浅地层剖面系统在福建沿海海底沉船调查中的应用

海底沉船是水下文化遗产的一种重要类型和存在形式,利用综合地球物理手段对福建平潭、莆田及福州海域的海底沉船进行了探测研究,并重点探讨了不同浅地层剖面系统及不同探测频率在不同埋藏状态的水下文物调查中的应用。结果表明:浅地层剖面探测能够有效识别处于不同埋藏状态的沉船,尤其对探测埋藏海底面以下的沉船具有其他探测手段无法比拟的优势,但是探测频率的调节对目标物探测结果存在较大差异,对于埋藏式的海底沉船低频信号探测效果较理想。     

纪念李世雄教授

本文以笔者所能领悟到的李世雄教授对提升油气勘探科学水平做出的贡献,阐述他近20年来在地震成像、Wavelet、独立分量分析（ICA）和复杂条件下动力学问题的理论方法研究成果,并对李世雄教授为提升年青后学者科学判断力和促进研究群体有效成果产出的指导风范,深表敬意.     

中国地球物理学研究面临的机遇、发展空间和时代的挑战

在21世纪的今天,中国正处于快速工业化、经济腾飞和科学技术突飞猛进的进程中,地球物理学面临巨大的机遇,展现出多维的发展空间,同时也面临着严峻的挑战.为此,国家战略需求和自主创新已成为中华民族能否独立于世界民族之林的最强音！在这前提下,地球物理学家就必须超越已有的框架,穿过地平线,全方位的研究、探索、揭示、发现地球内部的奥秘.必须清晰地认识到新世纪里地球物理学的发展导向,即地球物理学的前沿领域和深化研究与现代科学技术进步的制约;地球物理学必须牢牢地把握住向高层次的综合研究脉络方能有所发现与突破;地球物理学所面临的机遇、多元发展空间和挑战;地球内部圈层结构与大陆动力学研究的主体内涵和导向.     

物探方法在复兴屯银铅锌多金属矿区构造与成矿机理研究中的应用

复兴屯银铅锌多金属矿是近两年在大兴安岭成矿带中生代陆相火山盆地里首次发现的特大型银铅锌多金属矿床.在矿床普查与勘查期间开展了地面高精度磁测、时间域激发极化法面积性测量、AMT电磁测深等物探方法,发挥了重要指导作用.①通过地面磁异常数据RGIS软件处理解释判定了普查区构造构局;②综合利用地磁异常和视电阻率异常特征,结合地...     

第四纪盐湖型钾盐矿床的航空γ能谱异常特征及找矿模式

本文以航空γ能谱测量资料为依据，简述了与找钾有关的部分科研成果，建立了第四纪盐湖型钾盐矿床的找矿模式，进而通过对别勒滩、马海等钾盐矿例剖析，说明航空γ能潜测量在寻找第四纪盐湖型钾盐矿床方面确有明显效果。     

层析成像新算法及其在工程检测上的应用

基于走时和振幅的层析成像反演涉及大型稀疏矩阵方程的求解，当矩阵严重病态时，目前流行的正交分解型迭代算法难以取得良好的成像效果．本文介绍一种改进的ＬＳ_ｑＲ算法，即带阻尼的ＬＳ_ｑＲ迭代算法，它应用在北京机场高速公路桥墩施工质量检测中，取得了良好的效果．     

区域航空γ能谱场地球化学解释及预测方法的探讨

本文以“铀矿区域评价准则”为依据,试用因子分析主成分比值法,铀对钍(钾)的区域相对场法和铀成矿有利指数法,对我国YW-10和YW-10B两个测区的区域航空γ能谱场进行了地球化学解释及预测方法的研究,与已知矿区660测区从宏观上做了对比分析,并研究了γ能谱参数在走向长270km,宽50—70km空间上的分布变化规律。研究结果表明,这些方法对了解成岩时原始铀的分布及后期铀的地球化学活动规律,估计成岩、成矿阶段铀源岩可能提供的生铀量,识别铀成矿有利地区是有用的。     

Application of integrated methods in mapping waste disposal areas

An integrated suite of environmental methods was used to characterize the hydrogeological, geological and tectonic regime of the largest waste disposal landfill of Crete Island, the Fodele municipal solid waste site (MSW), to determine the geometry of the landfill (depth and spatial extent of electrically conductive anomalies), to define the anisotropy caused by bedrock fabric fractures and to locate potential zones of electrically conductive contamination. A combination of geophysical methods and chemical analysis was implemented for the characterization and management of the landfill. Five different types of geophysical surveys were performed: (1) 2D electrical resistance tomography (ERT), (2) electromagnetic measurements using very low frequencies (VLF), (3) electromagnetic conductivity (EM31), (4) seismic refraction measurements (SR), and (5) ambient noise measurements (HVSR). The above geophysical methods were used with the aim of studying the subsurface properties of the landfill and to define the exact geometrical characteristics of the site under investigation.     

Investigation of waste disposal areas using electrical methods: a case study from Chania,Crete, Greece

A geophysical investigation of a landfill area was conducted as inextricable phase of a preliminary geotechnical, geological and hydrogeological study of the area under investigation. Electrical resistivity tomography (ERT), one of the most promising prospecting techniques mainly concerning its effective contribution to resolve several environmental problems, was applied for the geophysical modeling. ERT is a robust imaging method the theory and implementation of which are well documented in geophysical research literature. The survey site is located in Akrotirion Peninsula, about 7 km east of Chania city in Crete I. The geological setting comprises Trypalion limestones, marly limestones and a clayed weathered layer. Cavities are also identified at various scales which are recent tectono-karstic voids. Due to the above-mentioned geological singularity and in the light of the requirement for an environmentally safe construction of the landfill, an ERT survey was carried out. Specifically, seven geoelectrical tomographies were conducted reaching the prospecting depth of 36 m. The resulted images conduced, to overcome geotechnical problems since the spatial distribution of karstic voids was determined, to plan the future sites for waste disposal as the geological conditions were studied in detail and to reliably estimate the thickness of the already deposited wastes. The resulted images were confirmed using available borehole logs and ambient noise measurements.     

Personal Sampler for Viable Airborne Microorganisms: Main Development Stages

A new personal bioaerosol sampler has been developed and verified as an efficient tool for monitoring of viable/non‐viable airborne microorganisms, including bacteria, fungi, and viruses. The operational principle of the device is based on continuous passage of an air sample through porous media submerged into a liquid layer. During motion along narrow and tortuous ways inside the porous media, the air stream is split into a large number of ultra small bubbles with the particulates are being scavenged by these bubbles and, thus, effectively trapped. The device was initially verified for monitoring of viable airborne bacteria and fungi, firstly, under controlled laboratory conditions and later in a field. It was demonstrated that bacterial recovery rates for these two groups of microorganisms were very high and the device was found to be fully feasible for such monitoring. The next step of the device investigation was performed in the laboratory on monitoring viable airborne viruses with a range of sensitivities to physical and biological stresses. As the result, the new personal sampler demonstrated a very high recovery rate even for viruses which are rather sensitive to environmental stress (Avian Influenza, SARS, Mumps, etc.). Some following field studies, undertook in a hospital and animal houses, also demonstrated an excellent performance of the new device for selective and reliable monitoring of viable airborne viruses even in environments highly contaminated by other microorganisms. This paper reviews the main development staged of the new personal bioaerosol sampler.