Earth: evolution of a habitable world
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| Format: | Buch |
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Cambridge Univ. Press
2009
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| Beschreibung: | XIX, 319 S. Ill., graph. Darst., Kt. |
| ISBN: | 9780521472876 9780521644235 |
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| 100 | 1 | |a Lunine, Jonathan |d 1959- |e Verfasser |0 (DE-588)173265731 |4 aut | |
| 245 | 1 | 0 | |a Earth |b evolution of a habitable world |c Jonathan I. Lunine |
| 250 | |a Transferred to digital printing | ||
| 264 | 1 | |a Cambridge [u.a.] |b Cambridge Univ. Press |c 2009 | |
| 300 | |a XIX, 319 S. |b Ill., graph. Darst., Kt. | ||
| 336 | |b txt |2 rdacontent | ||
| 337 | |b n |2 rdamedia | ||
| 338 | |b nc |2 rdacarrier | ||
| 650 | 0 | 7 | |a Historische Geologie |0 (DE-588)4025104-4 |2 gnd |9 rswk-swf |
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Datensatz im Suchindex
| _version_ | 1804143693229195264 |
|---|---|
| adam_text | CONTENTS
Preface page
xvii
Acknowledgments
xix
PART ONE. THE ASTRONOMICAL PLANET: EARTH S PLACE
IN THE COSMOS
1
1
An Introductory Tour of Earth s Cosmic Neighborhood
3
1.1
Ancient Attempts to Determine the Scale of the Cosmos
3
1.2
Brief Introduction to the Solar System
4
1.3
Questions
7
1.4
Readings
7
1.4.1
General Reading
7
1.4.2
References
7
2
Largest and Smallest Scales
8
2.1
Introduction
8
2.2
Scientific Notation
8
2.3
Motions of Earth in the Cosmos
8
2.4
Cosmic Distances
13
2.4.1
The Planets
13
2.4.2
Nearby Stars
14
2.4.3
Nearby Galaxies
14
2.4.4
Beyond the Galactic Neighborhood
15
2.4.5
To the Farthest Edge of the Universe
15
2.5
Microscopic Constitution of Matter
17
2.6
Questions
21
2.7
Readings
22
2.7.1
General Reading
22
2.7.2
References
22
3
Forces and Energy
23
3.1
Introduction
23
3.2
Forces of Nature
23
3.3
Radioactivity
28
VII
Viü CONTENTS
3.4
Conservation
of
Energy,
and Thermodynamics
29
3.5
Electromagnetic Spectrum
30
3.6
Abundances in the Sun
33
3.7
Questions
34
3.8
Readings
34
4
Fusion, Fission, Sunlight, and Element Formation
35
4.1
Introduction
35
4.2
Stars and Nuclear Fusion
35
4.3
Element Production in the Big Bang
38
4.4
Element Production During Nuclear Fusion in Stars
39
4.5
Production of Other Elements in Stars: s, r, and
p
Processes
40
4.6 Nonstellar
Element Production
42
4.7
Element Production and Life
42
4.8
Questions
43
4.9
Readings
43
4.9.1
General Reading
43
4.9.2
References
44
PART TWO. THE MEASURABLE PLANET: TOOLS TO DISCERN
THE HISTORY OF EARTH AND THE PLANETS
45
5
Determination of Cosmic and Terrestrial Ages
47
5.1
Overview of Age Dating
47
5.2
The Concept of Half-Life
47
5.3
Carbon-14 Dating
49
5.4
Measurement of Parents and Daughters: Rubidium-Strontium
51
5.5
Caveat Emptor
52
5.6
Questions
53
5.7
Readings
53
5.7.1
General Reading
53
5.7.2
References
53
6
Other Uses of Isotopes for Earth History
54
6.1
Introduction
54
6.2
Stable Isotopes, Seafloor Sediments, and Climate
54
6.2.1
Carbon
54
6.2.2
Oxygen
54
6.2.3
Hydrogen
55
6.3
A Possible Temperature History of Earth from Cherts
56
6.4
Questions
58
6.5
Readings
58
7
Relative Age Dating of Cosmic and Terrestrial Events:
The Cratering Record
60
7.1
Introduction
60
7.2
Process of Impact Cratering
60
7.3
Using Craters to Date Planetary Surfaces
63
7.3.1
Relative Ages of Events on a Planetary Surface
66
7.3.2
Absolute Chronology of Solar System Events
69
CONTENTS
¡χ
7.4 Cratering
on Planetary Bodies with Atmospheres
73
7.5
Impactors Through Time
73
7.6
Questions
73
7.7
Readings
74
8
Relative Age Dating of Terrestrial Events: Geologic Layering
and Geologic Time
75
8.1
Introduction
75
8.2
Catastrophism versus Uniformitarianism
75
8.3
Estimating the Age of Earth, without
Radioisotopes 75
8.4
Geologic Processes and Their Cyclical Nature
76
8.5
Principles of Geologic Succession
78
8.6
Fossils
79
8.7
Radioisotopic Dating of Earth Rocks
81
8.8
Geologic Timescale
82
8.9
A Grand Sequence
82
8.10
The Geologic Timescale as a Map
82
8.11
Questions
84
8.12
Readings
84
8.12.1
General Reading
84
8.12.2
References
84
9
Plate Tectonics: An Introduction to the Process
85
9.1
Introduction
85
9.2
Early Evidence for and Historical Development of Plate
Tectonics
85
9.3
Genesis of Plate Tectonics After World War
Π
86
9.3.1
Seafloor Topography
86
9.3.2
Magnetic Imprints on Rocks
86
9.3.3
Geologic Record on Land
91
9.3.4
Earthquakes and
Subduction
91
9.4
The Basic Model of Plate Tectonics
93
9.5
Past Motions of the Plates and
Supercontinents
95
9.6
Driving Forces of Plate Motions
96
9.7
An End to Techniques and the Start of History
98
9.8
Questions
98
9.9
Readings
98
9.9.1
General Reading
98
9.9.2
References
98
PART THREE. THE HISTORICAL PLANET: EARTH AND SOLAR
SYSTEM THROUGH TIME
99
10
Formation of the Solar System
101
10.1
Introduction
101
10.2
Timescale of Cosmological Events Leading Up to Solar System
Formation
101
10.3
Formation of Stars and Planets
102
10.3.1
Molecular Clouds and Star Formation
102
CONTENTS
10.3.2 The Start
of Star
Formation 102
10.3.3
A Star Is Born
103
10.3.4
Figure Skaters and Astrophysicists:
The Formation of Planets
104
10.3.5
Disks Around
Protostars
-
the Source of Planets?
105
10.3.6
The End of Planet Formation
107
10.4
Primitive Material Present in the Solar System Today
107
10.4.1
Remnants of the Beginning: Meteorites
108
10.4.2
Comets and
Kuiper
Belt Objects
109
10.4.3
Interplanetary Dust Particles 111
10.5
The Search for Other Planetary Systems 111
10.5.1
Indirect Techniques
112
10.5.2
Direct Techniques
113
10.6
Summary of Planet Formation
114
10.7
Questions
114
10.8
Readings
114
10.8.1
General Reading
114
10.8.2
References
114
11
The Hadean Earth
115
11.1
Introduction
115
11.2
Bulk Composition of the Planets
115
11.2.1
Solid Planets
116
11.2.2
The Giant Planets
118
11.3
Internal Structure of Earth
120
11.4
Accretion: The Building Up of Planets
123
11.5
Early Differentiation After Accretion
124
11.6
Radioactive Heating
125
11.7
Formation of an Iron Core
127
11.8
Formation of the Moon
127
11.9
Origin of Earth s Atmosphere, Ocean, and Organic Reservoir
130
11.10
From the Hadean into the Archean: Formation of the First
Stable Continental Rocks
132
11.11
Questions
132
11.12
Readings
132
11.12.1
General Reading
132
11.12.2
References
132
12
The Archean Eon and the Origin of Life: I. Properties
of and Sites for Life
134
12.1
Introduction
134
12.2
Definition of Life and Essential Workings
134
12.2.1
What Is Life?
134
12.2.2
Basic Structure of Life
136
12.2.3
Information Exchange and Replication
136
12.2.4
Formation of Proteins
137
12.2.5
Mutation and Genetic Variation
138
12.3
The Basic Unit of Living Organisms: The Cell
138
CONTENTS
x¡
12.4
Energetic
Processes
That Sustain Life
139
12.4.1
Common Metabolic Mechanisms
139
12.4.2
Photosynthesis
139
12.5
Other Means of Utilizing Energy
141
12.6
Elemental Necessities of Life: A Brief Examination
142
12.6.1
Why Carbon?
142
12.6.2
Why Water?
143
12.6.3
Is Free Oxygen Essential?
143
12.7
Solar System Sites for Life
144
12.7.1
Atmospheres of the Giant Planets
144
12.7.2
Interior of
Europa
144
12.7.3
Titan
145
12.7.4
The Mars of Today and Yesterday
145
12.7.5
Earth
151
12.8
Questions
152
12.9
Readings
152
12.9.1
General Reading
152
12.9.2
References
152
13
The Archean Eon and the Origin of Life: II. Mechanisms
153
13.1
Introduction
153
13.2
Thermodynamics and Life
153
13.3
The Raw Materials of Life: Synthesis and the Importance
of Handedness
155
13.4
Two Approaches to Life s Origin
156
13.5
The Vesicle Approach and Autocatalysis
156
13.6
The
RNA
World: A Second Option
158
13.6.1
The Promise:
RNA
as Replicator and Catalyst
158
13.6.2
The Problem: Invention of
RNA
159
13.7
The Essentials of a Cell and the Unification
of the Two Approaches
161
13.8
The
Àrchean
Situation
163
13.9
Questions
164
13.10
Readings
164
14
The First Greenhouse Crisis: The Faint Early Sun
165
14.1
The Case for an Equable Climate in the Archean
165
14.2
The Faint Early Sun
165
14.3
The Greenhouse Effect
166
14.4
Primary Greenhouse Gases
169
14.5
Implications for Earth During the Faint-Early-Sun Era
169
14.6
Paleosols and the Carbon Dioxide Abundance
171
14.7
Carbon Dioxide Cycling and Early Crustal Tectonics
172
14.7.1
Basic Carbon-Silicate Weathering Cycle
172
14.7.2
Negative Feedbacks in the Carbon-Silicate Cycle
173
14.7.3
The Carbon-Silicate Cycle During the Archean
174
14.8
A Balance Unique to Earth, and a Lingering Conundrum
174
14.9
Questions
176
XU CONTENTS
14.10
Readings
176
14.10.1 General
Reading
176
14.10.2
References
176
15
Climate Histories of Mars and Venus, and the Habitability
of Planets
177
15.1
Introduction
177
15.2
Venus
177
15.2.1
Origin of Venus Thick Atmosphere
177
15.2.2
Overview of the Surface of Venus
181
15.3
Mars
183
15.3.1
Mars Today
183
15.3.2
Geological Hints of a Warmer Early Mars
183
15.4
Was Mars Really Warm in the Past?
188
15.4.1
Limits to a Carbon Dioxide Greenhouse
188
15.4.2
Abodes for Life on Early Mars
189
15.4.3
Searching for Evidence of Life, and the Early
Climate
190
15.5
Putting a Martian History Together
190
15.6
Implications of Venusian and Martian History
for Life Elsewhere
191
15.7
The Finite Life of Our Biosphere
193
15.8
Questions
193
15.9
Readings
195
16
Earth in Transition: From the Archean to the Proterozoic
196
16.1
Introduction
196
16.2
Abundances of the Elements in Terrestrial Rocks
196
16.3
Mineral Structure
197
16.4
Partial Melting and the Formation of Basalts
198
16.5
Formation of
Andesites
and Granites
200
16.5.1
Rock Relationships
200
16.5.2
Seismic Waves and Composition
200
16.5.3
Role of Water in Partial Melting
200
16.5.4
The Puzzle of Granite Formation
201
16.6
Formation of
Protocontinents
in the Archean
203
16.7
The Archean-Proterozoic Transition
204
16.8
After the Proterozoic: Modern Plate Tectonics
206
16.9
Venus: An Earth-Sized Planet without Plate Tectonics
206
16.10
Water and Plate Tectonics
208
16.11
Continents, the Moon, and the Length of Earth s Day
209
16.12
Entree to the Modern World
210
16.13
Questions
210
16.14
Readings
210
16.14.1
General Reading
210
16.14.2
References
210
CONTENTS
17
The Oxygen Revolution
211
17.1
Introduction
211
17.2 Modern
Oxygen Cycle
211
17.3
Oxygen
Balance
with and without Life
213
17.4
Limits on the Oxygen Levels on Early Earth
213
17.4.1
Minerals Unstable in the Presence of Oxygen
213
17.4.2
Banded Iron Formation
214
17.4.3
Redbeds
215
17.4.4
Fossils of Aerobic Organisms
215
17.5
History of the Rise of Oxygen
215
17.6
Balance Between Oxygen Loss and Gain
215
17.7
Reservoirs of Oxygen and Reduced Gases
217
17.8
History of Oxygen on Earth
218
17.8.1
Stage
1 218
17.8.2
Stage
2 218
17.8.3
Stage
3 219
17.8.4
Stage
4 219
17.9
Shield Against Ultraviolet Radiation
219
17.10
Onset of Eukaryotic Life
220
17.11
Questions
222
17.12
Readings
222
18
The Phanerozoic: Flowering and Extinction
of Complex Life
223
18.1
Introduction to the Phanerozoic
223
18.2
Evolution
225
18.2.1
Traditional, Darwinian, Model of Evolution
2.25
18.2.2
Punctuated Equilibrium Approach to Evolution
226
18.3
Vendian-Cambrian Revolution
229
18.3.1
Taxonomy for the Restless
229
18.3.2
Establishment of the Basic Plans
229
18.3.3
Clues from the
Vendían
230
18.3.4
Causes of the Vendian-Cambrian Revolution
230
18.3.5
Why Has It Not Happened Again?
232
18.4
Mass Extinction Events in the Phanerozoic
232
18.5
Cretaceous-Tertiary Extinction
232
18.5.1
Boundary Sediments
233
18.5.2
Interpretation of the K/T Boundary as an
Impact Event
234
18.5.3
Biological Effects of the Impact
235
18.5.4
Where Is the Crater?
237
18.5.5
Impacts and Other Extinction Events
238
18.6
Questions
239
18.7
Readings
239
18.7.1
General Reading
239
18.7.2
References
239
xiv CONTENTS
19
Climate Change Across the Phanerozoic
240
19.1
Introduction
240
19.2
The
Supercontinent
Cycle
240
19.3
Effects
oř
Continental Breakups and Collisions
242
19.4
Evidence of Ice Ages on Earth
243
19.5
Causes of the Ice Ages
243
19.5.1
Positive Feedbacks in the Basic Climate System
243
19.5.2
Negative Feedbacks in the Climate System
244
19.5.3
Additional Influences on Global
Glaciation
244
19.5.4
Snowball Earth?
245
19.6
Cretaceous Climate
245
19.6.1
Evidence for the Cretaceous Climate Pattern
245
19.6.2
Plate Tectonic Effects on Cretaceous Climate
Change
246
19.6.3
Additional Important Effects on Cretaceous Climate
246
19.6.4
Causes for Climate Change That Probably Are Not
Important in the Cretaceous
246
19.6.5
Model for the Warm Cretaceous
247
19.7
The Great Tertiary Cooldown
248
19.8
Causes of the Pleistocene Ice Age and Its Oscillations
249
19.9
Saved From Instability: Earth s versus Mars Orbital Cycle
252
19.10
Effects of the Pleistocene Ice Age: A Preview
253
19.11
Questions
253
19.12
Readings
253
20
Toward the Age of Humankind
255
20.1
Introduction
255
20.2
Pleistocene Setting
255
20.3
The Vagaries of Understanding Human Origins
255
20.4
Humanity s Taxonomy
256
20.5
The First Steps: Australopithecines
256
20.6
The Genus Homo: Out of Africa I
257
20.7
Out of Africa II
258
20.8
Final Act: Neanderthals and an Encounter with Our Humanity
260
20.8.1
Climate Setting
260
20.8.2
Physical Features of Neanderthals
262
20.8.3
Neanderthal Lifestyle
263
20.8.4
Interaction of Neanderthals with Moderns
264
20.8.5
Who Were the Neanderthals?
265
20.9
This Modern World
266
20.10
Questions
266
20.11
Readings
266
20.11.1
General Reading
266
20.11.2
References
266
PART FOUR. THE ONCE AND FUTURE PLANET
267
21
Climate Change Over the Past
100,000
Years
269
21.1
Introduction
269
CONTENTS
21.2
The Record in Ice Cores
269
21.3
Climate from Plant Pollen and
Packrat
Midden Studies
272
21.4
Tree Rings
273
21.5
Climate Variability in the Late Holocene
277
21.6
The Younger Dryas: A Signpost for the Oceanic Role in Climate
278
21.7
Into the Present
279
21.8
Questions
280
21.9
Readings
280
21.9.1
General Reading
280
21.9.2
References
280
22
Human-Induced Global Warming
281
22.1
The Records of CO2 Abundance and Global Temperatures
in Modern Times
281
22.2
Modeling the Response of Earth to Increasing Amounts
of Greenhouse Gases
283
22.2.1
Review of Basic Greenhouse Physics
283
22.2.2
Some Complications
284
22.2.3
General Circulation Models
285
22.3
Predicted Effects of Global Warming
287
22.3.1
Large Stratospheric Cooling
287
22.3.2
Global Mean Surface Temperature Warming
289
22.3.3
Global Mean Increase in Precipitation
289
22.3.4
Northern Polar Winter Surface Warming
289
22.3.5
Rise in Global Mean Sea Level
289
22.3.6
Summer Continental Warming
and Increased Dryness
289
22.3.7
Regional Vegetation Changes
290
22.3.8
More Severe Precipitation Events
290
22.3.9
Changes in Climate Variability
290
22.3.10
Regional-Scale Changes Will Look Very Different
from the Global Average, but Their Nature
Is Uncertain
290
22.3.11
Biosphere-Climate Feedbacks
290
22.3.12
Details of Life in the Next Quarter Century
290
22.4
The Difficulty of Proof: Weather versus Climate
291
22.5
Role of the Oceans in Earth s Climate
292
22.5.1
Basics of Ocean Circulation
293
22.5.2
El Niño
Phenomenon
294
22.5.3
Prolonged Global Warming and Ocean
Circulation Shutdown
295
22.6
Global Warming:
A
Long-Term
View
295
22.7
Postscript: Human Effects on the Upper
Atmosphere
-
Ozone Depletion
295
22.8
Questions 29b
22.9
Readings
296
23
Limited Resources: The Human Dilemma
298
23.1
The Expanding Human Population
298
XVi
CONTENTS
23.2
Prospects for Agriculture
299
23.3
Energy Resources
300
23.3.1
Fossil Fuels
300
23.3.2
The Challenges of Fossil Fuels
302
23.3.3
Alternative Energy Sources
303
23.3.4
Energy Use in the Future
303
23.4
Economically Important Minerals
305
23.5
Pollution
306
23.6
Can We Go Back?
307
23.7
Questions
308
23.8
Readings
308
23.8.1
General Reading
308
23.8.2
References
308
24
Coda: The Once and Future Earth
309
Index
311
Note: An eight-page color plate section appears between pages
84
and
85.
These plates are available for download in color from
www.cambridge.org/9780521644235
|
| any_adam_object | 1 |
| author | Lunine, Jonathan 1959- |
| author_GND | (DE-588)173265731 |
| author_facet | Lunine, Jonathan 1959- |
| author_role | aut |
| author_sort | Lunine, Jonathan 1959- |
| author_variant | j l jl |
| building | Verbundindex |
| bvnumber | BV036966221 |
| classification_rvk | RB 10123 TK 1000 |
| ctrlnum | (OCoLC)706977973 (DE-599)BVBBV036966221 |
| discipline | Geologie / Paläontologie Geographie |
| edition | Transferred to digital printing |
| format | Book |
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| id | DE-604.BV036966221 |
| illustrated | Illustrated |
| indexdate | 2024-07-09T22:51:43Z |
| institution | BVB |
| isbn | 9780521472876 9780521644235 |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-020881019 |
| oclc_num | 706977973 |
| open_access_boolean | |
| owner | DE-703 |
| owner_facet | DE-703 |
| physical | XIX, 319 S. Ill., graph. Darst., Kt. |
| publishDate | 2009 |
| publishDateSearch | 2009 |
| publishDateSort | 2009 |
| publisher | Cambridge Univ. Press |
| record_format | marc |
| spelling | Lunine, Jonathan 1959- Verfasser (DE-588)173265731 aut Earth evolution of a habitable world Jonathan I. Lunine Transferred to digital printing Cambridge [u.a.] Cambridge Univ. Press 2009 XIX, 319 S. Ill., graph. Darst., Kt. txt rdacontent n rdamedia nc rdacarrier Historische Geologie (DE-588)4025104-4 gnd rswk-swf Historische Geologie (DE-588)4025104-4 s DE-604 Digitalisierung UB Bayreuth application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=020881019&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Lunine, Jonathan 1959- Earth evolution of a habitable world Historische Geologie (DE-588)4025104-4 gnd |
| subject_GND | (DE-588)4025104-4 |
| title | Earth evolution of a habitable world |
| title_auth | Earth evolution of a habitable world |
| title_exact_search | Earth evolution of a habitable world |
| title_full | Earth evolution of a habitable world Jonathan I. Lunine |
| title_fullStr | Earth evolution of a habitable world Jonathan I. Lunine |
| title_full_unstemmed | Earth evolution of a habitable world Jonathan I. Lunine |
| title_short | Earth |
| title_sort | earth evolution of a habitable world |
| title_sub | evolution of a habitable world |
| topic | Historische Geologie (DE-588)4025104-4 gnd |
| topic_facet | Historische Geologie |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=020881019&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
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