Verfügbarkeit: Quantitative thermochronology

Quantitative thermochronology: numerical methods for the interpretation of thermochronological data

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Bibliographische Detailangaben
Hauptverfasser:	Braun, Jean (VerfasserIn), Van der Beek, Peter (VerfasserIn), Batt, Geoffrey (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Cambridge [u.a.] Cambridge Univ. Press 2006
Ausgabe:	1. publ.
Schlagworte:	Earth temperature Geochronometry Heat > Transmission Plate tectonics Radioactive dating Geochronologie
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	XII, 258 S. graph. Darst.
ISBN:	0521830575 9780521830577

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Datensatz im Suchindex

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adam_text	QUANTITATIVE THERMOCHRONOLOGY NUMERICAL METHODS FOR THE INTERPRETATION OF THERMOCHRONOLOGICAL DATA JEAN BRAUN THE AUSTRALIAN NATIONAL UNIVERSITY, CANBERRA, AUSTRALIA NOW AT UNIVERSITE DE RENNES 1, RENNES, FRANCE PETER VAN DER BEEK UNIVERSITE JOSEPH FOURIER, GRENOBLE, FRANCE GEOFFREY BATT ROYAL HOLLOWAY, UNIVERSITY OF LONDON, UNITED KINGDOM CAMBRIDGE UNIVERSITY PRESS CONTENTS PREFACE PAGE IX 1 INTRODUCTION 1 1.1 THERMAL HISTORY: THE ACCUMULATION OF THERMOCHRONOLOGICAL AGE 3 1.2 COOLING, DENUDATION AND UPLIFT PATHS 7 1.3 THERMOCHRONOLOGY IN PRACTICE 13 2 BASICS OF THERMOCHRONOLOGY: FROM T-T PATHS TO AGES 19 2.1 THE ISOTOPIC AGE EQUATION 19 2.2 SOLID-STATE DIFFUSION - THE BASIC EQUATION 20 2.3 ABSOLUTE CLOSURE-TEMPERATURE APPROXIMATION 23 2.4 DODSON S METHOD 24 2.5 NUMERICAL SOLUTION , 27 2.6 DETERMINING THE DIFFUSION PARAMETERS * 30 3 THERMOCHRONOLOGICAL SYSTEMS 33 3.1 AR DATING METHODS 33 3.2 (U-TH)/HE THERMOCHRONOLOGY 42 3.3 FISSION-TRACK THERMOCHRONOLOGY 48 4 THE GENERAL HEAT-TRANSPORT EQUATION 60 4.1 HEAT TRANSPORT WITHIN THE EARTH 60 4.2 CONSERVATION OF ENERGY 61 4.3 CONDUCTION 63 4.4 ADVECTION 64 4.5 PRODUCTION , 65 4.6 THE GENERAL HEAT-TRANSPORT EQUATION 66 4.7 BOUNDARY CONDITIONS 66 4.8 PURELY CONDUCTIVE HEAT TRANSPORT 68 VI CONTENTS 5 THERMAL EFFECTS OF EXHUMATION 76 5.1 STEADY-STATE SOLUTION 76 5.2 THERMAL EFFECTS OF EXHUMATION: TRANSIENT SOLUTION 81 5.3 THERMAL EFFECTS OF EXHUMATION: THE GENERAL TRANSIENT PROBLEM 83 6 STEADY-STATE TWO-DIMENSIONAL HEAT TRANSPORT 105 6.1 THE EFFECT OF SURFACE TOPOGRAPHY 105 6.2 THE AGE-ELEVATION RELATIONSHIP - STEADY STATE 110 6.3 RELIEF CHANGE 113 7 GENERAL TRANSIENT SOLUTION - THE THREE-DIMENSIONAL PROBLEM 115 7.1 PECUBE 115 7.2 TIME-VARYING SURFACE TOPOGRAPHY 116 7.3 SURFACE RELIEF IN THE SIERRA NEVADA 118 8 INVERSE METHODS 122 8.1 SPECTRAL ANALYSIS 122 8.2 AN EXAMPLE BASED ON SYNTHETIC AGES 124 8.3 APPLICATION OF THE SPECTRAL METHOD TO THE SIERRA NEVADA 127 8.4 SAMPLING STRATEGY 129 8.5 SYSTEMATIC SEARCHES 130 9 DETRITAL THERMOCHRONOLOGY 131 9.1 THE BASIC APPROACH 131 9.2 DECONVOLUTION OF DETRITAL AGE DISTRIBUTIONS 136 9.3 ESTIMATING DENUDATION RATES FROM DETRITAL AGES 140 9.4 ESTIMATING RELIEF FROM DETRITAL AGES 144 9.5 INTERPRETING PARTIALLY RESET DETRITAL SAMPLES 148 10 LATERAL ADVECTION OF MATERIAL 151 10.1 LATERAL VARIABILITY IN TECTONICALLY ACTIVE REGIONS 151 10.2 EXHUMATION AND DENUDATION IN MULTI-DIMENSIONAL SPACE 152 10.3 CONSEQUENCES OF LATERAL MOTION FOR THERMOCHRONOLOGY 153 10.4 SCALING OF LATERAL SIGNIFICANCE WITH CLOSURE TEMPERATURE 154 10.5 EVALUATION OF THE SIGNIFICANCE OF LATERAL VARIATION 155 11 ISOSTATIC RESPONSE TO DENUDATION 164 11.1 LOCAL ISOSTASY 164 11.2 FLEXURAL ISOSTASY 166 11.3 PERIODIC LOADING 167 11.4 ISOSTATIC RESPONSE TO RELIEF REDUCTION 168 CONTENTS VN 11.5 EFFECTS ON AGE DISTRIBUTION 11.6 EFFECTS ON AGE-ELEVATION DISTRIBUTIONS 11.7 APPLICATION TO THE DABIE SHAN 12 THE EVOLUTION OF PASSIVE-MARGIN ESCARPMENTS 12.1 INTRODUCTION 12.2 EARLY CONCEPTUAL MODELS: EROSION CYCLES 12.3 THERMOCHRONOLOGICAL DATA FROM PASSIVE MARGINS 12.4 MODELS OF LANDSCAPE DEVELOPMENT AT PASSIVE MARGINS 12.5 COMBINING THERMOCHRONOMETERS AND MODELLING 13 THERMOCHRONOLOGY IN ACTIVE TECTONIC SETTINGS 13.1 A SIMPLE MODEL FOR CONTINENTAL COLLISION 13.2 HEAT ADVECTION IN MOUNTAIN BELTS 13.3 THE ALPINE FAULT, SOUTH ISLAND, NEW ZEALAND 13.4 APPLICATION OF THE NEIGHBOURHOOD ALGORITHM TO SOUTHERN ALPS DATA APPENDIX 1 APPENDIX 2 APPENDIX 3 APPENDIX 4 APPENDIX 5 APPENDIX 6 APPENDIX 7 APPENDIX 8 APPENDIX 9 REFERENCES INDEX FORWARD MODELS OF FISSION-TRACK ANNEALING FORTRAN ROUTINES PROVIDED WITH THIS TEXTBOOK ONE-DIMENSIONAL CONDUCTIVE EQUILIBRIUM WITH HEAT PRODUCTION ONE-DIMENSIONAL CONDUCTIVE EQUILIBRIUM WITH ANOMALOUS CONDUCTIVITY ONE-DIMENSIONAL TRANSIENT CONDUCTIVE HEAT TRANSPORT VOLUME INTEGRALS IN SPHERICAL COORDINATES THE COMPLEMENTARY ERROR FUNCTION PECUBE USER GUIDE TUTORIAL SOLUTIONS 168 170 171 177 177 179 180 182 186 192 192 196 199 202 207 210 211 214 216 220 222 224 228 237 255
adam_txt	QUANTITATIVE THERMOCHRONOLOGY NUMERICAL METHODS FOR THE INTERPRETATION OF THERMOCHRONOLOGICAL DATA JEAN BRAUN THE AUSTRALIAN NATIONAL UNIVERSITY, CANBERRA, AUSTRALIA NOW AT UNIVERSITE DE RENNES 1, RENNES, FRANCE PETER VAN DER BEEK UNIVERSITE JOSEPH FOURIER, GRENOBLE, FRANCE GEOFFREY BATT ROYAL HOLLOWAY, UNIVERSITY OF LONDON, UNITED KINGDOM CAMBRIDGE UNIVERSITY PRESS CONTENTS PREFACE PAGE IX 1 INTRODUCTION 1 1.1 THERMAL HISTORY: THE ACCUMULATION OF THERMOCHRONOLOGICAL AGE 3 1.2 COOLING, DENUDATION AND UPLIFT PATHS 7 1.3 THERMOCHRONOLOGY IN PRACTICE 13 2 BASICS OF THERMOCHRONOLOGY: FROM T-T PATHS TO AGES 19 2.1 THE ISOTOPIC AGE EQUATION 19 2.2 SOLID-STATE DIFFUSION - THE BASIC EQUATION 20 2.3 ABSOLUTE CLOSURE-TEMPERATURE APPROXIMATION 23 2.4 DODSON'S METHOD 24 2.5 NUMERICAL SOLUTION , 27 2.6 DETERMINING THE DIFFUSION PARAMETERS * 30 3 THERMOCHRONOLOGICAL SYSTEMS 33 3.1 AR DATING METHODS 33 3.2 (U-TH)/HE THERMOCHRONOLOGY 42 3.3 FISSION-TRACK THERMOCHRONOLOGY 48 4 THE GENERAL HEAT-TRANSPORT EQUATION 60 4.1 HEAT TRANSPORT WITHIN THE EARTH 60 4.2 CONSERVATION OF ENERGY 61 4.3 CONDUCTION 63 4.4 ADVECTION 64 4.5 PRODUCTION , 65 4.6 THE GENERAL HEAT-TRANSPORT EQUATION 66 4.7 BOUNDARY CONDITIONS 66 4.8 PURELY CONDUCTIVE HEAT TRANSPORT 68 VI CONTENTS 5 THERMAL EFFECTS OF EXHUMATION 76 5.1 STEADY-STATE SOLUTION 76 5.2 THERMAL EFFECTS OF EXHUMATION: TRANSIENT SOLUTION 81 5.3 THERMAL EFFECTS OF EXHUMATION: THE GENERAL TRANSIENT PROBLEM 83 6 STEADY-STATE TWO-DIMENSIONAL HEAT TRANSPORT 105 6.1 THE EFFECT OF SURFACE TOPOGRAPHY 105 6.2 THE AGE-ELEVATION RELATIONSHIP - STEADY STATE 110 6.3 RELIEF CHANGE 113 7 GENERAL TRANSIENT SOLUTION - THE THREE-DIMENSIONAL PROBLEM 115 7.1 PECUBE 115 7.2 TIME-VARYING SURFACE TOPOGRAPHY 116 7.3 SURFACE RELIEF IN THE SIERRA NEVADA 118 8 INVERSE METHODS 122 8.1 SPECTRAL ANALYSIS 122 8.2 AN EXAMPLE BASED ON SYNTHETIC AGES 124 8.3 APPLICATION OF THE SPECTRAL METHOD TO THE SIERRA NEVADA 127 8.4 SAMPLING STRATEGY 129 8.5 SYSTEMATIC SEARCHES 130 9 DETRITAL THERMOCHRONOLOGY 131 9.1 THE BASIC APPROACH 131 9.2 DECONVOLUTION OF DETRITAL AGE DISTRIBUTIONS 136 9.3 ESTIMATING DENUDATION RATES FROM DETRITAL AGES 140 9.4 ESTIMATING RELIEF FROM DETRITAL AGES 144 9.5 INTERPRETING PARTIALLY RESET DETRITAL SAMPLES 148 10 LATERAL ADVECTION OF MATERIAL 151 10.1 LATERAL VARIABILITY IN TECTONICALLY ACTIVE REGIONS 151 10.2 EXHUMATION AND DENUDATION IN MULTI-DIMENSIONAL SPACE 152 10.3 CONSEQUENCES OF LATERAL MOTION FOR THERMOCHRONOLOGY 153 10.4 SCALING OF LATERAL SIGNIFICANCE WITH CLOSURE TEMPERATURE 154 10.5 EVALUATION OF THE SIGNIFICANCE OF LATERAL VARIATION 155 11 ISOSTATIC RESPONSE TO DENUDATION 164 11.1 LOCAL ISOSTASY 164 11.2 FLEXURAL ISOSTASY 166 11.3 PERIODIC LOADING 167 11.4 ISOSTATIC RESPONSE TO RELIEF REDUCTION 168 CONTENTS VN 11.5 EFFECTS ON AGE DISTRIBUTION 11.6 EFFECTS ON AGE-ELEVATION DISTRIBUTIONS 11.7 APPLICATION TO THE DABIE SHAN 12 THE EVOLUTION OF PASSIVE-MARGIN ESCARPMENTS 12.1 INTRODUCTION 12.2 EARLY CONCEPTUAL MODELS: EROSION CYCLES 12.3 THERMOCHRONOLOGICAL DATA FROM PASSIVE MARGINS 12.4 MODELS OF LANDSCAPE DEVELOPMENT AT PASSIVE MARGINS 12.5 COMBINING THERMOCHRONOMETERS AND MODELLING 13 THERMOCHRONOLOGY IN ACTIVE TECTONIC SETTINGS 13.1 A SIMPLE MODEL FOR CONTINENTAL COLLISION 13.2 HEAT ADVECTION IN MOUNTAIN BELTS 13.3 THE ALPINE FAULT, SOUTH ISLAND, NEW ZEALAND 13.4 APPLICATION OF THE NEIGHBOURHOOD ALGORITHM TO SOUTHERN ALPS DATA APPENDIX 1 APPENDIX 2 APPENDIX 3 APPENDIX 4 APPENDIX 5 APPENDIX 6 APPENDIX 7 APPENDIX 8 APPENDIX 9 REFERENCES INDEX FORWARD MODELS OF FISSION-TRACK ANNEALING FORTRAN ROUTINES PROVIDED WITH THIS TEXTBOOK ONE-DIMENSIONAL CONDUCTIVE EQUILIBRIUM WITH HEAT PRODUCTION ONE-DIMENSIONAL CONDUCTIVE EQUILIBRIUM WITH ANOMALOUS CONDUCTIVITY ONE-DIMENSIONAL TRANSIENT CONDUCTIVE HEAT TRANSPORT VOLUME INTEGRALS IN SPHERICAL COORDINATES THE COMPLEMENTARY ERROR FUNCTION \ PECUBE USER GUIDE TUTORIAL SOLUTIONS 168 170 171 177 177 179 180 182 186 192 192 196 199 202 207 210 211 214 216 220 222 224 228 237 255
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author	Braun, Jean Van der Beek, Peter Batt, Geoffrey
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spelling	Braun, Jean Verfasser aut Quantitative thermochronology numerical methods for the interpretation of thermochronological data Jean Braun ; Peter van der Beek ; Geoffrey Batt 1. publ. Cambridge [u.a.] Cambridge Univ. Press 2006 XII, 258 S. graph. Darst. txt rdacontent n rdamedia nc rdacarrier Earth temperature Geochronometry Heat Transmission Plate tectonics Radioactive dating Geochronologie (DE-588)4020199-5 gnd rswk-swf Geochronologie (DE-588)4020199-5 s DE-604 Van der Beek, Peter Verfasser aut Batt, Geoffrey Verfasser aut GBV Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=014881483&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Braun, Jean Van der Beek, Peter Batt, Geoffrey Quantitative thermochronology numerical methods for the interpretation of thermochronological data Earth temperature Geochronometry Heat Transmission Plate tectonics Radioactive dating Geochronologie (DE-588)4020199-5 gnd
subject_GND	(DE-588)4020199-5
title	Quantitative thermochronology numerical methods for the interpretation of thermochronological data
title_auth	Quantitative thermochronology numerical methods for the interpretation of thermochronological data
title_exact_search	Quantitative thermochronology numerical methods for the interpretation of thermochronological data
title_exact_search_txtP	Quantitative thermochronology numerical methods for the interpretation of thermochronological data
title_full	Quantitative thermochronology numerical methods for the interpretation of thermochronological data Jean Braun ; Peter van der Beek ; Geoffrey Batt
title_fullStr	Quantitative thermochronology numerical methods for the interpretation of thermochronological data Jean Braun ; Peter van der Beek ; Geoffrey Batt
title_full_unstemmed	Quantitative thermochronology numerical methods for the interpretation of thermochronological data Jean Braun ; Peter van der Beek ; Geoffrey Batt
title_short	Quantitative thermochronology
title_sort	quantitative thermochronology numerical methods for the interpretation of thermochronological data
title_sub	numerical methods for the interpretation of thermochronological data
topic	Earth temperature Geochronometry Heat Transmission Plate tectonics Radioactive dating Geochronologie (DE-588)4020199-5 gnd
topic_facet	Earth temperature Geochronometry Heat Transmission Plate tectonics Radioactive dating Geochronologie
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=014881483&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
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