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Subvolume B
4.2.2.1 Basic observations and theoretical concepts
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Author(s):
U. Schmucker
Publication date
(Print):
1985
Publisher:
Springer-Verlag
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Genomic Prediction: Concepts, Benchmarks & Synthesis
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New Methods for the Analysis of Geomagnetic Fields and their Application to the Sq Field of 1932-3
G. Wilkins
,
A T Price
(1963)
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Atmosphärische Elektrizität. Handbuch der Physik XLVIII Geophysik II
R. Mühleisen
(1957)
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Book Chapter
Pages
: 101-102
DOI:
10.1007/10201925_29
SO-VID:
87fd2e8e-241f-4d1b-b560-58a8a30a356d
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Book chapters
pp. 1
2.2.1.2.1 Definitions
pp. 2
2.2.1.2.3 Continental heat flow literature
pp. 3
2.2.1.2.4 Continental heat flow results
pp. 10
2.2.1.2.5 Global heat flow
pp. 16
2.2.1.2.6-7 References for 2.2.1.2
pp. 20
2.2.3 Temperature profiles in the earth’s interior
pp. 24
2.2.4 Heat transport in the earth’s interior
pp. 31
4.1.1.0 Components of the field, units
pp. 32
4.1.1.1 Planetary field, interplanetary field and geomagnetic variations
pp. 36
4.1.1.2 Classification of geomagnetic variations
pp. 38
4.1.1.4 Equivalent currents
pp. 39
4.1.1.5 Magnetic fields of external origin within the earth
pp. 42
4.1.1.6.1 Solar daily variations (S)
pp. 50
4.1.1.6.2 Lunar daily variations (L)
pp. 52
4.1.1.6.3 Polar magnetic storms and substorms
pp. 56
4.1.1.6.4 Smoothed storm-time variations Dst and DS
pp. 57
4.1.1.6.5-6 Solar cycle variations, Pulsations and electromagnetic wave emissions
pp. 59
4.1.1.7 Geomagnetic indices
pp. 63
4.1.2 Internal part of the earth’s magnetic field
pp. 68
4.1.3 Spherical harmonics in geomagnetism
pp. 71
4.1.4 References for 4.1
pp. 74
4.2.1.2 Layout and execution of geomagnetic surveys
pp. 76
4.2.1.3 Data handling
pp. 78
4.2.1.4 Interpretation methods
pp. 80
4.2.1.5 Magnetic anomalies of the continental crust
pp. 90
4.2.1.6 Marine magnetic anomalies
pp. 98
4.2.1.8 Bibliography for 4.2.1
pp. 100
4.2.2.0 List of symbols and abbreviations
pp. 101
4.2.2.1 Basic observations and theoretical concepts
pp. 102
4.2.2.2.1 General description and classification
pp. 103
4.2.2.2.2 Q-response functions
pp. 109
4.2.2.2.3 C-response
pp. 114
4.2.2.2.4 The magnetotelluric scalar Z-response
pp. 119
4.2.2.3 Natural earth potentials and earth currents
pp. 123
4.2.2.4 Derivation of external source fields from surface observations
pp. 124
4.2.2.5 References for 4.2.2
pp. 126
4.2.3.0 List of symbols, quantities, units and abbreviations
pp. 127
4.2.3.1 Introduction
pp. 129
World Geomagnetic Observatories
pp. 137
Annual mean values of magnetic components
pp. 147
4.2.3.2.3 Airborne and seaborne surveys
pp. 148
4.2.3.3.1 Analyses of local and regional surveys
pp. 151
Gauss mean field coefficients, declination, horizontal and vertical intensities
pp. 160
Total intensity, inclination, secular variations
pp. 169
4.2.3.4 Knowledge gained from spherical harmonic models
pp. 179
4.2.3.5 References for 4.2.3
pp. 181
4.2.4 Material properties entering the theory of the main geomagnetic field
pp. 184
4.3.0 List of symbols and abbreviations
pp. 185
4.3.1 Introduction, definitions, hypotheses
pp. 192
4.3.2.2 Apparent polar wander paths (APWP) of continents and subcontinents
pp. 198
4.3.2.3 Palaeomagnetic pole positions of smaller crustal blocks
pp. 201
4.3.2.4 Apparent polar wander paths (APWP) of the Precambrian
pp. 203
4.3.2.5 Geodynamical aspects of the apparent polar wander paths (APWP)
pp. 212
4.3.3 Geomagnetic polarity time scale, magnetostratigraphy, palaeo-secular variation
pp. 220
4.3.4 Determination of the intensity of the ancient geomagnetic field
pp. 222
4.3.5 Geomagnetic field during a polarity transition
pp. 225
4.3.6 Archaeomagnetism
pp. 232
4.3.7 Palaeomagnetism of samples of extraterrestrial origin
pp. 234
4.3.8 References for 4.3
pp. 243
5.1.1.1 The hypsographic curve
pp. 246
5.1.1.2 Area of continents and oceans
pp. 247
5.1.1.3 Structural forms due to endogenic processes
pp. 248
5.1.1.4 Exogenic continental relief
pp. 253
5.1.1.5 Weathering
pp. 256
5.1.1.6 Exogenic relief-forming processes
pp. 264
5.1.1.7 Ice and glaciated areas
pp. 265
5.1.1.8 References for 5.1.1
pp. 266
5.1.2.1 Geomorphology of the sea floor
pp. 267
5.1.2.2 Documentation and presentation of the relief of the sea on maps
pp. 272
5.1.2.3 Hypsography of the relief of the sea floor
pp. 273
5.1.2.4 Hypsometric statistics of the sea floor
pp. 274
5.1.2.6 Subdivision of the seafloor into physiographic provinces
pp. 276
5.1.2.7 Classification of the ocean floor features
pp. 277
5.1.2.8 Morphologic units of the oceans: description of forms
pp. 279
5.1.2.9 Tectonic-morphogenetic units of the mid-atlantic ridge and adjacent areas
pp. 280
5.1.2.10 Classification of global physiographic units of the Atlantic Ocean, topographic-bathymetric dimension (metric)
pp. 281
5.1.2.11 The mid-ocean ridges: geomorphologic element of global scale and distribution
pp. 282
5.1.2.12 Classification of continental margins
pp. 283
5.1.2.14 Fracture zones (features of mesoscale to macroscale)
pp. 284
5.1.2.16 Abyssal hills and seamounts. Example: features of the Pacifc Ocean sea floor
pp. 289
5.1.2.17 Micro-relief of the sea floor: the roughness of the ocean bottom
pp. 290
5.1.2.18 Sedimentation of the ocean bottom
pp. 292
5.1.2.19 The mid-ocean ridges and the sea floor spreading
pp. 293
5.1.2.20 Plate tectonics and the relief of the sea floor
pp. 295
5.1.2.21 References for 5.1.2
pp. 298
5.3.0 List of symbols and abbreviations
pp. 299
5.3.2 Historical review
pp. 304
5.3.3 Plate kinematics
pp. 311
5.3.4 Measurements of plate motions
pp. 314
5.3.5.1 Current plate configuration
pp. 320
Tables 5 - 8, Figs. 8 - 10
pp. 335
Fig. 11, Table 9
pp. 338
5.3.5.3 Past finite plate motions
pp. 349
5.3.6 Plate tectonics
pp. 355
5.3.7 Plate dynamics: driving mechanisms
pp. 363
5.3.8 References for 5.3
pp. 370
2.3.1.1 Introduction
pp. 371
2.3.1.2 Derivation of apparent resistivity estimates from experimental electric and electro-magnetic data
pp. 372
2.3.1.3 Inversion of electromagnetic response estimates
pp. 374
2.3.1.4 Principle constraints of interpretation
pp. 375
2.3.1.5 General notes on response data and models in figures and tables of subsection 2.3.1
pp. 376
2.3.1.6 The electrical resistivity in the continental crust
pp. 384
2.3.1.7 The electrical resistivity of the mantle from observations on continents
pp. 392
2.3.1.8 The resistivity of crust and mantle beneath oceans
pp. 396
2.3.1.9 References for 2.3.1
pp. 397
2.3.2.0 List of symbols
pp. 398
2.3.2.2 Representation of experimental data
pp. 399
2.3.2.5 Presentation of results
pp. 400
2.3.2.6 List of compiled conductivity anomalies
pp. 401
Europe, North America, Asia, South and Central America, Australia
pp. 403
Figures: Europe
pp. 412
Figures: North America, Asia
pp. 422
Figures: South America, Africa, Australia
pp. 434
2.3.2.8 References for 2.3.2
pp. 437
aberration constant - geocenter
pp. 447
geocentric axial dipole - planet
pp. 458
planet formation - Z-reponse
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