Complete course in astrobiology:
Gespeichert in:
| Weitere Verfasser: | |
|---|---|
| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
Weinheim
WILEY-VCH
2007
|
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| Online-Zugang: | Verlagsmeldung Inhaltsverzeichnis |
| Beschreibung: | XX, 413 S. Ill., graph. Darst. 1 CD-ROM (12 cm) |
| ISBN: | 3527406603 9783527406609 |
Internformat
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| 245 | 1 | 0 | |a Complete course in astrobiology |c ed. by Gerda Horneck ... |
| 264 | 1 | |a Weinheim |b WILEY-VCH |c 2007 | |
| 300 | |a XX, 413 S. |b Ill., graph. Darst. |e 1 CD-ROM (12 cm) | ||
| 336 | |b txt |2 rdacontent | ||
| 337 | |b n |2 rdamedia | ||
| 338 | |b nc |2 rdacarrier | ||
| 650 | 4 | |a Exobiology | |
| 650 | 4 | |a Extraterrestrial Environment | |
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Datensatz im Suchindex
| _version_ | 1805092956787441664 |
|---|---|
| adam_text |
Table of
Contents
1 Astrobiology:
From the Origin of Life on Earth to Life in the Universe
André
Brack
1.1
General Aspects of Astrobiology
1
1.1.1
Historical Milestones
1
1.1.2
Searching for Emerging life
3
1.1.3
The Role of Water
4
1.1.4
The Physicochemical Features of Carbon-based Life
4
1.1.5
Clays as Possible Primitive Robots
6
1.2
Reconstructing life in a Test Tube
7
1.2.1
The Quest for Organic Molecules
7
1.2.1.1
Terrestrial Production
7
1.2.1.2
Delivery of Extraterrestrial Organic Molecules
8
1.2.2
Space Experiments
10
1.2.3
Attempts to Recreate life in a Test Tube
11
1.2.4
A Primitive life Simpler than a Cell?
13
1.3
The Search for Traces of Primitive life
14
1.3.1 Microfossils 14
1.3.2
Oldest Sedimentary Rocks
15
1.4
The Search for Life in the Solar System
15
1.4.1
Planet Mars and the SNC Meteorites
15
1.4.2
Jupiter's Moon
Europa 17
1.4.3
Saturn's Moon Titan
18
1.5
The Search for life Beyond the Solar System
19
1.5.1
The Search for Rocky Earthlike Exoplanets
19
1.5.2
Detecting
Extrasolar Life 20
1.6
Conclusions
20
1.7
Further Reading
21
1.7.1
Books and Articles in Books
21
1.7.2
Articles in Journals
21
1.7.3
Web Sites
22
Complete Course in Astrobiology. Edited by
Gerda Horneck
and
Petra Rettberg
Copyright
© 2007
WILEY-VCH
Verlag
GmbH
&
Co. KGaA,
Weinheim
ISBN:
978-3-527-40660-9
VI
I Table of
Contenti
2
From the Big Bang to the Molecules of Life
Harry
J
.
Lehto
2.1
Building Blocks of Life
23
2.2
Big Bang: Formation of
H
and He
25
2.3
First Stars: Formation of Small Amounts of
C, O, N, S
and
P
and
Other Heavy Elements
28
2.4
Normal Modern Stars, Bulk Formation of
C, O, N, S, P
and Other
Heavy Elements
29
2.5
The First Molecules (CO and H2O)
35
2.6
Interstellar Matter
35
2.6.1
Interstellar Clouds
37
2.6.2
Interstellar Grains
39
2.6.2.1
Formation
39
2.6.2.2
Observed Properties
40
2.6.3
Ices
41
2.6.4
Molecules in the Gas Phase
42
2.6.4.1
Observed Properties
42
2.6.4.2
Formation of H2
43
2.6.4.3
Formation of CO and H2O
44
2.7
Generation of Stars: Formation of the Sun and Planets
44
2.7.1
Accretion Disk of the Sun
44
2.7.2
Formation of the Earth
46
2.7.3
Early Rain of Meteorites, Comets, Asteroids, and Prebiotic Molecules
47
ПА
D/H Ratio and Oceans
49
2.8
Further Reading
51
2.8.1
Books or Articles in Books
51
2.8.2
Articles in Journals
51
2.8.3
Web Sites
53
2.9
Questions for Students
53
3
Basic Prebiotic Chemistry
Hervé
Cott'm
3.1
Key Molecules of
Ufe
55
3.1.1
Dismantling the Robots
56
3.1.2
Proteins and
Amino
Acids
58
3.1.3
DNA, RNA,
and Their Building Blocks
60
3.1.4
First "Prebiotic Robot"
63
3.2
Historical Milestones
63
3.3
Sources of Prebiotic Organic Molecules
69
3.3.1
Endogenous Sources of Organic Molecules
69
3.3.1.1
Atmospheric Syntheses
69
3.3.1.2 Hydrothermal
Vents
70
3.3.2
Exogenous Delivery of Organic Molecules
71
3.3.2.1
Comets
71
3.3.2.2
Meteorites
73
Table
of
Contents \
VII
3.3.2.3 Micrometeorites 74
3.3.3
Relative Contribution
of the Different Sources
74
3.4
From Simple to Slightly More Complex Compounds
75
3.4.1
Synthesis of
Amino
Acids
75
3.4.2
Synthesis of
Purine
and Pyrimidine Bases
76
3.4.3
Synthesis of Sugars
78
3.4.4
Synthesis of Polymers
80
3.5
Conclusions 8J
3.6
Further Reading
82
3.6.1
Books or Articles in Books
82
3.6.2
Articles in Journals
82
3.7
Questions for Students
83
3.7.1
Basic-level Questions
83
3.7.2
Advanced-level Questions
83
4
From Molecular Evolution to Cellular Life
Kirsi Lehto
4.1
History of Life at Its Beginnings
85
4.2
Life as It Is Known
88
4.2.1
The Phylogenetic Tree of Life
88
4.2.2
Life is Cellular, Happens in Liquid Water, and Is Based on
Genetic Information
88
4.2.2.1
Genetic Information
92
4.2.2.2
The Genetic Code and Its Expression
94
4.3
Last Universal Common Ancestor
(LUCA)
96
4.3.1
Containment in a Cell Membrane
97
4.3.2
Genes and Their Expression
99
4.3.3
Hypothetical Structure of the
LUCA
Genome
103
4.4
"Life" in the RNA-Protein World: Issues and Possible Solutions
105
4.4.1
Evolutionary Solutions
106
4.4.2
Solutions Found in the Viral World
107
4.5
"life" Before the Appearance of the Progenote
108
4.5.1
The Breakthrough Organism and the RNA-Protein World
108
4.5.2
Primitive Translation Machinery
108
4.5.3
Origin of Ribosomes
109
4.6
The
RNA
World 111
4.6.1
Origin of the
RNA
World
113
4.6.1.1
Prebiotic Assembly of Polymers
113
4.6.1.2
The Building Blocks of the
RNA
World
114
4.6.1.3
Where Could the
RNA
World Exist and Function?
115
4.7
Beginning of Life
117
4.8
Further Reading
118
4.8.1
Books
118
4.8.2
Articles in Journals
118
4.9
Questions for Students
120
VIH I
Table of Contents
5
Extremophiles, the Physicochemical Limits of Life (Crowth and Survival)
Helgo Stan-Lotter
5.1
A Brief History of life on Earth
121
5.1.1
Early Earth and
Microfossils 121
5.1.2
Prokaryotes, Eukaryotes, and the Tree of life
123
5.1.3
Some Characteristics of Bacteria and Archaea
126
5.1.3.1
Cell Walls, Envelopes, and Shape
126
5.1.3.2
Lipids and Membranes
127
5.2
Extremophiles and Extreme Environments
127
5.2.1
Growth versus Survival
129
5.2.2
The Search for life on Mars: The Viking Mission
130
5.2.3
Temperature Ranges for Microorganisms
132
5.2.4
High-temperature Environments
133
5.2.4.1
Geography and Isolates
133
5.2.4.2
Molecular Properties of Hyperthermophiles
136
5.2.4.3
Early Evolution and Hyperthermophiles
137
5.2.4.4
Applications
138
5.2.5
Low-temperature Environments
138
5.2.5.1
Geography and Isolates
138
5.2.5.2
Molecular Adaptations
139
5.2.6
Barophiles or Piezophiles
140
5.2.7
High-salt Environments
140
5.2.7.1
Hypersaline Environments and Isolates
140
5.2.7.2
Viable Haloarchaea from Rock Salt
141
5.2.7.3
Molecular Mechanisms
142
5.2.7.4
Extraterrestrial Halite
143
5.2.8
Subterranean Environments
144
5.2.9
Radiation
145
5.3
Microbial Survival of Extreme Conditions
146
5.4
Conclusions
148
5.5
Further Reading
149
5.5.1
Books or
Artides
in Books
149
5.5.2
Articles in Journals
149
5.5.3
Web Sites
150
5.6
Questions for Students
150
6
Habitability
Charles S. Cockell
6.1
A Brief History of the Assessment of Habitability
151
6.2
What Determines Habitability?
154
6.3
Uninhabited Habitable Worlds
156
6.4
Factors Determining Habitability
156
6.4.1
Habitability and Temperature
156
6.4.2
Habitability and Energy
160
6.4.3
Other Factors that Determine Habitability
164
Table of
Contents
I IX
6.5
A Postulate for Habitability
165
6.5.1
Assumptions about the Habitat
167
6.5.2
Assumptions on Life
167
6.5.3
Attempt to Formulate a Habitability Postulate
167
6.6
Some Test Cases for Habitability
269
6.6.1
Test Case One: Life on Venus
169
6.6.2
Test Case Two: Life on the Early Earth
171
6.6.3
Resume of the Two Test Cases
173
6.7
Conclusions
173
6.8
Further Reading
174
6.8.1
Books and Articles in Books
174
6.8.2
Articles in Journals
174
6.9
Questions for Students
І
76
7
Astrodynamics and Technological Aspects of Astrobiology Missions
in Our Solar System
Stefanos Fasoulas
and
Tino Schmiel
7.1
Introduction
179
7.2
The Rocket Equation
180
7.2.1
Single-staged Rockets
180
7.2.2
Multiple-staged Rockets
183
7.3
Orbital Mechanics and Astrodynamics
184
7.3.1
Some Historical Notes
184
7.3.2
The Energy Conservation Equation
187
7.3.3
Some Typical Velocities
188
7.4
Orbital Maneuvers
190
7.4.1
High-thrust Maneuvers
190
7.4.2
Low-thrust Maneuvers
192
7.4.3
Gravity-assist Maneuvers
193
7.5
Example: Missions to Mars
195
7.6
Further Reading
200
7.7
Questions for Students
200
8
Astrobiology of the Terrestrial Planets, with Emphasis on Mars
Monica M.
Grady
8.1
The Solar System
203
8.2
Terrestrial Planets
206
8.2.1
Mercury
206
8.2.2
Venus
207
8.2.3
Earth
208
8.2.4
Mars
208
8.2.4.1
Observing Mars
208
8.2.4.2
Evidence for Water
210
8.2.4.3
Evidence of Heat
213
8.2.5
Meteorites from Mars
213
Χ Ι
Table of Contents
8.2.5.1
Why from Mars?
213
8.2.5.2
What can we Learn About Mars from Martian Meteorites?
216
8.2.5.3 Microfossils
in a Martian Meteorite?
218
8.2.6
Can We Detect Signatures of life on Mars?
219
8.2.7
Conclusions: Life Beyond Earth?
220
8.3
Further Reading
220
8.3.1
Concerning Planetary Formation and Chronology
220
8.3.2
Concerning Recent Results from Mars
221
8.3.3
Concerning Terrestrial and Martian Microfossils
221
8.3.4
Concerning Meteorites from Mars
221
8.4
Questions for Students
222
9
Astrobiology of Saturn's Moon Titan
François
Raulin
9.1
Extraterrestrial Bodies of Astrobiological Interest
223
9.2
Some Historical Milestones in the Exploration of Titan
225
9.3
General Properties, Formation and Internal Structure of Titan
226
9.3.1
Main Properties
226
9.3.2
Models of Formation and Internal Structure
227
9.4
Atmosphere and Surface of Titan
229
9.4.1
Theoretical Modeling of Titan's Atmosphere
229
9.4.2
Experimental Approach
233
9.4.3
Observational Approach
236
9.5
Astrobiological Aspects of Titan
241
9.5.1
Analogies with Planet Earth
241
9.5.2
Organic Chemistry
242
9.5.3
life on Titan?
246
9.6
Outlook: Astrobiology and Future Exploration of Titan
247
9.7
Further Reading
249
9.7.1
Books and Articles in Books
249
9.72
Articles in Journals
250
9.7.3
Web Sites
250
9.8
Questions for Students
251
10
Jupiter's Moon
Europa:
Geology and
Habitabiľrty
Christophe
Sotín
and Daniel
Prieur
10.1
A Short Survey of the Past Exploration of
Europa
253
10.2
Geology of the Moon
Europa
255
10.2.1
Surface Features
255
10.2.2
Composition of the Surface
257
10.3
Internal Structure of the Moon
Europa
258
10.4
Models of Evolution of the Moon
Europa
260
10.5
Astrobiological Considerations about Possibilities for life
on the Moon
Europa
263
10.6
Summary and Conclusions
267
Table of Contents | XI
10.7
Outlook and Plans for Future Missions
268
10.8
Further Reading
269
10.8.1
Books and Articles in Books
269
10.8.2
Articles in Journals
270
10.8.3
Web Sites
271
10.9
Questions for Students
271
11
Astrobiology Experiments in Low Earth Orbit: Facilities,
Instrumentation, and Results
Pietro Buglioni,
Moss/mo
Sabbatini,
arid
Cerda
Нотеск
11.1
Low Earth Orbit Environment, a Test Bed for Astrobiology
273
11.1.1
Cosmic Radiation Field in LEO
275
11.1.1.1
Galactic Cosmic Radiation
276
11.1.1.2
Solar Cosmic Radiation
277
11.1.1.3
Radiation Belts
278
11.1.2
Solar Extraterrestrial UV Radiation
279
11.1.3
Space Vacuum
280
11.1.4
Temperature Extremes
280
11.1.5
Microgravity
281
11.2
Astrobiology Questions Tackled by Experiments in Earth Orbit
281
11.3
Exposure Facilities for Astrobiology Experiments
282
11.3.1
BIOPAN
283
11.3.1.1
Technical Characteristics of BIOPAN
283
11.3.1.2
Experiment Hardware Accommodated within BIOPAN
285
11.3.1.3
Operational Aspects of BIOPAN
288
11.3.1.4
Orbital Characteristics of a BIOPAN Mission
291
11.3.1.5
Environment of BIOPAN Experiments
292
11.3.2
STONE
293
11.3.3
EXPOSE
295
11.3.3.1
EXPOSE Facility
295
11.3.3.2
EXPOSE Experiments
297
11.3.3.3
EXPOSE Experiment Hardware
299
11.3.3.4
EXPOSE-R and EXPOSE-E
301
11.3.3.5
Process of Experiment Proposal, Acceptance, Preparation,
and Validation
302
11.4
Results from Astrobiology Experiments in Earth Orbit
303
11.4.1
Relevance of Extraterrestrial Organic Molecules for the Emergence
of Life
304
11.4.2
Role of Solar UV Radiation in Evolutionary Processes Related
to Life
306
11.4.2.1
Efficiency of the Stratospheric Ozone Layer to Protect
Our Biosphere
306
11.4.3
Chances and Limits of Life Being Transported from One Body of
Our Solar System to Another or Beyond
307
11.4.3.1
Effects of Space Vacuum
309
XII
I Table of Contents
11.4.3.2
Effects of Extraterrestrial Solar UV Radiation
310
11.4.3.3
Effects of Galactic Cosmic Radiation
311
11.4.3.4
Combined Effects of All Parameters of Space
313
11.4.3.5
Time Scales of Interplanetary Transport of Life
313
11.4.4
Radiation Dosimetry in Space
314
11.5
Future Development and Applications of Exposure Experiments
316
11.6
Further Reading
317
11.6.1
Books and Articles in Books
317
11.6.2
Articles in Journals
318
11.6.3 ESA
Online Archives
319
11.7
Questions for Students
319
12
Putting Together an Exobiology Mission: The ExoMars Example
Jorge
L
Vago
and Gerhard
Kminek
12.1
Background of the ExoMars Mission
321
12.1.1
Searching for life on Mars
321
12.1.2
Exobiology Research at
ESA 322
12.1.2.1
The
ESA
Exobiology Science Team Study
324
12.1.2.2
The
1999
Exobiology Announcement of Opportunity
325
12.1.3
The AURORA and the
ELIPS
Program of
ESA 326
12.1.3.1
The
2003
Pasteur Call for Ideas
326
12.1.3.2
Approval of the ExoMars Mission
328
12.2
ExoMars Science Objectives
328
12.2.1
Searching for Signs of Life
328
12.2.1.1
Extinct life
328
12.2.1.2
Extant life
332
12.2.1.3
Search for life: Conclusions
334
12.2.2
Hazards for Human Operations on Mars
334
12.2.3
Geophysics Measurements
335
12.3
ExoMars Science Strategy
335
12.4
ExoMars Mission Description
337
12.4.1
The ExoMars Rover
339
12.5
Outlook and Conclusions
345
12.6
Further Reading
346
12.6.1
Books and Articles in Books
346
12.6.2
Articles in Journals
346
12.7
Questions for Students
351
13
Astrobiology Exploratory Missions and Planetary Protection Requirements
Gerda
Homeck,
André
Debus, Peter
Mani,
and
J.
Andrew Spry
13.1
Rationale and History of Planetary Protection
353
13.2
Current Planetary Protection Guidelines
355
13.2.1
Category I Missions
357
13.2.2
Category II Missions
357
13.2.3
Category III Missions
359
Table
of
Contents |
XIII
13.2.4
Category IV Missions
359
13.2.5
Category V Missions
360
13.2.6
Future Development of Planetary Protection Guidelines
361
13.3
Implementation of Planetary Protection Guidelines
362
13.3.1
Bioload Measurements
363
13.3.2
Bioburden Reduction
367
13.3.2.1
Surface Wiping with Biodeaning Agents
371
13.3.2.2
Gamma Radiation Sterilization
371
13.3.2.3
Dry-heat Sterilization
372
13.3.2.4
Hydrogen Peroxide Vapor/Gas Plasma Sterilization
372
13.3.3
Prevention of
Recontamination
373
13.4
Astrobiology Exploratory Missions of Concern to Planetary
Protection
374
13.4.1
Missions to the Moon
374
13.4.2
Missions to Mars
376
13.4.2.1 Orbiters
or Flyby Missions to Mars
376
13.4.2.2
Landers or Rovers with in Situ Measurements
378
13.4.2.3
Landers or Rovers with Martian Samples Returned to the Earth
383
13.4.2.4
Human Missions to Mars
387
13.4.3
Missions to Venus
388
13.4.4
Missions to the Moons of the Giant Planets
389
13.4.5
Missions to Asteroids or Comets
390
13.5
Outlook: Future Tasks of Planetary Protection
392
13.6
Further Reading
394
13.6.1
Concerning COSPAR Planetary Protection Guidelines
395
13.6.2
Concerning Handbooks and Standards on Planetary Protection
395
13.6.3
Concerning Bioload of Spacecraft
395
13.6.4
Concerning Lunar Missions
396
13.6.5
Concerning Missions to Terrestrial Planets
396
13.6.6
Concerning Missions to Jupiter's Moon
Europa 397
13.7
Questions for students
397
Index
399 |
| any_adam_object | 1 |
| author2 | Horneck, Gerda |
| author2_role | edt |
| author2_variant | g h gh |
| author_facet | Horneck, Gerda |
| building | Verbundindex |
| bvnumber | BV024617954 |
| callnumber-first | Q - Science |
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| callnumber-search | QH326 |
| callnumber-sort | QH 3326 |
| callnumber-subject | QH - Natural History and Biology |
| classification_rvk | WH 2800 |
| classification_tum | BIO 144f |
| ctrlnum | (OCoLC)180942946 (DE-599)DNB980824877 |
| dewey-full | 576.839 |
| dewey-hundreds | 500 - Natural sciences and mathematics |
| dewey-ones | 576 - Genetics and evolution |
| dewey-raw | 576.839 |
| dewey-search | 576.839 |
| dewey-sort | 3576.839 |
| dewey-tens | 570 - Biology |
| discipline | Biologie |
| format | Book |
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| id | DE-604.BV024617954 |
| illustrated | Illustrated |
| indexdate | 2024-07-20T10:19:51Z |
| institution | BVB |
| isbn | 3527406603 9783527406609 |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-018590132 |
| oclc_num | 180942946 |
| open_access_boolean | |
| owner | DE-83 DE-703 DE-M49 DE-BY-TUM DE-11 DE-20 DE-19 DE-BY-UBM DE-B16 DE-M347 |
| owner_facet | DE-83 DE-703 DE-M49 DE-BY-TUM DE-11 DE-20 DE-19 DE-BY-UBM DE-B16 DE-M347 |
| physical | XX, 413 S. Ill., graph. Darst. 1 CD-ROM (12 cm) |
| publishDate | 2007 |
| publishDateSearch | 2007 |
| publishDateSort | 2007 |
| publisher | WILEY-VCH |
| record_format | marc |
| spelling | Complete course in astrobiology ed. by Gerda Horneck ... Weinheim WILEY-VCH 2007 XX, 413 S. Ill., graph. Darst. 1 CD-ROM (12 cm) txt rdacontent n rdamedia nc rdacarrier Exobiology Extraterrestrial Environment Astrobiologie (DE-588)4112608-7 gnd rswk-swf Astrobiologie (DE-588)4112608-7 s b DE-604 Horneck, Gerda edt http://deposit.dnb.de/cgi-bin/dokserv?id=2843912&prov=M&dok_var=1&dok_ext=htm Verlag Verlagsmeldung Digitalisierung UB Bayreuth application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=018590132&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Complete course in astrobiology Exobiology Extraterrestrial Environment Astrobiologie (DE-588)4112608-7 gnd |
| subject_GND | (DE-588)4112608-7 |
| title | Complete course in astrobiology |
| title_auth | Complete course in astrobiology |
| title_exact_search | Complete course in astrobiology |
| title_full | Complete course in astrobiology ed. by Gerda Horneck ... |
| title_fullStr | Complete course in astrobiology ed. by Gerda Horneck ... |
| title_full_unstemmed | Complete course in astrobiology ed. by Gerda Horneck ... |
| title_short | Complete course in astrobiology |
| title_sort | complete course in astrobiology |
| topic | Exobiology Extraterrestrial Environment Astrobiologie (DE-588)4112608-7 gnd |
| topic_facet | Exobiology Extraterrestrial Environment Astrobiologie |
| url | http://deposit.dnb.de/cgi-bin/dokserv?id=2843912&prov=M&dok_var=1&dok_ext=htm http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=018590132&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
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