可控震源记录中的脉冲噪声分析

噪声分析一直是地震资料信噪比得以改善的重要基础方法。可控震源向地下输入瞬时低能量信号, 易受到可控震源系统内部以及背景中的瞬时脉冲噪声(如电噪声、震动噪声等)的干扰。用于提取有效信号的相关检测方法将脉冲噪声的干扰范围扩大, 严重影响了对可控震源有效信号的提取。为了从理论上分析脉冲噪声对可控震源相关记录的干扰, 通过仿真实验, 系统分析了单点脉冲和多点脉冲噪声对相关记录中可控震源信号的干扰程度和特点。结果表明, 可控震源相关记录中的信号主要受脉冲噪声强度、所在时间位置以及可控震源非相关记录脉冲点数比例三方面因素影响, 脉冲噪声所占记录的比例大于2.5%且平均强度高于100时, 相关检测后的可控震源信号会完全被噪声淹没。     

中朝边境地区新生代火山岩系对比

通过对比中国长白山区和朝鲜白头山区新生代火山岩系的层序和同位素年代学资料,首次编制出中朝边境地区新生代火山岩系分布图和新生代火山喷发阶段对比表。其岩石化学和地球化学演化趋势表明,该区新生代火山完全有可能再次喷发。     

赛马-柏林川碱性杂岩常量组分变异的分离结晶制约

赛马－柏林川碱性杂岩体为侵位于古元古宙与新元古宙之间的缓倾斜岩席状岩体,缓倾的张裂隙制约了分异岩浆的侵位和含矿溶液的流通,交代富集的上地幔产生的富碱岩浆与富集的地壳产生的岩浆以不同比例混合,形成了正长质岩浆和霞石正长质岩浆。含地壳组分较高的正长质岩浆,受富钙辉石、角闪石和镁质较高黑云母的结晶分离制约向硅酸过饱和方向演化;霞石正长质岩浆受富钙辉石—霓辉石、白榴石、含Ｆｅ较高黑云母、黑榴石的分离结晶制约发生分异。稀土元素矿床是霞石正长质岩浆分异残余熔体的产物,侵位于岩体最高层位。     

第四纪地质环境的人工再造作用与土地荒漠化

第四纪地质环境的人工再造作用是一个新概念。文章在回顾人类文明历史发展的基础上,重点阐述了近50年来全球土地荒漠化发展的严重趋势。人工再造作用是人类过量的经济活动对岩石圈与生物圈接触介面产生的一种破坏作用,其动力是不断增长的世界人口及其巨大的物质需求。可将人工再造作用看作是第四纪中最新的一个地质事件。研究发现,这一破坏作用过程符合Logistic曲线的变化规律,因此可以采用Logistic数学模型开展深入研究。第四纪地质学家、环境地质学家对资源、环境、人口和可持续发展问题应给以更多的关注。     

前陆盆地类型及其沉积动力学研究综述

从前陆盆地的特点及类型入手,综述了前陆盆地研究的热点内容,最新方法及其沉积动力学进展状况,揭示了前陆背景下盆地充填序列的构成及内部演化特征,指出了盆地的沉积－地层格架与冲断造山带的幕式活动之间的响应关系。     

蓝细菌聚金作用实验研究

蓝细菌聚金实验研究表明:①不同的生物由于生化组分的差异,其富金能力不同,低等蓝细菌生物比动物细胞富金能力强;②金在细胞中的分布与其各部分生化组成(也就是生物配体)密切相关;③金离子进入细胞不是一种简单的扩散作用,而是通过细胞膜界面两侧物质之间的交换而实现的,蓝细菌活体聚金机理主要是参与生命活动的吸收作用;④在较高温热水环境中微生物对成矿最显着。     

Late Mesozoic compressional to extensional tectonics in the Yiwulüshan massif,NE China and its bearing on the evolution of the Yinshan–Yanshan orogenic belt: Part I: Structural analyses and geochronological constraints

With a cratonic nucleus, the North China Craton (NCC) experienced a complex tectonic evolution with multiphase compressional and extensional events during Mesozoic times. Along the northern part of the NCC, the Yinshan–Yanshan fold and thrust belt was a typical intraplate orogen. Jurassic and Cretaceous continental sedimentation, magmatism, widespread intraplate characterize the Yinshan–Yanshan orogenic belt. The geodynamic significance of these tectonic events is still in dispute. In the western part of the Liaoning province, the Yiwulüshan massif crops out at the eastern end of the Yinshan–Yanshan orogenic belt. The Yiwulüshan massif presents an elliptical domal shape with a NE–SW striking long axis. The structural evolution of this massif brings new insights for the understanding of the Mesozoic plutonic–tectonic history of the NCC. A multidisciplinary study involving structural geology, geochronology, Anisotropy of Magnetic Susceptibility (AMS) and gravity modeling have been carried out. The presentation of the new results splits into two parts. Part I (this paper) deals with field and laboratory structural observations, and presents the main geochronological results. The AMS, gravity modeling data will be provided in a companion paper (Part II). The early compressional deformation (D₁) corresponds to a Late Jurassic to Early Cretaceous southward thrusting. The subsequent deformation is related to the Early Cretaceous exhumation of the Yiwulüshan massif. A detailed structural analysis allows us to distinguish several deformation events (D₂, D₃, and D₄). The Cretaceous extensional structures, such as syntectonic plutons bounded by ductile normal faults, metamorphic core complexes, and half-graben basins are recognized in many places in East Asia. These new data from the Yiwulüshan massif constitute a link between Transbaikalia, Mongolia, North China and South China, indicating that NW–SE extensional Mesozoic tectonics occurred throughout the entire region.     

Seismic random noise attenuation by time-frequency peak filtering based on joint time-frequency distribution

Time-Frequency Peak Filtering (TFPF) is an effective method to eliminate pervasive random noise when seismic signals are analyzed. In conventional TFPF, the pseudo Wigner–Ville distribution (PWVD) is used for estimating instantaneous frequency (IF), but is sensitive to noise interferences that mask the borderline between signal and noise and detract the energy concentration on the IF curve. This leads to the deviation of the peaks of the pseudo Wigner–Ville distribution from the instantaneous frequency, which is the cause of undesirable lateral oscillations as well as of amplitude attenuation of the highly varying seismic signal, and ultimately of the biased seismic signal. With the purpose to overcome greatly these drawbacks and increase the signal-to-noise ratio, we propose in this paper a TFPF refinement that is based upon the joint time-frequency distribution (JTFD). The joint time-frequency distribution is obtained by the combination of the PWVD and smooth PWVD (SPWVD). First we use SPWVD to generate a broad time-frequency area of the signal. Then this area is filtered with a step function to remove some divergent time-frequency points. Finally, the joint time-frequency distribution JTFD is obtained from PWVD weighted by this filtered distribution. The objective pursued with all these operations is to reduce the effects of the interferences and enhance the energy concentration around the IF of the signal in the time-frequency domain. Experiments with synthetic and real seismic data demonstrate that TFPF based on the joint time-frequency distribution can effectively suppress strong random noise and preserve events of interest.     

浅谈复杂地层科学钻探理念

随着地质找矿方向转向“攻深找盲”,钻探工程施工难度也节节攀升;未来钻孔多以深孔、斜孔为主,面临的地层情况也将越来越复杂,只有坚持科技钻探理念、做好科技钻探理念传承、加强钻探科技发展和更新、做好系统化、标准化、档案化的科学管理,才能为钻探企业注入新的活力,使其能在新的地勘形势下获得更强的生命力。     

渤海湾西岸全新世地层的分段与划组

本文以岩性地层、气候地层(CaCO3含量、古温度和Rb/Sr比值等)、年代地层、沉积化学地层和生物组合地层等资料为基础,根据地层规范以及建组要求将渤海湾西岸全新世地层划分为3个组:独流镇组( Qh3 dl)、大黄洼组(Qh2dh)和西翟庄组(Qh1xz).其地层埋深界线及测年界线分别为:晚全新世独流镇组(Qh3dl)与...