Transport in the atmosphere-vegetation-soil continuum:
Gespeichert in:
| Hauptverfasser: | , |
|---|---|
| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
Cambridge
Cambridge Univ. Press
2014
|
| Ausgabe: | 1. publ. |
| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis Klappentext |
| Beschreibung: | Includes bibliographical references and index |
| Beschreibung: | XII, 436 S. Ill., graph. Darst., Kt. |
| ISBN: | 9780521195683 |
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| 246 | 1 | 3 | |a Transport in the atmosphere vegetation soil continuum |
| 250 | |a 1. publ. | ||
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| 300 | |a XII, 436 S. |b Ill., graph. Darst., Kt. | ||
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| 650 | 4 | |a Ecohydrology | |
| 650 | 4 | |a Micrometeorology | |
| 650 | 4 | |a Soil physics | |
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Datensatz im Suchindex
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|---|---|
| adam_text | Contents
Preface
page
xi
1.
The Atmosphere-Vegetation-Soil System
]
1.1.
Introduction
1
1.2.
Conservation of Energy and Mass
3
1.2.1.
Water Balance
4
1.2.2.
Energy Balance
5
1.2.3.
The Link: Evapotranspiration
7
1.2.4.
Simplified Balances
8
1.3.
Modes of Transport of Energy and Mass
10
1.4.
Setup of the Book
11
2.
Available Energy: Net Radiation and Soil Heat Flux
13
2.1.
Introduction
13
2.2.
Net Radiation
13
2.2.1.
Interaction between Radiation and the Atmosphere
14
2.2.2.
Downwelling
Shortwave Radiation
16
2.2.3.
Reflected Shortwave Radiation
28
2.2.4.
Downwelling
Longwave Radiation
35
2.2.5.
Emitted (and Reflected) Longwave Radiation
39
2.2.6.
Net Radiation: Sum of Components
41
2.2.7.
Measurement of Net Radiation
41
2.3.
Soil Heat Flux
44
2.3.1.
Bare Soil
45
2.3.2.
Heat Transport in Soils
47
2.3.3.
Thermal Properties of Soils
49
2.3.4.
Semi-infinite Homogeneous Soil with Sine-Wave at the Surface
52
2.3.5.
Force-Restore Method
55
2.3.6.
Vegetated Surfaces
57
2.3.7.
Measurement of Soil Heat Flux
59
2.3.8.
Snow and Ice
61
2.4.
Summary
67
vi
Contents
3.
Turbulent Transport
in the Atmospheric
Surface
Layer
69
3.1.
Introduction
69
3.2.
Characteristics of
Turbulent Diffusivities
71
3.3.
Turbulence
74
3.3.1.
Qualitative Description
74
3.3.2.
Intermezzo:
Conserved Quantities, Scalars and Vectors
76
3.3.3.
Statistical Description of Turbulence
77
3.3.4.
Buoyancy
82
3.3.5.
Turbulent Kinetic Energy
84
3.4.
Turbulent Transport
87
3.4.1.
Mean Vertical Flux Density
87
3.4.2.
Eddy-Covariance Method
89
3.4.3.
The Atmospheric Surface-Layer and the Roughness Sublayer
95
3.5.
Similarity Theory
98
3.5.1.
Dimensionless Gradients: Relevant Variables in MOST
99
3.5.2.
Physical Interpretation of zIL and Its Relationship
to the Richardson Number
102
3.5.3.
Similarity Relationships for Gradients
104
3.5.4.
Gradients and Profiles Under Neutral Conditions
106
3.5.5.
Gradients and Profiles Under Conditions Affected by Buoyancy
108
3.5.6.
Similarity Theory: Final Remarks
111
3.6.
Practical Applications of Similarity Relationships
117
3.6.1.
Fluxes from Observations at Two Levels
117
3.6.2.
Fluxes from Observations at a Single Level in the
Air and One at the Surface
118
3.6.3.
Analytical Solutions for the Integrated Flux-Gradient Relationships
125
3.6.4.
Feedback Between Stability and the Sensible Heat Flux
for Stable Conditions
127
3.6.5.
The Schmidt Paradox
128
3.7.
Summary
130
4.
Soil Water Flow
133
4.1.
Introduction
133
4.2.
Field Water Balance
136
4.3.
Hydraulic Head
139
4.3.1.
Hydraulic Head of Groundwater
140
4.3.2.
Hydraulic Head of Soil Water
141
4.3.3.
Hydraulic Head of Water Vapour
] 45
4.4.
The Soil Water Characteristic
145
4.5.
Darcy s Law
149
4.5.1.
Saturated Soil
149
4.5.2.
Unsaturated Soil
152
4.6.
Richards Equation for Water Flow in Variably Saturated Soils
153
4.7.
Soil Hydraulic Functions
155
4.8.
Infiltration
156
4.8.1.
Horton
Infiltration Model
158
4.8.2.
Green-Ampt Infiltration Model
159
Contents
vii
4.9.
Capillary Rise
163
4.10.
Measurement of Soil Water Pressure Head
164
4.10.1.
Piezometer
164
4.10.2.
Tensiometer
165
4.11.
Measurement of Soil Water Content
168
4.11.1.
Gravimetric and Volumetric Soil Water Content
168
4.11.2.
Measurement by Oven Drying
169
4.11.3.
Measurement by Time Domain Reflectrometry
169
4.12.
Measurement of Hydraulic Conductivity
171
4.13.
Measurement of Root Water Uptake
173
4.14.
Summary
175
5.
Solute Transport in Soil
177
5.1.
Introduction
177
5.2.
Solute Flux through Soil
178
5.3.
Convection-Dispersion Equation
181
5.4.
Transport of Inert.
Non adsorbì ng
Solutes
182
5.5.
Transport of Inert. Adsorbing Chemicals
185
5.6.
Reactions of Chemicals in Soil
188
5.7.
Salinization of Root Zones
190
5.8.
Pesticide Pollution of Groundwater
192
5.9.
Residence Time in Groundwater
193
5.10.
Simulation of Solute Transport
197
5.11.
Summary
198
6.
Vegetation: Transport Processes Inside and Outside
of Plants
200
6.1.
Functions of Water in the Plant
200
6.2.
Root Water Uptake
201
6.2.1.
Functions of Roots
201
6.2.2.
Structure of the Root Tip
202
6.2.3.
Physiology of Root Water Uptake
204
6.2.4.
Modelling of Root Water Uptake
206
6.3.
Water Flow within the Plant
215
6.4.
Transpiration. Photosynthesis and
Stomatal
Control
219
6.4.1.
Transpiration
219
6.4.2.
Photosynthesis
222
6.4.3.
Stomatal
Behaviour
226
6.4.4.
CO, Exchange at the Ecosystem Level
230
6.5.
Dry Matter Production
232
6.6.
Microclimate
236
6.6.1.
Radiation
238
6.6.2.
Air Temperature
241
6.6.3.
Wind Speed
241
6.6.4.
Leaf Temperature
242
6.6.5.
Dew
244
6.7.
Rainfall Interception
246
6.8.
Summary
250
viii Contents
7.
Combination Methods for Turbulent Fluxes
252
7.1.
Bowen Ratio Method
252
7.1.1.
Sensible and Latent Heat Flux
252
7.1.2.
Trace Gases
254
7.2.
Penman-Monteith Equation
255
7.2.1.
Penman Derivation
256
7.2.2.
Penman-Monteith Derivation
260
7.2.3.
Canopy Resistance
265
7.2.4.
Analysis of Evapotranspiration from Different Surface Types
267
7.3.
Derived Evapotranspiration Models
269
7.3.1.
Equilibrium Evaporation
269
7.3.2.
Priestley-Taylor Equation
272
7.3.3.
Makkink Equation
273
7.4.
Dewfall
274
7.5.
Summary
276
8.
Integrated Applications
278
8.1.
Crop Water Requirements
278
8.
8.
8.
8.
8.
. 1.
Definitions of Terms and Units
278
.2.
Factors Affecting Evapotranspiration
280
.3.
Crop Factor Method: General Structure
280
.4.
Crop Factor Method: Penman—Monteith Equation for
E
282
.5.
Crop Factor Method: Makkink Equation for Eref
285
8.2.
Evapotranspiration Measurement: Lysimeters
286
8.3.
Water Productivity at Field and Regional Scale
288
8.3.1.
Introduction
288
8.3.2.
Sirsa District
289
8.3.3.
Modelling Tools
290
8.3.4.
Measurements
291
8.3.5.
Yield Gap
291
8.3.6.
Crop Yields at Field Scale
292
8.3.7.
Water Productivity at a Regional Scale
292
8.3.8.
Scenario Analysis
292
8.3.9.
Satellite Data Assimilation
294
8.4.
Response to Heat Wave Conditions of the Energy and Water
Balance of Grassland and Forests
294
8.4.1.
Data
295
8.4.2.
Energy Balance during Normal Summers
296
8.4.3.
Energy Balance during Heat Wave Conditions
297
8.4.4.
Temporal Development of the Energy and Water Balance
299
9.
Integrated Models in Hydrology and Meteorology
302
9.1.
SWAP
302
. 1.
Introduction
302
.2.
Soil Water Flow
303
.3.
Top Boundary Condition Hydrology
309
.4.
Bottom Boundary Condition Hydrology
311
.5.
Lateral Drainage 3J2
Contents ix
9.1.7.
Heat Flow
316
9.1.8.
Crop Growth
320
9.2.
The Land-Surface in Atmospheric Models
323
9.2.1.
The Role of LSMs in Atmospheric Models
323
9.2.2.
Genera! Structure of a LSM
326
9.2.3.
Modelling of Vegetation
328
9.2.4.
Canopy Resistance
332
9.2.5.
Surface Heterogeneity
338
9.2.6.
Coupling to the Atmosphere and the Soil
341
9.2.7.
The Role of Observations
343
Appendix A: Radiation
345
A.I. Radiation Laws
345
A.2. Solar Radiation: Instantaneous
346
A3.
Solar Radiation: Daily Values
347
Appendix B: Thermodynamics and Water Vapour
348
B.I. Some Basic Thermodynamics
348
B.2. Hydrostatic Equilibrium
350
B.3. Potential Temperature
351
B.4. Measures of Water Vapour Content
351
B.5. Latent Heat of Vaporization
354
Appendix C:
Dimensiona!
Analysis
356
С
/.
Choose Relevant Physical Quantities
356
C.2. Make Dimensionless Groups
357
C.3. Do an Experiment
358
C.4. Find the Relationship between Dimensionless Groups
358
Appendix D: Microscopic Root Water Uptake
359
D.I.
Mass Balance Equation
359
D.2. General Solution of Matrix Flux Potential
Differential Equation
361
Appendix E: Crop Factors for Use with Makkink Reference
Evapotranspiration
362
Answers
363
List of Main Symbols
403
References
409
Index
431
raditionally, soil science, atmospheric science, hydrology, plant science and
agriculture have been studied largely as separate subjects. These systems are
clearly interlinked, however, and in recent years a great deaLof
ľ
interdisciplinary
research has been undertaken to understand the interactions better. This text¬
book was developed from a course that the authors have been teaching for many
years on atmosphere-vegetation-soii interactions at one of the leading international
research institutes in environmental science and agriculture.
Small-scale processes at the interface of soil and vegetation and in the lower atmo¬
sphere may have a profound impact on large-scale processes in the atmosphere
and subsurface water. Furthermore, the interaction among soil, vegetation and
atmosphere is important for the assessment and monitoring of water resources.
This book describes the atmosphere-vegetation-soil continuum from the perspective
of several interrelated
disciplines,
integrated into one textbook. The book begins
with the treatment of individual terms in the energy and water balance of Earth s
surface, including the role of plants and solutes. A number of these aspects are
then combined in the treatment of
practicai
methods to estimate evapotranspira-
tion This leads to the presentation of a number of integrated applications, showing
how the theory of the preceding chapters leads to new insights. The book concludes
by presenting integrated hydrotogical and meteorological models in which the theory
of transport processes is applied The book assumes readers have some familiarity
with basic radiation laws, thermodynamics and soil science. However, much of this
prerequisite knowledge is also covered brtefiy in appendices. The text is interspersed
with many student exercises and problems, with solutions included.
This textbook ts ideal for intermediate to advanced students in meteorology, hydrology,
soil science, environmental sciences and biology who are studying the atmosphere-
vegetation-soil continuum, as
weil
as researchers and professionals interested in
the observation and modelling of atmosphere-vegetation-soil interactions.
Cover photo:
©
Amy Johansson
/
Shutterstock-Com
Cover design by David Levy
resources
Cambridge
*
■
iDcte
ISBN
978-0-521-19568-3
9
780521 195683 >
|
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| author | Moene, Arnold F. 1967- Dam, Jos C. van 1961- |
| author_GND | (DE-588)1051324866 (DE-588)173420826 |
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| dewey-hundreds | 500 - Natural sciences and mathematics |
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| dewey-search | 577.6 |
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| id | DE-604.BV041733360 |
| illustrated | Illustrated |
| indexdate | 2024-07-10T01:04:02Z |
| institution | BVB |
| isbn | 9780521195683 |
| language | English |
| lccn | 013027359 |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-027180098 |
| oclc_num | 876196215 |
| open_access_boolean | |
| owner | DE-703 DE-634 |
| owner_facet | DE-703 DE-634 |
| physical | XII, 436 S. Ill., graph. Darst., Kt. |
| publishDate | 2014 |
| publishDateSearch | 2014 |
| publishDateSort | 2014 |
| publisher | Cambridge Univ. Press |
| record_format | marc |
| spelling | Moene, Arnold F. 1967- Verfasser (DE-588)1051324866 aut Transport in the atmosphere-vegetation-soil continuum Arnold F. Moene ; Jos C. van Dam Transport in the atmosphere vegetation soil continuum 1. publ. Cambridge Cambridge Univ. Press 2014 XII, 436 S. Ill., graph. Darst., Kt. txt rdacontent n rdamedia nc rdacarrier Includes bibliographical references and index Ecohydrology Micrometeorology Soil physics Plant physiology Bodennahe Luftschicht (DE-588)4146155-1 gnd rswk-swf Hydrogeologe (DE-588)1026776147 gnd rswk-swf Vegetation (DE-588)4187458-4 gnd rswk-swf Mikrometeorologie (DE-588)4315182-6 gnd rswk-swf Stoffübertragung (DE-588)4057696-6 gnd rswk-swf Strahlungsnebel (DE-588)4266143-2 gnd rswk-swf Turbulente Konvektion (DE-588)4274466-0 gnd rswk-swf Austausch Meteorologie (DE-588)4281438-8 gnd rswk-swf Atmosphäre (DE-588)4003397-1 gnd rswk-swf Strahlungstransport (DE-588)4183546-3 gnd rswk-swf Mikrometeorologie (DE-588)4315182-6 s Austausch Meteorologie (DE-588)4281438-8 s DE-604 Hydrogeologe (DE-588)1026776147 s Bodennahe Luftschicht (DE-588)4146155-1 s Vegetation (DE-588)4187458-4 s Strahlungsnebel (DE-588)4266143-2 s Strahlungstransport (DE-588)4183546-3 s Atmosphäre (DE-588)4003397-1 s Turbulente Konvektion (DE-588)4274466-0 s Stoffübertragung (DE-588)4057696-6 s Dam, Jos C. van 1961- Verfasser (DE-588)173420826 aut Digitalisierung UB Bayreuth - ADAM Catalogue Enrichment application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=027180098&sequence=000003&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis Digitalisierung UB Bayreuth - ADAM Catalogue Enrichment application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=027180098&sequence=000004&line_number=0002&func_code=DB_RECORDS&service_type=MEDIA Klappentext |
| spellingShingle | Moene, Arnold F. 1967- Dam, Jos C. van 1961- Transport in the atmosphere-vegetation-soil continuum Ecohydrology Micrometeorology Soil physics Plant physiology Bodennahe Luftschicht (DE-588)4146155-1 gnd Hydrogeologe (DE-588)1026776147 gnd Vegetation (DE-588)4187458-4 gnd Mikrometeorologie (DE-588)4315182-6 gnd Stoffübertragung (DE-588)4057696-6 gnd Strahlungsnebel (DE-588)4266143-2 gnd Turbulente Konvektion (DE-588)4274466-0 gnd Austausch Meteorologie (DE-588)4281438-8 gnd Atmosphäre (DE-588)4003397-1 gnd Strahlungstransport (DE-588)4183546-3 gnd |
| subject_GND | (DE-588)4146155-1 (DE-588)1026776147 (DE-588)4187458-4 (DE-588)4315182-6 (DE-588)4057696-6 (DE-588)4266143-2 (DE-588)4274466-0 (DE-588)4281438-8 (DE-588)4003397-1 (DE-588)4183546-3 |
| title | Transport in the atmosphere-vegetation-soil continuum |
| title_alt | Transport in the atmosphere vegetation soil continuum |
| title_auth | Transport in the atmosphere-vegetation-soil continuum |
| title_exact_search | Transport in the atmosphere-vegetation-soil continuum |
| title_full | Transport in the atmosphere-vegetation-soil continuum Arnold F. Moene ; Jos C. van Dam |
| title_fullStr | Transport in the atmosphere-vegetation-soil continuum Arnold F. Moene ; Jos C. van Dam |
| title_full_unstemmed | Transport in the atmosphere-vegetation-soil continuum Arnold F. Moene ; Jos C. van Dam |
| title_short | Transport in the atmosphere-vegetation-soil continuum |
| title_sort | transport in the atmosphere vegetation soil continuum |
| topic | Ecohydrology Micrometeorology Soil physics Plant physiology Bodennahe Luftschicht (DE-588)4146155-1 gnd Hydrogeologe (DE-588)1026776147 gnd Vegetation (DE-588)4187458-4 gnd Mikrometeorologie (DE-588)4315182-6 gnd Stoffübertragung (DE-588)4057696-6 gnd Strahlungsnebel (DE-588)4266143-2 gnd Turbulente Konvektion (DE-588)4274466-0 gnd Austausch Meteorologie (DE-588)4281438-8 gnd Atmosphäre (DE-588)4003397-1 gnd Strahlungstransport (DE-588)4183546-3 gnd |
| topic_facet | Ecohydrology Micrometeorology Soil physics Plant physiology Bodennahe Luftschicht Hydrogeologe Vegetation Mikrometeorologie Stoffübertragung Strahlungsnebel Turbulente Konvektion Austausch Meteorologie Atmosphäre Strahlungstransport |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=027180098&sequence=000003&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=027180098&sequence=000004&line_number=0002&func_code=DB_RECORDS&service_type=MEDIA |
| work_keys_str_mv | AT moenearnoldf transportintheatmospherevegetationsoilcontinuum AT damjoscvan transportintheatmospherevegetationsoilcontinuum |