Characteristics of China’s oil and gas pool formation in latest geological history

The structural activities took place extensively in the Asia continent during the Cenozoic era owing to the strong continent-to-continent collision and continuous compression between the India Plate and the Eurasia Plate. Huang Jiqing called such structural activities Himalayan movement. China’s sedimentary basins developed and took shape mainly during the Himalayan movement period. It is also the main period for formation and development of the oil and gas reservoirs. Of 366 large and medium-sized oil and gas fields currently found in China, 212 reservoirs were formed in the Neogene-Quaternary period. The proportion is as high as 68.2%. The oil and gas migration and accumulation in the latest geological period, which were controlled by the times, properties, styles and strength of the Himalayan movement, took place mainly in eight regions, such as the low uplift area of Bohai Sea, the onshore faulted sag area of Bohai Bay, anticlinorium zone in Daqing, the foreland fold-and-thrust belt in West China, the tilted structural zone in West China, the cratonic palaeohigh in the Tarim Basin, the zone of fault and fold belt in the East Sichuan Basin, and the biological gas zone in the East Qaidam Basin. The oil and gas pool formations in those regions have their own characteristics. With the great potential and broad prospect, those regions are the main exploration areas in China in the future.     

不同播期的优质小麦产量结构分析

对不同优质小麦品种不同播期的产量结构分析结果表明：河北-8901的各种产量结构表现出最为稳定的变化规律，即不同的播期处理对最后产量的影响度相对较小；郑麦-9405和郑麦-9023的产量结构在不同的播期表现出较大的波动。     

青藏高原狮泉河-康西瓦地区 1:100万区域重力调查成果

利用最新取得的区域重力资料,参考航磁、遥感、区域地质资料,对青藏高原狮泉河-康西瓦地区重力场分区、断裂构造体系、构造单元、局部异常、深部构造、成矿远景区(带)等进行了研究.对阿尔金走滑断裂西南端的走向和延伸提出了一些新的看法;讨论了2条重力低值带的成因;推断了班公湖-怒江结合带下部莫霍面隆起的高度,从重力角度提出了对班公湖-怒江结合带的认识;认为青藏块体在拼合后地壳有2个加厚中心;新圈定了一个中、新生代沉积盆地,并进行了初步研究;结合地质、矿产、航磁等资料,初步划分出4个成矿远景区(带).     

青藏高原狮泉河-康西瓦地区1∶100万区域重力调查成果

利用最新取得的区域重力资料,参考航磁、遥感、区域地质资料,对青藏高原狮泉河—康西瓦地区重力场分区、断裂构造体系、构造单元、局部异常、深部构造、成矿远景区(带)等进行了研究。对阿尔金走滑断裂西南端的走向和延伸提出了一些新的看法;讨论了2条重力低值带的成因;推断了班公湖—怒江结合带下部莫霍面隆起的高度,从重力角度提出了对班公湖—怒江结合带的认识;认为青藏块体在拼合后地壳有2个加厚中心;新圈定了一个中、新生代沉积盆地,并进行了初步研究;结合地质、矿产、航磁等资料,初步划分出4个成矿远景区(带)。     

ASCOT与POS结合在IMU／DGPS辅助航空摄影中的应用

IMU/DGPS辅助航空摄影是近年来开始广泛应用的航摄新技术,该技术的使用设备十分昂贵,而且,其设备中的航空摄影管理系统不一定是必需的,本文通过改造徕卡的ASCOT系统,使其和APPLANIX公司的POS AV 510一起完成某摄区的IMU/DGPS辅助航空摄影,充分利用已有的设备,为IMU/DGPS辅助航空摄影提供了一种新的设备配置方案。     

辽河油田生物降解原油沥青质热解产物中单体化合物碳同位素组成

生物降解原同在我国分布广泛并且在重油资源中占有一定的比例。本文通过采用单体化合物碳同位素分析技术对取自辽河油田西部凹陷的重油以及它们沥青质组分的热解产物进行单体碳同位素测定,来研究原油沥青质热解产物中正构烷烃单体碳同位素的组成及其一物降解油的指示意义。研究结果表明,沥青质热解产物中正构烷烃组分的单体碳同位素组成可用于生物降解较严重的重油样品进行油／油相比,并且与原油中的正构烷烃单体碳同位素组成的对     

苍山5.2级地震前十里泉电厂井地下水离子多组分的变化特征及机制讨论

１９９５年９月２０日山东苍山５．２级地震前,山东枣庄十里电厂水化学现观测井（Δ＝ｋｍ）水离子多组分出现了较为同步的异常变化。本文以此为基础,分析研究了这些异常的变化特征,讨论了异常出现的机制,研究认为,枣庄十里泉电厂水化学观测井水离子多组分的异常同步变化及相互印证,提高了异常的可信度;与水中常见离子组分相比,其中水汞的震前异常变化幅度最大,异常特征明显;十里泉电厂水化学观测井水离子多组分的同步异常     

1983年菏泽5.9级地震前地下流体异常分布特征及其有关问题讨论

全面、系统地分析研究了菏泽５．９级地夺前地下流体异常时空分布及其场兆、源兆特征。结果表明,异常空间分布与活动构造密切相关,断裂端部和交汇处是异常响应的第三地区。单位面积异常台项数,震中及附近地区远高于外围地区。震前１个月左右,异常台项月频次大幅度增高,单项异常的时间演化有持续型、完整型和突跳型三种类型。源兆异常具有中期、短期、临震异常配套、水化我组分同步异常变化、宏观异常多点成片、持续时间长、幅度     

9711号台风的移动路径和影响山东的特大暴雨分析

对９７１１号台风的移动路径及其造成的暴雨进行了分析。分析表明,副高外围环流在台风移动过程中有明显的引导作用;台风的移动路径和暴雨落区与正涡度轴线及高能轴线都有较好的对应关系;对流层中层变能场的分布对台风移动路径有明显的预报指示意义。     

Spatial and seasonal variation of major ions in Himalayan snow and ice: A source consideration

The spatial and temporal variation of major ions (Ca²⁺, Mg²⁺, Na⁺, K⁺, , , and Cl⁻) in Himalayan snow and ice is investigated by using two snow pits from the East Rongbuk glacier (28°01′N, 86°58′E, 6500 m a.s.l.), one snow pit from the Nangpai Gosum glacier (28°03′N, 86°39′E, 5700 m a.s.l.), one snow pit from the Gyabrag glacier (28°11′N, 86°38′E, 6303 m a.s.l.), and three ice cores from the Sentik (35°59′N, 75°58′E, 4908 m a.s.l.), Dasuopu (28°33′N, 85°44′E, 7000 m a.s.l.), and East Rongbuk (27°59′N, 86°55′E, 6450 m a.s.l.) glaciers, respectively. In general, the major ions show a significant seasonal variation, with high concentrations during the non-monsoon (pre-monsoon and post-monsoon) season and relatively low concentrations during the monsoon season. Monsoon precipitation with high local/regional dust loading related to summer circulation is possibly responsible for the high concentrations occurring sporadically during the monsoon season. The crest of the Himalayas is an effective barrier to the spatial distribution of Na⁺, Cl⁻ and concentrations, but not to the major ions associated with dust influx (e.g. Ca²⁺ and Mg²⁺). Atmospheric backward trajectories from the HYSPLIT_4 model used in identifying chemical species sourcing suggest that the major ions in the Himalayan snow and ice come mainly from the Thar Desert located in the North India, as well as West Asia, or even the distant Sahara Desert in the North Africa during the winter and spring seasons. This is different from the conventionally assumed arid and semi-arid regions of the central Asia. Factors, such as different vapor sources due to atmospheric circulation patterns and geographical features (e.g. altitude, topography), may contribute to the differences in major ionic concentrations between the western and eastern Himalayas.