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1.
Kamila Wawrzyniak-Guz 《Acta Geophysica》2016,64(6):2356-2381
Mutual relationships between geological and geophysical data obtained by using methods of different scale are presented for the Miocene sandy-shaly thin-bedded formation and for the Zechstein carbonate formation. The common basis of laboratory results, well logging and seismic data was a recognition of elastic and reservoir properties of rocks. The common basis of laboratory results, well logging and seismic data were elastic and reservoir properties of rocks. Seismic attributes calculated from acoustic full waveforms were a link between the considered data. Seismic attributes strongly depend on small changes observed in rock formation related to lithology variations, facies changes, structural events and petrophysical properties variability. The observed trends and relationships of high correlation coefficients in the analysed data proved the assumption made at the beginning of research that common physical basis is a platform for data scaling. Proper scaling enables expanding the relationships determined from laboratory and well logging of petrophysical parameters to a seismic scale. 相似文献
2.
空间自相似性与地球物理和地球化学场的分解方法 总被引:8,自引:2,他引:8
场的分解是应用勘查地球物理和地球化学数据所必不可少的数理处理工作,这项工作往往是为了分解不同的场来研究和了解不同的地质以及相应的地质过程,比如划分不同岩石类型以及识别和圈定矿化蚀变睡.闰定地质过程所产生的同类型的地质体并不简单地对应于相同的场值和频率,场的分布特征往往还与地质体的几何形态,。埋藏深度以及与其周围地质体的相对差异有关。然而,由于地质过程往往具有多期次和空间相关性等特点,所产生的地质体或者相应的场往往会呈现空间自相似性或统计自相似性。这种自相似性可以帮助分解不同地质过程所产生的同类地质体,文中所介绍的多重分形(multifractal)滤波方法(S-A)根据场的能谱分布的不同空间自相似性形成不规则甚至分形滤波器,并将场分解为不同同的组份,如局部异常和背景场,应用该方法对多处地球化学和地球物理场的处理结果表明,该方法对区分与矿有关的局部异常与背景场是很有效的,对加拿大NOVA SCOTIA省西南部航空放射性铀钍钾(U-Tn-K)数据处理所分解的异常对反映岩体中与铀-钨-锡(U-W-Sn)矿化有关的围岩饰变具有明显的效果。 相似文献
3.
The seismic reflection method provides high-resolution data that are especially useful for discovering mineral deposits under deep cover. A hindrance to the wider adoption of the seismic reflection method in mineral exploration is that the data are often interpreted differently and independently of other geophysical data unless common earth models are used to link the methods during geological interpretation. Model-based inversion of post-stack seismic data allows rock units with common petrophysical properties to be identified and permits increased bandwidth to enhance the spatial resolution of the acoustic-impedance model. However, as seismic reflection data are naturally bandlimited, any inversion scheme depends upon an initial model, and must deal with non-unique solutions for the inversion. Both issues can be largely overcome by using constraints and integrating prior information. We exploit the abilities of fuzzy c-means clustering to constrain and to include prior information in the inversion. The use of a clustering constraint for petrophysical values pushes the inversion process to select models that are primarily composed of several discrete rock units and the fuzzy c-means algorithm allows some properties to overlap by varying degrees. Imposing the fuzzy clustering techniques in the inversion process allows solutions that are similar to the natural geologic patterns that often have a few rock units represented by distinct combinations of petrophysical characteristics. Our tests on synthetic models, with clear and distinct boundaries, show that our methodology effectively recovers the true model. Accurate model recovery can be obtained even when the data are highly contaminated by random noise, where the initial model is homogeneous, or there is minimal prior petrophysical information available. We demonstrate the abilities of fuzzy c-means clustering to constrain and to include prior information in the acoustic-impedance inversion of a challenging magnetotelluric/seismic data set from the Carlin Gold District, USA. Using fuzzy c-means guided inversion of magnetotelluric data to create a starting model for acoustic-impedance proved important in obtaining the best result. Our inversion results correlate with borehole data and provided a better basis for geological interpretation than the seismic reflection images alone. Low values of the acoustic impedance in the basement rocks were shown to be prospective by geochemical analysis of rock cores, as would be predicted for later gold mineralization in weak, decalcified rocks. 相似文献
4.
Summary The paper deals, in the light of some examples, with the adoption of petrophysics in the exploration for sulfide ores in Finland. No attempt is made to clarify the practicability of all the known petrophysical properties but to visualize the meaning of the results gained through routine determinations of some properties in practical exploration for sulfide ores. The petrophysical properties examined are the density, the susceptibility, the remanent magnetism and the resistivity. Petrophysical laboratory tests have been carried out on boulders, exposure samples, drill cores and geochemical samples.By routine petrophysical investigations it is possible to obtain additional information which can be utilized in the various stages of the geophysical investigations. The petrophysical investigations b by which the correlation between the geological information and physical properties can be clarified, form an important link between geology and geophysics in the exploration. 相似文献
5.
LI Yong ZHANG Qingwen WAN Guojiang HUANG Ronggui PIAO Hechun BAI Lingyu & LI Lu . State Key Laboratory of Soil Erosion Dryland Farming on the Loess Plateau Institute of Soil Water Conservation Chinese Academy of Sciences Yangling China . Institute of Agro-Environment Sustainable Development Chinese Academy of Agricultural Sciences Beijing China . Institute of Geochemistry Chinese Academy of Sciences Guiyang China 《中国科学D辑(英文版)》2006,49(9):1002-1008
Vegetation is an important factor in maintaining ecological balance and improving eco-environment. For improving environment, vegetation cover, as a substitute for the integrated action of stems and leaves, seems to be a crucial factor. However, recent st… 相似文献
6.
Geophysical Signatures of Microbial Activity at Hydrocarbon Contaminated Sites: A Review 总被引:2,自引:0,他引:2
Microorganisms participate in a variety of geologic processes that alter the chemical and physical properties of their environment.
Understanding the geophysical signatures of microbial activity in the environment has resulted in the development of a new
sub-discipline in geophysics called “biogeophysics”. This review focuses primarily on literature pertaining to biogeophysical
signatures of sites contaminated by light non-aqueous phase liquids (LNAPL), as these sites provide ideal laboratories for
investigating microbial-geophysical relationships. We discuss the spatial distribution and partitioning of LNAPL into different
phases because the physical, chemical, and biological alteration of LNAPL and the subsequent impact to the contaminated environment
is in large part due to its distribution. We examine the geophysical responses at contaminated sites over short time frames
of weeks to several years when the alteration of the LNAPL by microbial activity has not occurred to a significant extent,
and over the long-term of several years to decades, when significant microbial degradation of the LNAPL has occurred. A review
of the literature suggests that microbial processes profoundly alter the contaminated environment causing marked changes in
the petrophysical properties, mineralogy, solute concentration of pore fluids, and temperature. A variety of geophysical techniques
such as electrical resistivity, induced polarization, electromagnetic induction, ground penetrating radar, and self potential
are capable of defining the contaminated zones because of the new physical properties imparted by microbial processes. The
changes in the physical properties of the contaminated environment vary spatially because microbial processes are controlled
by the spatial distribution of the contaminant. Geophysical studies must consider the spatial variations in the physical properties
during survey design, data analysis, and interpretation. Geophysical data interpretation from surveys conducted at LNAPL-contaminated
sites without a microbial and geochemical context may lead to ambiguous conclusions. 相似文献
7.
The fractal/multifractal based singularity index mapping technique efficient in characterizing singular physical or chemical properties is applied for the analysis of gravity and aeromagnetic data in southeastern Yunnan mineral district, China. As follow-up after the introduction of singularity theory to geochemical and geological mapping scenarios, this study extends its application to delineate geophysical potential fields. Based on low gravity and low magnetic properties of granitic intrusions in the study area, singularity mapping technique is used as a high-pass filter to emphasize the geophysical anomalies caused by granitic intrusions in support of future mineral exploration. Comparing with the traditionally used band-pass filtering method, it is shown that the new technique provides an improved and simplified approach in geophysical data analysis with the advantage of scale independence. 相似文献
8.
Herbert Henkel 《Pure and Applied Geophysics》1976,114(2):235-249
Summary Over the shield region of Northern Sweden, the Geological Survey runs a low altitude (30 m) aeromagnetic survey and regional gravity surveys cover almost the same areas. The production of detailed geological maps would be almost impossible without these geophysical measurements. To enhance their interpretation, a study of the appropriate petrophysical properties was started by measurements of density, susceptibility and remanence on all rock specimens collected by field geologists. Up to now more than 30,000 specimens have been measured and almost as many in situ susceptibility determinations have been made. About 10% of the samples are oriented. The information obtained is useful not only for the direct interpretation of geophysical surveys but also reflects the effects of various geological processes acting during and after the formation of the rocks considered.In precambrian rocks, density is obviously closely correlated to mineral composition and thus to chemical composition. This is demonstrated for igneous rocks by the correlation trends between density and SiO2-content and the CM/AF-index.Susceptibility mainly reflects the magnetite content of rocks. As magnetite is an accessory mineral it is seldom considered by geologists. However, a closer study of the magnetic susceptibility of rocks reveals that its extreme complexity reflects the effects of primary and secondary geological processes. The susceptibility spectrum of a certain rock may prove to be a useful classification tool — at least regarding intermediate and basic igneous rocks.The combination of the physical parameters density and susceptibility in 2-dimensional frequency distributions seems to be a promising approach to the understanding of certain petrological processes and makes possible the delineation of local or regional secondary processes. Magmatic differentiation and serpentinization can be demonstrated in this manner.Remanent magnetization plays a secondary role in the majority of precambrian rocks. Still there are places where the natural remanence dominates and shows pronounced directions deviating from today's magnetic field. So far we have only one case where a follow up by demagnetization has been attempted, but intensified paleomagnetic research should most certainly add to our understanding of precambrian geology.Combination of susceptibility and remanance shows some characteristic correlations for highly remanent rocks, reflecting mainly exosolution phenomena among magnetic opaques and grain size distributions. Even these features might be used as diagnostic or classifying tools. They also explain some of the diversity of susceptibility spectra. 相似文献
9.
地热地球物理勘探新进展 总被引:2,自引:0,他引:2
地热作为一种清洁能源具有巨大的开发潜力,将在我国的经济发展中起到巨大的作用.在传统的热水型地热开发的基础上,国际上非常重视热干岩(Enhanced Geothermal)型地热的勘探开发.在这两类地热勘查和开发中,地球物理方法具有非常重要的作用.本文从地热系统的目标体岩石的地球物理性质出发,分析岩石的地球物理性质与温度、压力和含水量等影响因素的关系.例如随着温度的升高,岩石会出现去磁、电阻率降低、密度降低、弹性波速度也现明显降低等现象.进而分析地球物理方法应用到具体的地热勘查地质-地球物理异常模型.结合国际上21世纪以后的新方法技术,分析了重磁、电、地震方法在利用由于岩石温度的升高而出现的特殊地球物理现象,并应用于地热勘探.通过国内外实例介绍了各种地球物理勘探方法在地热勘查中成功应用,为进一步提高我国地热勘查水平,提供一些参考. 相似文献
10.
The electrical properties of rocks and minerals are controlled by thermodynamic parameters like pressure and temperature and
by the chemistry of the medium in which the charge carriers move. Four different charge transport processes can be distinguished.
Electrolytic conduction in fluid saturated porous rocks depends on petrophysical properties, such as porosity, permeability and connectivity
of the pore system, and on chemical parameters of the pore fluid like ion species, its concentration in the pore fluid and
temperature. Additionally, electrochemical interactions between water dipoles or ions and the negatively charged mineral surface
must be considered. In special geological settings electronic conduction can increase rock conductivities by several orders of magnitude if the highly conducting phases (graphite or ores)
form an interconnected network. Electronic and electrolytic conduction depend moderately on pressure and temperature changes,
while semiconduction in mineral phases forming the Earth’s mantle strongly depends on temperature and responds less significantly to pressure
changes. Olivine exhibits thermally induced semiconduction under upper mantle conditions; if pressure and temperature exceed
~ 14 GPa and 1400 °C, the phase transition olivine into spinel will further enhance the conductivity due to structural changes
from orthorhombic into cubic symmetry. The thermodynamic parameters (temperature, pressure) and oxygen fugacity control the
formation, number and mobility of charge carriers. The conductivity temperature relation follows an Arrhenius behaviour, while
oxygen fugacity controls the oxidation state of iron and thus the number of electrons acting as additional charge carriers.
In volcanic areas rock conductivities may be enhanced by the formation of partial melts under the restriction that the molten phase is interconnected. These four charge transport mechanisms must be considered
for the interpretation of geophysical field and borehole data. Laboratory data provide a reproducible and reliable database
of electrical properties of homogenous mineral phases and heterogenous rock samples. The outcome of geoelectric models can
thus be enhanced significantly. This review focuses on a compilation of fairly new advances in experimental laboratory work
together with their explanation. 相似文献
11.
The physical properties of the serpentinized pyroxenitic and saxonitic rocks from stratiform ultramafic complexes of Roro, Singhbhum distrct, India, are examined using principal factor (R-mode) analysis technique. The variations and inter-relations of these properties reflect the compound effects of two processes—(a) degree of serpentinization, and (b) mineralogical and other changes attendant to serpentinization. Factor analysis is thus shown to be an effective tool for petrophysical inferences. 相似文献
12.
本文从物探科学技术的进步,勘查任务的发展变化、物探方法应用范畴的扩大和物性勘探等几个方面,论述了岩石和矿物物理性质测量、研究的重要性,指出:物性工作不可能毕其功于一役,并提出了五点建议:1.深入研究各类矿藏及其围岩(直至地面)物性的空间变化规律,为选择、研究合适的物探方法,提高物探效果,进一步探讨“直接”找矿问题,提供依据;2.这项工作可专门进行,但最好尽可能利用为其他目的而设计的钻井进行;3.物 相似文献
13.
Walsh列率域中多维分形模型与GIS环境下地球物理信号处理 总被引:4,自引:0,他引:4
地球物理信号通常在多个尺度段表现尺度不变性,这些不变性起因于不同的地质、地球物理或成矿过程的自相似性. 利用这种在多个尺度段的尺度不变性可以设计多维分形滤波器,滤波所得信号表征了具尺度不变性的地质地球物理或成矿过程,可以用于成矿预测或环境评价. 本文研究了Walsh变换列率空间地球物理信号的列率功率谱密度与列率之间的分形与多维分形关系, 试验证实了大洋钻探、石油以及煤系地层地球物理测井资料在Walsh域的多维分形性质,提出了用于分解地球物理场,提取有用信号并用于矿产资源勘探或环境评价的多维分形W-A模型. 利用波列率域中的多维分形关系构造了W A图解(W-A Plot). 借助W-A图解可以确定最小平方误差(LS)意义下Walsh功率谱变化的不同自相似性的频率分界点,从而用于设计W-A分形滤波器. 这种滤波器可将地球物理场分解成具有不同自相似性的局部场,并且保留原场的各向异性结构. 与通常使用的基于Fourier变换的滤波技术相比,W-A模型具有许多优点:W-A适用于检测地球物理信号中的突变、线性、环状、局部与纹理结构等弱信号. 同时,由于Walsh变换中只有简单的变号(加法与减法),其计算速度远快于建立在复数乘法之上的Fourier变换,所以W-A计算速度远快于Fourier域的滤波方法,可以用于地球物理信号的现场实时处理. 用加拿大Nova-cotia省西南地区的布格重力异常进行了W-A方法的试算,处理结果反映了地质、矿产分布规律,能够很好地进行矿产预测. 相似文献
14.
金属矿产勘查技术发展现状与思考 总被引:5,自引:1,他引:5
近年来,以寻找金属矿产为目的发愤卢业的勘查新技术可概括为:(1)以寻找隐伏矿为目标的覆盖区地球物理勘查技术,其中包括“三维地震”和“高光谱遥感”技术;(2)地球化学勘查新技术,其中包括“深穿透地球化学技术”、“地球化学信息的综合解释和地球化学填图技术”;(3)“找矿信息提取和综合”技术等。限于篇幅,本文仅对地球化学勘查新技术的研究现状进行了分析,同时对下列问题进行了思考:(1)在一个地区开展地球化学找矿工作首先要确立合适的取样介质,取样介质的立应以查明成矿成晕元素的形成机制和赋存状态为基础;(2)加强不同景观条件下不同矿种和不同矿床类型的异常特征和异常模式研究,建立区分矿异常和非矿异常的模式识别模型;(3)加强不同景观地质条件下,不同勘查尺度的地球化学填图技术研究,以实现迅速掌握全局,逐步缩小靶区的找矿战略;(4)加强地球化学信息与地质、地球物理和遥感信息相结合的信息综合技术的研究,应用综合信息定量圈定和评价找矿靶区,减少矿产勘查的不确定性。 相似文献
15.
This paper discusses and addresses two questions in carbonate reservoir characterization: how to characterize pore‐type distribution quantitatively from well observations and seismic data based on geologic understanding of the reservoir and what geological implications stand behind the pore‐type distribution in carbonate reservoirs. To answer these questions, three geophysical pore types (reference pores, stiff pores and cracks) are defined to represent the average elastic effective properties of complex pore structures. The variability of elastic properties in carbonates can be quantified using a rock physics scheme associated with different volume fractions of geophysical pore types. We also explore the likely geological processes in carbonates based on the proposed rock physics template. The pore‐type inversion result from well log data fits well with the pore geometry revealed by a FMI log and core information. Furthermore, the S‐wave prediction based on the pore‐type inversion result also shows better agreement than the Greensberg‐Castagna relationship, suggesting the potential of this rock physics scheme to characterize the porosity heterogeneity in carbonate reservoirs. We also apply an inversion technique to quantitatively map the geophysical pore‐type distribution from a 2D seismic data set in a carbonate reservoir offshore Brazil. The spatial distributions of the geophysical pore type contain clues about the geological history that overprinted these rocks. Therefore, we analyse how the likely geological processes redistribute pore space of the reservoir rock from the initial depositional porosity and in turn how they impact the reservoir quality. 相似文献
16.
Yu. S. Genshaft A. K. Gapeev S. K. Gribov V. A. Tselmovich 《Izvestiya Physics of the Solid Earth》2008,44(10):785-788
Results derived from the study of petrophysical properties and mineralogy of rocks, minerals, and model objects differing in formation conditions and composition are presented. Petromagnetic and paleomagnetic characteristics of rock samples are examined and modeling experiments on crystallization of ferromagnetic minerals are carried out in a wide region of pressures and temperatures. Minerals of rocks of different origins and ages (igneous and metamorphic rocks, xenoliths, and megacrystals) are studied, and the physicochemical conditions of their formation are reconstructed. Constraints are obtained on redox conditions of occurrence of rocks, the depth of magma chambers, and implications of secondary superimposed processes of metasomatism and metamorphism for variations in physical properties of Earth’s interior substance with depth. The structural factor is shown to be of great significance for the formation of magnetic properties of iron oxides. Using mineral geothermobarometry, the deep distributions of temperature and oxygen fugacity beneath volcanically active regions are estimated. 相似文献
17.
研究适应信息化时代特征的矿产资源潜力制图新技术、新方法对推动矿产资源评价理论与技术的发展具有重要的意义.笔者把GIS技术、图像分类算法和空间统计学理论进行有机集成,在空间统计学的空间结构分析技术和遥感图像纹理分类算法的基础上,提出了一种以综合地学数据(地质、地球物理、地球化学和遥感图像数据等)为基本数据源的矿产资源潜力自动制图方法.该方法的技术流程为:①数据准备,即对地球物理和地球化学勘探数据进行预处理,生成一个物化遥综合图像文件;②图像空间结构性分析和纹理图像生成,以综合地学图像为研究对象,用空间统计学的结构分析技术研究地学数据综合图像的空间结构性,生成纹理图像;③纹理图像多元分类,用实验变差函数纹理分类方法对研究区进行多元分类,生成分类专题图;④分类后处理,用叠置分析修正空间分类结果,生成区域矿产资源潜力分布图. 相似文献
18.
《Geofísica Internacional》2014,53(2):199-210
Geophysical methods are widely used in mineral exploration. This paper discusses the results of geological and geophysical studies in supergene manganese deposits of southern Brazil. Mineralized zones as described in geological surveys were characterized as of low resistivity (20Ω.m) and high chargeability (30ms), pattern found also in oxides and sulfite mineral deposits. Pseudo-3D modeling of geophysical data allowed mapping at several depths. A relationship between high chargeability and low resistivity may define a pattern for high grade gonditic manganese ore. Large areas of high chargeability and high resistivity may result in accumulation of manganese and iron hydroxides, due to weathering of the gonditic ore, dissolution, percolation and precipitation. 相似文献
19.
发展了应用数值计算方法获取页岩储层的速度、各向异性参数的计算岩石物理系列方法.该系列方法包括了大尺度精细地质模型数值建模、计算网格尺度的地球物理建模和地震波数值模拟提取岩石物理弹性参数.本文方法利用储层的统计数据而不是具体岩心的测量数据,可获得储层岩石物理弹性参数的变化规律.相比于基于岩心测试的岩石物理方法,本文方法可精细考虑实际储层的非均匀特征,可得到岩心测试难以求取的与尺寸效应高度相关的弹性参数,也避免了求取弹性参数变化规律时获取不同地质特征岩心的困难.本文发展了计算岩石物理方法,为计算岩石物理面临的大尺度地质建模和计算能力限制问题提供了有效的解决方案.文中以胜利罗家的页岩储层为例,求得了储层TOC含量从3%到21%变化情况下储层的P波、S波速度以及各向异性参数变化规律. 相似文献
20.
岩石物性约束是地球物理联合反演重要的实现方式.在以往联合反演研究中,这种约束通常以点对点的映射方式出现,要求经验性的岩石物性关联是相对精确的,无形中提高了岩石物性约束应用于联合反演的条件.基于此,本文结合全局寻优的模拟退火算法,提出了宽范围岩石物性约束技术.该技术将岩石物性约束与模拟退火模型扰动、模型接受准则相结合,实现了空间对空间的映射,将电阻率和速度耦合在一起.文章以MT和地震正则化同步联合反演为例,检验了不同的先验信息条件下的宽范围岩石物性约束技术的适用性.模型试验表明:新技术容易实现,容错性高,可降低"不精确"岩石物性关联信息引入带来的风险,提高岩石物性约束应用的灵活性. 相似文献