Atmosphere, ocean, and climate dynamics: an introductory text
Gespeichert in:
| Hauptverfasser: | , |
|---|---|
| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
Amsterdam [u.a.]
Elsevier Acad. Press
2008
|
| Schriftenreihe: | International geophysics series
93 |
| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | XX, 319 S. Ill., graph. Darst., Kt. |
| ISBN: | 9780125586917 |
Internformat
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| 100 | 1 | |a Marshall, John |d 1954- |e Verfasser |0 (DE-588)136894259 |4 aut | |
| 245 | 1 | 0 | |a Atmosphere, ocean, and climate dynamics |b an introductory text |c John Marshall and R. Alan Plumb |
| 264 | 1 | |a Amsterdam [u.a.] |b Elsevier Acad. Press |c 2008 | |
| 300 | |a XX, 319 S. |b Ill., graph. Darst., Kt. | ||
| 336 | |b txt |2 rdacontent | ||
| 337 | |b n |2 rdamedia | ||
| 338 | |b nc |2 rdacarrier | ||
| 490 | 1 | |a International geophysics series |v 93 | |
| 650 | 7 | |a Dinâmica dos fluídos |2 larpcal | |
| 650 | 7 | |a Interação ar-mar |2 larpcal | |
| 650 | 7 | |a Termodinâmica atmosférica |2 larpcal | |
| 650 | 4 | |a Atmospheric circulation | |
| 650 | 4 | |a Atmospheric thermodynamics | |
| 650 | 4 | |a Fluid dynamics | |
| 650 | 4 | |a Ocean circulation | |
| 650 | 4 | |a Ocean-atmosphere interaction | |
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Datensatz im Suchindex
| _version_ | 1804137262963752960 |
|---|---|
| adam_text | Contents
0.1 Outline,
scope, and
rationale
of the book
xiii
0.2
Preface
xiv
0.2.1
Natural fluid dynamics
xv
0.2.2
Rotating fluid dynamics: GFD Lab
0 xvii
0.2.3
Holicism
xix
1.
Characteristics of the atmosphere
1
1.1
Geometry
1
1.2
Chemical composition of the atmosphere
2
1.3
Physical properties of air
4
1.3.1
Dry air
4
1.3.2
Moist air
5
1.3.3
GFD Lab I: Cloud formation on adiabatic expansion
7
1.4
Problems
7
2.
The global energy balance
9
2.1
Planetary emission temperature
9
2.2
The atmospheric absorption spectrum
13
2.3
The greenhouse effect
14
2.3.1
A simple greenhouse model
14
2.3.2
A leaky greenhouse
16
2.3.3
A more opaque greenhouse
16
2.3.4
Climate feedbacks
19
2.4
Further reading
20
2.5
Problems
20
3.
The vertical structure of the atmosphere
23
3.1
Vertical distribution of temperature and greenhouse gases
23
3.1.1
Typical temperature profile
23
3.1.2
Atmospheric layers
24
VII
Vlil
CONTENTS
3.2
The relationship between pressure and density, hydrostatic balance
26
3.3
Vertical structure of pressure and density
28
3.3.1
Isothermal atmosphere
28
3.3.2
Non-isothermal atmosphere
28
3.3.3
Density
29
3.4
Further reading
29
3.5
Problems
29
4.
Convection
31
4.1
The nature of convection
32
4.1.1
Convection in a shallow fluid
32
4.1.2
Instability
33
4.2
Convection in water
34
4.2.1
Buoyancy
34
4.2.2
Stability
35
4.2.3
Energetics
36
4.2.4
GFD Lab II: Convection
36
4.3
Dry convection in a compressible atmosphere
39
4.3.1
The adiabatic lapse rate (in unsaturated air)
39
4.3.2
Potential temperature
41
4.4
The atmosphere under stable conditions
42
4.4.1
Gravity waves
42
4.4.2
Temperature inversions
44
4.5
Moist convection
46
4.5.1
Humidity
47
4.5.2
Saturated adiabatic lapse rate
49
4.5.3
Equivalent potential temperature
50
4.6
Convection in the atmosphere
50
4.6.1
Types of convection
51
4.6.2
Where does convection occur?
55
4.7
Radiative-convective equilibrium
56
4.8
Further reading
57
4.9
Problems
57
5.
The meridional structure of the atmosphere
61
5.1
Radiative forcing and temperature
62
5.1.1
Incoming radiation
62
5.1.2
Outgoing radiation
63
5.1.3
The energy balance of the atmosphere
64
5.1.4
Meridional structure of temperature
64
5.2
Pressure and geopotential height
67
5.3
Moisture
70
5.4
Winds
73
5.4.1
Distribution of winds
74
5.5
Further reading
78
5.6
Problems
78
CONTENTS
6.
The equations of fluid motion
81
6.1
Differentiation following the motion
82
6.2
Equation of motion for a nonrotating fluid
84
6.2.1
Forces on a fluid parcel
84
6.2.2
The equations of motion
86
6.2.3
Hydrostatic balance
87
6.3
Conservation of mass
87
6.3.1
Incompressible flow
88
6.3.2
Compressible flow
88
6.4
Thermodynamic equation
89
6.5
Integration, boundary conditions, and restrictions in application
89
6.6
Equations of motion for a rotating fluid
90
6.6.1
GFD Lab III: Radial inflow
90
6.6.2
Transformation into rotating coordinates
93
6.6.3
The rotating equations of motion
94
6.6.4
GFD Labs IV and V: Experiments with Coriolis forces on a parabolic
rotating table
96
6.6.5
Putting things on the sphere
100
6.6.6
GFD Lab VI: An experiment on the Earth s rotation
103
6.7
Further reading
104
6.8
Problems
104
7.
Balanced flow
109
7.1
Geostrophic motion
110
7.1.1
The geostrophic wind in pressure coordinates
112
7.1.2
Highs and lows; synoptic charts
114
7.1.3
Balanced flow in the radial-inflow experiment
116
7.2
The Taylor-Proudman theorem
117
7.2.1
GFD Lab
VII:
Taylor columns
118
7.3
The thermal wind equation
119
7.3.1
GFD Lab
VIII:
The thermal wind relation
120
7.3.2
The thermal wind equation and the Taylor-Proudman theorem
122
7.3.3
GFD Lab IX: cylinder collapse under gravity and rotation
123
7.3.4
Mutual adjustment of velocity and pressure
125
7.3.5
Thermal wind in pressure coordinates
126
7.4
Subgeostrophic flow: the
Ekman
layer
129
7.4.1
GFD Lab X:
Ekman
layers: frictionally-induced cross-isobaric flow
130
7.4.2
Ageostrophic flow in atmospheric highs and lows
130
7.4.3
Planetary-scale ageostrophic flow
133
7.5
Problems
135
8.
The general circulation of the atmosphere
139
8.1
Understanding the observed circulation
140
8.2
A mechanistic view of the circulation
141
8.2.1
The tropical Hadley circulation
142
8.2.2
The
extratropical
circulation and GFD Lab XI: Baroclinic instability
145
CONTENTS
8.3
Energetics of the thermal wind equation
149
8.3.1
Potential energy for a fluid system
149
8.3.2
Available potential energy
150
8.3.3
Release of available potential energy in baroclinic instability
152
8.3.4
Energetics in a compressible atmosphere
153
8.4
Large-scale atmospheric energy and momentum budget
154
8.4.1
Energy transport
154
8.4.2
Momentum transport
156
8.5
Latitudinal variations of climate
157
8.6
Further reading
158
8.7
Problems
159
9.
The ocean and its circulation
163
9.1
Physical characteristics of the ocean
164
9.1.1
The ocean basins
164
9.1.2
The cryosphere
165
9.1.3
Properties of seawater; equation of state
165
9.1.4
Temperature, salinity, and temperature structure
168
9.1.5
The mixed layer and thermocline
171
9.2
The observed mean circulation
176
9.3
Inferences from geostrophic and hydrostatic balance
182
9.3.1
Ocean surface structure and geostrophic flow
183
9.3.2
Geostrophic flow at depth
184
9.3.3
Steric effects
186
9.3.4
The dynamic method
187
9.4
Ocean eddies
188
9.4.1
Observations of ocean eddies
188
9.5
Further reading
189
9.6
Problems
190
10.
The wind-driven circulation
197
10.1
The wind stress and
Ekman
layers
198
10.1.1
Balance of forces and transport in the
Ekman
layer
199
10.1.2
Ekman
pumping and suction and GFD Lab
XII 201
10.1.3
Ekman
pumping and suction induced by large-scale wind patterns
203
10.2
Response of the interior ocean to
Ekman
pumping
206
10.2.1
Interior balances
206
10.2.2
Wind-driven gyres and western boundary currents
206
10.2.3
Taylor-Proudman on the sphere
207
10.2.4
GFD Lab
XIII:
Wind-driven ocean gyres
211
10.3
The depth-integrated circulation: Sverdrup theory
213
10.3.1
Rationalization of position, sense of circulation, and volume transport of
ocean gyres
214
10.4
Effects of stratification and topography
216
10.4.1
Taylor-Proudman in a layered ocean
217
10.5
Baroclinic instability in the ocean
218
10.6
Further reading
220
10.7
Problems
220
CONTENTS
Xl
11.
The thermohaline circulation
of the ocean
223
11.1
Air-sea fluxes and surface property distributions
224
11.1.1
Heat, freshwater, and buoyancy fluxes
224
11.1.2
Interpretation of surface temperature distributions
231
11.1.3
Sites of deep convection
232
11.2
The observed thermohaline circulation
234
11.2.1
Inferences from interior tracer distributions
234
11.2.2
Time scales and intensity of thermohaline circulation
239
11.3
Dynamical models of the thermohaline circulation
239
11.3.1
Abyssal circulation schematic deduced from Taylor-Proudman
on the sphere
239
11.3.2
GFD Lab
XIV:
The abyssal circulation
241
11.3.3
Why western boundary currents?
243
11.3.4
GFD Lab XV: Source sink flow in a rotating basin
245
11.4
Observations of abyssal ocean circulation
245
11.5
The ocean heat budget and transport
247
11.5.1
Meridional heat transport
248
11.5.2
Mechanisms of ocean heat transport and the partition of heat transport
between the atmosphere and ocean
251
11.6
Freshwater transport by the ocean
255
11.7
Further reading
256
11.8
Problems
256
12.
Climate and climate variability
259
12.1
The ocean as a buffer of temperature change
261
12.1.1
Nonseasonal changes in SST
262
12.2
El Niño
and the Southern Oscillation
264
12.2.1
Interannual variability
264
12.2.2
Normal conditions
—
equatorial upwelling and the Walker
circulation
266
12.2.3
ENSO
269
12.2.4
Other modes of variability
273
12.3
Paleoclimate
273
12.3.1
Climate over Earth history
275
12.3.2
Pałeotemperatures
over the past
70
million years: the <518O record
277
12.3.3
Greenhouse climates
280
12.3.4
Cold climates
280
12.3.5
Glacial-interglacial cycles
282
12.3.6
Global warming
291
12.4
Further reading
292
12.5
Problems
292
Appendices
295
A.I Derivations
295
A.I.I The Planck function
295
A.
1.2
Computation of available potential energy
296
A.1.3 Internal energy for a compressible atmosphere
296
XII
CONTENTS
A.2
Mathematical definitions and notation
296
A.2.1 Taylor expansion
296
A.2.2 Vector identities
297
A.2.3 Polar and spherical coordinates
298
A.3 Use of foraminifera shells in paleoclimate
298
A.4 Laboratory experiments
299
A.4.1 Rotating tables
299
A.4.2 List of laboratory experiments
300
A.5 Figures and access to data over the web
302
References
303
Textbooks and reviews
303
Other references
303
References to
paleo-data
sources
304
Index
307
Online companion site:
http://books.elsevier.com/companions/9780125586917
|
| adam_txt |
Contents
0.1 Outline,
scope, and
rationale
of the book
xiii
0.2
Preface
xiv
0.2.1
Natural fluid dynamics
xv
0.2.2
Rotating fluid dynamics: GFD Lab
0 xvii
0.2.3
Holicism
xix
1.
Characteristics of the atmosphere
1
1.1
Geometry
1
1.2
Chemical composition of the atmosphere
2
1.3
Physical properties of air
4
1.3.1
Dry air
4
1.3.2
Moist air
5
1.3.3
GFD Lab I: Cloud formation on adiabatic expansion
7
1.4
Problems
7
2.
The global energy balance
9
2.1
Planetary emission temperature
9
2.2
The atmospheric absorption spectrum
13
2.3
The greenhouse effect
14
2.3.1
A simple greenhouse model
14
2.3.2
A leaky greenhouse
16
2.3.3
A more opaque greenhouse
16
2.3.4
Climate feedbacks
19
2.4
Further reading
20
2.5
Problems
20
3.
The vertical structure of the atmosphere
23
3.1
Vertical distribution of temperature and greenhouse gases
23
3.1.1
Typical temperature profile
23
3.1.2
Atmospheric layers
24
VII
Vlil
CONTENTS
3.2
The relationship between pressure and density, hydrostatic balance
26
3.3
Vertical structure of pressure and density
28
3.3.1
Isothermal atmosphere
28
3.3.2
Non-isothermal atmosphere
28
3.3.3
Density
29
3.4
Further reading
29
3.5
Problems
29
4.
Convection
31
4.1
The nature of convection
32
4.1.1
Convection in a shallow fluid
32
4.1.2
Instability
33
4.2
Convection in water
34
4.2.1
Buoyancy
34
4.2.2
Stability
35
4.2.3
Energetics
36
4.2.4
GFD Lab II: Convection
36
4.3
Dry convection in a compressible atmosphere
39
4.3.1
The adiabatic lapse rate (in unsaturated air)
39
4.3.2
Potential temperature
41
4.4
The atmosphere under stable conditions
42
4.4.1
Gravity waves
42
4.4.2
Temperature inversions
44
4.5
Moist convection
46
4.5.1
Humidity
47
4.5.2
Saturated adiabatic lapse rate
49
4.5.3
Equivalent potential temperature
50
4.6
Convection in the atmosphere
50
4.6.1
Types of convection
51
4.6.2
Where does convection occur?
55
4.7
Radiative-convective equilibrium
56
4.8
Further reading
57
4.9
Problems
57
5.
The meridional structure of the atmosphere
61
5.1
Radiative forcing and temperature
62
5.1.1
Incoming radiation
62
5.1.2
Outgoing radiation
63
5.1.3
The energy balance of the atmosphere
64
5.1.4
Meridional structure of temperature
64
5.2
Pressure and geopotential height
67
5.3
Moisture
70
5.4
Winds
73
5.4.1
Distribution of winds
74
5.5
Further reading
78
5.6
Problems
78
CONTENTS
6.
The equations of fluid motion
81
6.1
Differentiation following the motion
82
6.2
Equation of motion for a nonrotating fluid
84
6.2.1
Forces on a fluid parcel
84
6.2.2
The equations of motion
86
6.2.3
Hydrostatic balance
87
6.3
Conservation of mass
87
6.3.1
Incompressible flow
88
6.3.2
Compressible flow
88
6.4
Thermodynamic equation
89
6.5
Integration, boundary conditions, and restrictions in application
89
6.6
Equations of motion for a rotating fluid
90
6.6.1
GFD Lab III: Radial inflow
90
6.6.2
Transformation into rotating coordinates
93
6.6.3
The rotating equations of motion
94
6.6.4
GFD Labs IV and V: Experiments with Coriolis forces on a parabolic
rotating table
96
6.6.5
Putting things on the sphere
100
6.6.6
GFD Lab VI: An experiment on the Earth's rotation
103
6.7
Further reading
104
6.8
Problems
104
7.
Balanced flow
109
7.1
Geostrophic motion
110
7.1.1
The geostrophic wind in pressure coordinates
112
7.1.2
Highs and lows; synoptic charts
114
7.1.3
Balanced flow in the radial-inflow experiment
116
7.2
The Taylor-Proudman theorem
117
7.2.1
GFD Lab
VII:
Taylor columns
118
7.3
The thermal wind equation
119
7.3.1
GFD Lab
VIII:
The thermal wind relation
120
7.3.2
The thermal wind equation and the Taylor-Proudman theorem
122
7.3.3
GFD Lab IX: cylinder "collapse" under gravity and rotation
123
7.3.4
Mutual adjustment of velocity and pressure
125
7.3.5
Thermal wind in pressure coordinates
126
7.4
Subgeostrophic flow: the
Ekman
layer
129
7.4.1
GFD Lab X:
Ekman
layers: frictionally-induced cross-isobaric flow
130
7.4.2
Ageostrophic flow in atmospheric highs and lows
130
7.4.3
Planetary-scale ageostrophic flow
133
7.5
Problems
135
8.
The general circulation of the atmosphere
139
8.1
Understanding the observed circulation
140
8.2
A mechanistic view of the circulation
141
8.2.1
The tropical Hadley circulation
142
8.2.2
The
extratropical
circulation and GFD Lab XI: Baroclinic instability
145
CONTENTS
8.3
Energetics of the thermal wind equation
149
8.3.1
Potential energy for a fluid system
149
8.3.2
Available potential energy
150
8.3.3
Release of available potential energy in baroclinic instability
152
8.3.4
Energetics in a compressible atmosphere
153
8.4
Large-scale atmospheric energy and momentum budget
154
8.4.1
Energy transport
154
8.4.2
Momentum transport
156
8.5
Latitudinal variations of climate
157
8.6
Further reading
158
8.7
Problems
159
9.
The ocean and its circulation
163
9.1
Physical characteristics of the ocean
164
9.1.1
The ocean basins
164
9.1.2
The cryosphere
165
9.1.3
Properties of seawater; equation of state
165
9.1.4
Temperature, salinity, and temperature structure
168
9.1.5
The mixed layer and thermocline
171
9.2
The observed mean circulation
176
9.3
Inferences from geostrophic and hydrostatic balance
182
9.3.1
Ocean surface structure and geostrophic flow
183
9.3.2
Geostrophic flow at depth
184
9.3.3
Steric effects
186
9.3.4
The dynamic method
187
9.4
Ocean eddies
188
9.4.1
Observations of ocean eddies
188
9.5
Further reading
189
9.6
Problems
190
10.
The wind-driven circulation
197
10.1
The wind stress and
Ekman
layers
198
10.1.1
Balance of forces and transport in the
Ekman
layer
199
10.1.2
Ekman
pumping and suction and GFD Lab
XII 201
10.1.3
Ekman
pumping and suction induced by large-scale wind patterns
203
10.2
Response of the interior ocean to
Ekman
pumping
206
10.2.1
Interior balances
206
10.2.2
Wind-driven gyres and western boundary currents
206
10.2.3
Taylor-Proudman on the sphere
207
10.2.4
GFD Lab
XIII:
Wind-driven ocean gyres
211
10.3
The depth-integrated circulation: Sverdrup theory
213
10.3.1
Rationalization of position, sense of circulation, and volume transport of
ocean gyres
214
10.4
Effects of stratification and topography
216
10.4.1
Taylor-Proudman in a layered ocean
217
10.5
Baroclinic instability in the ocean
218
10.6
Further reading
220
10.7
Problems
220
CONTENTS
Xl
11.
The thermohaline circulation
of the ocean
223
11.1
Air-sea fluxes and surface property distributions
224
11.1.1
Heat, freshwater, and buoyancy fluxes
224
11.1.2
Interpretation of surface temperature distributions
231
11.1.3
Sites of deep convection
232
11.2
The observed thermohaline circulation
234
11.2.1
Inferences from interior tracer distributions
234
11.2.2
Time scales and intensity of thermohaline circulation
239
11.3
Dynamical models of the thermohaline circulation
239
11.3.1
Abyssal circulation schematic deduced from Taylor-Proudman
on the sphere
239
11.3.2
GFD Lab
XIV:
The abyssal circulation
241
11.3.3
Why western boundary currents?
243
11.3.4
GFD Lab XV: Source sink flow in a rotating basin
245
11.4
Observations of abyssal ocean circulation
245
11.5
The ocean heat budget and transport
247
11.5.1
Meridional heat transport
248
11.5.2
Mechanisms of ocean heat transport and the partition of heat transport
between the atmosphere and ocean
251
11.6
Freshwater transport by the ocean
255
11.7
Further reading
256
11.8
Problems
256
12.
Climate and climate variability
259
12.1
The ocean as a buffer of temperature change
261
12.1.1
Nonseasonal changes in SST
262
12.2
El Niño
and the Southern Oscillation
264
12.2.1
Interannual variability
264
12.2.2
"Normal" conditions
—
equatorial upwelling and the Walker
circulation
266
12.2.3
ENSO
269
12.2.4
Other modes of variability
273
12.3
Paleoclimate
273
12.3.1
Climate over Earth history
275
12.3.2
Pałeotemperatures
over the past
70
million years: the <518O record
277
12.3.3
Greenhouse climates
280
12.3.4
Cold climates
280
12.3.5
Glacial-interglacial cycles
282
12.3.6
Global warming
291
12.4
Further reading
292
12.5
Problems
292
Appendices
295
A.I Derivations
295
A.I.I The Planck function
295
A.
1.2
Computation of available potential energy
296
A.1.3 Internal energy for a compressible atmosphere
296
XII
CONTENTS
A.2
Mathematical definitions and notation
296
A.2.1 Taylor expansion
296
A.2.2 Vector identities
297
A.2.3 Polar and spherical coordinates
298
A.3 Use of foraminifera shells in paleoclimate
298
A.4 Laboratory experiments
299
A.4.1 Rotating tables
299
A.4.2 List of laboratory experiments
300
A.5 Figures and access to data over the web
302
References
303
Textbooks and reviews
303
Other references
303
References to
paleo-data
sources
304
Index
307
Online companion site:
http://books.elsevier.com/companions/9780125586917 |
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| any_adam_object_boolean | 1 |
| author | Marshall, John 1954- Plumb, R. Alan 1948- |
| author_GND | (DE-588)136894259 (DE-588)136894356 |
| author_facet | Marshall, John 1954- Plumb, R. Alan 1948- |
| author_role | aut aut |
| author_sort | Marshall, John 1954- |
| author_variant | j m jm r a p ra rap |
| building | Verbundindex |
| bvnumber | BV023036053 |
| callnumber-first | Q - Science |
| callnumber-label | QC880 |
| callnumber-raw | QC880.4.A8 |
| callnumber-search | QC880.4.A8 |
| callnumber-sort | QC 3880.4 A8 |
| callnumber-subject | QC - Physics |
| classification_rvk | RB 10435 UT 4800 |
| ctrlnum | (OCoLC)166317541 (DE-599)BVBBV023036053 |
| dewey-full | 551.5/246 |
| dewey-hundreds | 500 - Natural sciences and mathematics |
| dewey-ones | 551 - Geology, hydrology, meteorology |
| dewey-raw | 551.5/246 |
| dewey-search | 551.5/246 |
| dewey-sort | 3551.5 3246 |
| dewey-tens | 550 - Earth sciences |
| discipline | Geologie / Paläontologie Physik Geographie |
| discipline_str_mv | Geologie / Paläontologie Physik Geographie |
| format | Book |
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| genre_facet | Lehrbuch |
| id | DE-604.BV023036053 |
| illustrated | Illustrated |
| index_date | 2024-07-02T19:18:59Z |
| indexdate | 2024-07-09T21:09:30Z |
| institution | BVB |
| isbn | 9780125586917 |
| language | English |
| lccn | 2007034798 |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-016239830 |
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| physical | XX, 319 S. Ill., graph. Darst., Kt. |
| publishDate | 2008 |
| publishDateSearch | 2008 |
| publishDateSort | 2008 |
| publisher | Elsevier Acad. Press |
| record_format | marc |
| series | International geophysics series |
| series2 | International geophysics series |
| spelling | Marshall, John 1954- Verfasser (DE-588)136894259 aut Atmosphere, ocean, and climate dynamics an introductory text John Marshall and R. Alan Plumb Amsterdam [u.a.] Elsevier Acad. Press 2008 XX, 319 S. Ill., graph. Darst., Kt. txt rdacontent n rdamedia nc rdacarrier International geophysics series 93 Dinâmica dos fluídos larpcal Interação ar-mar larpcal Termodinâmica atmosférica larpcal Atmospheric circulation Atmospheric thermodynamics Fluid dynamics Ocean circulation Ocean-atmosphere interaction Meeresströmung (DE-588)4130725-2 gnd rswk-swf Wechselwirkung (DE-588)4064937-4 gnd rswk-swf Allgemeine atmosphärische Zirkulation (DE-588)4202863-2 gnd rswk-swf Atmosphäre (DE-588)4003397-1 gnd rswk-swf Klima (DE-588)4031170-3 gnd rswk-swf Meer (DE-588)4038301-5 gnd rswk-swf (DE-588)4123623-3 Lehrbuch gnd-content Allgemeine atmosphärische Zirkulation (DE-588)4202863-2 s Meeresströmung (DE-588)4130725-2 s Meer (DE-588)4038301-5 s Atmosphäre (DE-588)4003397-1 s Wechselwirkung (DE-588)4064937-4 s DE-604 Klima (DE-588)4031170-3 s DE-188 Plumb, R. Alan 1948- Verfasser (DE-588)136894356 aut International geophysics series 93 (DE-604)BV000005107 93 Digitalisierung UB Regensburg application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016239830&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Marshall, John 1954- Plumb, R. Alan 1948- Atmosphere, ocean, and climate dynamics an introductory text International geophysics series Dinâmica dos fluídos larpcal Interação ar-mar larpcal Termodinâmica atmosférica larpcal Atmospheric circulation Atmospheric thermodynamics Fluid dynamics Ocean circulation Ocean-atmosphere interaction Meeresströmung (DE-588)4130725-2 gnd Wechselwirkung (DE-588)4064937-4 gnd Allgemeine atmosphärische Zirkulation (DE-588)4202863-2 gnd Atmosphäre (DE-588)4003397-1 gnd Klima (DE-588)4031170-3 gnd Meer (DE-588)4038301-5 gnd |
| subject_GND | (DE-588)4130725-2 (DE-588)4064937-4 (DE-588)4202863-2 (DE-588)4003397-1 (DE-588)4031170-3 (DE-588)4038301-5 (DE-588)4123623-3 |
| title | Atmosphere, ocean, and climate dynamics an introductory text |
| title_auth | Atmosphere, ocean, and climate dynamics an introductory text |
| title_exact_search | Atmosphere, ocean, and climate dynamics an introductory text |
| title_exact_search_txtP | Atmosphere, ocean, and climate dynamics an introductory text |
| title_full | Atmosphere, ocean, and climate dynamics an introductory text John Marshall and R. Alan Plumb |
| title_fullStr | Atmosphere, ocean, and climate dynamics an introductory text John Marshall and R. Alan Plumb |
| title_full_unstemmed | Atmosphere, ocean, and climate dynamics an introductory text John Marshall and R. Alan Plumb |
| title_short | Atmosphere, ocean, and climate dynamics |
| title_sort | atmosphere ocean and climate dynamics an introductory text |
| title_sub | an introductory text |
| topic | Dinâmica dos fluídos larpcal Interação ar-mar larpcal Termodinâmica atmosférica larpcal Atmospheric circulation Atmospheric thermodynamics Fluid dynamics Ocean circulation Ocean-atmosphere interaction Meeresströmung (DE-588)4130725-2 gnd Wechselwirkung (DE-588)4064937-4 gnd Allgemeine atmosphärische Zirkulation (DE-588)4202863-2 gnd Atmosphäre (DE-588)4003397-1 gnd Klima (DE-588)4031170-3 gnd Meer (DE-588)4038301-5 gnd |
| topic_facet | Dinâmica dos fluídos Interação ar-mar Termodinâmica atmosférica Atmospheric circulation Atmospheric thermodynamics Fluid dynamics Ocean circulation Ocean-atmosphere interaction Meeresströmung Wechselwirkung Allgemeine atmosphärische Zirkulation Atmosphäre Klima Meer Lehrbuch |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016239830&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
| volume_link | (DE-604)BV000005107 |
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