New views of the moon:
Gespeichert in:
Format: | Buch |
---|---|
Sprache: | English |
Veröffentlicht: |
Chantilly, Va.
Mineralogical Society of America [u.a.]
2006
|
Schriftenreihe: | Reviews in mineralogy and geochemistry
60 |
Schlagworte: | |
Online-Zugang: | Inhaltsverzeichnis |
Beschreibung: | Literaturangaben |
Beschreibung: | XXII, 721 S. Ill., graph. Darst., Kt. |
Internformat
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245 | 1 | 0 | |a New views of the moon |c ed.: Bradley L. Jolliff ... |
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490 | 1 | |a Reviews in mineralogy and geochemistry |v 60 | |
500 | |a Literaturangaben | ||
650 | 7 | |a Geologia |2 larpcal | |
650 | 4 | |a Géologie lunaire | |
650 | 7 | |a Lua |2 larpcal | |
650 | 4 | |a Lune, Théorie de la | |
650 | 4 | |a Lunar geology | |
650 | 4 | |a Lunar theory | |
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REVIEWS IN MINERALOGY AND GEOCHEMISTRY VOLUME 60 2006 NEW VIEWS OF THE
MOON EDITORS: BRADLEY L. JOLLIFF WASHINGTON UNIVERSITY ST. LOUIS,
MISSOURI MARK A. WIECZOREK INSITUT DE PHYSIQUE DE GLOBE DE PARIS SAINT
MAUR, FRANCE CHARLES K. SHEARER UNIVERSITY OF.NEW MEXICO ALBUQUERQUE,
NEW MEXICO CLIVE R. NEAL UNIVERSITY OF NOTRE DAME NOTRE DAME, INDIANA
FRONT COVER: THE PAINTING ON THE FRONT COVER DEPICTS THE MOON LOW ON THE
HORIZON OVER A TOWN IN NORTHERN NEW MEXICO, WITH THE MOON COLORED IN THE
WAY WE MIGHT SEE IT IF OUR EYES WERE SENSITIVE TO GAMMA RAYS INSTEAD OF
JUST VISIBLE LIGHT. THE SCENE IS A REMINDER OF THE MOON'S COMPANIONSHIP
WITH EARTH AND SUGGESTS A CLOSE RELATIONSHIP TO THE UNIQUELY HABITABLE
ENVIRONMENT OF OUR HOME PLANET. FRONT COVER ART BY JANE MACLEAN. SERIES
EDITOR: JODI J. ROSSO MINERALOGICAL SOCIETY OF AMERICA GEOCHEMICAL
SOCIETY SUB GOTTINGEN 7 219 190 593 2006 A 20476 TABLE OF CONTENTS L NEW
VIEWS OF LUNAR GEOSCIENCE: AN INTRODUCTION AND OVERVIEW HARALD
HIESINGER, JAMES W. HEAD HI 1. INTRODUCTION 1 1.1. THE MOON IN THE
PLANETARY CONTEXT 1 1.2. LUNAR MISSIONS OF THE LAST DECADE 2 1.3. ORIGIN
AND EVOLUTION OF THE MOON 4 1.4. INTERNAL STRUCTURE OF THE MOON 5 1.5.
DIVERSITY OF LUNAR ROCKS 7 1.6. LUNAR METEORITES 12 1.7. THE
STRATIGRAPHIC SYSTEM OF THE MOON 13 2. GEOLOGIC PROCESSES 17 2.1. IMPACT
PROCESSES 17 2.2. VOLCANIC PROCESSES 30 2.3. TECTONIC PROCESSES 44 3.
GEOLOGIC SETTING AND SIGNIFICANCE OF THE APOLLO AND LUNA LANDING SITES
47 3.1. OVERVIEW 47 3.2. APOLLO 11 (JULY, 1969) 47 3.3. APOLLO 12
(NOVEMBER, 1969) 49 3.4. APOLLO 14 (JANUARY-FEBRUARY, 1971) 51 3.5.
APOLLO 15 (JULY-AUGUST, 1971) 54 3.6. APOLLO 16 (MAY, 1972) 56 3.7.
APOLLO 17 (DECEMBER, 1972) 58 3.8. LUNA 16 (SEPTEMBER, 1970) 60 3.9.
LUNA 20 (FEBRUARY, 1972) 60 3.10. LUNA 24 (AUGUST, 1976) 61 3.11.
SIGNIFICANCE OF LANDING SITES FOR THE INTERPRETATION OF GLOBAL DATA SETS
62 4. SUMMARY AND OUTSTANDING QUESTIONS 65 5. REFERENCES 67
UNDERSTANDING THE LUNAR SURFACE AND SPACE-MOON INTERACTIONS PAUL LUCEY
ET AL. 1. INTRODUCTION 83 2. THE LUNAR REGOLITH.: 84 2.1. SOME
PROPERTIES OF LUNAR REGOLITH AND SOIL 85 3. LUNAR SAMPLES 86 3.1. APOLLO
ROCK SAMPLES 86 3.2. LUNAR METEORITES 87 3.3. LUNAR REGOLITH AND SOIL
SAMPLES 87 3.4. THE MARE-HIGHLANDS DICHOTOMY AND KREEP 89 4. LUNAR
MINERALOGY 91 XVI NEW VIEWS OF THE MOON - TABLE OF CONTENTS 4.1.
SILICATE MINERALS I 4.2. OXIDE MINERALS S 4.3. PHOSPHATE MINERALS 1(
4.4. IRON METAL 1( 4.5. IMPORTANCE OF THE RATIO OF MAGNESIUM TO IRON 1(
5. LUNAR ROCKS 1( 5.1. PRISTINE NONMARE ROCKS 1( 5.2. BRECCIAS 1C 5.3.
MARE VOLCANICS 11 6. REGOLITH COMPOSITION 11 6.1. CHEMICAL COMPOSITION
DATA FOR REGOLITH SAMPLES 11 6.2. MINERAL AND ROCK CONTROL OF REGOLITH
COMPOSITION 11 7. FELDSPATHIC LUNAR METEORITES AS REGOLITH 12 7.1.
COMPOSITION OF THE FELDSPATHIC UPPER CRUST 12 7.2. LUNAR METEORITES AS
GROUND TRUTH 13 7.3. THE MAGNESIUM TO IRON RATIO OF THE FELDSPATHIC
CRUST 13 8. REGOLITH EVOLUTION: MICROMETEORITES AND ENERGETIC PARTICLE
INTERACTIONS 14 8.1. THE MOON'S MICROMETEORITE AND ENERGETIC-PARTICLE
ENVIRONMENT 14 8.2. RECENT DEVELOPMENTS IN THE DETECTION AND STUDIES OF
THESE INTERACTION PRODUCTS 14 8.3. IMPLANTED SOLAR-WIND GASES 14 8.4.
SOLAR COSMIC RAYS 14 8.5. PRODUCTS OF GALACTIC-COSMIC-RAY INTERACTIONS
14 8.6. EXPOSURE RECORDS OF LUNAR METEORITES 14 9. REGOLITH EVOLUTION:
MIXING, SPACE WEATHERING, AND MATURITY . 14 9.1. REWORKING AND MIXING 14
9.2. SPACE WEATHERING PRODUCTS 14 9.3. COMPOSITIONAL VARIATION WITH
MATURITY IN PATH-1 SOILS 15 9.4. COMPOSITIONAL VARIATION WITH MATURITY
IN PATH-2 SOILS 15 9.5. COMPOSITIONAL VARIATION WITH GRAIN SIZE 15 10.
REMOTE SENSING OF LUNAR SURFACE COMPOSITION 16 10.1. GAMMA-RAY
SPECTROSCOPY, 16 10.2. NEUTRON SPECTROSCOPY / 17 10.3. X-RAY
SPECTROSCOPY ; 17 10.4. SPECTRAL REFLECTANCE REMOTE SENSING OF LUNAR
SURFACE COMPOSITION 17 10.5. SPECTRAL REMOTE SENSING IN THE THERMAL IR
19 10.6. REMOTE SENSING OF LUNAR THERMAL PROPERTIES 19 10.7. RADAR
REMOTE SENSING OF THE REGOLITH 19 10.8. HYDROGEN AND THE LUNAR POLES 19
11. THE LUNAR ATMOSPHERE '. 19 11.1. INTRODUCTION 19 11.2. REMOTE
SENSING OF THE MOON'S ATMOSPHERE 19 11.3. LUNAR ATMOSPHERE GENERATED BY
METEORS 19 11.4. SPUTTERING SOURCES 19 11.5. SOURCES, RECYCLING AND
SINKS 20 11.6. LUNAR ATMOSPHERE SEEN DURING ECLIPSES 20 11.7. SUMMARY 20
12. REFERENCES 20 XVN NEW VIEWS OF THE MOON - TABLE OF CONTENTS J THE
CONSTITUTION AND STRUCTURE OF THE LUNAR INTERIOR MARK A. WIECZOREH ETAL.
1. INTRODUCTION 221 1.1. THE MAGMA OCEAN MODEL AND ITS MANY QUESTIONS
223 2. THE CRUST 226 2.1. SAMPLES OF THE CRUST 226 2.2. SEISMOLOGY 254
2.3. GRAVITY AND TOPOGRAPHY DATASETS 258 2.4. THICKNESS OF THE MARE
BASALTS 262 2.5. LITHOSPHERIC THICKNESS AND MASCON TECTONICS 264 2.6.
GRAVITY AND TOPOGRAPHY ADMITTANCE STUDIES 267 2.7 CRUSTAL THICKNESS
MODELS 271 2.8. CRUSTAL STRATIGRAPHY 276 2.9. SUMMARY 282 3. THE MANTLE
283 3.1. MARE BASALTS AND VOLCANIC GLASSES 283 3.2. SEISMOLOGY 295 3.3.
SUMMARY 302 4. THE CORE 303 4.1. MASS AND MOMENTS OF INERTIA 304 4.2.
SEISMOLOGY 305 4.3. INDUCED DIPOLE MOMENT 306 4.4. LUNAR LASER RANGING
307 4.5. LUNAR FREE OSCILLATIONS 311 4.6. THERMAL CONSTRAINTS ON THE
PHYSICAL STATE OF THE CORE 311 4.7. PALEOMAGNETISM OF THE LUNAR SAMPLES
312 4.8. GEOCHEMICAL CONSTRAINTS ON THE PRESENCE OF A LUNAR CORE FROM
SIDEROPHILE ELEMENTS AND SHORT-LIVED ISOTOPES 317 4.9. JOINT INVERSIONS
OF SEVERAL DATASETS 324 4.10. SUMMARY 326 5. CRUSTAL PROVINCES 326
5.1.THEPROCELLARUMKREEPTERRANE 327 5.2. THE FELDSPATHIC HIGHLANDS
TERRANE 332 5.3. BULK COMPOSITION: TH AND AL MASS BALANCE 335 6. MAJOR
RECENT ADVANCES IN LUNAR SCIENCE, UNANSWERED QUESTIONS, AND FUTURE
DEVELOPMENTS 337 6.1. MAJOR ADVANCES IN LUNAR SCIENCE 338 6.2.
UNANSWERED QUESTIONS 339 6.3. PRIMARY SCIENCE OBJECTIVES 340 6.4. OTHER
SCIENCE OBJECTIVES 341 7. ACKNOWLEDGMENTS 343 8. ONLINE SUPPORTING
MATERIALS AT WWW.MINSOCAM.ORG 343 9. REFERENCES 343 XVM NEW VIEWS OF THE
MOON - TABLE OF CONTENTS THERMAL AND MAGMATIC EVOLUTION OF THE MOON
CHARLES K. SHEARER ET A 1. INTRODUCTION 36 1.1. PRE-APOLLO VIEW OF THE
THERMAL AND MAGMATIC EVOLUTION OF THE MOON 36 1.2. APOLLO VIEW OF THE
THERMAL AND MAGMATIC EVOLUTION OF THE MOON 36 2. LUNAR ORIGIN AND
FORMATION 36 2.1. MECHANISMS OF LUNAR FORMATION 37 2.2. DYNAMICAL MODELS
37 2.3. LUNAR ACCRETION TIME SCALES AND THE EARLY LUNAR ORBIT 37 2.4.
THE INITIAL LUNAR THERMAL STATE 37 2.5. AGE OF THE MOON 37 2.6.
COMPOSITIONAL CONSTRAINTS ON THE ORIGIN OF THE MOON 38 2.7. SUMMARY 38
3. INITIAL MAGMATIC DIFFERENTIATION 38 3.1. THE MAGMA OCEAN: RATIONALE,
ORIGIN, SIZE AND FINAL OUTCOME 38 3.2. PHYSICS OF THE LUNAR MAGMA OCEAN
39 3.3. PHYSICS OF CUMULATE OVERTURN 40 3.4. CHALLENGES TO THE LMO
HYPOTHESIS 40' 4. LUNAR (PRE-MARE) MAGMATISM 4.5 TO -3.85 GA 41 4.1.
INTRODUCTION 41 4.2. PLUTONIC ROCKS, MAGNESIAN SUITE 41- 4.3. PLUTONIC
ROCKS, EVOLVED HIGHLAND ROCKS 41' 4.4. REMOTELY SENSED DATA ON LUNAR
PLUTONIC ROCKS 42 4.5. MODELS FOR EARLY LUNAR PLUTONISM 42: 4.6.
VOLCANIC ROCKS, KREEP BASALTS 42' 4.7. VOLCANIC ROCKS, HIGH-AL AND
K-RICH BASALTS 42' 4.8. REMOTELY SENSED DATA ON PRE-MARE VOLCANIC ROCKS
; 43. 4.9. MODELS FOR EARLY LUNAR VOLCANISM 43: 5. LUNAR (MARE)
MAGMATISM 3;85 TO -1.0 GA '. 43! 5.1. INTRODUCTION 43! 5.2. COMPOSITION
OF THE MARE BASALTS AND SOURCE MINERALOGY 44( 5.3. PETROGRAPHY 44; 5.4.
TRACE ELEMENTS 44( 5.5. ISOTOPIC OBSERVATIONS 451 5.6. EXPERIMENTAL
PHASE EQUILIBRIA. 45' 5.7. DEPTH OF THE MARE BASALT SOURCE 45( 5.8.
REMELTING OF CUMULATES 46( 5.9. VOLATILE CONTENTS OF MARE MAGMAS 46^
5.10. BUOYANCY OF MARE BASALTS 46.' 5.11. INSIGHTS FROM REMOTELY SENSED
DATA 46^ 5.12. PETROGENESIS 46F 5.13. SYNTHESIS AND QUESTIONS 46*: 6.
PHYSICAL PROCESSES GOVERNING THE THERMAL, CHEMICAL, AND MAGMATIC
EVOLUTION SUBSEQUENT TO INITIAL PLANETARY DIFFERENTIATION 47( 6.1.
INTRODUCTION 47( 6.2. PHYSICAL PROCESSES GOVERNING THERMAL AND MAGMATIC
EVOLUTION 471 XIX NEW VIEWS OF THE MOON - TABLE OF CONTENTS 6.3.
OBSERVATIONAL CONSTRAINTS 472 6.4. SYNTHESIS OF THERMAL HISTORY MODELS
475 6.5. PROCESSES GOVERNING MIGRATION OF LUNAR BASALTS 480 6.6.
PROCESSES GOVERNING THE DISTRIBUTION OF BASALTIC MAGMAS ON THE MOON 483
7. ORIGIN OF CRUSTAL ASYMMETRIES 489 7.1. INTRODUCTION 489 7.2. EFFECTS
OF A THICKER KREEP LAYER WITHIN THE PROCELLARUM KREEP TERRANE 491 7.3.
DEGREE-1 UPWELLING OF ILMENITE-RICH CUMULATES 494 7.4. DEGREE-1
DOWNWELLING OF ILMENITE-RICH CUMULATES 497 7.5. THE EFFECT OF CRUSTAL
THICKNESS VARIATIONS DURING LMO CRYSTALLIZATION 498 7.6. THE EFFECT OF
LARGE IMPACTS AND MANTLE CONVECTION ON THE DISTRIBUTION OF KREEP 499
7.7. SUMMARY AND CONCLUSIONS 500 8. NEW VIEWS OF THE THERMAL AND
MAGMATIC EVOLUTION OF THE MOON 500 8.1. INTRODUCTION 500 8.2. NEW VIEWS
500 8.3. GOALS FOR FUTURE SCIENCE INITIATIVES 502 9. ACKNOWLEDGMENTS 502
10. REFERENCES 502 D CRATERING HISTORY AND LUNAR CHRONOLOGY DIETER
STOFFLER ET AL. 1. INTRODUCTION 519 2. THE IMPACT CRATERING PROCESS:
OBSERVATION AND MODELING 520 2.1. MORPHOLOGY AND MORPHOMETRY OF LUNAR
IMPACT CRATERS 520 2.2. TERRESTRIAL IMPACT STRUCTURES 523 2.3. IMPACT
CRATERING MECHANICS 535 3. THE LUNAR IMPACT FLUX AND CRATER PRODUCTION
FUNCTIONS 547 3.1. CRATER PRODUCTION FUNCTIONS 547 3.2. HARTMANN
PRODUCTION FUNCTION * HPF 548 3.3. NEUKUM PRODUCTION FUNCTION (NPF) 548
3.4. TOWARDS A UNIFIED PRODUCTION FUNCTION 549 3.5. SFD FOR CRATERS IN
COMPARISON WITH ASTEROIDS 551 3.6. NEAR-EARTH ASTEROIDS 552 3.7. CRATERS
ON EARTH AND OTHER TERRESTRIAL PLANETS 552 4. RELATIVE AGE DATING OF
LUNAR SURFACE UNITS AND THE LUNAR STRATIGRAPHY 554 4.1. PRINCIPLES OF
RELATIVE AGE DATING 554 4.2. THE LUNAR STRATIGRAPHY 555 5. GEOLOGIC
PROVENANCE AND RADIOMETRIC AGES OF LUNAR ROCKS .561 5.1. GEOLOGIC
PROVENANCE AND STRATIGRAPHIC SIGNIFICANCE OF LUNAR SAMPLES 561 5.2.
RADIOMETRIC AGES OF LUNAR ROCKS 563 6. GEOLOGY AND ABSOLUTE AGES OF
LUNAR SURFACE UNITS 565 6.1. PRE-NECTARIAN PERIOD 565 XX NEW VIEWS OF
THE MOON - TABLE OF CONTENTS 6.2. NECTARIAN PERIOD 56 6.3. EARLY
IMBRIAN EPOCH 57 6.4. LATE IMBRIAN EPOCH 57: 6.5. ERATOSTHENIAN PERIOD
57I 6.6. COPERNICAN PERIOD 57' 6.7. DERIVATION OF A REVISED,
TIME-CALIBRATED LUNAR STRATIGRAPHY 571 7. THE LUNAR CRATERING HISTORY
571 7.1. THE LUNAR CRATERING RATE AS A FUNCTION OF TIME: THE DATA BASE
571 7.2. INTERPRETATIONS OF THE LUNAR CRATERING RATE AND THE ONGOING
DEBATE ABOUT A POSSIBLE LATE CATACLYSM 58: 7.3. OPEN QUESTIONS AND
FUTURE WORK 58' 8. ACKNOWLEDGMENTS 58: 9. REFERENCES 58( O DEVELOPMENT
OF THE MOON MICHAEL B. DUKE ET AL 1. INTRODUCTION 59 - 2. WHY GO TO THE
MOON? EXPLORATION RATIONALES AND MOTIVATIONS 59! 2.1. EXPANSION OF
HUMANS INTO SPACE 59! 2.2. THE SEARCH FOR ENERGY ALTERNATIVES 60: 2.3.
THE INDUSTRIALIZATION OF SPACE 60' 2.4. EXPLORATION AND.DEVELOPMENT OF
THE SOLAR SYSTEM 60( 2.5. THE MOON AS A PLANETARY SCIENCE LABORATORY 60!
2.6. ASTRONOMICAL OBSERVATORIES ON THE MOON 61( 3. TRANSPORTATION BY
ROCKET IN THE EARTH-MOON SYSTEM I 6I: 4. THE DEVELOPMENT AND USE OF
LUNAR RESOURCES 61' 4.1. WHAT ARE THE LUNAR RESOURCES?. 61^ 4.2.
DISTRIBUTION OF LUNAR RESOURCES 615 4.3. PROSPECTING FOR AND PROCESSING
LUNAR RESOURCES 62^ 4.4. USES OF LUNAR RESOURCES 63; 4.5. ECONOMICS OF
LUNAR RESOURCE UTILIZATION 63' 4.6. STATUS OF U.S. AND INTERNATIONAL
SPACE RESOURCE LAW 63" 5. THE LUNAR ENVIRONMENT 63S 6. HUMANS ON THE
MOON: ESTABLISHMENT OF LUNAR OUTPOSTS 64( 6.1. SITE SELECTION FOR A
LUNAR OUTPOST 64C 6.2. SURFACE ACCESSIBILITY OPTIONS FOR LUNAR
EXPLORATION AND DEVELOPMENT 64^ 7. A STRATEGY FOR EXPLORING AND
DEVELOPING THE MOON 64^ 7.1. ROBOTIC EXPLORATION AND UTILIZATION
MISSIONS 64( 7.2. FIRST PERMANENT OUTPOST ESTABLISHED 64 8. REFERENCES
64$ XXI NEW VIEWS OF THE MOON - TABLE OF CONTENTS EARTH-MOON SYSTEM,
PLANETARY SCIENCE, AND LESSONS LEARNED S. ROSS TAYLOR ET AL. 1.
INTRODUCTION 657 2. ADVANCES IN LUNAR SCIENCE OVER THE PAST 10 YEARS 658
2.1. PLANETARY GEOCHEMISTRY: THE MOON IN THE CONTEXT OF THE SOLAR SYSTEM
658 2.2. DISCUSSION OF IDEAS ABOUT THE ORIGIN OF THE EARTH-MOON SYSTEM
672 2.3. HIGHLIGHTS OF RECENT DISCOVERIES 677 2.4. UNIQUENESS OF THE
EARTH-MOON SYSTEM 678 2.5. ROLE OF THE MOON IN MAKING EARTH A HABITABLE
PLANET 678 3. PLACE OF THE MOON IN THE SOLAR SYSTEM 679 3.1. THE MOON AS
A SATELLITE 679 3.2. COMPARISON WITH OTHER AIRLESS DIFFERENTIATED BODIES
680 4. HOW TO EXPLORE A SOLID BODY 683 4.1. WHAT WE LEARNED (AND
CHANGING PERSPECTIVES) 684 4.2. LESSONS LEARNED 693 4. SUMMARY 698 5.
REFERENCES 698 ADDITIONAL VOLUME CONTENTS INDEX 705 COLOR PLATES PLATE
1.1 PI PLATE 2.1 PI PLATE 2.2 , PI PLATE 2.3 P2 PLATE 2.4 :.- P2 PLATE
2.5 P3 PLATE 2.6 P3 PLATE 2.7 P4 PLATE 2.8 P4 PLATE 2.9 P5 PLATE 2.10 P6
PLATE 2.11 P7 PLATE 2.12 P7 PLATE 3.1 P8 PLATE 3.2 P8 PLATE 3.3 P9 PLATE
3.4 P9 PLATE 3.5 P10 PLATE 3.6 P10 PLATE 3.7 PLL PLATE 3.8 P12 PLATE 3.9
P12 PLATE 3.10 P12 XXN |
adam_txt |
REVIEWS IN MINERALOGY AND GEOCHEMISTRY VOLUME 60 2006 NEW VIEWS OF THE
MOON EDITORS: BRADLEY L. JOLLIFF WASHINGTON UNIVERSITY ST. LOUIS,
MISSOURI MARK A. WIECZOREK INSITUT DE PHYSIQUE DE GLOBE DE PARIS SAINT
MAUR, FRANCE CHARLES K. SHEARER UNIVERSITY OF.NEW MEXICO ALBUQUERQUE,
NEW MEXICO CLIVE R. NEAL UNIVERSITY OF NOTRE DAME NOTRE DAME, INDIANA
FRONT COVER: THE PAINTING ON THE FRONT COVER DEPICTS THE MOON LOW ON THE
HORIZON OVER A TOWN IN NORTHERN NEW MEXICO, WITH THE MOON COLORED IN THE
WAY WE MIGHT SEE IT IF OUR EYES WERE SENSITIVE TO GAMMA RAYS INSTEAD OF
JUST VISIBLE LIGHT. THE SCENE IS A REMINDER OF THE MOON'S COMPANIONSHIP
WITH EARTH AND SUGGESTS A CLOSE RELATIONSHIP TO THE UNIQUELY HABITABLE
ENVIRONMENT OF OUR HOME PLANET. FRONT COVER ART BY JANE MACLEAN. SERIES
EDITOR: JODI J. ROSSO MINERALOGICAL SOCIETY OF AMERICA GEOCHEMICAL
SOCIETY SUB GOTTINGEN 7 219 190 593 2006 A 20476 TABLE OF CONTENTS L NEW
VIEWS OF LUNAR GEOSCIENCE: AN INTRODUCTION AND OVERVIEW HARALD
HIESINGER, JAMES W. HEAD HI 1. INTRODUCTION 1 1.1. THE MOON IN THE
PLANETARY CONTEXT 1 1.2. LUNAR MISSIONS OF THE LAST DECADE 2 1.3. ORIGIN
AND EVOLUTION OF THE MOON 4 1.4. INTERNAL STRUCTURE OF THE MOON 5 1.5.
DIVERSITY OF LUNAR ROCKS 7 1.6. LUNAR METEORITES 12 1.7. THE
STRATIGRAPHIC SYSTEM OF THE MOON 13 2. GEOLOGIC PROCESSES 17 2.1. IMPACT
PROCESSES 17 2.2. VOLCANIC PROCESSES 30 2.3. TECTONIC PROCESSES 44 3.
GEOLOGIC SETTING AND SIGNIFICANCE OF THE APOLLO AND LUNA LANDING SITES
47 3.1. OVERVIEW 47 3.2. APOLLO 11 (JULY, 1969) 47 3.3. APOLLO 12
(NOVEMBER, 1969) 49 3.4. APOLLO 14 (JANUARY-FEBRUARY, 1971) 51 3.5.
APOLLO 15 (JULY-AUGUST, 1971) 54 3.6. APOLLO 16 (MAY, 1972) 56 3.7.
APOLLO 17 (DECEMBER, 1972) 58 3.8. LUNA 16 (SEPTEMBER, 1970) 60 3.9.
LUNA 20 (FEBRUARY, 1972) 60 3.10. LUNA 24 (AUGUST, 1976) 61 3.11.
SIGNIFICANCE OF LANDING SITES FOR THE INTERPRETATION OF GLOBAL DATA SETS
62 4. SUMMARY AND OUTSTANDING QUESTIONS 65 5. REFERENCES 67
UNDERSTANDING THE LUNAR SURFACE AND SPACE-MOON INTERACTIONS PAUL LUCEY
ET AL. 1. INTRODUCTION 83 2. THE LUNAR REGOLITH.: 84 2.1. SOME
PROPERTIES OF LUNAR REGOLITH AND SOIL 85 3. LUNAR SAMPLES 86 3.1. APOLLO
ROCK SAMPLES 86 3.2. LUNAR METEORITES 87 3.3. LUNAR REGOLITH AND SOIL
SAMPLES 87 3.4. THE MARE-HIGHLANDS DICHOTOMY AND KREEP 89 4. LUNAR
MINERALOGY 91 XVI NEW VIEWS OF THE MOON - TABLE OF CONTENTS 4.1.
SILICATE MINERALS I 4.2. OXIDE MINERALS S 4.3. PHOSPHATE MINERALS 1(
4.4. IRON METAL 1( 4.5. IMPORTANCE OF THE RATIO OF MAGNESIUM TO IRON 1(
5. LUNAR ROCKS 1( 5.1. PRISTINE NONMARE ROCKS 1( 5.2. BRECCIAS 1C 5.3.
MARE VOLCANICS 11 6. REGOLITH COMPOSITION 11 6.1. CHEMICAL COMPOSITION
DATA FOR REGOLITH SAMPLES 11 6.2. MINERAL AND ROCK CONTROL OF REGOLITH
COMPOSITION 11 7. FELDSPATHIC LUNAR METEORITES AS REGOLITH 12 7.1.
COMPOSITION OF THE FELDSPATHIC UPPER CRUST 12 7.2. LUNAR METEORITES AS
GROUND TRUTH 13 7.3. THE MAGNESIUM TO IRON RATIO OF THE FELDSPATHIC
CRUST 13 8. REGOLITH EVOLUTION: MICROMETEORITES AND ENERGETIC PARTICLE
INTERACTIONS 14 8.1. THE MOON'S MICROMETEORITE AND ENERGETIC-PARTICLE
ENVIRONMENT 14 8.2. RECENT DEVELOPMENTS IN THE DETECTION AND STUDIES OF
THESE INTERACTION PRODUCTS 14 8.3. IMPLANTED SOLAR-WIND GASES 14 8.4.
SOLAR COSMIC RAYS 14 8.5. PRODUCTS OF GALACTIC-COSMIC-RAY INTERACTIONS
14 8.6. EXPOSURE RECORDS OF LUNAR METEORITES 14 9. REGOLITH EVOLUTION:
MIXING, SPACE WEATHERING, AND MATURITY . 14 9.1. REWORKING AND MIXING 14
9.2. SPACE WEATHERING PRODUCTS 14 9.3. COMPOSITIONAL VARIATION WITH
MATURITY IN PATH-1 SOILS 15 9.4. COMPOSITIONAL VARIATION WITH MATURITY
IN PATH-2 SOILS 15 9.5. COMPOSITIONAL VARIATION WITH GRAIN SIZE 15 10.
REMOTE SENSING OF LUNAR SURFACE COMPOSITION 16 10.1. GAMMA-RAY
SPECTROSCOPY, 16 10.2. NEUTRON SPECTROSCOPY / 17 10.3. X-RAY
SPECTROSCOPY ; 17 10.4. SPECTRAL REFLECTANCE REMOTE SENSING OF LUNAR
SURFACE COMPOSITION 17 10.5. SPECTRAL REMOTE SENSING IN THE THERMAL IR
19 10.6. REMOTE SENSING OF LUNAR THERMAL PROPERTIES 19 10.7. RADAR
REMOTE SENSING OF THE REGOLITH 19 10.8. HYDROGEN AND THE LUNAR POLES 19
11. THE LUNAR ATMOSPHERE '. 19 11.1. INTRODUCTION 19 11.2. REMOTE
SENSING OF THE MOON'S ATMOSPHERE 19 11.3. LUNAR ATMOSPHERE GENERATED BY
METEORS 19 11.4. SPUTTERING SOURCES 19 11.5. SOURCES, RECYCLING AND
SINKS 20 11.6. LUNAR ATMOSPHERE SEEN DURING ECLIPSES 20 11.7. SUMMARY 20
12. REFERENCES 20 XVN NEW VIEWS OF THE MOON - TABLE OF CONTENTS J THE
CONSTITUTION AND STRUCTURE OF THE LUNAR INTERIOR MARK A. WIECZOREH ETAL.
1. INTRODUCTION 221 1.1. THE MAGMA OCEAN MODEL AND ITS MANY QUESTIONS
223 2. THE CRUST 226 2.1. SAMPLES OF THE CRUST 226 2.2. SEISMOLOGY 254
2.3. GRAVITY AND TOPOGRAPHY DATASETS 258 2.4. THICKNESS OF THE MARE
BASALTS 262 2.5. LITHOSPHERIC THICKNESS AND MASCON TECTONICS 264 2.6.
GRAVITY AND TOPOGRAPHY ADMITTANCE STUDIES 267 2.7 CRUSTAL THICKNESS
MODELS 271 2.8. CRUSTAL STRATIGRAPHY 276 2.9. SUMMARY 282 3. THE MANTLE
283 3.1. MARE BASALTS AND VOLCANIC GLASSES 283 3.2. SEISMOLOGY 295 3.3.
SUMMARY 302 4. THE CORE 303 4.1. MASS AND MOMENTS OF INERTIA 304 4.2.
SEISMOLOGY 305 4.3. INDUCED DIPOLE MOMENT 306 4.4. LUNAR LASER RANGING
307 4.5. LUNAR FREE OSCILLATIONS 311 4.6. THERMAL CONSTRAINTS ON THE
PHYSICAL STATE OF THE CORE 311 4.7. PALEOMAGNETISM OF THE LUNAR SAMPLES
312 4.8. GEOCHEMICAL CONSTRAINTS ON THE PRESENCE OF A LUNAR CORE FROM
SIDEROPHILE ELEMENTS AND SHORT-LIVED ISOTOPES 317 4.9. JOINT INVERSIONS
OF SEVERAL DATASETS 324 4.10. SUMMARY 326 5. CRUSTAL PROVINCES 326
5.1.THEPROCELLARUMKREEPTERRANE 327 5.2. THE FELDSPATHIC HIGHLANDS
TERRANE 332 5.3. BULK COMPOSITION: TH AND AL MASS BALANCE 335 6. MAJOR
RECENT ADVANCES IN LUNAR SCIENCE, UNANSWERED QUESTIONS, AND FUTURE
DEVELOPMENTS 337 6.1. MAJOR ADVANCES IN LUNAR SCIENCE 338 6.2.
UNANSWERED QUESTIONS 339 6.3. PRIMARY SCIENCE OBJECTIVES 340 6.4. OTHER
SCIENCE OBJECTIVES 341 7. ACKNOWLEDGMENTS 343 8. ONLINE SUPPORTING
MATERIALS AT WWW.MINSOCAM.ORG 343 9. REFERENCES 343 XVM NEW VIEWS OF THE
MOON - TABLE OF CONTENTS THERMAL AND MAGMATIC EVOLUTION OF THE MOON
CHARLES K. SHEARER ET A 1. INTRODUCTION 36 1.1. PRE-APOLLO VIEW OF THE
THERMAL AND MAGMATIC EVOLUTION OF THE MOON 36 1.2. APOLLO VIEW OF THE
THERMAL AND MAGMATIC EVOLUTION OF THE MOON 36 2. LUNAR ORIGIN AND
FORMATION 36 2.1. MECHANISMS OF LUNAR FORMATION 37 2.2. DYNAMICAL MODELS
37 2.3. LUNAR ACCRETION TIME SCALES AND THE EARLY LUNAR ORBIT 37 2.4.
THE INITIAL LUNAR THERMAL STATE 37 2.5. AGE OF THE MOON 37 2.6.
COMPOSITIONAL CONSTRAINTS ON THE ORIGIN OF THE MOON 38 2.7. SUMMARY 38
3. INITIAL MAGMATIC DIFFERENTIATION 38 3.1. THE MAGMA OCEAN: RATIONALE,
ORIGIN, SIZE AND FINAL OUTCOME 38 3.2. PHYSICS OF THE LUNAR MAGMA OCEAN
39 3.3. PHYSICS OF CUMULATE OVERTURN 40 3.4. CHALLENGES TO THE LMO
HYPOTHESIS 40' 4. LUNAR (PRE-MARE) MAGMATISM 4.5 TO -3.85 GA 41 4.1.
INTRODUCTION 41 4.2. PLUTONIC ROCKS, MAGNESIAN SUITE 41- 4.3. PLUTONIC
ROCKS, EVOLVED HIGHLAND ROCKS 41' 4.4. REMOTELY SENSED DATA ON LUNAR
PLUTONIC ROCKS 42 4.5. MODELS FOR EARLY LUNAR PLUTONISM 42: 4.6.
VOLCANIC ROCKS, KREEP BASALTS 42' 4.7. VOLCANIC ROCKS, HIGH-AL AND
K-RICH BASALTS 42' 4.8. REMOTELY SENSED DATA ON PRE-MARE VOLCANIC ROCKS
; 43. 4.9. MODELS FOR EARLY LUNAR VOLCANISM 43: 5. LUNAR (MARE)
MAGMATISM 3;85 TO -1.0 GA '. 43! 5.1. INTRODUCTION 43! 5.2. COMPOSITION
OF THE MARE BASALTS AND SOURCE MINERALOGY 44( 5.3. PETROGRAPHY 44; 5.4.
TRACE ELEMENTS 44( 5.5. ISOTOPIC OBSERVATIONS 451 5.6. EXPERIMENTAL
PHASE EQUILIBRIA. 45' 5.7. DEPTH OF THE MARE BASALT SOURCE 45( 5.8.
REMELTING OF CUMULATES 46( 5.9. VOLATILE CONTENTS OF MARE MAGMAS 46^
5.10. BUOYANCY OF MARE BASALTS 46.' 5.11. INSIGHTS FROM REMOTELY SENSED
DATA 46^ 5.12. PETROGENESIS 46F 5.13. SYNTHESIS AND QUESTIONS 46*: 6.
PHYSICAL PROCESSES GOVERNING THE THERMAL, CHEMICAL, AND MAGMATIC
EVOLUTION SUBSEQUENT TO INITIAL PLANETARY DIFFERENTIATION 47( 6.1.
INTRODUCTION 47( 6.2. PHYSICAL PROCESSES GOVERNING THERMAL AND MAGMATIC
EVOLUTION 471 XIX NEW VIEWS OF THE MOON - TABLE OF CONTENTS 6.3.
OBSERVATIONAL CONSTRAINTS 472 6.4. SYNTHESIS OF THERMAL HISTORY MODELS
475 6.5. PROCESSES GOVERNING MIGRATION OF LUNAR BASALTS 480 6.6.
PROCESSES GOVERNING THE DISTRIBUTION OF BASALTIC MAGMAS ON THE MOON 483
7. ORIGIN OF CRUSTAL ASYMMETRIES 489 7.1. INTRODUCTION 489 7.2. EFFECTS
OF A THICKER KREEP LAYER WITHIN THE PROCELLARUM KREEP TERRANE 491 7.3.
DEGREE-1 UPWELLING OF ILMENITE-RICH CUMULATES 494 7.4. DEGREE-1
DOWNWELLING OF ILMENITE-RICH CUMULATES 497 7.5. THE EFFECT OF CRUSTAL
THICKNESS VARIATIONS DURING LMO CRYSTALLIZATION 498 7.6. THE EFFECT OF
LARGE IMPACTS AND MANTLE CONVECTION ON THE DISTRIBUTION OF KREEP 499
7.7. SUMMARY AND CONCLUSIONS 500 8. NEW VIEWS OF THE THERMAL AND
MAGMATIC EVOLUTION OF THE MOON 500 8.1. INTRODUCTION 500 8.2. NEW VIEWS
500 8.3. GOALS FOR FUTURE SCIENCE INITIATIVES 502 9. ACKNOWLEDGMENTS 502
10. REFERENCES 502 D CRATERING HISTORY AND LUNAR CHRONOLOGY DIETER
STOFFLER ET AL. 1. INTRODUCTION 519 2. THE IMPACT CRATERING PROCESS:
OBSERVATION AND MODELING 520 2.1. MORPHOLOGY AND MORPHOMETRY OF LUNAR
IMPACT CRATERS 520 2.2. TERRESTRIAL IMPACT STRUCTURES 523 2.3. IMPACT
CRATERING MECHANICS 535 3. THE LUNAR IMPACT FLUX AND CRATER PRODUCTION
FUNCTIONS 547 3.1. CRATER PRODUCTION FUNCTIONS 547 3.2. HARTMANN
PRODUCTION FUNCTION * HPF 548 3.3. NEUKUM PRODUCTION FUNCTION (NPF) 548
3.4. TOWARDS A UNIFIED PRODUCTION FUNCTION 549 3.5. SFD FOR CRATERS IN
COMPARISON WITH ASTEROIDS 551 3.6. NEAR-EARTH ASTEROIDS 552 3.7. CRATERS
ON EARTH AND OTHER TERRESTRIAL PLANETS 552 4. RELATIVE AGE DATING OF
LUNAR SURFACE UNITS AND THE LUNAR STRATIGRAPHY 554 4.1. PRINCIPLES OF
RELATIVE AGE DATING 554 4.2. THE LUNAR STRATIGRAPHY 555 5. GEOLOGIC
PROVENANCE AND RADIOMETRIC AGES OF LUNAR ROCKS .561 5.1. GEOLOGIC
PROVENANCE AND STRATIGRAPHIC SIGNIFICANCE OF LUNAR SAMPLES 561 5.2.
RADIOMETRIC AGES OF LUNAR ROCKS 563 6. GEOLOGY AND ABSOLUTE AGES OF
LUNAR SURFACE UNITS 565 6.1. PRE-NECTARIAN PERIOD 565 XX NEW VIEWS OF
THE MOON - TABLE OF CONTENTS 6.2. NECTARIAN PERIOD 56 6.3. EARLY
IMBRIAN EPOCH 57 6.4. LATE IMBRIAN EPOCH 57: 6.5. ERATOSTHENIAN PERIOD
57I 6.6. COPERNICAN PERIOD 57' 6.7. DERIVATION OF A REVISED,
TIME-CALIBRATED LUNAR STRATIGRAPHY 571 7. THE LUNAR CRATERING HISTORY
571 7.1. THE LUNAR CRATERING RATE AS A FUNCTION OF TIME: THE DATA BASE
571 7.2. INTERPRETATIONS OF THE LUNAR CRATERING RATE AND THE ONGOING
DEBATE ABOUT A POSSIBLE LATE CATACLYSM 58: 7.3. OPEN QUESTIONS AND
FUTURE WORK 58' 8. ACKNOWLEDGMENTS 58: 9. REFERENCES 58( O DEVELOPMENT
OF THE MOON MICHAEL B. DUKE ET AL 1. INTRODUCTION 59 - 2. WHY GO TO THE
MOON? EXPLORATION RATIONALES AND MOTIVATIONS 59! 2.1. EXPANSION OF
HUMANS INTO SPACE 59! 2.2. THE SEARCH FOR ENERGY ALTERNATIVES 60: 2.3.
THE INDUSTRIALIZATION OF SPACE 60' 2.4. EXPLORATION AND.DEVELOPMENT OF
THE SOLAR SYSTEM 60( 2.5. THE MOON AS A PLANETARY SCIENCE LABORATORY 60!
2.6. ASTRONOMICAL OBSERVATORIES ON THE MOON 61( 3. TRANSPORTATION BY
ROCKET IN THE EARTH-MOON SYSTEM I 6I: 4. THE DEVELOPMENT AND USE OF
LUNAR RESOURCES 61' 4.1. WHAT ARE THE LUNAR RESOURCES?. 61^ 4.2.
DISTRIBUTION OF LUNAR RESOURCES 615 4.3. PROSPECTING FOR AND PROCESSING
LUNAR RESOURCES 62^ 4.4. USES OF LUNAR RESOURCES 63; 4.5. ECONOMICS OF
LUNAR RESOURCE UTILIZATION 63' 4.6. STATUS OF U.S. AND INTERNATIONAL
SPACE RESOURCE LAW 63" 5. THE LUNAR ENVIRONMENT 63S 6. HUMANS ON THE
MOON: ESTABLISHMENT OF LUNAR OUTPOSTS 64( 6.1. SITE SELECTION FOR A
LUNAR OUTPOST 64C 6.2. SURFACE ACCESSIBILITY OPTIONS FOR LUNAR
EXPLORATION AND DEVELOPMENT 64^ 7. A STRATEGY FOR EXPLORING AND
DEVELOPING THE MOON 64^ 7.1. ROBOTIC EXPLORATION AND UTILIZATION
MISSIONS 64( 7.2. FIRST PERMANENT OUTPOST ESTABLISHED 64 8. REFERENCES
64$ XXI NEW VIEWS OF THE MOON - TABLE OF CONTENTS EARTH-MOON SYSTEM,
PLANETARY SCIENCE, AND LESSONS LEARNED S. ROSS TAYLOR ET AL. 1.
INTRODUCTION 657 2. ADVANCES IN LUNAR SCIENCE OVER THE PAST 10 YEARS 658
2.1. PLANETARY GEOCHEMISTRY: THE MOON IN THE CONTEXT OF THE SOLAR SYSTEM
658 2.2. DISCUSSION OF IDEAS ABOUT THE ORIGIN OF THE EARTH-MOON SYSTEM
672 2.3. HIGHLIGHTS OF RECENT DISCOVERIES 677 2.4. UNIQUENESS OF THE
EARTH-MOON SYSTEM 678 2.5. ROLE OF THE MOON IN MAKING EARTH A HABITABLE
PLANET 678 3. PLACE OF THE MOON IN THE SOLAR SYSTEM 679 3.1. THE MOON AS
A SATELLITE 679 3.2. COMPARISON WITH OTHER AIRLESS DIFFERENTIATED BODIES
680 4. HOW TO EXPLORE A SOLID BODY 683 4.1. WHAT WE LEARNED (AND
CHANGING PERSPECTIVES) 684 4.2. LESSONS LEARNED 693 4. SUMMARY 698 5.
REFERENCES 698 ADDITIONAL VOLUME CONTENTS INDEX 705 COLOR PLATES PLATE
1.1 PI PLATE 2.1 PI PLATE 2.2 , PI PLATE 2.3 P2 PLATE 2.4 :.- P2 PLATE
2.5 P3 PLATE 2.6 P3 PLATE 2.7 P4 PLATE 2.8 P4 PLATE 2.9 P5 PLATE 2.10 P6
PLATE 2.11 P7 PLATE 2.12 P7 PLATE 3.1 P8 PLATE 3.2 P8 PLATE 3.3 P9 PLATE
3.4 P9 PLATE 3.5 P10 PLATE 3.6 P10 PLATE 3.7 PLL PLATE 3.8 P12 PLATE 3.9
P12 PLATE 3.10 P12 XXN |
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building | Verbundindex |
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callnumber-first | Q - Science |
callnumber-label | QB592 |
callnumber-raw | QB592 QE351 |
callnumber-search | QB592 QE351 |
callnumber-sort | QB 3592 |
callnumber-subject | QB - Astronomy |
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ctrlnum | (OCoLC)237047837 (DE-599)BVBBV021662890 |
dewey-full | 559.91 |
dewey-hundreds | 500 - Natural sciences and mathematics |
dewey-ones | 559 - Earth sciences of other areas |
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dewey-sort | 3559.91 |
dewey-tens | 550 - Earth sciences |
discipline | Geologie / Paläontologie Physik |
discipline_str_mv | Geologie / Paläontologie Physik |
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geographic | Lune Mond (DE-588)1085673251 gnd |
geographic_facet | Lune Mond |
id | DE-604.BV021662890 |
illustrated | Illustrated |
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indexdate | 2024-09-07T00:12:30Z |
institution | BVB |
language | English |
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physical | XXII, 721 S. Ill., graph. Darst., Kt. |
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publisher | Mineralogical Society of America [u.a.] |
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series | Reviews in mineralogy and geochemistry |
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spelling | New views of the moon ed.: Bradley L. Jolliff ... Chantilly, Va. Mineralogical Society of America [u.a.] 2006 XXII, 721 S. Ill., graph. Darst., Kt. txt rdacontent n rdamedia nc rdacarrier Reviews in mineralogy and geochemistry 60 Literaturangaben Geologia larpcal Géologie lunaire Lua larpcal Lune, Théorie de la Lunar geology Lunar theory Geochemie (DE-588)4020198-3 gnd rswk-swf Geophysik (DE-588)4020252-5 gnd rswk-swf Geologie (DE-588)4020227-6 gnd rswk-swf Lune Mond (DE-588)1085673251 gnd rswk-swf (DE-588)4143413-4 Aufsatzsammlung gnd-content Mond (DE-588)1085673251 g Geologie (DE-588)4020227-6 s Geophysik (DE-588)4020252-5 s Geochemie (DE-588)4020198-3 s DE-604 Jolliff, Bradley L. 1955- Sonstige (DE-588)140476695 oth Reviews in mineralogy and geochemistry 60 (DE-604)BV013377203 60 GBV Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=014877370&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
spellingShingle | New views of the moon Reviews in mineralogy and geochemistry Geologia larpcal Géologie lunaire Lua larpcal Lune, Théorie de la Lunar geology Lunar theory Geochemie (DE-588)4020198-3 gnd Geophysik (DE-588)4020252-5 gnd Geologie (DE-588)4020227-6 gnd |
subject_GND | (DE-588)4020198-3 (DE-588)4020252-5 (DE-588)4020227-6 (DE-588)1085673251 (DE-588)4143413-4 |
title | New views of the moon |
title_auth | New views of the moon |
title_exact_search | New views of the moon |
title_exact_search_txtP | New views of the moon |
title_full | New views of the moon ed.: Bradley L. Jolliff ... |
title_fullStr | New views of the moon ed.: Bradley L. Jolliff ... |
title_full_unstemmed | New views of the moon ed.: Bradley L. Jolliff ... |
title_short | New views of the moon |
title_sort | new views of the moon |
topic | Geologia larpcal Géologie lunaire Lua larpcal Lune, Théorie de la Lunar geology Lunar theory Geochemie (DE-588)4020198-3 gnd Geophysik (DE-588)4020252-5 gnd Geologie (DE-588)4020227-6 gnd |
topic_facet | Geologia Géologie lunaire Lua Lune, Théorie de la Lunar geology Lunar theory Geochemie Geophysik Geologie Lune Mond Aufsatzsammlung |
url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=014877370&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
volume_link | (DE-604)BV013377203 |
work_keys_str_mv | AT jolliffbradleyl newviewsofthemoon |