。     

高分辨率卫星数据在矿山开发状况及环境监测中的应用效果比较

以著名钨矿生产基地———江西省崇义县为实验区,对QUICKBIRD和SPOT-5数据在南方高植被覆盖山区矿产资源开发状况及其引发的环境问题的监测效果和与性能作了系统比较,为类似地区矿山监测时数据源的选择提供参考。     

东天山同成铅矿地球化学特征及找矿意义

同成地区位于东天山阿齐山-长城山岛弧带(觉罗塔格岛弧),南部有彩霞山铅锌矿,东部有红柳沟铜铅锌多金属矿及维山铅锌矿等。该地区处于新疆重要的铜、镍、金等多金属成矿带,是新疆重要成矿带,成矿条件有利。研究区内元素异常受地层控制明显,主成矿元素Pb、Zn富集度高、范围广,且元素异常整体重叠,所圈定的化探异常与地表发现的铅矿化带走向一致。根据目前取得的化探及找矿成果,认为同成地区具有寻找新型铅矿的较大潜力。     

Characteristics,differences and main controlling factors of source rocks in the central‐southern South China Sea Basins

The South China Sea is rich in oil and gas resources. With the increasing exploration of oil and gas resources in the northern South China Sea and the increasing demand for energy in the world, The central‐southern South China Sea have become important constituencies for oil and gas resources. The central‐southern basins of South China Sea can be divided into three types of basin groups, namely, the southern basin group (Zengmu Basin, Brunei‐Sabah Basin), the western basin group (Wan'an Basin, Zhong jiannan Basin) and the Central Basin Group (Liyue Basin, Beikang Basin, Nanweixi Basin and Palawan Basin). At present, the degree of exploration is relatively low, and the source rock has not yet formed a understanding of the system. The main source rock development time, source rock characteristics, hydrocarbon generation potential and control factors of each basin group are still unclear, which seriously restricts the exploration of oil and gas. Based on the sedimentary facies distribution and sedimentary filling evolution, combined with the geoche mical characteristics of the source rocks, the source age, organic matter type, hydrocarbon generation potential and main controlling factors of the basins in the central‐southern basins are discussed. By the detailed research on delta scale, provenance system, paleoclimate conditions, ancient vegetation development and hydroca rbon generation parent material, the main controlling factors of hydrocarbon generation potential of source rocks in each basin group are revealed.     

Characteristics of the main inorganic nitrogen accumulation in surface water and groundwater of wetland succession zones

Based on the observation of a complete hydrological year from June 2014 to May 2015, the temporal and spatial variations of the main inorganic nitrogen(MIN, referring to NO_3~--N, NO_2~--N, NH_4~+-N) in surface water and groundwater of the Li River and the Yuan River wetland succession zones are analyzed. The Li River and the Yuan River are located in agricultural and non-agricultural areas, and this study focus on the influence of surface water level and groundwater depth and precipitation on nitrogen pollution. The results show that NO_3~-N in surface water accounts for 70%-90% of MIN, but it does not exceed the limit of national drinking water surface water standard. Groundwater is seriously polluted by H_4~+-N. Based on the groundwater quality standard of H_4~+-N, the groundwater quality in the Li River exceeds Class III water standard throughout the year, and the exceeding months' proportion of Yuan River reaches 58.3%. Compared with the Yuan River, MIN in groundwater of the Li River shows significant temporal and spatial variations owing to the influence of agricultural fertilization. The correlation between the concentrations of MIN and surface water level is poor, while the fitting effect of quadratic correlation between H_4~+-N concentration and groundwater depth is the best(R~2=0.9384), NO_3~-N is the next(R~2=0.5128), NO_2~--N is the worst(R~2=0.2798). The equation of meteoric water line is δD =7.83δ~(18) O+12.21, indicating that both surface water and groundwater come from atmospheric precipitation. Surface infiltration is the main cause of groundwater H_4~+-N pollution. Rainfall infiltration in non-fertilization seasons reduces groundwater nitrogen pollution, while rainfall leaching farming and fertilization aggravate groundwater nitrogen pollution.