Groundwater age:
Gespeichert in:
| Hauptverfasser: | , , |
|---|---|
| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
Hoboken, N.J.
Wiley-Interscience
2006
|
| Schlagworte: | |
| Online-Zugang: | Table of contents Inhaltsverzeichnis |
| Beschreibung: | XVIII, 325 S. Ill., graph. Darst., Kt. |
| ISBN: | 047171819X 9780471718192 |
Internformat
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Datensatz im Suchindex
| _version_ | 1804135383365058560 |
|---|---|
| adam_text | Titel: Groundwater age
Autor: Kazemi, Gholam A
Jahr: 2006
CONTENTS
Preface xiü
Acknowledgments xvü
1 Introduction 1
1.1 Age and Life time, 1
1.2 Age Determination in Geology (Geochronology) and in Other
Disciplines, 3
1.2.1 Absolute Age and Relative Age, 3
1.2.2 Determination of Absolute Age of Rocks, 4
1.2.3 Geological Time Table, 4
1.3 Groundwater Age and Groundwater Residence Time, 6
1.3.1 Young, Old, and Very Old Groundwaters, 9
1.3.2 Dead Water and Active Water, 10
1.3.3 Age Gradient, 11
1.3.4 Age Mass, 11
1.3.5 Mixing, Dispersion, and Transport of Groundwater Age,
Mean Age, and Distribution of Ages, 12
1.3.6 Average Residence Time of Water in Various
Compartments of the Hydrologie Cycle, 14
1.3.7 Hydrogeochronolgy, Interdisciplinary Groundwater Age
Science, and Hydrologie Time Concept, 15
1.3.8 Event Markers, 15
1.4 Life Expectancy, 17
1.5 Isochrone and Life Expectancy Maps, 18
1.6 Some Groundwater Age-Related Terms, 19
vui CONTENTS
1.6.1 Isotopic Age, Radiometrie Age, and Decay Age, 19
1.6.2 Hydraulic Age, 21
1.6.3 Piston-Flow Age, Streamtube Age, and Advective Age, 22
1.6.4 Model Age and Apparent Age, 23
1.6.5 Storage Time, Mean Transit Time, Turnover Time, Flushing
Time, and Travel Time, 23
1.6.6 Reservoir Theory and Its Relation with Groundwater
Residence Time, 24
2 History of Groundwater Age-Dating Research 25
2.1 Pioneer of Groundwater Age Discipline?Sequence of the Earliest
Publications, 25
2.2 Laboratories Worldwide for Dating Groundwater Samples, 31
2.3 Major Contributors to Groundwater Age-Dating Discipline, 31
2.4 Names Familiär in the Groundwater Dating Business, 36
2.5 Important Publications, 37
2.5.1 Book Chapters, 38
2.5.2 Ph.D. andM.Sc.Theses, 40
2.5.3 Journals, 43
2.5.4 Reports (mainly by the USGS), 45
2.6 Aquifers Subjected to Extensive Dating Studies, 50
3 The Applications of Groundwater Age Data 51
3.1 Renewability of the Groundwater Reservoirs, 51
3.2 An Effective Communication Tool for Scientists and
Managers?and Curiosity to Laymen as Well, 53
3.3 Age Monitoring for the Prevention of Overexploitation and
Contamination of Aquifers, 54
3.4 Estimation of the Recharge Rate, 55
3.5 Calculation of the Groundwater Flow Velocity, 58
3.6 Identification of the Groundwater Flow Paths, 59
3.7 Assessing the Rates of Groundwater and Contaminants Transport
Through Aquitards, 61
3.8 Constraining the Parameters of Groundwater Flow and Transport
Models (Estimation of Large-Scale Flow and Transport
Properties), 64
3.9 Identification of the Mixing Between Different End Members, 65
3.10 Study of the Pre-Holocene (Late Pleistocene) Climate, 67
3.11 Evaluation of the Groundwater Pollution, 68
3.12 Calculation of the Travel Time of the Groundwater Plume to the
Points of Interest, 71
3.13 Mapping Vulnerability of the Shallow Aquifers, 73
3.14 Performance Assessments for Radioactive Waste Disposal
Facilities, 75
CONTENTS ix
3.15 Site-Specific Applications, 76
3.15.1 Identification of the Seawater-Level Fluctuations, 77
3.15.2 Calculating the Timescale of Seawater Intrusion, 78
3.15.3 Disposal of Wastes into the Deep Old Saline Groundwater
Systems, 78
3.15.4 Management of the Dryland Salinity in Australia, 79
3.15.5 Hydrograph Separation, 80
4 Age-Dating Young Groundwaters 81
4.1 Important Points, 82
4.2 Tritium, 84
4.2.1 Production of Tritium, 84
4.2.2 Sampling, Analyzing, and Reporting the Results, 86
4.2.3 Age-Dating Groundwater by Tritium, 87
4.2.4 Advantages and Disadvantages, 90
4.2.5 Case Studies, 90
4.3 3H/3He, 92
4.3.1 Sources of 3He, 93
4.3.2 Sampling, Analysis, and Reporting the Results, 94
4.3.3 Dating Groundwater by 3H/3He, 94
4.3.4 Advantages and Disadvantages, 96
4.3.5 Case Studies, 97
4.4 Helium-4, 99
4.5 Krypton-85, 99
4.5.1 Production of 85Kr, 100
4.5.2 Sampling and Analyzing Groundwater for 85Kr, 101
4.5.3 Age-Dating Groundwater with ^Kr, 103
4.5.4 Advantages and Disadvantages, 105
4.5.5 Case Studies, 105
4.6 CFCs, 106
4.6.1 Sampling and Analyzing Groundwater for CFCs, 108
4.6.2 Dating Groundwater by CFCs, 108
4.6.3 Limitations and Possible Sources of Error in CFCs Dating
Technique, 111
4.6.4 Advantages and Disadvantages, 113
4.6.5 Case Studies, 113
4.7 SF6, 118
4.7.1 Sampling and Analyzing Groundwater for SF6, 119
4.7.2 Age-Dating Groundwater with SF6, 119
4.7.3 Advantages and Disadvantages, 121
4.7.4 Case Studies, 122
4.8 »Cl/Cl, 124
4.8.1 Dating Groundwater by ^Cl/Cl Ratio and Case
Studies, 125
x CONTENTS
4.9 Indirect Methods, 129
4.9.1 Stable Isotopes of Water, 129
4.9.2 Case Study, 131
5 Age-Dating Old Groundwaters 134
5.1 Silicon-32, 135
5.1.1 Production of 32Si, 135
5.1.2 Sampling and Analyzing Groundwater for 32Si, 136
5.1.3 Dating Groundwater with 32Si, 137
5.1.4 Advantages and Disadvantages, 138
5.1.5 Case Studies, 138
5.2 Argon-39, 139
5.2.1 Production and Sources of 39Ar, 140
5.2.2 Sampling and Analyzing Groundwaters for 39Ar, 141
5.2.3 Age-Dating Groundwater by 39Ar, 142
5.2.4 Advantages and Disadvantages, 144
5.2.5 Case Studies, 145
5.3 Carbon-14, 146
5.3.1 Production of 14C, 146
5.3.2 Sampling, Analysis, and Reporting the Results, 148
5.3.3 Groundwater Dating by 14C, 149
5.3.4 Advantages and Disadvantages, 154
5.3.5 Case Study, 155
5.4 Indirect Methods, 157
5.4.1 Deuterium and Oxygen-18, 157
5.4.2 Conservative and Reactive Ions, 160
6 Age-Dating Very Old Groundwaters 165
6.1 Krypton-81, 166
6.1.1 Production of 81Kr, 166
6.1.2 Sampling, Analysis, and Reporting the Results, 166
6.1.3 Age-Dating Groundwater by 8IKr, 167
6.1.4 Advantages and Disadvantages, 168
6.1.5 Case Studies, 169
6.2 Chloride-36, 170
6.2.1 Production of ^Cl, 171
6.2.2 Sampling, Analysis, and Reporting the Results, 173
6.2.3 Groundwater Dating by *Q, 174
6.2.4 Advantages and Disadvantages, 177
6.2.5 Case Studies, 177
6.3 Helium-4, 181
6.3.1 Production and Sources of He, 181
6.3.2 Sampling, Analysis, and Reporting the Results, 183
6.3.3 Age-Dating Groundwater by 4He, 184
CONTENTS xj
6.3.4 Advantages and Disadvantages, 185
6.3.5 Case Studies, 185
6.4 Argon-40, 188
6.4.1 Sampling, Analysis, and Reporting the Results, 189
6.4.2 Age-Dating Groundwater by *Ar and Obstacles, 189
6.4.3 Case Studies, 190
6.5 Iodine-129, 191
6.5.1 Production of 129I, 192
6.5.2 Sampling, Analysis, and Reporting the Results, 194
6.5.3 Age-Dating Groundwater by 12T, 195
6.5.4 Advantages and Disadvantages, 196
6.5.5 Case Studies, 197
6.6 Uranium Disequilibrium Series, 198
6.6.1 Sampling, Analysis, and Reporting the Results, 200
6.6.2 Dating Groundwater by UDS, 200
6.6.3 Case Studies, 203
7 Modeling of Groundwater Age and Residence-Time Distributions 204
7.1 Overview and State-of-the-Art, 206
7.2 Basics in Groundwater Age Transport, 211
7.2.1 The Reservoir Theory, 211
7.2.2 Determination of Age and Residence-Time
Distributions, 227
7.3 Selected Typical Examples, 244
7.3.1 Aquifer with Uniform and Localized Recharge, 245
7.3.2 Hydro-Dispersive Multilayer Aquifer, 246
7.3.3 The Seeland Phreatic Aquifer, 248
8 Issues and Thoughts in Groundwater Dating 254
8.1 The Need for More Dating Methods and the Currently Proposed
Potential Methods, 254
8.2 Translating Simulation of Groundwater Ages Techniques into
Practice?More Applications for Age Data, 259
8.3 Worldwide Practices of Groundwater Age-Dating, 260
8.4 Proposal for a Groundwater Age Map?Worldwide Groundwater
Age Maps, 260
8.5 Works That Can and Need to Be Done to Enhance Groundwater
Age Science, 263
8.6 Major Problems Facing Groundwater Dating Discipline, 264
8.7 Some Thoughtful Questions?Concluding Remarks and Future of
Groundwater Dating, 264
References 266
CONTENTS
Appendix 1.
Appendix 2.
Appendix 3.
Index
Decay Curves of Groundwater Dating Isotopes.
That of Tritium Is Shown in Chapter 4
Some Useful Information for Groundwater Dating
Studies and Table of Conversion of Units
Concentration of Noble Gases (Used in
Groundwater Dating) and Some Important
Constituents of the Atmosphere
299
300
302
303
|
| adam_txt |
Titel: Groundwater age
Autor: Kazemi, Gholam A
Jahr: 2006
CONTENTS
Preface xiü
Acknowledgments xvü
1 Introduction 1
1.1 Age and Life time, 1
1.2 Age Determination in Geology (Geochronology) and in Other
Disciplines, 3
1.2.1 Absolute Age and Relative Age, 3
1.2.2 Determination of Absolute Age of Rocks, 4
1.2.3 Geological Time Table, 4
1.3 Groundwater Age and Groundwater Residence Time, 6
1.3.1 Young, Old, and Very Old Groundwaters, 9
1.3.2 Dead Water and Active Water, 10
1.3.3 Age Gradient, 11
1.3.4 Age Mass, 11
1.3.5 Mixing, Dispersion, and Transport of Groundwater Age,
Mean Age, and Distribution of Ages, 12
1.3.6 Average Residence Time of Water in Various
Compartments of the Hydrologie Cycle, 14
1.3.7 Hydrogeochronolgy, Interdisciplinary Groundwater Age
Science, and Hydrologie Time Concept, 15
1.3.8 Event Markers, 15
1.4 Life Expectancy, 17
1.5 Isochrone and Life Expectancy Maps, 18
1.6 Some Groundwater Age-Related Terms, 19
vui CONTENTS
1.6.1 Isotopic Age, Radiometrie Age, and Decay Age, 19
1.6.2 Hydraulic Age, 21
1.6.3 Piston-Flow Age, Streamtube Age, and Advective Age, 22
1.6.4 Model Age and Apparent Age, 23
1.6.5 Storage Time, Mean Transit Time, Turnover Time, Flushing
Time, and Travel Time, 23
1.6.6 Reservoir Theory and Its Relation with Groundwater
Residence Time, 24
2 History of Groundwater Age-Dating Research 25
2.1 Pioneer of Groundwater Age Discipline?Sequence of the Earliest
Publications, 25
2.2 Laboratories Worldwide for Dating Groundwater Samples, 31
2.3 Major Contributors to Groundwater Age-Dating Discipline, 31
2.4 Names Familiär in the Groundwater Dating Business, 36
2.5 Important Publications, 37
2.5.1 Book Chapters, 38
2.5.2 Ph.D. andM.Sc.Theses, 40
2.5.3 Journals, 43
2.5.4 Reports (mainly by the USGS), 45
2.6 Aquifers Subjected to Extensive Dating Studies, 50
3 The Applications of Groundwater Age Data 51
3.1 Renewability of the Groundwater Reservoirs, 51
3.2 An Effective Communication Tool for Scientists and
Managers?and Curiosity to Laymen as Well, 53
3.3 Age Monitoring for the Prevention of Overexploitation and
Contamination of Aquifers, 54
3.4 Estimation of the Recharge Rate, 55
3.5 Calculation of the Groundwater Flow Velocity, 58
3.6 Identification of the Groundwater Flow Paths, 59
3.7 Assessing the Rates of Groundwater and Contaminants Transport
Through Aquitards, 61
3.8 Constraining the Parameters of Groundwater Flow and Transport
Models (Estimation of Large-Scale Flow and Transport
Properties), 64
3.9 Identification of the Mixing Between Different End Members, 65
3.10 Study of the Pre-Holocene (Late Pleistocene) Climate, 67
3.11 Evaluation of the Groundwater Pollution, 68
3.12 Calculation of the Travel Time of the Groundwater Plume to the
Points of Interest, 71
3.13 Mapping Vulnerability of the Shallow Aquifers, 73
3.14 Performance Assessments for Radioactive Waste Disposal
Facilities, 75
CONTENTS ix
3.15 Site-Specific Applications, 76
3.15.1 Identification of the Seawater-Level Fluctuations, 77
3.15.2 Calculating the Timescale of Seawater Intrusion, 78
3.15.3 Disposal of Wastes into the Deep Old Saline Groundwater
Systems, 78
3.15.4 Management of the Dryland Salinity in Australia, 79
3.15.5 Hydrograph Separation, 80
4 Age-Dating Young Groundwaters 81
4.1 Important Points, 82
4.2 Tritium, 84
4.2.1 Production of Tritium, 84
4.2.2 Sampling, Analyzing, and Reporting the Results, 86
4.2.3 Age-Dating Groundwater by Tritium, 87
4.2.4 Advantages and Disadvantages, 90
4.2.5 Case Studies, 90
4.3 3H/3He, 92
4.3.1 Sources of 3He, 93
4.3.2 Sampling, Analysis, and Reporting the Results, 94
4.3.3 Dating Groundwater by 3H/3He, 94
4.3.4 Advantages and Disadvantages, 96
4.3.5 Case Studies, 97
4.4 Helium-4, 99
4.5 Krypton-85, 99
4.5.1 Production of 85Kr, 100
4.5.2 Sampling and Analyzing Groundwater for 85Kr, 101
4.5.3 Age-Dating Groundwater with ^Kr, 103
4.5.4 Advantages and Disadvantages, 105
4.5.5 Case Studies, 105
4.6 CFCs, 106
4.6.1 Sampling and Analyzing Groundwater for CFCs, 108
4.6.2 Dating Groundwater by CFCs, 108
4.6.3 Limitations and Possible Sources of Error in CFCs Dating
Technique, 111
4.6.4 Advantages and Disadvantages, 113
4.6.5 Case Studies, 113
4.7 SF6, 118
4.7.1 Sampling and Analyzing Groundwater for SF6, 119
4.7.2 Age-Dating Groundwater with SF6, 119
4.7.3 Advantages and Disadvantages, 121
4.7.4 Case Studies, 122
4.8 »Cl/Cl, 124
4.8.1 Dating Groundwater by ^Cl/Cl Ratio and Case
Studies, 125
x CONTENTS
4.9 Indirect Methods, 129
4.9.1 Stable Isotopes of Water, 129
4.9.2 Case Study, 131
5 Age-Dating Old Groundwaters 134
5.1 Silicon-32, 135
5.1.1 Production of 32Si, 135
5.1.2 Sampling and Analyzing Groundwater for 32Si, 136
5.1.3 Dating Groundwater with 32Si, 137
5.1.4 Advantages and Disadvantages, 138
5.1.5 Case Studies, 138
5.2 Argon-39, 139
5.2.1 Production and Sources of 39Ar, 140
5.2.2 Sampling and Analyzing Groundwaters for 39Ar, 141
5.2.3 Age-Dating Groundwater by 39Ar, 142
5.2.4 Advantages and Disadvantages, 144
5.2.5 Case Studies, 145
5.3 Carbon-14, 146
5.3.1 Production of 14C, 146
5.3.2 Sampling, Analysis, and Reporting the Results, 148
5.3.3 Groundwater Dating by 14C, 149
5.3.4 Advantages and Disadvantages, 154
5.3.5 Case Study, 155
5.4 Indirect Methods, 157
5.4.1 Deuterium and Oxygen-18, 157
5.4.2 Conservative and Reactive Ions, 160
6 Age-Dating Very Old Groundwaters 165
6.1 Krypton-81, 166
6.1.1 Production of 81Kr, 166
6.1.2 Sampling, Analysis, and Reporting the Results, 166
6.1.3 Age-Dating Groundwater by 8IKr, 167
6.1.4 Advantages and Disadvantages, 168
6.1.5 Case Studies, 169
6.2 Chloride-36, 170
6.2.1 Production of ^Cl, 171
6.2.2 Sampling, Analysis, and Reporting the Results, 173
6.2.3 Groundwater Dating by *Q, 174
6.2.4 Advantages and Disadvantages, 177
6.2.5 Case Studies, 177
6.3 Helium-4, 181
6.3.1 Production and Sources of "He, 181
6.3.2 Sampling, Analysis, and Reporting the Results, 183
6.3.3 Age-Dating Groundwater by 4He, 184
CONTENTS xj
6.3.4 Advantages and Disadvantages, 185
6.3.5 Case Studies, 185
6.4 Argon-40, 188
6.4.1 Sampling, Analysis, and Reporting the Results, 189
6.4.2 Age-Dating Groundwater by *Ar and Obstacles, 189
6.4.3 Case Studies, 190
6.5 Iodine-129, 191
6.5.1 Production of 129I, 192
6.5.2 Sampling, Analysis, and Reporting the Results, 194
6.5.3 Age-Dating Groundwater by 12T, 195
6.5.4 Advantages and Disadvantages, 196
6.5.5 Case Studies, 197
6.6 Uranium Disequilibrium Series, 198
6.6.1 Sampling, Analysis, and Reporting the Results, 200
6.6.2 Dating Groundwater by UDS, 200
6.6.3 Case Studies, 203
7 Modeling of Groundwater Age and Residence-Time Distributions 204
7.1 Overview and State-of-the-Art, 206
7.2 Basics in Groundwater Age Transport, 211
7.2.1 The Reservoir Theory, 211
7.2.2 Determination of Age and Residence-Time
Distributions, 227
7.3 Selected Typical Examples, 244
7.3.1 Aquifer with Uniform and Localized Recharge, 245
7.3.2 Hydro-Dispersive Multilayer Aquifer, 246
7.3.3 The Seeland Phreatic Aquifer, 248
8 Issues and Thoughts in Groundwater Dating 254
8.1 The Need for More Dating Methods and the Currently Proposed
Potential Methods, 254
8.2 Translating Simulation of Groundwater Ages Techniques into
Practice?More Applications for Age Data, 259
8.3 Worldwide Practices of Groundwater Age-Dating, 260
8.4 Proposal for a Groundwater Age Map?Worldwide Groundwater
Age Maps, 260
8.5 Works That Can and Need to Be Done to Enhance Groundwater
Age Science, 263
8.6 Major Problems Facing Groundwater Dating Discipline, 264
8.7 Some Thoughtful Questions?Concluding Remarks and Future of
Groundwater Dating, 264
References 266
CONTENTS
Appendix 1.
Appendix 2.
Appendix 3.
Index
Decay Curves of Groundwater Dating Isotopes.
That of Tritium Is Shown in Chapter 4
Some Useful Information for Groundwater Dating
Studies and Table of Conversion of Units
Concentration of Noble Gases (Used in
Groundwater Dating) and Some Important
Constituents of the Atmosphere
299
300
302
303 |
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| author | Kazemi, Gholam A. Lehr, Jay H. Perrochet, Pierre |
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| discipline_str_mv | Geologie / Paläontologie Geographie |
| format | Book |
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| id | DE-604.BV021601048 |
| illustrated | Illustrated |
| index_date | 2024-07-02T14:47:43Z |
| indexdate | 2024-07-09T20:39:38Z |
| institution | BVB |
| isbn | 047171819X 9780471718192 |
| language | English |
| lccn | 2005030770 |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-014816391 |
| oclc_num | 62161189 |
| open_access_boolean | |
| owner | DE-703 DE-29 |
| owner_facet | DE-703 DE-29 |
| physical | XVIII, 325 S. Ill., graph. Darst., Kt. |
| publishDate | 2006 |
| publishDateSearch | 2006 |
| publishDateSort | 2006 |
| publisher | Wiley-Interscience |
| record_format | marc |
| spelling | Kazemi, Gholam A. Verfasser aut Groundwater age Gholam A. Kazemi ; Jay H. Lehr ; Pierre Perrochet Hoboken, N.J. Wiley-Interscience 2006 XVIII, 325 S. Ill., graph. Darst., Kt. txt rdacontent n rdamedia nc rdacarrier Groundwater Analysis Radioactive tracers in hydrogeology Grundwasserüberwachung (DE-588)4325734-3 gnd rswk-swf Grundwasser (DE-588)4022369-3 gnd rswk-swf Isotopendatierung (DE-588)4277253-9 gnd rswk-swf Tracer (DE-588)4185795-1 gnd rswk-swf Indikatormethode (DE-588)4072770-1 gnd rswk-swf Hydrogeochemie (DE-588)4225478-4 gnd rswk-swf Altersbestimmung (DE-588)4142049-4 gnd rswk-swf Grundwasserleiter (DE-588)4022375-9 gnd rswk-swf Analyse (DE-588)4122795-5 gnd rswk-swf Hydrogeologie (DE-588)4026307-1 gnd rswk-swf Grundwasserüberwachung (DE-588)4325734-3 s Hydrogeologie (DE-588)4026307-1 s DE-604 Grundwasserleiter (DE-588)4022375-9 s Hydrogeochemie (DE-588)4225478-4 s Altersbestimmung (DE-588)4142049-4 s Isotopendatierung (DE-588)4277253-9 s Indikatormethode (DE-588)4072770-1 s Tracer (DE-588)4185795-1 s 1\p DE-604 Grundwasser (DE-588)4022369-3 s Analyse (DE-588)4122795-5 s 2\p DE-604 Lehr, Jay H. Verfasser aut Perrochet, Pierre Verfasser aut http://www.loc.gov/catdir/toc/ecip062/2005030770.html Table of contents HBZ Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=014816391&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 2\p cgwrk 20201028 DE-101 https://d-nb.info/provenance/plan#cgwrk |
| spellingShingle | Kazemi, Gholam A. Lehr, Jay H. Perrochet, Pierre Groundwater age Groundwater Analysis Radioactive tracers in hydrogeology Grundwasserüberwachung (DE-588)4325734-3 gnd Grundwasser (DE-588)4022369-3 gnd Isotopendatierung (DE-588)4277253-9 gnd Tracer (DE-588)4185795-1 gnd Indikatormethode (DE-588)4072770-1 gnd Hydrogeochemie (DE-588)4225478-4 gnd Altersbestimmung (DE-588)4142049-4 gnd Grundwasserleiter (DE-588)4022375-9 gnd Analyse (DE-588)4122795-5 gnd Hydrogeologie (DE-588)4026307-1 gnd |
| subject_GND | (DE-588)4325734-3 (DE-588)4022369-3 (DE-588)4277253-9 (DE-588)4185795-1 (DE-588)4072770-1 (DE-588)4225478-4 (DE-588)4142049-4 (DE-588)4022375-9 (DE-588)4122795-5 (DE-588)4026307-1 |
| title | Groundwater age |
| title_auth | Groundwater age |
| title_exact_search | Groundwater age |
| title_exact_search_txtP | Groundwater age |
| title_full | Groundwater age Gholam A. Kazemi ; Jay H. Lehr ; Pierre Perrochet |
| title_fullStr | Groundwater age Gholam A. Kazemi ; Jay H. Lehr ; Pierre Perrochet |
| title_full_unstemmed | Groundwater age Gholam A. Kazemi ; Jay H. Lehr ; Pierre Perrochet |
| title_short | Groundwater age |
| title_sort | groundwater age |
| topic | Groundwater Analysis Radioactive tracers in hydrogeology Grundwasserüberwachung (DE-588)4325734-3 gnd Grundwasser (DE-588)4022369-3 gnd Isotopendatierung (DE-588)4277253-9 gnd Tracer (DE-588)4185795-1 gnd Indikatormethode (DE-588)4072770-1 gnd Hydrogeochemie (DE-588)4225478-4 gnd Altersbestimmung (DE-588)4142049-4 gnd Grundwasserleiter (DE-588)4022375-9 gnd Analyse (DE-588)4122795-5 gnd Hydrogeologie (DE-588)4026307-1 gnd |
| topic_facet | Groundwater Analysis Radioactive tracers in hydrogeology Grundwasserüberwachung Grundwasser Isotopendatierung Tracer Indikatormethode Hydrogeochemie Altersbestimmung Grundwasserleiter Analyse Hydrogeologie |
| url | http://www.loc.gov/catdir/toc/ecip062/2005030770.html http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=014816391&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
| work_keys_str_mv | AT kazemigholama groundwaterage AT lehrjayh groundwaterage AT perrochetpierre groundwaterage |