Verfügbarkeit: Remote sensing of vegetation

Remote sensing of vegetation: principles, techniques, and applications

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Bibliographische Detailangaben
Hauptverfasser:	Jones, Hamlyn G. (VerfasserIn), Vaughan, Robin A. 1940- (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Oxford [u.a.] Oxford Univ. Press 2010
Ausgabe:	1. publ.
Schlagworte:	Ecosystem management > Remote sensing Plants > Remote sensing Vegetation and climate > Remote sensing Pflanzenökologie Fernerkundung Ökosystem
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	XXVI, 353 Seiten, [6] Blätter Ill., graph. Darst., Kt.
ISBN:	9780199207794

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adam_text	Table of contents Preface v Acknowledgements vii Symbols xvii Abbreviations and acronyms xxiii 1 Introduction 1 1.1 History 1 1.2 Interpretation of the term remote sensing 2 1.3 Plant physiology and remote sensing 3 1.4 Some important considerations for the future 3 1.4.1 Continuity 3 1.4.2 Data availability 4 1.5 The structure of this book 5 ô Websites 6 2 Basics of radiation physics for remote sensing of vegetation 7 2.1 Introduction 7 2.2 Radiation characteristics 7 2.2.1 Electromagnetic radiation 8 2.2.2 Electromagnetic spectrum 8 2.2.3 Electromagnetic energy 10 2.2.4 Sources of radiation 10 2.2.5 Radiometrie terms and definitions 11 2.3 Interaction of radiation with matter 13 2.3.1 Cenerai principles 13 2.3.2 Propagation of radiation - interaction with the atmosphere 13 2.3.3 Interactions with target surfaces 19 2.4 Thermal radiation 22 2.5 Microwave radiation 23 2.6 Diffraction and interference 25 2.6.1 Diffraction 26 2.6.2 Interference 27 2.6.3 Bragg scattering 28 2.7 The radiation environment 28 2.7.1 Shortwave radiation 28 2.7.2 Longwave radiation 31 2.7.3 Radiation and the global energy budget 31 2.7.4 Microwave radiation 34 ■ Further reading 34 χ Table of contents © Websites 34 θ Sample problems 34 3 Radiative properties of vegetation, soils, and water 36 3.1 Optical region 37 3.1.1 Leaf radiative properties 37 3.1.2 Radiative properties of soil and water 45 3.1.3 Radiative properties of canopies 47 3.1.4 Measurement of leaf-angle distributions 58 3.2 Thermal region 58 3.2.1 Emissivities of canopy components 59 3.2.2 Emissivities of canopies 61 3.3 Microwave region 63 3.3.1 Microwave emissività 63 3.3.2 Microwave backscatter 64 3.3.3 Advantages of microwaves fórremete sensing of vegetation 66 3.4 Other types of radiation 67 ■ Further reading 67 © Websites 67 θ Sample problems 67 4 Plant and canopy function 68 4.1 Introduction 68 4.2 Plant anatomy and function 68 4.2.1 Photosynthesis and respiration 70 4.2.2 Water relations, evaporation, and water loss 73 4.2.3 Other exchange processes (e.g. momentum and pollutants) 75 4.3 Principles of mass and energy transfer between vegetation and atmosphere 76 4.3.1 Cenerai transport equation 76 4.3.2 Diffusion 76 4.3.3 Convection and turbulent transfer 77 4.3.4 Resistances and conductances 78 4.3.5 Units and analogies between different transfer processes 78 4.4 Canopy-atmosphere exchanges 79 4.4.1 Energy balance - steady state 79 4.4.2 Sensible heat flux 81 4.4.3 Evaporation 81 4.4.4 Penman-Monteith combination equation 82 4.4.5 Canopy models 83 4.4.6 Non-steady state 84 Table of contents xi 4.5 Measurement of fluxes 87 4.5. 1 Cuvette and chamber approaches 87 4.5.2 Micrometeorological and meteorological methods 88 M Further reading 91 θ Sample problems 91 5 Earth observation systems 92 5.1 Principles of system design 93 5././ Pictures and pixels 93 5.7.2 Resolution 93 5.1.3 Principles of measurement 94 5.2 Sensing platforms 95 5.2.7 Static and within-fìeld platforms 95 5.2.2 Aircraft 95 5.2.3 Satellites and orbits 96 5.2.4 The ground segment 99 5.3 Sensing instruments 99 5.3.7 Cameras 100 5.3.2 Radiometers 100 5.3.3 Line scanners 101 5.4 What is in a pixel? 104 5.5 Using microwaves 107 5.5.7 Passive microwave sensing 108 5.5.2 Active microwave sensing 109 5.6 Laser scanning and Lidar 113 5.7 Observing system principles 116 5.77 Sensing logistics 116 5.72 User requirements 116 5.7.3 Data limitations 117 5.8 Current systems 118 5.8.7 Low-resolution systems 119 5.8.2 Medium-resolution systems 120 5.83 High-resolution systems 121 5.8.4 Smallsats 121 5.8.5 Microwave systems 123 5.8.6 Laser systems 124 5.8.7 Airborne systems 124 5.9 Data reception 125 ■I Further reading 126 5 Websites 126 6 Sample problems 126 xii Table of contents 6 Preparation and manipulation of optical data 128 6.1 Introduction 128 6.2 Image correction 129 6.2.1 Geometric correction 129 6.2.2 Radiometrie correction 134 6.2.3 Thermal data and estimation of surface temperature 140 6.3 Image display 142 6.3.1 Resampling/windowing 142 6.3.2 Density slicing 142 6.3.3 Colour composites 143 6.3.4 Other forms of display 144 6.4 Image enhancement 144 6.47 Contrast stretching 144 6.4.2 Spectral indices 145 6.4.3 Spatial filtering techniques 146 6.4.4 Principal components 147 6.4.5 Intensity, hue, and saturation transform 149 6.4.6 Data fusion 150 6.4.7 Data assimilation 151 6.5 Image interpretation 152 6.5.1 Classification 152 6.5.2 Spatial and texture analysis 152 6.5.3 Object detection and analysis 156 6.5.4 Scale and scaling up 156 6.5.5 The multiconcept 157 6.6 Radar image interpretation 158 6.6.1 Radar geometry 158 6.6.2 Speckle 159 6.6.3 Types of radar imagery 159 6.6.4 Interferometry 160 6.6.5 Image interpretation 160 Ш Further reading 161 © Websites 161 θ Sample problems 161 7 Use of spectral information for sensing vegetation 163 properties and for image classification 7.1 Introduction to multispectral and hyperspectral 163 sensing and imaging 7.2 Spectral indices 164 7.2.1 Vegetation indices and vegetation descriptors 165 7.2.2 Narrowband indices 177 Table of contents xiii 7.2.3 Use of multiple wavelengths and derivative spectroscopy 178 7.2.4 Water indices 182 7.3 Some other approaches to the estimation of vegetation cover 184 7.3.1 Estimation of fractional vegetation cover using Lidar 184 7.3.2 Microwave vegetation indices 184 7.4 Image classification 184 7.4.1 Scatter diagrams 186 7.4.2 Basic classification approaches 187 7.4.3 Mixed pixels 192 Ш Further reading 194 © Websites 194 θ Sample problems 194 8 Multiangular sensing of vegetation structure and modelling of radiation-transfer properties 196 8.1 Introduction to multiangular sensing 196 8.1.1 Why use multiangular measurement? 196 8.1.2 The basis for angular variation in reflectance 198 8.1.3 Bidirectional reflectance definitions 199 8.1.4 Principle of reciprocity 200 8. /.5 Extraction of canopy structure from BRF information 201 8.2 Measurement of the BRF 202 8.2.1 Basic approaches 202 8.2.2 Some other practical considerations in BRF measurement 204 8.3 Radiation transfer and canopy reflectance models 205 8.3.1 Turbid-medium models 206 8.3.2 Geometrical-optical models 207 8.3.3 Monte-Carlo ray-tracing and radiosity models 208 8.3.4 Kernel-driven and empirical models 210 8.3.5 Treatment of heterogeneous canopies 210 8.3.6 Spectral invariants 211 8.4 Canopy generators 211 8.4.1 POV-Ray 212 8.4.2 L-systems 212 8.4.3 Y-plant 213 8.5 Model inversion 213 8.5.7 Principles 213 8.5.2 Direct or numerical inversion 215 8.5.3 Look-up tables (LUTs) 215 8.5.4 Machine intelligence 216 8.5.5 Further aspects of inversion 216 8.5.6 Radiative model comparisons 217 xiv Table of contents 8.6 In-field estimation of canopy biophysical parameters 219 8.6.1 Direct measurement 219 8.6.2 Within-canopy indirect methods 219 8.6.3 Above-canopy indirect methods 222 ■ Further reading 225 © Websites 225 θ Sample problems 225 9 Remote sensing of canopy mass and heat exchanges 226 9.1 Remote estimation of energy-balance components and mass fluxes 226 9.2 Radiation fluxes and surface temperature 227 9.2.1 Shortwave radiation 227 9.2.2 Longwave radiation and surface-temperature estimation 228 9.2.3 Net radiation 229 9.3 Soil heat flux 230 9.4 Sensible heat flux 230 9.4.1 Empirical approaches 231 9.4.2 Endpoints with known flux conditions 231 9.5 Evaporation 231 9.5.1 Estimation as the residual term in the energy balance 232 9.5.2 Estimation from net radiation 233 9.5.3 Estimation from the relationship between surface temperature and evaporation 234 9.5.4 Data assimilation and the use of SVAT models 236 3.5.5 Conversion from instantaneous to 24-h and seasonal values 237 9.5.6 Conclusions on estimation of Ł 237 9.6 Thermal sensing for the detection of water-deficit stress and stomatal closure 238 9.7 C02 fluxes and primary production 241 9.7.1 Photosynthesis estimation from radiation interception 242 9.7.2 Photosynthesis estimation from xanthophyll epoxidation 244 9.7.3 Photosynthesis estimation from chlorophyll fluorescence 244 9.8 Conclusion 248 ■ Further reading 248 © Websites 248 θ Sample problems 248 10 Sampling, error, and scaling 249 10.1 Introduction 249 10.2 Basic sampling theory 250 10.2.1 Data description and variation 250 Table of contents xv 10.2.2 Tests and power 251 10.2.3 Propagation of error 253 10.3 Field measurements and collection of other reference data 253 /0.17 Sampling 254 10.3.2 Choice of sample units and sampling strategy 256 10.3.3 Sampling for reference or training data 257 10.4 Scaling considerations 259 70.4 7 Up-scaling (aggregation) 260 10.4.2 Down-scaling (disaggregation) 260 10.4.3 Problems of non-linearity 260 10.5 Calibration and validation 263 10.6 Uncertainty in spatial data classification accuracy 266 10.6.1 The error matrix 266 10.6.2 Fuzzy classification and assessment 269 10.6.3 Sources of error in reference data 269 Ш Further reading 269 © Websites 270 Q Sample problems 270 11 Integrated applications 271 11.1 Introduction 271 n.2 Detection and diagnosis of plant stress 271 77.2 7 Spectral reflectance imaging and use of spectral vegetation indices 273 71.2.2 Thermal sensing of water-deficit stress 275 11.2.3 Fluorescence and fluorescence imaging 276 11.2.4 Multiangular sensing, 3D imaging, and Lidar 279 11.2.5 Multisensor imaging for diagnosis 279 11.3 Precision agriculture and crop management 282 77.5.7 Cropping inventories 284 11.3.2 Yield estimation/prediction 286 11.3.3 Water management 287 11.3.4 Nutrient management, pests, and diseases 288 11.3.5 Practical considerations 290 11.4 Ecosystems management 291 77.4.7 Landcover classification and mapping 291 11.4.2 Landscape ecology 292 11.4.3 Biodiversity estimation 293 11.4.4 Other ecological applications 296 11.5 Forestry 297 77.5.7 Mapping, monitoring, and management 298 11.5.2 Canopy height, biomass, and 3D sensing 299 11.5.3 Practical considerations 302 xvi Table of contents 11.6 Wildfires and biomass burning 303 11.6.1 Prediction 303 /7.6.2 Monitoring 304 11.6.3 Burnt-area mapping 305 11.6.4 Regeneration monitoring 305 11.6.5 Practical considerations 306 © Websites 306 References 307 Appendices 1 Sundry useful conversions, constants, and properties 332 Units and conversions 332 Conversions between units 333 Conversions between molar and conventional units 333 Physical constants 334 Saturation vapour pressure of water vapour 334 Properties of air 334 Table of molecular masses 334 Diffusivities in air (at 20 °С) 334 Other useful data 334 2 Chronology of earth observation 335 3 Current data suitable for vegetation monitoring 336 Optical and thermal 337 Synthetic Aperture Radar (SAR) 340 Airborne scanners 341 Answers to sample problems 343 Index 347
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discipline	Geowissenschaften Biologie Geographie
edition	1. publ.
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title	Remote sensing of vegetation principles, techniques, and applications
title_auth	Remote sensing of vegetation principles, techniques, and applications
title_exact_search	Remote sensing of vegetation principles, techniques, and applications
title_full	Remote sensing of vegetation principles, techniques, and applications Hamlyn G. Jones ; Robin A. Vaughan
title_fullStr	Remote sensing of vegetation principles, techniques, and applications Hamlyn G. Jones ; Robin A. Vaughan
title_full_unstemmed	Remote sensing of vegetation principles, techniques, and applications Hamlyn G. Jones ; Robin A. Vaughan
title_short	Remote sensing of vegetation
title_sort	remote sensing of vegetation principles techniques and applications
title_sub	principles, techniques, and applications
topic	Ecosystem management Remote sensing Plants Remote sensing Vegetation and climate Remote sensing Pflanzenökologie (DE-588)4045575-0 gnd Fernerkundung (DE-588)4016796-3 gnd Ökosystem (DE-588)4043216-6 gnd
topic_facet	Ecosystem management Remote sensing Plants Remote sensing Vegetation and climate Remote sensing Pflanzenökologie Fernerkundung Ökosystem
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