Verfügbarkeit: An introduction to applied and environmental geophysics

An introduction to applied and environmental geophysics:

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Bibliographische Detailangaben
1. Verfasser:	Reynolds, John M. (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Chichester [u.a.] Wiley-Blackwell 2011
Ausgabe:	2. ed., 1. publ.
Schlagworte:	Geophysik Seismologie
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	XII, 696 S. Ill., graph. Darst., Kt.
ISBN:	9780471485353 9780471485360

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adam_text	Contents Preface to the 2nd Edition Acknowledgements 1 Introduction 1.1 What are applied and environmental geophysics? 1.2 Geophysical methods 1.3 Matching geophysical methods to applications 1.4 Planning a geophysical survey 1.4.1 General philosophy 1.4.2 Planning strategy 1.4.3 Survey constraints 1.5 Geophysical survey design 1.5.1 Target identification 1.5.2 Optimum line configuration and survey dimensions 1.5.3 Selection of station intervals 1.5.4 Noise 1.5.5 Position fixing 1.5.6 Data analysis 2 Gravity Methods 2.1 Introduction 2.2 Physical basis 2.2.1 Theory 2.2.2 Gravity units 2.2.3 Variation of gravity with latitude 2.2.4 Geological factors affecting density 2.3 Measurement of gravity 2.3.1 Absolute gravity 2.3.2 Relative gravity 2.4 Gravity meters 2.4.1 Stable (static) gravimeters 2.4.2 Unstable (astatic) gravimeters 2.4.3 Marine and airborne gravity systems 2.5 Corrections to gravity observations 2.5.1 Instrumental drift 2.5.2 Tides Xl xiii 1 1 3 5 5 5 5 7 9 9 11 13 15 16 19 19 19 19 20 20 22 24 24 25 26 27 27 31 34 34 34 2.5.3 Latitude 35 2.5.4 Free-air correction 35 2.5.5 Bouguer correction 36 2.5.6 Terrain correction 38 2.5.7 Building corrections 41 2.5.8 Eütvüs correction 41 2.5.9 Isostatic correction 44 2.5.10 Miscellaneous factors 45 2.5.11 Bouguer anomaly 45 2.6 Interpretation methods 45 2.6.1 Regionals and residuals 46 2.6.2 Anomalies due to different geometric forms 47 2.6.3 Depth determinations 51 2.6.4 Mass determination 52 2.6.5 Second derivatives 53 2.6.6 Sedimentary basin or granite pluton? 55 2.7 Applications and case histories 59 2.7.1 Mineral exploration 59 2.7.2 Engineering applications 59 2.7.3 Archaeological investigations 66 2.7.4 Hydrogeological applications 67 2.7.5 Volcanic hazards 71 2.7.6 Glaciological applications 78 3 Geomagnetic Methods 83 3.1 Introduction 83 3.2 Basic concepts and units of geomagnetism 83 3.2.1 Flux density, field strength and permeability 83 3.2.2 Susceptibility 84 3.2.3 Intensity of magnetisation 84 3.2.4 Induced and remanent magnetisation 85 3.2.5 Diamagnetism, paramagnetism, and ferri- and ferro-magnetism 85 3.3 Magnetic properties of rocks 87 3.3.1 Susceptibility of rocks and minerals 87 3.3.2 Remanent magnetisation and Kiinigsberger ratios 88 3.4 The Earth s magnetic field 3.4.1 Components of the Earth s magnetic field 3.4.2 Time variable field 3.5 Magnetic instruments 3.5.1 Torsion and balance magnetometers 3.5.2 Fluxgate magnetometers 3.5.3 Resonance magnetometers 3.5.4 Cryogenic (SQUID) magnetometers 3.5.5 Gradiometers 3.5.6 Airborne magnetometer systems 3.6 Magnetic surveying 3.6.1 Field survey procedures 3.6.2 Noise and corrections 3.6.3 Data reduction 3.7 Qualitative interpretation 3.7.1 Profiles 3.7.2 Pattern analysis on aeromagnetic maps 3.8 Quantitative interpretation 3.8.1 Anomalies due to different geometric forms 3.8.2 Simple depth determinations 3.8.3 Reduction to the Pole (RTP) 3.8.4 Modelling in two and three dimensions 3.8.5 Depth determinations and Euler deconvolution 3.9 Applications and case histories 3.9.1 Regional aeromagnetic investigations 3.9.2 Mineral exploration 3.9.3 Detection of underground pipes 3.9.4 Detection of buried containers 3.9.5 Landfill investigations 3.9.6 Acid tar lagoon survey 3.9.7 UneXploded Ordnance (UXO) Applied Seismology: Introduction and Principles 4.1 Introduction 4.2 Seismic waves 4.2.1 Stress and strain 4.2.2 Types of seismic waves 4.2.3 Seismic wave velocities 4.3 Raypath geometry in layered ground CONTENTS 89 4.3.1 Reflection and transmission of normally 89 incident rays 149 94 4.3.2 Reflection and refraction 95 of obliquely incident rays 150 4.3.3 Critical refraction 151 95 4.3.4 Diffractions 151 95 4.4 Loss of seismic energy 152 97 4.4.1 Spherical divergence or geometrical spreading 152 99 4.4.2 Intrinsic attenuation 153 99 4.4.3 Scattering 154 4.5 Seismic energy sources 154 100 4.5.1 Impact devices 155 100 4.5.2 Impulsive sources 157 100 4.5.3 Explosive sources 159 101 4.5.4 Non-explosive sources 159 103 4.5.5 High-resolution 103 waterborne sources 162 105 4.5.6 Vibrators 163 4.5.7 Animals 166 105 4.6 Detection and recording of seismic 107 waves 169 4.6.1 Geophones and 110 accelerometers 170 4.6.2 Hydrophones and 112 streamers 171 4.6.3 Seismographs 177 115 5 Seismic Refraction Surveying 179 115 5.1 Introduction 179 5.2 General principles of refraction 118 surveying 179 123 5.2.1 Critical refraction 179 5.2.2 Field survey arrangements 181 123 5.3 Geometry of refracted raypaths 182 125 5.3.1 Planar interfaces 182 5.3.2 Irregular (non-planar) 126 interfaces 185 5.4 Interpretational methods 186 127 5.4.1 Phantoming 187 128 5.4.2 Hagedoorn plus-minus 133 method 188 5.4.3 Generalised reciprocal 136 method (GRM) 190 5.4.4 Hidden-layer problem 191 5.4.5 Effects of continuous 143 velocity change 192 143 5.4.6 Seismic refraction 144 software 193 144 5.5 Applications and case histories 193 145 5.5.1 Rockhead determination 147 for a proposed waste disposal site 193 149 5.5.2 Location of a buried doline 197 5.5.3 Assessment of rock quality 5.5.4 Landfill investigations 5.5.5 Acid-tar lagoons 5.5.6 Static corrections 5.5.7 Locating buried miners 5.6 Shear wave methods 5.6.1 Ground stiffness profiling 5.6.2 Multichannel Analysis of Shear Waves (MASW) 5.6.3 Earthquake hazard studies Seismic Reflection Surveying 6.1 Introduction 6.2 Reflection surveys 6.2.1 General considerations 6.2.2 General reflection principles 6.2.3 Two-dimensional survey methods 6.2.4 Three-dimensional surveys 6.2.5 Vertical seismic profiling (VSP) 6.2.6 Cross-hole seismology: tomographic imaging 6.3 Reflection data processing 6.3.1 Preprocessing 6.3.2 Static corrections (field statics) 6.3.3 Convolution and deconvolution 6.3.4 Dynamic corrections, velocity analyses and stacking 6.3.5 Filtering 6.3.6 Migration 6.4 Correlating seismic data with borehole logs and cones 6.4.1 Sonic and density logs, and synthetic seismograms 6.4.2 Correlation with cone penetration testing 6.5 Interpretation 6.5.1 Vertical and horizontal resolution 6.5.2 Identification of primary and secondary events 6.5.3 Potential interpretational pitfalls 6.6 Applications 6.6.1 High-resolution seismic profiling on land 6.6.2 Seismic reflection surveys for earthquake prediction studies 6.6.3 High-resolution seismic profiling over water 199 201 203 205 207 208 208 211 215 217 217 217 217 218 219 221 224 225 228 229 230 233 236 241 243 246 246 247 250 250 252 256 257 257 265 266 6.6.4 Geophysical diffraction tomography in palaeontology 283 6.6.5 Forensic seismology 286 7 Electncal Resistivity Methods 289 7.1 Introduction 289 7.2 Basic principles 289 7.2.1 True resistivity 289 7.2.2 Current flow in a homogeneous earth 292 7.3 Electrode configurations and geometric factors 293 7.3.1 General case 293 7.3.2 Electrode configurations 294 7.3.3 Media with contrasting resistivities 298 7.4 Modes of deployment 301 7.4.1 Vertical electrical sounding (VES) 301 7.4.2 Automated array scanning 303 7.4.3 Electrical resistivity tomography (ERT) 306 7.4.4 Constant separation traversing (CST) 307 7.4.5 Field problems 308 7.5 Interpretation methods 311 7.5.1 Qualitative approach 311 7.5.2 Master curves 313 7.5.3 Curve matching by computer 314 7.5.4 Equivalence and suppression 317 7.5.5 Inversion and deconvolution 318 7.5.6 Modelling in 2D and 3D 321 7.6 ERT applications and case histories 326 7.6.1 Engineering site investigations 326 7.6.2 Groundwater and landfill surveys 330 7.6.3 Mineral exploration 333 7.6.4 Glaciological applications 333 7.7 Mise-à-la-masse (MALM) method 336 7.7.1 Mineral exploration 338 7.7.2 Civil engineering pile testing 341 7.7.3 Study of tree roots 344 7.7.4 Groundwater flow 344 7.8 Leak detection through artificial membranes 346 8 Spontaneous (Self) Potential Methods 349 8.1 Introduction 349 8.2 Occurrence of self-potentials 349 8.3 Origin of self-potentials 349 8.3.1 Electrokinetic potentials 350 VIII CONTENTS 8.3.2 Electrochemical potentials 351 8.3.3 Mineral potentials 352 8.4 Measurement of self-potentials 353 8.5 Corrections to SP data 354 8.6 Interpretation of self-potential anomalies 354 8.6.1 Qualitative interpretation 354 8.6.2 Quantitative interpretation 355 8.7 Applications and case histories 357 8.7.1 Geothermal exploration 357 8.7.2 Mineral exploration 359 8.7.3 Hydrogeology 361 8.7.4 Landfills and contaminant plumes 363 8.7.5 Leak detection 364 8.7.6 Mapping mine shafts 370 8.8 Electrokinetic (EK) surveying 371 j 9 Induced Polarisation 373 9.1 Introduction 373 9.2 Origin of induced polarisation effects 374 9.2.1 Grain (electrode) polarisation 374 9.2.2 Membrane (electrolytic) polarisation 375 9.2.3 Macroscopic processes 375 9.2.4 Ionic processes 376 9.3 Measurement of induced polarisation 376 9.3.1 Time-domain measurements 376 9.3.2 Frequency-domain measurements 377 9.3.3 Spectral IP and complex resistivity 379 9.3.4 Noise reduction and 1 ■ electromagnetic coupling 381 9.3.5 Forms of display of IP data 382 9.3.6 Inversion and fitting dispersion spectra 383 9.4 Applications and case histories 384 9.4.1 Base metal exploration 384 9.4.2 Hydrocarbon exploration 389 9.4.3 Geothermal surveys 390 9.4.4 Groundwater investigations 391 9.4.5 Environmental applications 392 9.4.6 Geological investigations 398 0 Electromagnetic Methods: Introduction and Principles 403 10.1 Introduction 403 10.1.1 Background 403 10.1.2 Applications 404 10.1.3 Types of EM systems 10.2 Principles of EM surveying 10.2.1 Electromagnetic waves 10.2.2 Polarisation 10.2.3 Depth of penetration of EM radiation 10.3 Airborne EM surveying 10.3.1 Background 10.3.2 Frequency-domain EM (FEM) 10.3.3 Time-domain EM (ТЕМ) 10.3.4 Airborne VLF-EM 10.4 Seaborne EM surveying 10.4.1 Background 10.4.2 Details of marine EM systems 10.5 Borehole EM surveying Electromagnetic Methods: Systems and Applications 11.1 Introduction 11.2 Continuous-wave (CW) systems 11.2.1 Tilt-angle methods 11.2.2 Fixed-source systems (Sundberg, Turam) 11.2.3 Moving-source systems 11.2.4 Interpretation methods 11.2.5 Applications and case histories 11.3 Pulse-transient (ТЕМ) or 404 407 407 410 411 411 411 412 414 418 418 418 421 426 431 431 431 431 432 433 437 441 time-domain (TDEM) EM systems 467 11.3.1 Т0ЕМДЕМ surveys 467 11.3.2 Data processing and interpretation of ТЕМ surveys 468 11.3.3 Applications and case histories 470 Electromagnetic Methods: Systems and Applications II 495 12.1 Very-low-frequency (VLF) methods 495 12.1.1 Introduction 495 12.1.2 Principles of operation 495 12.1.3 Effect of topography on VLF observations 498 12.1.4 Filtering and interpretation of VLF data 498 12.1.5 Applications and case histories 499 12.2 The telluric method 502 12.2.1 Principles of operation 502 12.2.2 Field measurements 503 12.3 The magnetotelluric (MT) method 505 12.3.1 Principles of operation 505 12.3.2 Field measurements 505 12.3.3 Interpretation methods 507 12.3.4 Applications and case histories 12.4 Magnetic Resonance Sounding (MRS) 12.4.1 Principles of operation 12.4.2 Field measurements 12.4.3 Interpretation methods 12.4.4 Case histories 13 Introduction to Ground-Penetrating Radar 13.1 Introduction 13.2 Principles of operation 13.3 Propagation of radiowaves 13.3.1 Theory 13.3.2 Energy loss and attenuation 13.3.3 Horizontal and vertical resolution 13.4 Dielectric properties of earth materials 13.5 Modes of data acquisition 13.5.1 Radar reflection profiling 13.5.2 Wide-angle reflection and refraction (WARR) sounding 13.5.3 Trans-illumination or radar tomography 13.6 Data processing 13.6.1 During data acquisition 13.6.2 Wide-angle reflection and refraction (WARR) sounding 13.6.3 Post-recording data processing 13.7 Interpretation techniques 13.7.1 Basic interpretation 13.7.2 Quantitative analysis 13.7.3 Interpretational pitfalls 14 Ground-Penetrating Radar: Applications and Case Histories 14.1 Geological mapping 14.1.1 Sedimentary sequences 14.1.2 Lacustrine environments 14.1.3 Geological faults 14.2 Hydrogeology and groundwater contamination 14.2.1 Groundwater contamination 14.2.2 Mapping the water table 14.3 Glaciological applications 14.3.1 Polar ice sheets 14.3.2 Snow stratigraphy and crevasse detection 14.3.3 Temperate glaciers 14.3.4 Glacial hazards 509 519 519 522 525 525 535 535 537 539 539 540 544 546 552 552 14.4 Engineering applications on manmade structures 14.4.1 Underground storage tanks (USTs), pipes and cables 14.4.2 Transportation infrastructure 14.4.3 Dams and embankments 14.4.4 Golf courses 14.5 Voids within manmade structures 14.5.1 Voids behind sewer linings 14.5.2 Buried crypts and cellars 14.5.3 Coastal defences 14.6 Archaeological investigations 14.6.1 Roman roads 14.6.2 Historical graves 14.6.3 Buried Roman structures 14.6.4 Burial mounds 14.7 Forensic uses of GPR 14.8 Wide-aperture radar mapping and migration processing 14.9 Borehole radar 14.9.1 Hydrogeological investigations 14.9.2 Mining -/ -> ^ 14.10 UXO and landmine detection 14.11 Animals 553 554 15 Radiometrics 556 15.1 Introduction 15.2 Natural ι radiation 15.2.1 Isotopes 556 15.2.2 a and β particles, and γ radiation 557 15.2.3 Radioactive decay series 560 and radioactive equilibria 560 15.2.4 Natural gamma-ray spectra 562 15.3 Radioactivity of rocks 562 15.4 Radiation detectors 15.4.1 Geiger-Müller counter 565 15.4.2 Scintillometers 565 15.4.3 Gamma-ray spectrometers 565 15.4.4 Radon detectors 567 15.4.5 Seaborne systems 570 15.4.6 Borehole logging tools 15.5 Data correction methods 571 15.5.1 Detector calibration 15.5.2 Thorium source test 571 15.5.3 Dead time and live time 576 15.5.4 Geometric corrections 578 15.5.5 Environmental factors 578 15.5.6 Compton scattering 15.5.7 Terrain clearance 581 corrections 583 15.5.8 Radio-element ground 586 concentrations 15.6 Radiometrie data presentation 587 588 592 594 597 599 60O 60O 602 603 603 603 604 605 607 607 609 612 613 617 618 625 625 625 625 626 626 627 628 628 628 629 630 630 631 632 633 633 633 633 633 634 634 634 635 635 15.7 CONTENTS Case histories 636 Appendix 15.7.1 Mineral exploration 636 15.7.2 Engineering applications 638 References 15.7.3 Soil mapping 639 15.7.4 Nuclear waste disposal Index investigations 642 645 649 681
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spelling	Reynolds, John M. Verfasser aut An introduction to applied and environmental geophysics John M. Reynolds 2. ed., 1. publ. Chichester [u.a.] Wiley-Blackwell 2011 XII, 696 S. Ill., graph. Darst., Kt. txt rdacontent n rdamedia nc rdacarrier Geophysik (DE-588)4020252-5 gnd rswk-swf Seismologie (DE-588)4379341-1 gnd rswk-swf Geophysik (DE-588)4020252-5 s Seismologie (DE-588)4379341-1 s 1\p DE-604 DE-604 Erscheint auch als Online-Ausgabe, PDF 978-0-470-97501-5 Erscheint auch als Online-Ausgabe, EPUB 978-0-470-97544-2 Digitalisierung UB Bayreuth application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=022530835&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis 1\p cgwrk 20201028 DE-101 https://d-nb.info/provenance/plan#cgwrk
spellingShingle	Reynolds, John M. An introduction to applied and environmental geophysics Geophysik (DE-588)4020252-5 gnd Seismologie (DE-588)4379341-1 gnd
subject_GND	(DE-588)4020252-5 (DE-588)4379341-1
title	An introduction to applied and environmental geophysics
title_auth	An introduction to applied and environmental geophysics
title_exact_search	An introduction to applied and environmental geophysics
title_full	An introduction to applied and environmental geophysics John M. Reynolds
title_fullStr	An introduction to applied and environmental geophysics John M. Reynolds
title_full_unstemmed	An introduction to applied and environmental geophysics John M. Reynolds
title_short	An introduction to applied and environmental geophysics
title_sort	an introduction to applied and environmental geophysics
topic	Geophysik (DE-588)4020252-5 gnd Seismologie (DE-588)4379341-1 gnd
topic_facet	Geophysik Seismologie
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=022530835&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT reynoldsjohnm anintroductiontoappliedandenvironmentalgeophysics

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MARC

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