Evaporation, evapotranspiration and climatic data:
Gespeichert in:
| Hauptverfasser: | , |
|---|---|
| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
Amsterdam u.a.
Elsevier
1994
|
| Schriftenreihe: | Developments in atmospheric science
22 |
| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | XXIII, 278 S. graph. Darst. |
| ISBN: | 0444819401 |
Internformat
MARC
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| 245 | 1 | 0 | |a Evaporation, evapotranspiration and climatic data |c R. Burman ; L. O. Pochop |
| 264 | 1 | |a Amsterdam u.a. |b Elsevier |c 1994 | |
| 300 | |a XXIII, 278 S. |b graph. Darst. | ||
| 336 | |b txt |2 rdacontent | ||
| 337 | |b n |2 rdamedia | ||
| 338 | |b nc |2 rdacarrier | ||
| 490 | 1 | |a Developments in atmospheric science |v 22 | |
| 650 | 4 | |a Crops and climate | |
| 650 | 4 | |a Evaporation (Meteorology) | |
| 650 | 4 | |a Evapotranspiration | |
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Datensatz im Suchindex
| _version_ | 1804124194310455296 |
|---|---|
| adam_text | Titel: Evaporation, evapotranspiration and climatic data
Autor: Burman, Robert D.
Jahr: 1994
Table of Contents
Chapter 1 Introduction 1
1.1 Definitions of evapotranspiration and transpiration 2
1.1.1 Symbols, variables and units 3
1.2 Measurement of evapotranspiration 4
1.2.1 Soil water budget methods 5
1.2.2 Soil water measurement 6
1.2.3 Hydrologie budget methods 6
1.2.4 Lysimetric measurement 7
1.2.5 Indirect meteorological methods 8
1.2.6 Chamber techniques 8
1.2.7 Biological methods 9
1.2.8 Passive methods 9
1.3
Estimating E or ET using climatic data 9
.3.1 Estimation of water surface evaporation 10
.3.2 Direct estimation methods 10
.3.3 Methods using potential or reference crop ET 10
.3.4 Methods calculating separate soil evaporation and tran-
spiration 10
Chapter 2 Atmospheric thermodynamic parameters 13
2.1 Wind profiles and relationships 13
2.1.1 Time dependency of wind measurements and units 13
2.1.2 Wind profile relationships 15
2.1.3 Atmospheric stability 16
2.1.4 Determining wind speed at different elevations 18
2.2 Thermodynamic parameters 19
2.2.1 Atmospheric pressure, ? and density, p 19
2.2.2 Atmospheric humidity calculations 22
2.2.3 Vapor pressure e 22
2.2.4 Slope of vapor pressure and temperature relationship Ä
23
2.2.5 Relative humidity RH 24
2.2.6 Mixing ratio r 24
2.2.7 Specific humidity q 24
2.2.8 Psychrometer measurements and equation 25
2.2.9 Actual vapor pressure ea 26
2.2.10 Specific heat at constant pressure Cp 26
2.2.11 Latent heat of vaporization ë 27
2.2.12 Psychrometric coefficient ã 27
2.3 Radiation 28
2.3.1 Solar radiation R^ 29
2.3.2 Vertical energy balance 29
2.3.3 Solar constant SC 29
2.3.4 Albedo a 29
2.3.5 Constant albedo 31
2.3.6 Variable albedo model 32
2.3.7 Sun-earth geometric relationships 32
2.3.8 Declination of the sun ä 35
2.3.9 Cooper declination model 36
2.3.10 Burman-Jacquot declination model 36
2.3.11 Variations in the sun-earth distance [ - J 37
2.3.12 Duffie-Beckman sun-earth distance correction 37
2.3.13 Day length predictions 3 8
2.3.14 Percent daytime hours ñ 38
2.3.15 Extraterrestrial radiationKa 38
2.3.16 Clear day solar radiation R,,, 40
2.3.17 Tabular estimates of clear day solar radiation R^ 40
2.3.18 ASHRAE clear day radiation model R^ (instant-
aneous) 41
2.3.19 Heermann et al. daily estimates Rso 43
2.4 Solar radiation R,, 46
2.5 Net radiation_Rn 48
2.5.1 Net radiation estimation Rn 48
2.5.2 Net long wave radiation using Brunt equation 49
2.5.3 Constant coefficients for Brunt equation 49
2.5.4 Variable coefficients for Brunt equation 50
2.5.5 Net long wave radiation Rnl using component approach
51
2.6 Soil heat flux 54
2.6Ë Daily model 54
2.6.2 Ten day to monthly model 55
Chapter 3 Soil parameters 57
3.1 Soil water fundamentals 57
3.1.1 Energy status of soil water 57
3.1.2 Gravity potential 58
3.1.3 External pressure potential 58
3.1.4 Matric potential 59
3.1.5 Osmotic potential 59
3.1.6 First law of thermodynamics 59
3.2 Soil water reference points 61
3.2.1 Saturation 61
3.2.2 Drained upper limit or field capacity 62
3.2.3 Lower limit or wilting point 62
3.3 Soil water storage 64
3.3.1 Plant extractable soil water (available soil water) 64
3.3.2 Readily available soil water, RAM 65
3.3.3 Management allowed deficiency MAD 65
3.3.4 Typical soil water capacities 66
3.3.5 Field soil water and water table conditions. 67
3.4 Soil water influences on plant growth 68
3.5 Soil water movement 68
3.5.1 Darcy s law 69
3.5.2 Hydraulic conductivity 70
3.5.3 Intrinsic permeability 70
3.5.4 Saturated soil water movement 70
3.5.5 Unsaturated soil water movement 70
3.6 Soil water supply for evapotranspiration 71
3.6.1 Stored soil water 11
3.6.2 Natural precipitation 71
3.6.3 Non-growing season precipitation 71
3.6.4 Growing season precipitation 72
3.6.5 Water supplied by irrigation 72
3.6.6 Movement to or from a water table 72
Chapter 4 Estimating reference crop ET 73
4.1 Sequence of calculations and flow charts 74
4.2 Potential ET and/or reference crop ET 74
4.3 Crop coefficients 75
4.4 Penman methods 75
4.4.1 Penman correction factor c 76
4.4.2 Penman wind functions 77
4.4.3 Seasonally constant wind functions 78
4.4.4 Seasonally variable wind function 78
4.4.5 Vapor pressure deficit term fie) or VPD 79
4.4.6 VPD, vapor pressure averaging 79
4.4.7 VPD, temperature averaging 80
4.4.8 Penman method flow chart 80
4.4.9 Specific Penman calibrations 80
4.4.10 / 963 Penman (original) 81
4.4.11 Penman equation, Wright and Jensen 1972 81
4.4.12 Penman equation, Wright 1982 82
4.4.13 FAO-24 Doorenbos and Pruitt, Penman method 83
4.5 Penman-Monteith method 86
4.5.1 General Penman-Monteith method 86
4.5.2 General aerodynamic resistance^ 87
4.5.3 Basis for aerodynamic resistance equations 87
4.5.4 Neutral atmospheric conditions 88
4.5.5 Unstable atmospheric conditions 88
4.5.6 Other aerodynamic expressions 88
4.5.7 General plant resistance term rc 89
4.5.8 Penman-Monteith reference or potential ET 89
4.5.9 Direct estimates of ET using the Penman-Monteith
model 90
4.5.10 Penman-Monteith method flow charts 91
4.6 Radiation methods 91
4.6.1 Jensen-Haise method 91
4.6.2 Makkink and FAO-24 radiation methods 93
4.7 Temperature methods 94
4.7.1 Original Blaney-Criddle method 94
4.7.2 SCS Blaney-Criddle method 95
4.7.3 FAO-24 Blaney-Criddle method 95
4.8 Radiation and temperature methods flow charts 98
4.9 Estimating reference ET using measured pan evaporation 98
4.9.1 Pan evaporation as an index of ET 98
4.9.2 Evaporation pans compared to vegetation and open
water 100
4.9.3 Types of pans 101
4.9.4 Operation of evaporation pans 102
4.9.5 Limitations of evaporation pan data 102
4.9.6 Christiansen method using pan evaporation 103
Chapter 5 Estimating ET for specific crops 105
5.1 ET using ETr 106
5.2 Botanic and cultural influences 106
5.2.1 Growth cycles 107
5.2.2 Reference or potential ET 109
5.2.3 Soil influences 109
5.3 Soil water and ET estimates 110
5.3.1 Water depletion afield conditions 112
5.3.2 Soil profile subdivisions 114
5.3.3 Zone of ET removal 115
5.3.4 Measured root density 116
5.3.5 Linear relationships 117
5.3.6 Step soil water corrections based on depletion 117
5.3.7 Natural logarithmic relationships 118
5.3.8 Other curvilinear relationships 119
5.3.9 Composite and other relationships 120
5.4 Crop curves 122
5.4.1 Basal crop coefficients 123
5.4.2 Average crop coefficients 123
5.5 Grass-related crop coefficients 124
5.6 Alfalfa-related crop coefficients 133
5.6.1 Use of alfalfa-related average crop coefficients,^. 135
5.6.2 Use of alfalfa-related basal crop coefficients, K,.b 139
5.6.3 Wet soil surface 143
5.7 Estimation of crop ET without formal ETr 143
5.7.1 Blaney-Criddle method 144
5.7.2 SCS Blaney-Criddle method 146
5..7.3 Penman-Monteith method 147
5.7.4 Flow chart for direct estimation of ET 150
5.8 Separate estimation of Es and Ô 151
5.8.1 Soil evaporation 151
5.8.2 Inclusion of growing vegetation 156
5.8.3 Transpiration 158
5.8.4 Residues 159
5.8.5 Stubbles 160
5.8.6 Adaptations for winter conditions 161
5.9 Irrigation water requirements 162
5.10 Components of irrigation water requirements 162
5.10.1 The determination of evapotranspiration 163
5.10.2 Other components of irrigation water requirements 163
5.11 Sources of water for crop growth 164
5.12 Soil water storage of natural precipitation 164
5.12.1 Effective precipitation 165
5.12.2 Effective precipitation and area 166
5.12.3 Effective precipitation and specific crops 167
5.12.4 Growing season effective precipitation 167
5.13 Non-growing season precipitation 170
5.13.1 Irrigation water from shallow water tables 171
Chapter 6 Production, vegetation ET 173
6.1 Uses of production functions 173
6.2 Defining assumptions 173
6.2.1 Seasonal assumptions 174
6.2.2 Functional limitations 174
6.3 Common models 174
6.3.1 Linear relationships 174
6.3.2 Production reduction ratio 176
6.3.3 Measured production reduction related to relative ET 176
6.4 Transferability issues 178
6.5 Sequence of calculations 178
6.5.1 Selection of crop water production functions 180
6.5.2 Maximum production 181
6.5.3 Maximum evapotranspiration 181
6.5.4 Existent evapotranspiration 181
6.6 Flow chart for estimating vegetative production 182
Chapter 7 Evaporation from water surfaces 183
7.1 Methods 184
7.1.1 Kohler-Nordenson-Fox equation 184
7.1.2 Kohler-Parmele equation 186
7.1.3 Priestley-Taylor equation 188
7.1.4 Stewart-Rouse equation 188
7.1.5 deBruin equation 189
7.1.6 Linacre equation 190
Chapter 8 Comparisons and example calculations 191
8.1 Introduction 191
8.2 Example calculations 191
8.2.1 Significant figures 192
8.2.2 Conversion between energy and depth units 193
8.2.3 5/ unit principles 193
8.3 Chapter 2 examples 194
8.3.1 Constant parameters 194
8.3.2 Thermodynamic atmospheric parameters 195
8.3.3 Net radiation examples 203
8.4 Chapter 4 examples 204
8.4.1 Input data parameters 204
8.4.2 Constant parameters 205
8.4.3 Original Penman method 206
8.4.4 Penman equation, Wright and Jensen ¡972 examples 207
8.4.5 Penman equation, Wright 1982 examples 208
8.4.6 FAO Penman 209
8.4.7 Penman-Monteith equation reference ET examples 210
8.4.8 Jensen-Haise method 212
8.4.9 FAO-24 radiation method (Makkink) 212
8.4.10 FAO-24 Blaney-Criddle method examples 213
8.5 Chapter 5 examples 214
8.5.1 FAO-24 Crop Coefficients 215
8.5.2 ASCE Crop Coefficients 216
8.6 Chapter 7 examples 220
8.6.1 Evaporation units and input data 221
8.6.2 General parameters 221
8.6.3 Kohler-Nordenson-Fox equation 222
8.7 Property standards 223
8.7.1 Atmospheric pressure 223
8.7.2 Vapor pressure 226
8.7.3 Latent heat of vaporization 231
8.7.4 Psychrometer coefficient ? 235
8.7.5 Psychrometer derivation 235
8.7.6 specific heat 236
8.8 Sun-earth relationships 237
8.8.1 Sun-earth geometry 238
8.8.2 Yearly variations in sun-earth geometry 238
8.8.3 Declination 239
8.8.4 Cooper model d 239
8.8.5 Burman and Jacquot model ? 240
8.8.6 Spencer model ? 240
8.8.7 Siine and Harrigan model d 240
8.8.8 Day-length 241
8.8.9 Percent daytime 241
8.8.10 Earth-sun distance correction 242
8.8.11 Duffie-Beckman model 242
8.8.12 Spencer distance correction 242
8.8.13 Extraterrestrial solar radiation 243
8.8.14 Clear day solar radiation 243
8.9 Comparisons with standard values 244
8.9.1 Statistical and numerical comparisons 244
8.9.2 Declination comparisons 245
8.9.3 Earth-sun distance comparisons 246
8.9.4 Day-length comparisons 248
8.9.5 Percent daytime comparisons 248
8.9.6 Extraterrestrial radiation comparisons 250
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| id | DE-604.BV009837231 |
| illustrated | Illustrated |
| indexdate | 2024-07-09T17:41:47Z |
| institution | BVB |
| isbn | 0444819401 |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-006514036 |
| oclc_num | 31257522 |
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| owner | DE-12 DE-703 DE-11 |
| owner_facet | DE-12 DE-703 DE-11 |
| physical | XXIII, 278 S. graph. Darst. |
| publishDate | 1994 |
| publishDateSearch | 1994 |
| publishDateSort | 1994 |
| publisher | Elsevier |
| record_format | marc |
| series | Developments in atmospheric science |
| series2 | Developments in atmospheric science |
| spelling | Burman, R. Verfasser aut Evaporation, evapotranspiration and climatic data R. Burman ; L. O. Pochop Amsterdam u.a. Elsevier 1994 XXIII, 278 S. graph. Darst. txt rdacontent n rdamedia nc rdacarrier Developments in atmospheric science 22 Crops and climate Evaporation (Meteorology) Evapotranspiration Evapotranspiration (DE-588)4219549-4 gnd rswk-swf Verdunstung (DE-588)4187636-2 gnd rswk-swf Klima (DE-588)4031170-3 gnd rswk-swf Verdunstung (DE-588)4187636-2 s Klima (DE-588)4031170-3 s DE-604 Evapotranspiration (DE-588)4219549-4 s Pochop, Larry O. Verfasser aut Developments in atmospheric science 22 (DE-604)BV001891242 22 HBZ Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=006514036&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Burman, R. Pochop, Larry O. Evaporation, evapotranspiration and climatic data Developments in atmospheric science Crops and climate Evaporation (Meteorology) Evapotranspiration Evapotranspiration (DE-588)4219549-4 gnd Verdunstung (DE-588)4187636-2 gnd Klima (DE-588)4031170-3 gnd |
| subject_GND | (DE-588)4219549-4 (DE-588)4187636-2 (DE-588)4031170-3 |
| title | Evaporation, evapotranspiration and climatic data |
| title_auth | Evaporation, evapotranspiration and climatic data |
| title_exact_search | Evaporation, evapotranspiration and climatic data |
| title_full | Evaporation, evapotranspiration and climatic data R. Burman ; L. O. Pochop |
| title_fullStr | Evaporation, evapotranspiration and climatic data R. Burman ; L. O. Pochop |
| title_full_unstemmed | Evaporation, evapotranspiration and climatic data R. Burman ; L. O. Pochop |
| title_short | Evaporation, evapotranspiration and climatic data |
| title_sort | evaporation evapotranspiration and climatic data |
| topic | Crops and climate Evaporation (Meteorology) Evapotranspiration Evapotranspiration (DE-588)4219549-4 gnd Verdunstung (DE-588)4187636-2 gnd Klima (DE-588)4031170-3 gnd |
| topic_facet | Crops and climate Evaporation (Meteorology) Evapotranspiration Verdunstung Klima |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=006514036&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
| volume_link | (DE-604)BV001891242 |
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