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Handbook of agricultural geophysics:

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Format:	Buch
Sprache:	English
Veröffentlicht:	Boca Raton [u.a.] CRC Press 2008
Schlagworte:	Agriculture - Innovations Agriculture - Innovations - Guides, manuels, etc Géophysique Géophysique - Guides, manuels, etc Landwirtschaft Geophysik Umweltgeophysik Aufsatzsammlung
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	XXII, 410 S. Ill., graph. Darst.
ISBN:	0849337283 9780849337284

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245	1	0	\|a Handbook of agricultural geophysics \|c ed. by Barry J. Allred ...
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Datensatz im Suchindex

_version_	1804135766232662016
adam_text	Contents Preface............................................................................................................................................xiii Editors..............................................................................................................................................xv Contributors...................................................................................................................................xvii List of Important Agricultural and Geophysical Quantities...........................................................xxi SECTION I Agricultural Geophysics Overview Chapter 1 General Considerations for Geophysical Methods Applied to Agriculture.................3 Barry J, Allred, M. Reza Ehsani, and Jeffrey J. Daniels Chapter 2 Past, Present, and Future Trends of Soil Electrical Conductivity Measurement Using Geophysical Methods.......................................................................................17 Dennis L. Corwin Chapter 3 History of Ground-Penetrating Radar Applications in Agriculture...........................45 M. E. Collins SECTION II Agricultural Geophysics Measurements and Methods Chapter 4 Theoretical Insight on the Measurement of Soil Electrical Conductivity..................59 Dennis L. Corwin, Scott M. Lesch, and Hamid J. Farahani Chapters Resistivity Methods....................................................................................................85 Barry J. Allred, Douglas Groom, M. Reza Ehsani, and Jeffrey J. Daniels Chapter 6 Electromagnetic Induction Methods........................................................................109 Jeffrey J. Daniels, Mark Vendl, M. Reza Ehsani, and Barry J. Allred Chapter 7 Ground-Penetrating Radar Methods (GPR).............................................................129 Jeffrey Daniels, M. Reza Ehsani, and Barry J. Allred Chapter 8 Magnetometry, Self-Potential, and Seismic: Additional Geophysical Methods Having Potentially Significant Future Use in Agriculture.......................................147 Barry J. Allred, Michael Rogers, M. Reza Ehsani, and Jeffrey J. Daniels IX x Contents SECTION III The Global Positioning System and Geographic Information Systems Chapter 9 Integration of the Global Positioning System (GPS) into Agricultural Geophysics...............................................................................................................165 Dorota A. Grejner-Brzezinska Chapter 10 Integration of Geographic Information Systems (GISs) with Agricultural Geophysics...............................................................................................................199 Carolyn J. Merry SECTION IV Resistivity and Electromagnetic Induction Case Histories Chapter 11 Apparent Electrical Conductivity for Delineating Spatial Variability in Soil Properties.................................................................................................................211 Brian J. Wienhold and John W. Doran Chapter 12 Dependence of Soil Apparent Electrical Conductivity (ECa) upon Soil Texture and Ignition Loss at Various Depths in Two Morainic Loam Soils in Southeast Norway.....................................................................................................................217 Audun Korsaeth Chapter 13 Relations between a Commercial Soil Survey Map Based on Soil Apparent Electrical Conductivity (ECa) and Measured Soil Properties on a Morainic Soil in Southeast Norway................................................................................................225 Audun Korsaeth, Hugh Riley, Sigrun H. Kvœrn0, and Live S. Vestgarden Chapter 14 Mapping Pesticide Partition Coefficients By Electromagnetic Induction................233 Dan B. Jaynes Chapter 15 Can Apparent Soil Electrical Conductivity Be Used to Map Soil-Herbicide Partition Coefficients? A Case Study in Three Colorado Fields..............................241 Dale L. Shaner, Hamid J. Farahani, Gerald W. Buchleiter, and Mary K. Brodahl Chapter 16 Delineating Site-Specific Management Units Using Geospatial ECa Measurements...........................................................................................................247 Dennis L. Corwin, Scott M. Lesch, Peter J. Shouse, Richard Soppe, and James E. Ayars Contents xi Chapter 17 Mapping of Soil Drainage Classes Using Topographical Data and Soil Electrical Conductivity.............................................................................................255 A. N. Kravchenko Chapter 18 Productivity Zones Based on Bulk Soil Electrical Conductivity: Applications for Dryland Agriculture and Research.....................................................................263 Cinthia K. Johnson, Rhae A. Drijber, Brian J. Wienhold, and John W. Doran Chapter 19 Four-Year Summary of the Use of Soil Conductivity as a Measure of Soil and Crop Status...............................................................................................................273 Roger A. Eigenberg, John A. Nienaber, Bryan L. Woodbury, and Richard B. Ferguson Chapter 20 Soil ECa Mapping Helps Establish Research Plots at a New Research and Extension Center......................................................................................................281 Hamid J. Farahani, David A. Claypool, R. P. Kelli Belden, Larry C. Munn, and Robert A. Flynn Chapter 21 Mapping Golf-Course Features with Electromagnetic Induction, with Examples from Dublin, Ohio...................................................................................287 Richard S. Taylor Chapter 22 Comparison of Geoelectrical Instruments in Different Soilscapes.........................295 Robin Gebbers and Erika Liick SECTION V Ground-Penetrating Radar Case Histories Chapter 23 GPR Surveys across a Prototype Surface Barrier to Determine Temporal and Spatial Variations in Soil Moisture Content.............................................................305 William P. Clement and Andy L. Ward Chapter 24 Soil Water Content Measurement Using the Ground-Penetrating Radar Surface Reflectivity Method..................................................................................................317 J. David Redman Chapter 25 Assessing Spatial and Temporal Soil Water Content Variation with GPR..............323 Bernd Lennartz, Britta Schmalz, Derk Wachsmuth, and Heiner Stoffregen Chapter 26 Ground-Penetrating Radar Mapping of Near-Surface Preferential Flow................337 Robert S. Freeland xii Contents Chapter 27 An Application of Ground-Penetrating Radar in Golf Course Management..........345 R. Boniak, S.-K. Chong, S. J. Indorante, andJ. A. Doolittle Chapter 28 Ground-Penetrating Radar Investigation of a Golf Course Green: Computer Processing and Field Survey Setup Considerations.................................................353 Barry J. Allred, Edward L. McCoy, and J. David Redman Chapter 29 Agricultural Drainage Pipe Detection Using Ground-Penetrating Radar...............363 Barry J. Allred and Jeffrey J. Daniels Chapter 30 Using Ground-Penetrating Radar to Estimate Tree Root Mass: Comparing Results from Two Florida Surveys...........................................................................375 John R. Butnor, Daniel B. Stover, Brian E. Roth, Kurt H. Johnsen, Frank P. Day, and Daniel Mclnnis Glossary........................................................................................................................................383 Index..............................................................................................................................................393 Index Note: Page numbers in bold refer to figures or tables. AC. See Alternating electric current (AC) Accuracy of Global Positioning System, 191-192 Acoustic waves, 161 Active methods, 5 Active microwaves (AM), 17, 18 Adobe Systems, Inc., 342 AEM. See Airborne electromagnetic (AEM) systems Aerial photogrammetry, 207 AGCF. See Automatic Gain Control Function (AGCF) AgGPS Parallel Swathing Option, 63 Agricultural applications contamination transport and GPR, 346 cover crop, 276, 277-278 directed soil sampling, 32-34 electrical conductivity, 273 electromagnetic induction, 19 environmental and hydrological disciplines, 107 and GPR, 47 loop-loop systems, 118 magnetometry methods, 151-152 no-cover, all treatments, 278 organic and commercial amendments, 276 resistivity methods, 106-107 self-potential methods, 155 soil spatial variability, 32 use of lime, 214 Agricultural drainage pipe, 363, 373 Agricultural geophysics applications of, 9,10 computer software/systems, 14 defined, 383 and GPS, 166, 194-196 ground surface trends, 5 mapping concepts, 200 outlook, 13-14 studies conducted by McCorkle, 12 use of GIS, 9 Agricultural research activity/techniques apparent soil electrical conductivity, 281-282 gamma ray attenuation, 17, 24-25 manure/compost application comparison, 274 soil heterogeneity, 263-264 soil moisture measurement, 4 time domain reflectometry, 17-18 tree root mass, 375-376 Agricultural Research Service, 46 Agricultural test plots, 104-105 Agriculture, 5, 199 Agriculture products and management. 47, 51 Agrigeophysics, 14 Agronomic research, 263-264, 270, 273-274 Airborne electromagnetic (AEM) systems, 4, 19, 23 Airborne magnetometers, 4, 148 Alber s equal area projection, 206 Almanac data, 168, 169, 184, 193 Alternating electric current (AC), 95, 98, 112, 153 AM. See Active microwaves (AM) American Golf Foundation, 345 American Wire Gauge (AWG), 154 Ampere, André-Marie, 110 Ampere s law, 110-111, 112 Amplitude, 115, 313-314, 319 Amplitude filtering. 122 Amp meter, 111 AMT. See Audio magnetotelluric (AMT) method Anaerobic conditions, 345 Analogous regression performed, 236-237 Analysis of variance (ANOV). 227. 267 Anisotropy paradox, 103 Anomalies, 6, 7 ANOV. See Analysis of variance (ANOV) Antenna frequency, 138-139, 364. 365-366, 368 Antenna phase center location, 174 Antenna Reference Point (ARP), 174 Antenna ringing. 136-137 Antennas, 135-137, 347 Anthropogenic properties, 28,48 Anti-Spoofing (AS), 170, 177, 194 Apparent conductivity by EMI, 287-288 Apparent electrical conductivity (ECa) agricultural research techniques, 281-282 analogous regression performed, 236-237 basic principles and theory. 66-68 bulk density, 18 bulk volume of soil, 10 case studies, 74-77 cation exchange capacity, 32. 227, 234 clay content, 268-269 contour map. 235 correlation coefficient. 11. 72-73, 220. 221 crop yield. 248, 268-269 data analysis, 101-102, 103.219 defined. 383 differential GPS, 219. 227 -directed soil sampling. 28-30, 32-34, 68, 69-71, 70, 249-250, 253-254 electrical resistivity, 21-23 electric potential. 93 electromagnetic induction, 23-24. 217. 225 electromagnetic methods, 242 EM-EC, device. 218-219. 227 farm field map, 11-12 field measurements, 64. 278-279 field observations vs. soil properties, 67 herbicides, 241-242 herbicide-soil binding, 242-243 historial perspective, 18-19 393 394 Index integrates multiple soil properties, 268 locations, 218,226 mapping, 214, 234, 264, 265-267 maps and plots, 62, 104, 242, 275-276 measured with EMI, 106, 211, 234 measurement and soil samples, 242 measurement of water content, 24-26 measurement range. 236 measurements, 219, 227 methods, 211-212, 282-283 vs. microbial-scale measurements, 269 misconceptions surrounding, 64-66 mobile measurement equipment, 28-29, 296 mobilization of, 19 observed associations to, 27-28 organic matter, 67 physicochemical nature, 30 productivity zones, 267, 269-270 results and discussion, 212-214, 220-222, 227-230, 243-245, 284-286 sampling-site scale, 267, 268 Schlumberger array, 94 sensor techniques, 217-218 signal velocity and attenuation use, 18 sites. 242 site-specific nutrient management, 270 soil and field properties, 234 vs. soil edaphic properties, 267-268 soil properties. 64-66, 71-74, 77, 106, 220-222, 247 soil salinity, 19-21, 61-62. 72, 234 soil sampling, 219, 227, 235. 282 soil volumetric water content, 234 spatial variability, 18, 30-32 statistics and data analyses, 227 surveys, 69, 72-73, 248-249, 275-276 time domain reflectometry, 26-27 Wenner array, 22, 100 yield and precipitation relationships, 270 Applied signal voltage, 26 Archie s law, 87 ArcView GIS, 227 Areal resistivity mapping, 94 Argillic and spodic horizons, 46 Argillic horizon, 49,51 ARP. See Antenna Reference Point (ARP) Arrays. 287 Artificial energy, 157 Artificial source methods, 113 AS. See Anti-Spoofing (AS) Atmosphere, 50 Atmospheric delays. 170-172 Atomic clock, 172 Atrazine sorption, 235, 237 Attenuation applied signal voltage, 26 effect of permittivity on, 134 electrical conductivity in bulk soil, 18 and rnagnetometry, 151 seismic waves, 157, 161 wave s amplitude, 310 Attenuation constant. 120 Audio magnetotelluric (AMT) method, 113 Automatic Gain Control Function (AGCF), 355, 358 AWG. See American Wire Gauge (AWG) Azimuthal orientation, 115 Azimuthal rotation data collection, 101 Azimuthal rotation resistivity surveys, 103, 105 B BA. See Bottom of Antenna Mount (BA) Backscattered reflection, 141 Basin- and landscape-scale assessments, 19 Beckum test site, 296, 298 Biases and errors of GPS, 170 Binary models, 207 Biot, Jean Baptiste, 110 Body waves, 156 Borehole magnetometry, 148 Borehole methods, 296, 317 Bornim test site, 296,298 Bottom of Antenna Mount (BA), 174 Box plots, 334 Broadcast ephemeris errors, 172-173, 175, 182 Broadcasting corrections, 185-186 Broadview Water District, California, 34, 74, 76, 248 Bulk density, 18, 32, 66, 106, 249 Bulk soil solution, 91 Bulk solid electrical resistivity value, 5 Bulk volume of soil, 10 C/A. See Coarse-acquisition (C/A) code Calibration curves developed for TDR, 328, 330 Calibration of EMI equipment, 24 California Method, 353-354, 355 Capacitance probes (CPs), 17, 18, 26 Capacitively coupled resistivity, 98-100, 295 Carrier phase, 178, 180,181-182, 185 Cartesian geocentric coordinates, 179, 201 Cation exchange capacity (CEC) correlated with SOM, 230 defined, 384 and ECa, 32, 227, 234 GPR and low, 47 physical and chemical properties of texture, 286 sodium adsorption ratio, 390 soil-applied herbicides, 241 soil EC, map, 286 soil electrical conductivity impact, 7 soil properties, 60 and soil solution, 89-90 soil texture, 300 solid-liquid phase pathway, 67 CGF. See Constant Gain Function (CGF) Chang Hêng, 4 Choke ring antennas, 172 Clay content and EC,, 268-269 electrical conductivity, 234,258 and OM influence, 67 soil properties, 60,91, 212 Claypans, 60,64, 234 Cleveland Museum of Natural History, 161 Index 395 Clock estimation procedure, 174 CMP. See Common midpoint (CMP) method Coachella Valley, 74, 76 Coarse-acquisition (C/A) code, 168,169, 170, 192 Coefficient of variation (CV), 284, 286 Cokriging models, 71 Collection methods, 282-283 Common coordinate systems, 204-206 Common midpoint (CMP) method, 306, 310 Computer-controlled multielectrode systems, 95-96, 100-101 Computers and Electronics in Agriculture (Corwin), 28 Computer software/systems agricultural geophysics, 14 computer-controlled multielectrode systems, 95-96 data input devices, 199 data processing, 340-343, 348 descriptive statistics and regression, 235-236 EKKO Mapper software, 358 ESAP software package, 30, 71, 212, 248-249 geostatistical software package, 258 GIS software, 200, 204, 207, 249 GPR computer-processing procedures, 361 GPS software, 174 Hydrus-2D package, 327 interpretation, 145 mapping software, 149, 196 mathematical models, 124 MINITAB, 219, 227 modeling software, 321 one-dimensional forward modeling approach, 102 postcollection processing, 377 RES2DINV, 105, 297, 299 SAS software, 249 Sensors Software Inc., 355-356 Sigma Scan Pro Image Analysis software, 377 three-dimensional modeling of radar, 51 Conductive/metallic objects, 109 Conductive/semiconductive materials, 127-128 Conductivity data modeling, 71-72 Conductivity value, 5 Constant Gain Function (CGF), 355, 356, 361 Constant separation traversing resistivity survey, 100,101, 106, 107 Contamination transport and GPR, 346 Continuously Operating Reference Stations (CORS), 187, 189-190 Continuous measurement systems, 96—100 Contour maps, 121-122, 124,235 Control Segment, 167, 172-173, 174 Conventional equipment, 95 Correlation coefficient (r) between ECa and soil properties, 72-73,220,221 between ECa and soybean yield, 11 EC, map use, 242 between GPR estimates and root biomass, 50 soil properties, 73, 227-228 spatial EC, patterns, 104 Correlation matrix of soil properties, 76 Corrugated plastic tubing (CPT), 363, 366,368 CORS. See Continuously Operating Reference Stations (CORS) Cost-effective technologies, 264 Cover crop, 276, 277-278 CPs. See Capacitance probes (CPs) CPT. See Corrugated plastic tubing (CPT) Crop patterns, 33 Crop yield apparent electrical conductivity, 268-269 defined, 384 directed soil sampling, 249-250 ECa measurements, 248 factors influencing, 247 field-scale measure, 268 mapping and yield heterogeneity, 268 monitoring data, 73 productivity zones, 263-264 response model development, 251-252 SSCM, 64, 73, 247-248, 249-250 SSMUs, 34, 73 studies relating ECa to, 72, 253,264 Cross-validation, 257, 258-259 Current electrodes, 93 Current flow pathways, 30-32, 66,91-93 Curve matching, 126 CV. See Coefficient of variation (CV) D D Agostino-Pearson test, 236 Data analysis, 101-105,219, 309-314 Database management system, 199-200 Data collection and analysis collection methods, 282-283 common coordinate systems, 204-206 database management system, 199-200 discriminant analysis, 259-260 field measurements, 319-321 field operations, 8-9 finding the optimal offset, 310 geophysical data analysis, 9 geophysical method selection, 7 geostatistical procedures, 257-258 GIS models and modeling, 207-208 GPR measurements, 355, 365 investigation depth/feature resolution issues, 7- link spatial data, 203 mobile instruments, 296 root mass and GPR data, 378-380 seismic methods, 160-161 site conditions influence correlations, 300—301 soil electrical conductivity, 256-257 spatial and biological scales, 267 spatial databases, 206-207 surface methods with raw data, 299 survey protocol, 339—340 wide-offset surveys, 310-314 Data input devices, 199 Data processing, 121-123, 149-151, 340-343.348 Data types, 205-206 DC. See Direct electric current (DC) DCBs. See Differential code biases (DCBs) Delineation, 60,252-254 Delta process, 175 DEM. See Digital Elevation Model (DEM) 396 Index Dense nonaqueous phase liquid (DNAPI.), 145 Department of Transportation (DOT). 187 DepoMtional sand, 60 Depth-distance cross section. 140 Depth of penetration. 22. 120, 138 Depth sections, 104-105 Depth sensitivity. 301 Depth-weighed effect. 225 Depth-weighted nonlinear response of EMI. 24 Design-based sampling, 30 Deterministic conversion model. 72 DGPS. See Differential GPS (DGPS) Dielectric constant (e) discontinuity. 364-365 electromagnetic wave. 130. 323-324 GPR method. 12 material to polari/e. 309 radar reflection coefficient. 370 radar signal velocity. 6 relative. 330 soil volumetric water content. 365 TDR technique. 27 velocity of GPR electromagnetic waves. 324-325 velocity of propagation. 18. 64 WOR GPR. 311-313 Dielectric permittivity, 18. 64 Difference radargrams. 327-328 Differential code biases (DCBs). 174 Differential GPS (DGPS) defined. 387 EC, measurements. 219. 227 geo-referenced data. 299 GPS positioning modes. 190 mathematical models. 166 message format. 184-187 positioning accuracy. 191-192 precise point positioning, 189 real time tracking. 340 relative positioning. 180-182 relativistic propagation error. 172 services. 182-184 Diffraction scattering. 131 Diffusion potential gradients, 153 Digital Elevation Model (DEM). 206 Dipole-dipole array. 94. 95,98-99. 100. 105 Dipole mode. 24 Direct applications, 45-48 Direct contact method. 63 Direct electric current (DC). 95. 112 Direct or indirect applications. 45 Direct soil sampling. 30 Discriminant analysis/geostatistical procedures, 257-258. 259-260 DISCRIM procedure. 257 Dispersion. 157 Dissolved ion mobility. 87. 88. 89 Distance, 8 Distance-dependent biases, 187-188 Division of Geoprobe® Systems. 256 DNAPL. See Dense nonaqueous phase liquid (DNAPL) DOD. See U.S. Department of Defense (DOD) Doppler. 169. 178 DOT. See Department of Transportation (DOT) Drainage classes. 236, 256, 257, 258 Drainage pipe detection, 364 Drainage tiles, 346-347. 349. 350 Drainage water management, 106 Dryland system research. 264 Dualem. Inc.. 19 DUALE.M-2. 19.24,274 Dye experiment, 330 Dynamic factors, 32. 68 Earth borehole magnetometry, 148 electric potential gradients, 6 geographic coordinate system. 204 geophysics studies. 3 GPS receiver clock, 172 GPS satellites, 166-167 gravitational field, 4 magnetic field, 6, 147-148, 149 natural EM field, 113 operational constellation, 167-168 seismic waves. 155-156, 157 surface can be modeled. 124-125 Zeeman-effect, 148 Earth-Centered-Earth-Fixed (ECEF), 168 Earthquakes. 4, 155, 161 Earth Resistivity Meter (ERM), 299-300 ECa. See Apparent electrical conductivity (ECU) EC.. See Electrical conductivity (resistivity) (ECe) ECEF. See Earth-Centered-Earth-Fixed (ECEF) Edaphic/anthropogenic, 34. 35 Edaphic mapping, 28, 33 Eddy currents, 109 EKKO Mapper software, 358 Elastic (seismic) waves. 6, 161 Electrical conductance, 20, 32,61 Electrical conductivity (EC). See also Ohm s Law; Soil electrical conductivity agricultural uses, 273 amplitude decay signals, 115 bulk density, 249 clay content, 234 data analysis products, 103 depth of penetration, 120 depth sections. 104-105 depth-weighed effect, 225 drainage classes, 258 electrical current. 86 field-scale, 255 log-transformed. 219 measurements, 235 and molar concentrations of ions, 61 pure solution, 60 saturation percentage, 249 soil pathways, 222, 230 soil salinity measurement, 20 soil volumetric water content, 368 standard soil physicochemical measurement, 59 Electrical conductivity (resistivity) (ECe), 5-6, 7, 10, 18 Electrical current (/ ) Index 397 depth of penetration, 22 electrical conductivity, 86 electrical resistivity, 21, 62 EM methods, 110 four-electrode contact methods, 60 polarization, 133 resistivity method, 5, 85 thermal noise, 173 Electrical resistivity (ER) agricultural research techniques, 17 apparent electrical conductivity, 21-23, 69 electrical current, 62 vs. EMI, 63 and geospatial measurement of EC, 59 Electric current (/) antennas, 136 capacitively coupled systems, 98, 99 defined, 86, 385 dissolved ions and, 87, 89 electrode array, 100 electrokinetic, 153 field resistivity surveys, 95 four-electrode array, 93 hemispherical shell, 92 and magnetic field, 110—111 noise, 94 parallel resistors, 91 resistivity, 96 sandy/silty soil capacity, 88 self-potential methods, 6 soil material transfers, 86 transmitted electrolytically through soil, 90 Veris 3100 Soil EC Mapping System, 97 Electric dipole, 117 Electric potential, 92-93, 95, 152. 153, 160, 385 Electric potential gradients, 6 Electrochemical, 153 Electrode arrays, 93-95, 100-101 Electrode configuration, 296 Electrodes at soil surface, 22 Electrokinetic, 153, 155 Electrolytic conductivity, 61 Electromagnetic (EM) methods arrays used, 287 basic principles, 110-113 data preparation and processing, 121-123 depth of penetration, 120 ECa measurements, 242 vs. EMI, 23 field procedures, 118-119 forward modeling, 124—126 geophysical technique, 45 geophysical techniques, 113-118 and GPR comparison, 47 GPR surface reflectivity, 317 incorporates HCP and PRP arrays, 292-294 interference effects, 120-121 interpretation, 123-124 inverse modeling, 126-127 locate conductive/semiconductive materials, 127-128 locating conductive/metallic objects, 109 measurements profile, 122-123 mode of sensor transport, 119 properties/hydrological parameters, 305-306 rely on EM source, 17-18 station spacing, 119-120 theory and laws, 112-113 velocity, 309. 311-312, 314 visual interpretation, 124 Electromagnetic energy travel, 130 Electromagnetic field (primary field), 5-6, 109. 113 Electromagnetic induction (EMI) active methods, 5 agricultural applications, 19 agricultural research techniques, 17 agronomic effectiveness/environmental consequences, 273-274 apparent conductivity by EMI, 287-288 apparent electrical conductivity, 23-24, 106. 217. 225. 234 bulk soil volumetric water content. 12 conductivity meter, 29 defined, 385 electrical resistivity, 63 EM methods, 23 employs lower-frequency signals, 18 galvanic contact resistivity, 301 geoelectric instruments, 295 geophysical methods, 3, 4, 5, 13 and geospatial measurement of EC, 59 golf-course green model, 289-290 incorporates HCP and PRP arrays. 292-294 mapping, 287 measurement of soil ECa, 62.63 mobile measurement equipment, 28-29 mobilization of. 21 noncontact measure soil EC. 60 resolution of measurement, 288-289 sensors, 273 soil-plant systems. 35 soil salinity, 10, 23 survey examples, 290-292 surveys for ECa, 69 technique for mapping ECa, 287 vs. GCR methods, 301 Electromagnetic radio energy (radar) pulse, 6, 354-355. 364, 366 Electromagnetic wave dielectric constant, 130, 323-324 free electrons, 170 GPR amd TDR principles, 26 permittivity, 130-131 polarization, 133 propagation velocity of GPR, 324 reflection times, 328 scattering electromagnetic energy. 130 TDR technique, 27 tomographic procedures. 323 transmit antenna, 135-136 and travel time, 134 ELF. See Extremely low frequency (ELF) Ellipsoid of revolution, 115 EM. See Electromagnetic (EM) methods EM-ECS device, 218-219, 227 EM-EC, technique, 217-218, 222, 225-226, 230 EM energy (flux). 113 398 Index EM field (secondary field) amplitude and orientation, 115 current Row direction, 109 transmitting and receiving. 116-118 vector. 113, 114 EMI. See Electromagnetic induction (EMI) Energy input pulse, 136 signal trace, 355. 364 time-varying EM energy, 112 trace, 139 transmitted into soil, 325 Engineering applications, 189 Environmental and hydrological disciplines, 107 Environmental Systems Research Institute, Inc., 257 Eôtvos, Roland von. 4 Ephemeris data, 168. 169. 184 Epsilon process. 175 Equipment calibration of EMI equipment, 24 EM-EC, device, 218-219, 227 EMI measurement instruments, 274 EM methods, 113-118 fixed-array electrical resistivity. 248 fluxgate and optically pumped magnetometers, 148 gas chromatograph w/mass spectrophotometer, 242 geophysical instruments, 47, 123-124 GPS instrumentation. 192-194 gradiometers. 6, 148 kinematic soil mapping, 295, 296-299 magnetometer, 6 passive remote sensing device, 148 seismic, 160-161 seismoscope, 4 self-potential methods, 153-154 setup, 7-8, 96-100. 153 soil conductivity, 274-275 surveying instruments, 207 thermocouple temperature probes, 274 vehicle-mounted GPR, 318 ER. See Electrical resistivity (ER) ERDAS, 267 ERM. See Earth Resistivity Meter (ERM) Error sources. 166, 170, 183, 189, 269 ESAP software package, 30, 71. 212, 248-249 ESP. See Exchangeable sodium percentage (ESP) ESRI ArcGIS 9.0,283 ESRI ArcMap 9, 343 ESRI ArcView3.3, 249 Evapotranspiration-associated losses, 87 Exchangeable sodium percentage (ESP), 33 Experimental setup. 325-326 Experiments. 4 Exploratory statistical analyses, 250-251 Extremely low frequency (ELF), 113 Farm equipment technology, 10-11 Farm management, 270-271 Farm-Scale Intensive Cropping Study (FICS), 264-265, 267, 269-270 FDTD. See Finite difference time domain (FDTD) Feature resolution (detection), 8 Federal Aviation Administration (FAA), 183, 184 FICS. See Farm-Scale Intensive Cropping Study (FICS) Field- and landscape-scale issues, 34-35 Field and landscape scales, 59 Field-applied pesticides, 233 Field data collection modes, 100-101 Field measurements apparent electrical conductivity, 64, 68, 278-279 data collection and analysis, 319-321 geospatial measurements of ECa, 64 ground-penetrating radar methods, 319-321 Field operations, 8-9, 274 Field principles, 149 Field procedures EM methods, 118-119 geophysical surveys, 137-138 GPR methods, 137-138 self-potential methods, 154-155 Field resistivity surveys, 95 Field-scale agronomic research, 263-264 crop yield, 268 ECa-directed soil sampling, 69—71 electrical conductivity, 255 soil salinity, 19, 27 volumetric water estimate, 48 yield data integrated by ECa, 269 Field sensor measurements, 119 Field zones, 11-12 Filtering and amplification, 139 Final orbits, 173 Finite difference time domain (FDTD), 321 Finite impulse response filter (FIR) method, 377 FIR. See Finite impulse response filter (FIR) method Fisher s least significant difference (LSD), 227 Fixed-array electrical resistivity, 248 Fixed-mode antenna arrangement, 137 Fixed offset (FO) method, 325 Florida Cooperative Soil Survey Program, 45,46 Flux-density, 111 Fluxgate magnetometers, 148, 149 FO. See Fixed offset (FO) method Forward modeling, 124-126 Four-electrode array, 85, 93, 101 Four-electrode contact methods, 60 Fourier Transform, 115 Fox, Robert, 4 Free electrons, 170 Frequency, 161, 313 Frequency domain system, 113, 116 Fresnel, Augustin Jean, 131 FAA. See Federal Aviation Administration (FAA) Fan-pattern seismic refraction surveys, 4 Faraday, Michael, 110,111 Faraday s law, 112 G. See Geometric factor (G) Galileo, 186, 194 Index 399 Galvanic contact resistivity (GCR), 96-98, 295, 301 Galvanic contact systems, 99, 104 Gamma ray attenuation, 17, 24-25 Garmin WAAS products, 195-196 Gas chromatograph w/mass spectrophotometer, 242 GCR. See Galvanic contact resistivity (GCR) GE HealthCare, 341 Generalized universal kriging models, 71 Geo-aligned data layers, 267 Geocarta SA, 98, 299 Geodetic surveys, 206 Geoelectric instruments, 295, 296-299, 299-301 Geographic coordinate system, 204 Geographic data, 201 Geographic information system (GIS) common coordinate systems, 204—206 components of, 199-200 computer software/systems, 200, 204, 207, 249 denned,386 farm equipment technology, 10-11 geo-aligned data layers, 267 geophysical data analysis, 9 and GPS, 166 introduction, 199 mapping concepts, 200-203 models and modeling, 207-208 nongeophysical spatial data, 207 sampling strategies, 35 spatial analysis, 249 spatial databases, 206-207 three-dimensional modeling of radar, 51 GeoLog, 296 Geometric factor (G), 93 Geometries, Inc., 99 Geometry, 174-175 Geonics EM38, 19, 24, 217, 218,222 Geonics Limited, Inc., 19, 120, 212, 235, 274, 296-298, 300 Geophones, 7, 160, 386 Geophysical data, 9,13-14, 126-127 Geophysical measurement, 8,9, 118-119, 124-126, 207 Geophysical methods and agriculture, 5, 199 data collection and analysis, 7 electromagnetic induction, 3,4, 5, 13 and GPS, 195 gravity, 3 ground-penetrating radar, 3,4,5, 13 induced polarization, 3,13 magnetometry, 3,5 nuclear magnetic resonance, 3,13 passive vs. active, 5 potential agricultural uses, 9-13 radioactivity, 3 resistivity, 3,4, 5, 13 seismic, 3,4, 5 self-potential, 3,4, 5 Geophysical surveys depth of penetration, 120, 138 field procedures, 137-138 hydrological investigation, 5 interference effects, 120-121 and investigation depth of interest. 4-5 multisensor systems, 13 near-surface seismic reflection, 151 planning stages, 7 precision agriculture role, 11 station interval, 8 station spacing, 119-120 Geophysical Survey Systems, Inc., 343, 347, 348, 376 Geophysical techniques agricultural research techniques, 24 compilation of literature measuring ECa, 65 current status of, 28 EM method and equipment, 45, 113-118 future trends and needs, 34-36 geospatial measurement of EC, 59 GPR subsurface/near-surface use, 345-346 GPS mapping projects, 194, 195 hyperspectral imagery, 35 karst environments, 49 measurement of soil ECa, 62 resistivity method, 85 types of, 45 used in agricultural research, 17-18 Geophysics, 3,4, 17, 386 Geo-referenced data, 35, 299 Geoscan s Geoplot, 149 Geosoft s Oasis Montaj, 149 Geospatial applications, 195 Geospatial ECa measurements, 28 Geospatially interpolated, 343 Geospatial measurements of EC, characterize within-field variability, 247 field measurements, 64 geophysical techniques, 59 geo-referenced yield data, 35 identify edaphic/anthropogenic properties, 34 impact of, 18 positive benefit, 32, 33 Geostatistical analysis, 13-14, 257-258 Geostatistical models, 71 Geostatistical software package, 258 Geotomo software, 299 Gf Instruments, 298 GGN. See Global GPS Network (GGN) Gilbert s discovery, 17 GIS. See Geographic information system (GIS) Global Differential GPS (IGDG). 183 Global GPS Network (GGN), 183 Global Positioning System (GPS) accuracy of, 191-192 agricultural geophysics, 166 antenna phase center location, 174 defined, 386 DGPS, 182-187 EC,-directed soil sampling, 28-29 ECa measured using EMI and, 211 Error Sources and Approximated Magnitudes, 173 farm equipment technology, 10-11 galvanic contact resistivity, 97 geographic information system, 166 geophysical methods, 195 geo-referenced measurements, 299 guidance devices, 13 how GPS works, 166-167 400 Index instrumentation, 192-194 integration with geophysical equipment, 9 intentional degradation of satellite signal. 175-176 interference and jamming. 175 introduction. 166 ionosphere and troposphere delays. 170-172 main components of. 167-168 mapping projects, 194-196 mode of sensor transport. 119 moderni/ation/other satellite systems, 194 multiputh. 172 network-based RTK GPS. 187-189 nongeophysical spatial data. 207 obtain positional data, 274 orbital errors, 172-173 point (absolute) positioning, 180 point vs. relative positioning. 180-182 positioning modes. 190 positioning with GPS. 179-180 precise point positioning. 189-190 processing strategies. 191 pseudorange/carrier phase observables. I76-179 real time vs. postprocessing. 190-191 receiver noise and biases. 173-174 receivers. 195-196 reference station error. 174 relative positioning. 180-182 relativistic propagation error. 172 sample-site scale analyses. 267 satellite and receiver clock errors. 172 satellites. 169 satellites and their geometry. 174-175 satellites location. 182 satellites signal data. 184 signal characteristics. 168-170 soil electrical conductivity. 166 spatial variation of yield. 248 spherical-projected GOS, 341 three-dimensional mapping of soil, 346 and underground drainage tile, 51 and Veris unit. 62-63, 282 Global Satellite Based Augmentation System (GSBAS), 182.183 GLONASS. 186. 194 Golden Software, Inc., 151, 235 Golden Software s Surfer. 149, 151 Golf course green construction methods, 353-354 drainage system. 347, 349-350, 351 management, 345-346. 353-354 model. 289-290 studies. 50-51. 361 Golzow test site, 296.298 GPR. See Ground-penetrating radar (GPR) methods GPS. See Global Positioning System (GPS) GP sentences. 186-187 Gradiometers, 6. 148 Granular fertilizer. 347-348 Gravimetric basis. 32 Gravimetric water content. 66 Gravitational field, 4 Gravity, 3 Griddeddata, 122 Grid locations. 234-235. 236, 257, 347 Ground-coupled antenna, 337, 376 Ground-level measurements, 292-294 Ground-penetrating radar (GPR) methods active methods, 5 and agricultural applications, 47 agricultural drainage pipe, 373 agricultural research techniques, 17 agriculture products and management. 51 amplitude map, 370 antenna center frequency, 366 antenna frequency, 138-139 antennas. 135-137 antenna selection, 347 applications to study plants, 50 attenuation by soils with clay content, 151 cation exchange capacity, 47 compared to TDR, 26 computer-processing procedures, 361 data and analysis, 309-314 data processing, 340-343, 348 depth of penetration, 138 dielectric constant, 12 direct applications, 45-48 direct or indirect applications, 45 display processing, 142 drainage pipe mapping, surveys, 370 dye experiment, 330 electrical properties of soils, 18 electromagnetic radio energy (radar) pulse, 6, 354-355, 364 EM properties/hydrological parameters, 305-306 estimates and root biomass, 50 experimental setup, 325-326 field measurements, 319-321 field procedures, 137-138 filtering and amplification, 139 geophysical methods, 3, 4, 5, 13 golf course green issues, 356 golf course management, 345-346, 353-354 golf course studies. 50-51, 361 golf greens and. 350-351 golf greens selection, 346-347 GPR recording, 132-133 GPR surveys. 306-309 GPR technique, 324-325 indirect applications, 48-50 interpretation, 145 large physical sand tank, 326 lysimeter stand, 326 materials and methods, 354-356, 364-366, 376-378 maximum reflection amplitude, 330-332 measurements, 347-348, 355, 365 methodology, 318-319 near-surface water pathways, 337-338, 343 normalized maximum amplitude analysis (NMRA), 325 polarization. 133-134 propagation and scattering, 130-132 publications and work, 46 radargrams, migration of, 325 recording. 132-133 results and discussion, 343. 348-350, 356-361, 366-372, 378-381 Index 401 sample volume, 319 saturated soil radargram characteristics, 338-339 scattering from surface roughness, 321 signal saturation correction filter, 365 site preparation prior to measurement, 347 soil mapping, 46 soil—plant systems, 35 soil surveying using, 45 soil volumetric water content, 12-13,48, 305 soil water content, 323-324 soil water content changes, seasonal, 328-330 soil water content measurement, 317-318, 333-334 soil water content profiles, 327, 332-333 static corrections, 139 station and trace spacing, 138 subsurface drainage systems, 363-364 subsurface/near-surface use, 345-346 surface reflectivity method, 317, 322 survey protocol, 339-340 surveys, 306-309 system overview, 134-135 technology advances in, 26 temporal/spatial changes, 314 three-dimensional displays, 143-144 three-dimensional modeling of radar, 51-53 time-dependent geophysical technique, 129 time domain reflectometry, 26, 324-325, 365 time-slice amplitude maps, 9,11 transmitter and receiver, 134-135 tree roots, 375-376, 381 two-dimensional displays, 142 uses of, 7 velocity, 134 velocity analysis and two-dimensional filtering, 139-142 water front propagation, 327-328 Ground surface trends, 5 Groundwater detection and GPR, 48 GSBAS. See Global Satellite Based Augmentation System (GSBAS) Guidance devices, 13 H Haake Buchler Instruments, 234 Hazen s empirical formula, 327 HCP. See Horizontal coplanar (HCP) HCP and PRP arrays, 288-289, 292-294 Hemispherical shell, 92 Herbicides, 237-238, 241-242 Herbicides/field correlations, 243-245 Herbicide-soil binding, 242-243 Herbicide-soil binding variability, 244 Herbicide—soil sorption coefficient, 242 High-frequency antenna, 138, 376 High-performance liquid chromatography (HPLC), 235 Hilbert transformation, 377, 378 Horizontal (EMh) dipole, 24, 29 Horizontal coplanar (HCP), 287-292 Horizontal EC, maps, 103-104 Horizontal spatial patterns, 104, 155 HPLC. See High-performance liquid chromatography (HPLC) Humus, 89 Hydrological investigation, 5 Hydrologie conditions, 368-370 Hydrology, 3 Hydrus-2D package, 327 Hyperspectral imagery, 35 I ICD-GPS-200, 174 IERS. See International Earth Rotation Service (IERS) IGDG. See Global Differential GPS (IGDG) IGS. See International GPS Service (IGS) Imaging near-surface features, 345-346 Impedance mismatch, 136-137 Incident wave, 132 Index models, 207 Indirect applications. 48-50 Induced current, 111-112 Induced polarization, 3, 13 In-phase component, 115 Input pulse, 136 Insightful Corp., 243 In situ measurement, 20, 25, 60,296 Instrumental biases, 174 Integrated Mapping Systems Inc.. 196 Intelligent vehicle highway system (IVHS). 183 Interelectrode spacing (m), 22 Interference biases and errors of GPS, 170 distance-dependent biases, 187-188 effects. 120-121 granular fertilizer, 347-348 and jamming, 175 multipath, 172 self-potential, 152-153 thermal noise, 173 International Earth Rotation Service (IERS), 174 International GPS Service (IGS), 173, 187, 189-190 International Terrestrial Reference Frame (ITRF), 174 Interpretation, 123-124, 145 Inverse computer modeling approach, 102-103 Inverse modeling, 126-127 Investigation depth, 4-5,7-8 Ion mobility influence, 88 Ionosphere and troposphere delays, 170-172 Irrigation and drainage, 48, 345, 346 ITRF. See International Terrestrial Reference Frame (ITRF) IVHS. See Intelligent vehicle highway system (IVHS) J Jamming, 175 Karst, microanalyses of, 47 Karst environments, 49 402 Index Kassow test site. 296, 298 Kendall s Tau Correlations, 297, 299 Kinematic soil mapping, 295, 296-299 Kirchoff migration, 377. 378 Kolmogorov-Smirnov test, 236 L. See Length (L) LA AS. See Local Area Augmentation System (LAAS) LADG. See Local Area DGPS (LADGPS) Lambert conformai conic, 205 Landsat Thematic Mapper (TM), 206 Landscape-scale agricultural applications, 32 Law of Reflection, 131 Leaching fraction (LF), 34 Least significant difference (LSD), 227 Least-squares inversion, 126-127 Length (L), 86 Lenz, Heinrich Friedrich Emil, 110 Lenz s law, 113 LF. See Leaching fraction (LF) Light detection and ranging (LiDAR), 183 Lime, 214 LIN. See Low-frequency antenna Line-of-sight (LOS) system, 168, 175 Lines of force. 111 Link spatial data, 203 Local Area Augmentation System (LAAS), 183-184 Local Area DGPS (LADGPS), 183 Local-scale variability, 21 Location-based services (LBS), 166 Locations. 182, 218. 226 Log-log scatterplot, 299 Log-transformed, 219 Loop-loop systems, 118 LOS. See Line-of-sight (LOS) system Love waves, 156, 160,388 Low-frequency antenna, 138-139, 376 Low induction number (LIN), 288 LSD. See Least significant difference (LSD) Lysimeters. 107, 325, 328 Lysimeter stand, 326 M Magellan WAAS receivers, 195 Magnetic compass, 4 Magnetic dipole soil conductivity meters, 274 Magnetic field, 6, 110-111, 147-148, 149-151, 153 Magnetic induction, 111 Magnetic loop, 117 Magnetometers, 4, 148-149 Magnetometry, 3, 5, 149-151 Magnetometry methods, 6 agricultural applications, 151-152 data processing and analysis. 149-151 defined, 388 field principles, 149 introduction, 147-148 locate subsurface drain lines, 9 magnetic susceptibility, 7 types of magnetometers, 148-149 MALA Geoscience, 325 Management-induced spatiotemporal monitoring, 32, 34, 60,77 Management practices, 263, 270-271 Management System Evaluation Area (MSEA), 203, 205 Manure/compost application comparison, 274 Mapping. See also Soil mapping agricultural geophysics, 200 apparent electrical conductivity, 265-267 ArcView GIS, 227 bulk density, 106 cost-effective technologies, 264 data preparation and processing, 121-123 dipole-dipole array, 95 EM-EC, technique, 222 and EMI, 287 farm field map, 11-12 GIS, 200-203 GIS concepts, 200-203 golf green drainage system, 347, 349-350, 351 GPR amplitude map, 370 ground-level measurements, 292-294 HCP and PRP arrays, 288-289 herbicides, 241-242 inherent soil properties, 214 log-log scatterplot, 299 measurement and soil samples, 242 pesticide partition coefficients, 233-234 potential of herbicide applications, 237—238 productivity zones, 264 projects, 194-196 SAREC, 283 software, 149, 196 soil and yield baseline, 281 soil conductivity, 273 soil drainage classes, 255, 260 soil properties, 33, 226 soil texture, 59 soil volumetric water content, 346 subsurface features, 354 time-slice amplitude maps, 355, 358-361, 365, 371-372 utility of EC,, 71 yield and EC,, 284-286 and yield heterogeneity, 268 Map projection, 204 Map Unit Interpretations Record (MUIR), 206-207 Master control station and errors, 182 Mathematical models, 124, 166 MathWorks, Inc., 343 Maximum reflection amplitude, 330-332 Maxwell, James Clerk, 110, 111 Maxweliian physics, 125-126 Maxwell s equation, 130 Measurement apparent electrical conductivity, 219, 227 electrical conductivity, 235 GPR method, 347-348 principles, 295 range, 236 resistive load impedance, 27 of soil EC,, 62,63-64 Index 403 soil electrical conductivity, 21 soil salinity, 19-21 soil volumetric water content, 18, 24-26 of water content, 24-26 Wenner array, 62 Measurement error, 295 Metal detectors, 121 Meteorology, 3 Methodology, 318-319 Microbial-scale measures, 267, 269 Microelectronics advances, 26 Microsoft Corp., 341 Mineral, 153 MINITAB, 219, 227 MLR. See Multiple linear regression (MLR) Mobile measurement equipment, 28-29, 296 Mobilization, 19, 21 Model-based sampling, 30, 69 Modeling software, 321 Mode of sensor transport, 119 Modernization/other satellite systems, 194 Moisture measurement, 60 Molar concentrations of ions, 61 Mollisols and soils with mollic epipedons, 47 Monitoring stations, 167 Morainic soils, 218, 226 Moving-mode arrangement, 137 MSEA. See Management System Evaluation Area (MSEA) MT. See Telluric, magnetelluric (MT) method Multielectrode array, 296 Multipath (GPS), 172 Multiple linear regression (MLR), 250, 251 Multisensor systems, 13 N NASA JPL, 183 National Geodetic Survey (NGS), 174, 187, 205 National Geospatial-lntelligence Agency (NGA), 167, 179 National Golf Foundation, 353 National Golf Foundation and McKinsey Company, 353 National Marine Electronics Association (NMEA), 186-187 National Research Council, 11 Natural EM field, 113 Natural potential, consistent and unidirectional. 153 Natural Resources Conservation Service (NRCS), 46, 206 NAVCEN, 184 Near-surface seismic reflection, 17, 151 Near-surface water pathways, 337-338, 343 Nernst potential gradients, 153 Network-based RTK GPS, 187-189 Neutron thermalization, 17, 25-26 Newtonian physics, 125-126 Newton s theory of gravitation, 17 NGS. See National Geodetic Survey (NGS) Nitrogen loss, 48 NMEA. See National Marine Electronics Association (NMEA) NMR. See Nuclear magnetic resonance (NMR) No-cover, all treatments, 278 Noise, 94. See also Interference Noncontact measure soil EC, 60 Nongeophysical spatial data, 207 Nonpolarizing electrode, 95 Nonspatial attribute data, 202 Normalized maximum reflection amplitude analysis (NRMA), 325, 331,332 North Magnetic Pole, 147 NRCS. See Natural Resources Conservation Service (NRCS) NRMA. See Normalized maximum reflection amplitude analysis (NRMA) Nuclear magnetic resonance (NMR), 3, 13, 17 Numerical modeling, 318, 319, 321 Nyquist sampling frequency, 120, 138 o Ohm (to), 21 OhmMapperTRl, 99-100, 104, 105 Ohm-meters (C2m), 86 Ohm s Law, 21. 86. 92 OLS. See Ordinary least squares regression (OLS) OM. See Organic matter (OM) OmniSTAR™, 183 One-dimensional forward modeling approach, 102 On the Examination of Iron Ore Deposits by Magnetic Methods (Thalén), 4 Open-top chambers (OTC), 380 Operating domain, 115 Operational constellation, 167-168 Optically pumped gradiometer, 151 Optically pumped magnetometers, 148, 149 Optimal offset, 310 Optimized Van-Genuchten parameter values, 332 Orbital errors, 172-173 Ordinary least squares regression (OLS), 249, 251 Oregon State University Research Dairy. 151, 152 Organic and commercial amendments, 276 Organic matter (OM) correlated with soil texture. 300 of cover crop, 276 determined using standard procedures. 282 GPR to map soils, 46 high water content and, 230 mapping edaphic properties, 28 measurement factors of ECa, 33, 67 mineralization in soil, 273 morainic soils, 218 non-target reflectors, 381 peatlands as fuel, 47 physical and chemical properties of texture, 286 soil amendment, 34 soil-applied herbicides, 241 soil EC, map, 286 soil properties, 18 soil properties affecting EC,, 64, 247, 284 soil resistivity, 89 SP and pb are influenced by, 32, 67 Organic soil materials, 46 OTC. See Open-top chambers (OTC) Out-of-phase component, 115 404 Index Paleo-sinkhole. 49 Parallel resistors. 91 Parallel swather, 63 Partition coefficients. 233 Passive methods. 5 Passive microwaves (PM). 17. 18 Passive remote sensing device. 148 Pathways ot radio frequency signals. 18 PDOP. See Position dilution of precision (PDOP) Pearson s r correlation coefficient, 299 Peatiands as fuel, 47 Permittivity. 27. 130-131. 134. 137, 145 Perpendicular (PRP). 287-292 Pesticide partition coefficients, 233-234 Phase-range, 179 Phase shift. 113-114 Phases of soil. 86-87 Physical oceanography. 3 Physical quality measurement techniques. 3 Physicochemical nature. 30 Plane coordinate system. 204 Plant(s) corn (Zea mays L.). 50. 265, 274 Escherkhia cnli. 151 fresno cotton (Gossypium hirsuturn L.) field, 74-76 fungi (Armillaria sp.), 379 grain sorghum {Sorghum bicolnr L. Moench). 286 loblolly pine (Pinus taeda L.). 50. 376 oak (Quercus sp.). 376 oak trees (Quercus petraea (Mattusch.) Liebl), 50 peach orchards (Primus persica). 379 proso millet (Panicutn militweum L.), 265 sorghum (Sorghum bicolor (L.) Moench), 211. 286 soybean (Glycine max L). 211 study using GPR. 50 vesicular-arbuscular mycorrhizal ( VAM) fungi. 267 winter wheat (Secale céréale L.). 274 winter wheat (Triticum aestivum L.), 74. 211, 264 Plot-scale blocking. 269-270. 271 Plot-scale experiments. 263 PM. See Passive microwaves (PM) Point (absolute) positioning, 180 Point vs. relative positioning. 180-182 Polarization. 133-134. 137. 309 Polarization ellipsoid. 114 Polyvinyl chloride (PVC), 151 Porous-matrix salinity sensors. 20 Positional data, 274 Position dilution of precision (PDOP), 175,176, 191 Positioning accuracy. 166, 170, 191-192, 205-206 Positioning with GPS, 179-180 Position vectors. 179 Postcollection processing. 377 Potential electrodes. 93 Potential energy. 86 PPP. See Precise point positioning (PPP) PPS. See Precise Positioning Service (PPS) Precise point positioning (PPP). 189-190, 191 Precise Positioning Service (PPS). 170. 189-190 Precision agriculture. 11, 247, 286 Preferential-flow pathways, 337. 339. 343 Principles of induction, 111-112 PRN. See Pseudo-Random Noise (PRN) code Probe impedance (12). 27 Process models, 207-208 Productivity zones apparent electrical conductivity. 269-270 crop yield, 263-264, 268-269 management practices. 270-271 mapping, 267 materials and methods, 264-267 microbial-scale measurements, 269 soil edaphic properties. 267-268 soil spatial variability, 32 SSCM, 34. 35 SSMUs. 268 Propagating wave. 130 Propagation and scattering, 130-132 Propagation velocity of GPR, 324 Proton precession magnetometers, 148 PRP. See Perpendicular (PRP) PRP and HCP arrays, 288-289, 292-294 Pseudo-Random Noise (PRN) code, 168, 174, 176-177 Pseudorange broadcasting corrections, 185-186 carrier modulation, 168-169 and carrier phase observables, 176-179 data processing, 187 defined, 387 GPS receiver performance, 173 GPS receiver task, 193 Local Area Augmentation Systems. 183 master control station and errors, 182 multipath. 172 point positioning procedure, 174 positioning accuracy, 191-192 positioning with GPS, 179-180 precise point positioning. 189 signal speed. 170 true observations and underlying parameters, 181-182 Pseudo-section. 140 Pure solution (aw), 60 PVC. See Polyvinyl chloride (PVC) P-waves. 156, 157-160 Quadrature component, 115 R. See Resistance (R) Radar amplitudes, 9 Radar energy, 9 Radar events used, 309 Radargram. 325. 337-339, 377-378, 379 Radar reflection coefficient, 370 Radar scatterometry, 17 Radar signal velocity, 6 Radioactivity, 3. 25-26 Radio-frequency (RF), 173, 193 Radio frequency signals, 18, 168, 174 Radio signals, 168 Index 405 Radio Technical Commission for Maritime Services (RTCM), 184-186 Raster data format, 202 Rayleigh waves, 156, 160 RDOP. See Relative DOP (RDOP) Real-time kinematic (RTK) GPS, 13, 35, 166. 186 Real time tracking, 340 Real-time users, 194 Real time vs. postprocessing GPS, 190-191 Receiver clock, 172, 180, 189 Receiver Independent Exchange Format (RINEX), 184, 186 Receiver noise and biases, 173-174 Recommended Standards for Differential Navstar GPS Service (RTCM), 184 Reference station error, 174 Reflection hyperbola, 366-367, 370-371, 372 Reflection times, 328 Regression models, 69, 207 Relational database model, 206 Relative DOP (RDOP), 175 Relative permittivity (er), 12, 134 Relative positioning, 180-182 Relative values. 236 Relativistic propagation error, 172 Remotely sensed imagery, 35,48 RES2DINV, 105, 297, 299 Research conducted/investigations, 12, 59 Residual mean square (RSS), 212 Resistance (R), 21 Resistive load impedance, 27 Resistivity data collection, 100-101 Resistivity methods agriculture applications, 106-107 capacitively coupled resistivity. 98-100 computer-controlled multielectrode systems, 95-96 conventional equipment, 95 current flow and potential, 91-93 data analysis products, 101-105 electrical current, 5, 85 electric current, 96 electrode arrays, 93-95 field data collection modes, 100-101 galvanic contact resistivity, 96-98 geophysical methods, 3, 4, 5, 13 geophysical techniques, 85 Ohm s Law, 86 soil gravimetric water content, 12 and soil materials, 86-91 soil properties, 21 soil salinity assessment, 10 uses of, 85 Resistivity surveys, 96,153-154 Resolution of measurement, 288-289 Resonant scattering, 131-132 Response-surface approach, 30, 69-70 RF. See Radio-frequency (RF) Richards equation, 327 Ricker wavelet, 321 RINEX. See Receiver Independent Exchange Format (RINEX) RMS. See Root mean square (RMS) Rock stratigraphy. 48 Root mass, 376, 378-380 Root mean square (RMS), 173 Root zone. 23, 24, 106 RSS. See Residual mean square (RSS) RTCM. See Radio Technical Commission for Maritime Services (RTCM) RTK. See Real-time kinematic (RTK) GPS SA. See Selective Availability (SA) Saline-sodic soil, 33 Salinity mapping and assessment, 59. 106 Salinity measurements, 74 Sample-site scale analyses, 267 Sample volume, 319 Sampling-site scale analyses, 267 Sampling-site scale properties, 268, 269 Sandy/silty soil, 88, 89 San Joaquin Valley. California, 32 SAR. See Sodium adsorption ratio (SAR) SAREC. See Sustainable Agriculture Research and Extension Center (SAREC) Satellite and receiver clock errors, 172 Satellite imagery, 207 Satellite magnetometry, 148 Satellites and their geometry, 174-175 Satellite signal, intentional degradation of, 175-176 Satellite systems, modernization/other. 194 Saturated soil radargram characteristics. 338-339 Saturation percentage (SP). 32, 66, 67, 74, 249 SBSF. See Spatial Background Subtraction Filter (SBSF) Scaling problems and defects, 149-151 Scan display, 142.143 Scattering, 131 Scattering electromagnetic energy principle, 130 Scattering from surface roughness, 321 Scattering reflections, 145 Scatter plots, 251,252 Schlumberger, Conrad, 21. 85 Schlumberger, Marcel. 85 Schlumberger array, 94, 100, 102 Schlumberger Limited, 85 Schlumberger Wireline and Testing. 90 Scrub ecosystem, 380-381 SDSS design, 33 Seismic methods, 6—7 active methods, 5 data collection. 160-161 defined, 390 geophysical methods, 3,4, 5. 195 introduction, 155-156 migration of radargrams, 325 wave propagation, 157-160 wave types, 156-157 Seismic reflection method, 130 Seismic refraction. 160 Seismic trace analyses, 324 Seismic waves frequency, 161 propagation, aspects of, 157-160 406 Index seismic methods. 6-7. 155-156 types. 156-157 Seismology, 3 Seismoscope, 4 Selective Availability (SA). I75-176 Sell-potential methods. 6 agricultural applications. 155 agricultural geophysics. 195 consistent and unidirectional natural potential. 153 defined. 390 equipment. 153-154 field procedures. 154-155 geophysical methods. 3. 4, 5, 13. 14 introduction. 152-153 Passive methods. 5 Sensitivity analysis simulations. 74 Sensors. 20-21 Sensors Software Inc.. 320. 355-356. 365 Sensor techniques, 217-218 Sensor transport mode, 119 Shaded-relief map, 151. 152 Shaly (clayey) sand value. 90 Shielding, 137 SH-waves. 156, 158-160 Sigma Scan Pro Image Analysis software (Systat). 377 Signal characteristics, 168-170 Signal data. 184 Signal Saturation Correction Filter (SSCF) compute processing procedure. 355. 361 GPR profiles. 356. 365 time-slice amplitude map. 358. 359 Signal trace AGCF equalizing amplitudes. 358 measurement points. 365 radar wave amplitude. 6, 355. 364 spatial background substraction. 355-356 time-slice amplitude maps. 359 Signal Trace Enveloping (STE), 355, 358, 361 Signal velocity and attenuation, 18 Signal voltage. 26 Simple statistical correlation. 72. 73 Sinkholes. 48 Sites apparent electrical conductivity. 242 data collection and analysis, 300-301 geoelectric instruments, 296 GPR methods. 347 soil conductivity. 274 Site-specific crop management (SSCM) correlation between crop yield and EC,, 249-250 crop yield, 64, 73. 247-248 crop yield response model development, 251-252 delineated SSMUs, 252-254 delineation of, 60 EC, survey data, 248-249 exploratory statistical analyses, 250-251 productivity zones. 34. 35 spatial information required, 35-36 spatial measurements of soil EC,, 74 spatial variability, 33 statistical and spatial analyses, 249 study site. 248 yield monitoring and EC, survey, 248 Site-specific management (SSM), 247 Site-specific management units (SSMUs) crop yield. 73 crop yield integration, 34 delineated. 252-254 geo-referenced yield data, 35 productivity zones, 268 spatial analysis, 249 spatial variability, 32 spatial variability of edaphic, 248 Site-specific nutrient management, 270 Snell slaw, 131. 158-159 Sodium adsorption ratio (SAR), 33, 390 Soil. See also Soil mapping; Soil properties; Soil salinity; Soil sampling; Soil surveys agricultural products and management, 47 conditions, monitoring changes, 7 depth sensitivity, 301 drainage classes, 256 electrical properties of, 18 and field properties, 234 and karst, microanalyses of, 47 management practices, 263 measurement principles, 295 mollisols and soils with mollic epipedons, 47 organic matter, 34 phases of, 86-87 and resistivity methods, 86 and topographical data, 256-257 water application, 253 watershed characteristics, 234 water tables, 46 and yield baseline, 281 Soil-applied herbicides, 241 Soil conductivity. See also Soil electrical conductivity ECa maps and plots, 275-276 electromagnetic impulse, 338 electromagnetic induction sensors, 273 EM-EC, device, 227 equipment, 274-275 field measurements of ECa, 278-279 field operations, 274 intermediate-depth investigations, 116 mapping, 273 site description, 274 statistical analysis, 277-278 sub-sand fluctuatons in native, 290 Soil Conservation Services. See Natural Resources Conservation Service (NRCS) Soil cores analyzed, 274-275 Soil drainage anaerobic conditions, 345 classes, 255, 260 discriminant analysis/geostatistical procedures, 257-258 results and discussion, 258-260 soil and topographical data, 256—257 soil electrical conductivity, 255 topography, 255-256 Soil EC, map, 286. See also Apparent electrical conductivity (ECJ Soil edaphic and biological variability, 269 Soil electrical conductivity Index 407 antenna frequency/factor influencing, 364 background, 60-64 cation exchange capacity, 7 clay content correlation, 258 data collection, 256-257 ECa and mapping, 234 and GPS, 166 measurement of, 21 relative values, 236 soil drainage, 255 soil sampling, 61 Soil Electrical Conductivity in Precision Agriculture Symposium, 28 Soil equivalent resistance model, 66 Soil factors, means and ranges of, 75 Soil gravimetric water content, 12 Soil heterogeneity, 263-264, 267, 269, 270 Soil-landscape modeling, 46 Soil mapping bedrock depth in glaciated landscape, 47 EM-ECa technique, 225-226 and GPR, 46 precision agriculture, 286 and rock stratigraphy, 48 Soil materials, 86-91 Soil microvariability, 46 Soil moisture measurement, 4 Soil organic matter (SOM), 227, 228, 230 Soil pathways, 222, 230 Soil permittivity, 325. See also Permittivity Soil phases, 61 Soil physical and chemical properties cation exchange capacity, 286 electrical conductance pathway, 32 EM-ECa technique, 217-218, 225 soil ECa map, 286 soil sample analysis, 249 spatial variability, 30, 33 Soil physicochemical measurement, 59 Soil-plant systems, 35 Soil profile, 8 Soil properties apparent electrical conductivity, 65-66, 71-74, 247, 268 apparent soil electrical conductivity, 106 cation exchange capacity, 60 characterize and assess soil condition, 33 clay content, 60,91, 212 correlation coefficient, 227-228 Correlation Coefficients, 73 correlation matrix of, 76 correlations between EMI and, 76 ECa-directed soil sampling, 253-254 ECa measurements, 64-65,77, 220-222 ECa survey, 72 electrical conductivity in bulk soil, 18 EM-EC, technique, 230 exploratory statistical analyses, 250-251 field-applied pesticides, 233 field observations vs., 67 and herbicides, 241 inherent, 211 mapping, 33,226 moisture measurement, 60 morainic soils, 218, 226 nitrogen loss, 48 parameters related to measurable, 66-67 precision agriculture role, 247 resistivity, 21 soil surveys, 227-229 spatially characterize, 34 spatial pattern, 212, 214 STATSGO, 46-47 within-field spatial variability, 30 Soil quality assessment, 60 Soil radar signal velocity, 12 Soil reclamation, 34 Soil resistivity, 60, 89,90, 91 Soil salinity apparent soil electrical conductivity, 61-62 denned, 60 dominates ECa measurements, 72 electrical conductance pathway, 32 electrical conductivity, 20 EMI for measuring, 23 and ER, 21 field scales methods, 19 measurement of EC, 20 measurement of ECa, 234 resistivity methods, 10 sensors, 20—21 vertical profiting, 23-24 Soil sampling ECa-directed, 28-30 EC, measurements, 219,227, 235, 282 ECa survey data, 248-249 geospatial EC, measurements, 28 herbicides, 242 herbicides/field correlations, 243—245 soil and topographical data, 256 soil EC, 61 statistical methods, 214 statistical sample design, 29-30 Soil science, 72 Soil solution, 89-90, 107. See also Soil volumetric water content (8) Soil-solution extractor, 20-21 Soil spatial variability, 32 Soil Survey Geographic (SSURGO) database, 206 Soil surveys. See also Surveys EC, survey, 69 quality and efficiency increase, 46 regression model, 69 response-surface approach, 69-70 soil properties, 227-229 statistical test 230 using GPR methods, 45 Soil texture, 59,300 Soil type, 59 Soil volumetric water content (6) and amplitude, 313-314, 319 box plots, 334 dielectric constant dependent on, 365 EC, measurements, 234 and electrical conductivity, 368 GPR methods, 12-13,48,305,323-324,328-330 408 Index influencing measured EC,. 230 mapping. 346 measurement. 317-318. 333-334 measurement of, 24-26 profiles, 327. 332-333 radar events used. 309 research investigations, 12 salinity measurements. 74 and sandy/silty soil. 89 soil EC, map. 286 and soil materials. 87 spatial variability. 330 TDR point source technique for. 26-27 time domain reHectometry. 317. 320. 323 Solar Cycle. 171 Solar energy. 167 Solid-liquid phase pathway. 67 SOM. See Soil organic matter (SOM) South Magnetic Pole. 147 SP. See Saturation percentage (SP) Space Seamen!. 167 Spatial analysis. 249 Spatial and biological scales, 267 Spatial Background Subtraction Filter (SBSF), 355-356. 358 Spatial databases. 206-207 Spatial decorrelation. 183 Spatial distribution. 237-238, 380-381 Spatial EC4 patterns. 104 Spatial information required for SSCM, 35-36 Spatially referenced regression models, 71 Spatial measurements of soil EC. 59 Spatial measurements of soil EC,, 74 Spatial patterns. 212, 214, 270 Spatial response surface sampling (SRSS). 30 Spatial sampling error, 337 Spatial variability apparent electrical conductivity, 18, 30-32 characterizing. 214. 233-234 crop patterns, 33 dielectric properties in subsurface. 324 ECa-directed soil sampling, 68, 69 ECa map use, 62. 104 ofedaphic, 247. 248 field- and landscape-scale issues, 34-35 inherent soil properties, 211 parameters correlated w/drainage class, 236 plot-scale experiments. 263 site-specific crop management. 33 site-specific management units, 32 soil physical and chemical properties, 30,33 and soil resistivity, 91 soil water content measurement, 330 spatial measurements of soil EC, 59 surface water content. 48. 53 yield and irrigated fields, 283 Spatial variation of yield, 248 Spherical-projected GOS. 341 Spiral plot, 340 Split-plot design. 274. 275, 277 SPS. See Standard Positioning Service (SPS) SPSS Inc.. 243 SRSS. See Spatial response surface sampling (SRSS) SSCF. See Signal Saturation Correction Filter (SSCF) SSCM. See Site-specific crop management (SSCM) SSM. See Site-specific management (SSM) SSMUs. See Site-specific management units (SSMUs) SSURGO. See Soil Survey Geographic (SSURGO) database Stacking. 8 Standard Positioning Service (SPS), 170, 175, 191 StarFire™. 183 State Plane coordinate (SPC) system, 204, 205, 341 State Soil Geographic (STATSGO), 46-47 Static corrections, 139. 141 Static factors, 32. 68 Station and trace spacing, 138 Station interval, 8 Station spacing, 119-120 Statistical analysis, 249, 267, 277-278, 324, 377 Statistical and spatial analyses, 249 Statistical methods, 214 Statistical sample design, 29-30 Statistical test, 230 Statistics and data analyses, 227 STATSGO. See State Soil Geographic (STATSGO) Stepwise discriminant procedure (STEPDISC), 257, 258 Stochastic models, 71 Stolt migration algorithm, 325 Stream tubes, 32-33 Subsurface antenna frequency, 368 artificial energy, 157 and electromagnetic energy travel, 130 features and GPR, 345, 361 mapping. 354 spatial variability, 324 Subsurface drainage systems, 363-364 Subsurface drain lines, locate, 9 Subsurface electrical permittivity, 120 Subsurface flow pathways, 48-50, 51 Suction lysimeters, 107 Surface-based measurements, 3 Surface methods with raw data, 299 Surface modeling, 124-125 Surface reflectivity method, 319, 322 Surface water content, 48, 53 Surface waves, 156 Surveys ECB data, 248-249 EMI effectiveness, 290-292 Geophysical measurement, 118-119 GPR drainage pipe mapping, 370 GPR golf course green issues, 356 GPS planning process, 195 grid GPS, 257 magnetometry data processing and analysis, 149-151 mapping, 275-276 near-surface water pathways protocol, 343 protocol, 339-340 seismic refraction, 160 soil cores analyzed, 274-275 surface reflectivity method, 319 Sustainable Agriculture Research and Extension Center (SAREC), 281, 283, 284 Index 409 SV-waves, 156, 158-160 S-waves, 156, 158 Taylor series expansion, 178-179 TDR. See Time domain reflectometry (TDR) TEC. See True Electron Content (TEC) Technology advances in GPR methods, 26 Tectonophysics, 3 Telluric, magnetelluric (MT) method, 113 Temperature, 32, 88, 90 Temperature conversion factor, 20, 61 Temporal and spatial high-resolution measurements, 314, 325 Temporal variations, 148 Tesla, 148 Thalén, Robert, 4 Thalén-Tiberg magnetometers, 4 Thermal noise, 173 Thermocouple temperature probes, 274 Thomson-Thalén magnetometers, 4 Three-dimensional (3D) position, 166, 194 Three-dimensional displays, 143-144 Three-dimensional mapping of soil, 346 Three-dimensional modeling of radar, 51-53 Time and frequency domain, 115-116 Time-dependent geophysical technique, 129 Time-distance cross section, 140, 141 Time domain reflectometry (TDR), 26-27 agricultural research techniques, 17-18 calibration curves developed for, 328, 330 defined,391 field-scale soil salinity assessment, 27 and geospatial measurement of EC, 59 GPR compared to, 48, 53 GPR profiles, 365 vs. GPR technique, 324-325 measurement of soil ECa, 62, 63-64 point source technique, 26—27 soil water content measurement, 317, 320, 323 Time-domain system, 113 Time-domain wave, 130 Time-of-measurement dependent, 65 Time-slice amplitude maps GPR methods, 9, 11 mapping, 355, 358-361, 365, 371-372 Time-varying EM energy, 112 TM. See Landsat Thematic Mapper (TM) Tomographic procedures, 14, 323 Topcon receivers, 195 Topographical variables, 258 Topography, 255-256 Topp s equation, 309, 313, 324, 333 Torsion balance gravity measurements, 4 Trace, 139 Transects, 8, 9 Transmission frequency, 99 Transmit and receive antennas, 137 Transmit antenna, 135—136 Transmitted electrolytically through soil, 90 Transmitter and receiver, 113. 116-118. 134-135 Transverse Mercator projection, 205 Travel direction, 158-160 Travel time, 134 Tree root mass, 375-376, 381 Triangulation in space, 166, 179 Trimble AgGPS series, 195 Trimble Navigation Ltd., 63, 212 Trimble PRO-XR GPS, 274 Trimble VRS™, 188-189 True Electron Content (TEC), 170 2-D Migration (2DM), 356, 358, 361 Two-dimensional (2D) position, 166 Two-dimensional displays, 142 u UBC Geophysical Inversion Facility Web site, 126 UERE. See User Equivalent Range Error (UERE) Ultrahigh frequency (UHF), 168, 182 Underground drainage tile, 51 Universal Transverse Mercator (UTM) system, 204, 205. 341 University of Wyoming, 281 U.S. Coast Guard Maritime DGPS, 184 USDA. See U.S. Department of Agriculture (USDA) USDA-ARS. See U.S. Department of Agriculture- Agricultural Research Service (USDA-ARS) USDA Economic Research Service, 363 USDA Handbook 60 (U.S. Salinity Laboratory Staff). 20, 61 U.S. Department of Agriculture (USDA), 46, 60, 256, 363-364 U.S. Department of Agriculture-Agricultural Research Service (USDA-ARS), 28. 59, 214. 281 U.S. Department of Agriculture-Agricultural Research Service-Soil Drainage Research Unit (USDA- ARS-SDRU), 294 U.S. Department of Defense (DOD), 166. 170. 175 U.S. Department of Energy, 305-306 User Equivalent Range Error (UERE), 175 User Segment, 168,169 USGA (U.S. Golf Association) Method, 353-354, 355. 356,359 USGA Green Section Record, 347 U.S. Meat Animal Research Center (USMARC), 274 U.S. Naval Observatory (USNO), 168 U.S. Salinity Laboratory, 59 U.S. Salinity Laboratory Staff. 20, 21, 60. 61 UTM. See Universal Transverse Mercator (UTM) system V. See Voltage (V) Vadose zone. 32, 48. 51 van Genuchten-Mualem soil hydraulic functions, 327 van Genuchten parameter values, optimized, 332 Variance inflation factors (VIF). 219 VDB. See VHF data broadcast (VDB) transmitter Vector, 113. 114, 133 Vector data format, 201-202 Vector line, 131 410 Index Vehicle-based monitoring, 27 Vehicle-mounted GPR, 318 Velocity. 134 dielectric constant, 6, 323-324 electromagnetic wave, 27, 323, 333, 350 GPR methods, 134, 139-142 GPS technology, 167, 184 of material, 141-142 permittivity, 132, 137 propagating wave, 130 P-wave or S-wave, 160 radar signal propagation, 348 reflection hyperbolas, 145 refraction, 131 sampling depth, 319 seismic wave, 7, 156, 157, 159 Velocity of propagation, 18, 64 Veris 3100 Soil EC Mapping System, 97 Veris Soil EC Mapping System, 62,97, 104,107, 242 Veris Technologies, 28-29,62,97, 242, 265, 270, 282, 299 Veris unit, 62-63, 282 Vertical (EM.) dipole, 24, 29 Vertical electric sounding, 100, 101 Vertical profiting, 23-24, 25 Very low frequency (VLF), 113, 182 VHF data broadcast (VDB) transmitter, 184 Virtual reference station (VRS), 188-189 Visual crop observation, 19 Visual interpretation, 124 VLF. See Very low frequency (VLF) Vollath, U., 187 Voltage (V), 21, 85,93, 98, 155 Volume of measurement, 22-23 Volume of spatial data, 72-73 Volumetric water estimate, 48 Vortex currents, 109 VRS. See Virtual reference station (VRS) w WAAS. See Wide Area Augmentation System (WAAS) WADGPS. See Wide Area DGPS (WADGPS) Water application, 253 Water content, 32 Water-filled pore space (WFPS), 275, 278 Water front propagation, 327-328 Water molecules, 90 Watershed characteristics, 234 Water tables, 46 Wave equation, 112,120, 130 Wavelet analysis, 72 Wave propagation, 157-160 Wave s amplitude, 310 Wave types, 156-157 Wenner, Frank, 21, 60 Wenner array apparent electrical conductivity, 22 apparent soil electrical conductivity, 100 areal resistivity mapping, 94 Earth Resistivity Meter, 299 electrode configuration switched, 296 electrodes at soil surface, 22 galvanic contact resistivity, 97-98 measure of ECa, 62 volume of measurement, 22-23 WFPS. See Water-filled pore space (WFPS) WGS84. See World Geodetic System 1984 (WGS84) Wide Area Augmentation System (WAAS), 183, 184 Wide Area DGPS (WADGPS), 182-183 Wide-offset reflection (WOR) data, 307-309, 310 Wide-offset surveys, 310-314 Wiggle trace (scan), 142 Within-field spatial variability, 30 Within-field variation, 33, 77 WOR. See Wide-offset reflection (WOR) data WOR GPR, 311-313 World Geodetic System 1984 (WGS84), 168, 179, 180 Yield and ECa, 284-286 Yield and irrigated fields, 283 Yield and precipitation relationships, 270 Yield data integrated by ECa, 269 Yield monitoring and ECa survey, 248 Yield relationships, 270 Zeeman-effect, 148 Zero crossings, 114 Zone sampling, 270 Zones of productivity, 60
adam_txt	Contents Preface.xiii Editors.xv Contributors.xvii List of Important Agricultural and Geophysical Quantities.xxi SECTION I Agricultural Geophysics Overview Chapter 1 General Considerations for Geophysical Methods Applied to Agriculture.3 Barry J, Allred, M. Reza Ehsani, and Jeffrey J. Daniels Chapter 2 Past, Present, and Future Trends of Soil Electrical Conductivity Measurement Using Geophysical Methods.17 Dennis L. Corwin Chapter 3 History of Ground-Penetrating Radar Applications in Agriculture.45 M. E. Collins SECTION II Agricultural Geophysics Measurements and Methods Chapter 4 Theoretical Insight on the Measurement of Soil Electrical Conductivity.59 Dennis L. Corwin, Scott M. Lesch, and Hamid J. Farahani Chapters Resistivity Methods.85 Barry J. Allred, Douglas Groom, M. Reza Ehsani, and Jeffrey J. Daniels Chapter 6 Electromagnetic Induction Methods.109 Jeffrey J. Daniels, Mark Vendl, M. Reza Ehsani, and Barry J. Allred Chapter 7 Ground-Penetrating Radar Methods (GPR).129 Jeffrey Daniels, M. Reza Ehsani, and Barry J. Allred Chapter 8 Magnetometry, Self-Potential, and Seismic: Additional Geophysical Methods Having Potentially Significant Future Use in Agriculture.147 Barry J. Allred, Michael Rogers, M. Reza Ehsani, and Jeffrey J. Daniels IX x Contents SECTION III The Global Positioning System and Geographic Information Systems Chapter 9 Integration of the Global Positioning System (GPS) into Agricultural Geophysics.165 Dorota A. Grejner-Brzezinska Chapter 10 Integration of Geographic Information Systems (GISs) with Agricultural Geophysics.199 Carolyn J. Merry SECTION IV Resistivity and Electromagnetic Induction Case Histories Chapter 11 Apparent Electrical Conductivity for Delineating Spatial Variability in Soil Properties.211 Brian J. Wienhold and John W. Doran Chapter 12 Dependence of Soil Apparent Electrical Conductivity (ECa) upon Soil Texture and Ignition Loss at Various Depths in Two Morainic Loam Soils in Southeast Norway.217 Audun Korsaeth Chapter 13 Relations between a Commercial Soil Survey Map Based on Soil Apparent Electrical Conductivity (ECa) and Measured Soil Properties on a Morainic Soil in Southeast Norway.225 Audun Korsaeth, Hugh Riley, Sigrun H. Kvœrn0, and Live S. Vestgarden Chapter 14 Mapping Pesticide Partition Coefficients By Electromagnetic Induction.233 Dan B. Jaynes Chapter 15 Can Apparent Soil Electrical Conductivity Be Used to Map Soil-Herbicide Partition Coefficients? A Case Study in Three Colorado Fields.241 Dale L. Shaner, Hamid J. Farahani, Gerald W. Buchleiter, and Mary K. Brodahl Chapter 16 Delineating Site-Specific Management Units Using Geospatial ECa Measurements.247 Dennis L. Corwin, Scott M. Lesch, Peter J. Shouse, Richard Soppe, and James E. Ayars Contents xi Chapter 17 Mapping of Soil Drainage Classes Using Topographical Data and Soil Electrical Conductivity.255 A. N. Kravchenko Chapter 18 Productivity Zones Based on Bulk Soil Electrical Conductivity: Applications for Dryland Agriculture and Research.263 Cinthia K. Johnson, Rhae A. Drijber, Brian J. Wienhold, and John W. Doran Chapter 19 Four-Year Summary of the Use of Soil Conductivity as a Measure of Soil and Crop Status.273 Roger A. Eigenberg, John A. Nienaber, Bryan L. Woodbury, and Richard B. Ferguson Chapter 20 Soil ECa Mapping Helps Establish Research Plots at a New Research and Extension Center.281 Hamid J. Farahani, David A. Claypool, R. P. Kelli Belden, Larry C. Munn, and Robert A. Flynn Chapter 21 Mapping Golf-Course Features with Electromagnetic Induction, with Examples from Dublin, Ohio.287 Richard S. Taylor Chapter 22 Comparison of Geoelectrical Instruments in Different Soilscapes.295 Robin Gebbers and Erika Liick SECTION V Ground-Penetrating Radar Case Histories Chapter 23 GPR Surveys across a Prototype Surface Barrier to Determine Temporal and Spatial Variations in Soil Moisture Content.305 William P. Clement and Andy L. Ward Chapter 24 Soil Water Content Measurement Using the Ground-Penetrating Radar Surface Reflectivity Method.317 J. David Redman Chapter 25 Assessing Spatial and Temporal Soil Water Content Variation with GPR.323 Bernd Lennartz, Britta Schmalz, Derk Wachsmuth, and Heiner Stoffregen Chapter 26 Ground-Penetrating Radar Mapping of Near-Surface Preferential Flow.337 Robert S. Freeland xii Contents Chapter 27 An Application of Ground-Penetrating Radar in Golf Course Management.345 R. Boniak, S.-K. Chong, S. J. Indorante, andJ. A. Doolittle Chapter 28 Ground-Penetrating Radar Investigation of a Golf Course Green: Computer Processing and Field Survey Setup Considerations.353 Barry J. Allred, Edward L. McCoy, and J. David Redman Chapter 29 Agricultural Drainage Pipe Detection Using Ground-Penetrating Radar.363 Barry J. Allred and Jeffrey J. Daniels Chapter 30 Using Ground-Penetrating Radar to Estimate Tree Root Mass: Comparing Results from Two Florida Surveys.375 John R. Butnor, Daniel B. Stover, Brian E. Roth, Kurt H. Johnsen, Frank P. Day, and Daniel Mclnnis Glossary.383 Index.393 Index Note: Page numbers in bold refer to figures or tables. AC. See Alternating electric current (AC) Accuracy of Global Positioning System, 191-192 Acoustic waves, 161 Active methods, 5 Active microwaves (AM), 17, 18 Adobe Systems, Inc., 342 AEM. See Airborne electromagnetic (AEM) systems Aerial photogrammetry, 207 AGCF. See Automatic Gain Control Function (AGCF) AgGPS Parallel Swathing Option, 63 Agricultural applications contamination transport and GPR, 346 cover crop, 276, 277-278 directed soil sampling, 32-34 electrical conductivity, 273 electromagnetic induction, 19 environmental and hydrological disciplines, 107 and GPR, 47 loop-loop systems, 118 magnetometry methods, 151-152 no-cover, all treatments, 278 organic and commercial amendments, 276 resistivity methods, 106-107 self-potential methods, 155 soil spatial variability, 32 use of lime, 214 Agricultural drainage pipe, 363, 373 Agricultural geophysics applications of, 9,10 computer software/systems, 14 defined, 383 and GPS, 166, 194-196 ground surface trends, 5 mapping concepts, 200 outlook, 13-14 studies conducted by McCorkle, 12 use of GIS, 9 Agricultural research activity/techniques apparent soil electrical conductivity, 281-282 gamma ray attenuation, 17, 24-25 manure/compost application comparison, 274 soil heterogeneity, 263-264 soil moisture measurement, 4 time domain reflectometry, 17-18 tree root mass, 375-376 Agricultural Research Service, 46 Agricultural test plots, 104-105 Agriculture, 5, 199 Agriculture products and management. 47, 51 Agrigeophysics, 14 Agronomic research, 263-264, 270, 273-274 Airborne electromagnetic (AEM) systems, 4, 19, 23 Airborne magnetometers, 4, 148 Alber's equal area projection, 206 Almanac data, 168, 169, 184, 193 Alternating electric current (AC), 95, 98, 112, 153 AM. See Active microwaves (AM) American Golf Foundation, 345 American Wire Gauge (AWG), 154 Ampere, André-Marie, 110 Ampere's law, 110-111, 112 Amplitude, 115, 313-314, 319 Amplitude filtering. 122 Amp meter, 111 AMT. See Audio magnetotelluric (AMT) method Anaerobic conditions, 345 Analogous regression performed, 236-237 Analysis of variance (ANOV). 227. 267 Anisotropy paradox, 103 Anomalies, 6, 7 ANOV. See Analysis of variance (ANOV) Antenna frequency, 138-139, 364. 365-366, 368 Antenna phase center location, 174 Antenna Reference Point (ARP), 174 Antenna ringing. 136-137 Antennas, 135-137, 347 Anthropogenic properties, 28,48 Anti-Spoofing (AS), 170, 177, 194 Apparent conductivity by EMI, 287-288 Apparent electrical conductivity (ECa) agricultural research techniques, 281-282 analogous regression performed, 236-237 basic principles and theory. 66-68 bulk density, 18 bulk volume of soil, 10 case studies, 74-77 cation exchange capacity, 32. 227, 234 clay content, 268-269 contour map. 235 correlation coefficient. 11. 72-73, 220. 221 crop yield. 248, 268-269 data analysis, 101-102, 103.219 defined. 383 differential GPS, 219. 227 -directed soil sampling. 28-30, 32-34, 68, 69-71, 70, 249-250, 253-254 electrical resistivity, 21-23 electric potential. 93 electromagnetic induction, 23-24. 217. 225 electromagnetic methods, 242 EM-EC, device. 218-219. 227 farm field map, 11-12 field measurements, 64. 278-279 field observations vs. soil properties, 67 herbicides, 241-242 herbicide-soil binding, 242-243 historial perspective, 18-19 393 394 Index integrates multiple soil properties, 268 locations, 218,226 mapping, 214, 234, 264, 265-267 maps and plots, 62, 104, 242, 275-276 measured with EMI, 106, 211, 234 measurement and soil samples, 242 measurement of water content, 24-26 measurement range. 236 measurements, 219, 227 methods, 211-212, 282-283 vs. microbial-scale measurements, 269 misconceptions surrounding, 64-66 mobile measurement equipment, 28-29, 296 mobilization of, 19 observed associations to, 27-28 organic matter, 67 physicochemical nature, 30 productivity zones, 267, 269-270 results and discussion, 212-214, 220-222, 227-230, 243-245, 284-286 sampling-site scale, 267, 268 Schlumberger array, 94 sensor techniques, 217-218 signal velocity and attenuation use, 18 sites. 242 site-specific nutrient management, 270 soil and field properties, 234 vs. soil edaphic properties, 267-268 soil properties. 64-66, 71-74, 77, 106, 220-222, 247 soil salinity, 19-21, 61-62. 72, 234 soil sampling, 219, 227, 235. 282 soil volumetric water content, 234 spatial variability, 18, 30-32 statistics and data analyses, 227 surveys, 69, 72-73, 248-249, 275-276 time domain reflectometry, 26-27 Wenner array, 22, 100 yield and precipitation relationships, 270 Applied signal voltage, 26 Archie's law, 87 ArcView GIS, 227 Areal resistivity mapping, 94 Argillic and spodic horizons, 46 Argillic horizon, 49,51 ARP. See Antenna Reference Point (ARP) Arrays. 287 Artificial energy, 157 Artificial source methods, 113 AS. See Anti-Spoofing (AS) Atmosphere, 50 Atmospheric delays. 170-172 Atomic clock, 172 Atrazine sorption, 235, 237 Attenuation applied signal voltage, 26 effect of permittivity on, 134 electrical conductivity in bulk soil, 18 and rnagnetometry, 151 seismic waves, 157, 161 wave's amplitude, 310 Attenuation constant. 120 Audio magnetotelluric (AMT) method, 113 Automatic Gain Control Function (AGCF), 355, 358 AWG. See American Wire Gauge (AWG) Azimuthal orientation, 115 Azimuthal rotation data collection, 101 Azimuthal rotation resistivity surveys, 103, 105 B BA. See Bottom of Antenna Mount (BA) Backscattered reflection, 141 Basin- and landscape-scale assessments, 19 Beckum test site, 296, 298 Biases and errors of GPS, 170 Binary models, 207 Biot, Jean Baptiste, 110 Body waves, 156 Borehole magnetometry, 148 Borehole methods, 296, 317 Bornim test site, 296,298 Bottom of Antenna Mount (BA), 174 Box plots, 334 Broadcast ephemeris errors, 172-173, 175, 182 Broadcasting corrections, 185-186 Broadview Water District, California, 34, 74, 76, 248 Bulk density, 18, 32, 66, 106, 249 Bulk soil solution, 91 Bulk solid electrical resistivity value, 5 Bulk volume of soil, 10 C/A. See Coarse-acquisition (C/A) code Calibration curves developed for TDR, 328, 330 Calibration of EMI equipment, 24 California Method, 353-354, 355 Capacitance probes (CPs), 17, 18, 26 Capacitively coupled resistivity, 98-100, 295 Carrier phase, 178, 180,181-182, 185 Cartesian geocentric coordinates, 179, 201 Cation exchange capacity (CEC) correlated with SOM, 230 defined, 384 and ECa, 32, 227, 234 GPR and low, 47 physical and chemical properties of texture, 286 sodium adsorption ratio, 390 soil-applied herbicides, 241 soil EC, map, 286 soil electrical conductivity impact, 7 soil properties, 60 and soil solution, 89-90 soil texture, 300 solid-liquid phase pathway, 67 CGF. See Constant Gain Function (CGF) Chang Hêng, 4 Choke ring antennas, 172 Clay content and EC,, 268-269 electrical conductivity, 234,258 and OM influence, 67 soil properties, 60,91, 212 Claypans, 60,64, 234 Cleveland Museum of Natural History, 161 Index 395 Clock estimation procedure, 174 CMP. See Common midpoint (CMP) method Coachella Valley, 74, 76 Coarse-acquisition (C/A) code, 168,169, 170, 192 Coefficient of variation (CV), 284, 286 Cokriging models, 71 Collection methods, 282-283 Common coordinate systems, 204-206 Common midpoint (CMP) method, 306, 310 Computer-controlled multielectrode systems, 95-96, 100-101 Computers and Electronics in Agriculture (Corwin), 28 Computer software/systems agricultural geophysics, 14 computer-controlled multielectrode systems, 95-96 data input devices, 199 data processing, 340-343, 348 descriptive statistics and regression, 235-236 EKKO Mapper software, 358 ESAP software package, 30, 71, 212, 248-249 geostatistical software package, 258 GIS software, 200, 204, 207, 249 GPR computer-processing procedures, 361 GPS software, 174 Hydrus-2D package, 327 interpretation, 145 mapping software, 149, 196 mathematical models, 124 MINITAB, 219, 227 modeling software, 321 one-dimensional forward modeling approach, 102 postcollection processing, 377 RES2DINV, 105, 297, 299 SAS software, 249 Sensors Software Inc., 355-356 Sigma Scan Pro Image Analysis software, 377 three-dimensional modeling of radar, 51 Conductive/metallic objects, 109 Conductive/semiconductive materials, 127-128 Conductivity data modeling, 71-72 Conductivity value, 5 Constant Gain Function (CGF), 355, 356, 361 Constant separation traversing resistivity survey, 100,101, 106, 107 Contamination transport and GPR, 346 Continuously Operating Reference Stations (CORS), 187, 189-190 Continuous measurement systems, 96—100 Contour maps, 121-122, 124,235 Control Segment, 167, 172-173, 174 Conventional equipment, 95 Correlation coefficient (r) between ECa and soil properties, 72-73,220,221 between ECa and soybean yield, 11 EC, map use, 242 between GPR estimates and root biomass, 50 soil properties, 73, 227-228 spatial EC, patterns, 104 Correlation matrix of soil properties, 76 Corrugated plastic tubing (CPT), 363, 366,368 CORS. See Continuously Operating Reference Stations (CORS) Cost-effective technologies, 264 Cover crop, 276, 277-278 CPs. See Capacitance probes (CPs) CPT. See Corrugated plastic tubing (CPT) Crop patterns, 33 Crop yield apparent electrical conductivity, 268-269 defined, 384 directed soil sampling, 249-250 ECa measurements, 248 factors influencing, 247 field-scale measure, 268 mapping and yield heterogeneity, 268 monitoring data, 73 productivity zones, 263-264 response model development, 251-252 SSCM, 64, 73, 247-248, 249-250 SSMUs, 34, 73 studies relating ECa to, 72, 253,264 Cross-validation, 257, 258-259 Current electrodes, 93 Current flow pathways, 30-32, 66,91-93 Curve matching, 126 CV. See Coefficient of variation (CV) D D'Agostino-Pearson test, 236 Data analysis, 101-105,219, 309-314 Database management system, 199-200 Data collection and analysis collection methods, 282-283 common coordinate systems, 204-206 database management system, 199-200 discriminant analysis, 259-260 field measurements, 319-321 field operations, 8-9 finding the optimal offset, 310 geophysical data analysis, 9 geophysical method selection, 7 geostatistical procedures, 257-258 GIS models and modeling, 207-208 GPR measurements, 355, 365 investigation depth/feature resolution issues, 7- link spatial data, 203 mobile instruments, 296 root mass and GPR data, 378-380 seismic methods, 160-161 site conditions influence correlations, 300—301 soil electrical conductivity, 256-257 spatial and biological scales, 267 spatial databases, 206-207 surface methods with raw data, 299 survey protocol, 339—340 wide-offset surveys, 310-314 Data input devices, 199 Data processing, 121-123, 149-151, 340-343.348 Data types, 205-206 DC. See Direct electric current (DC) DCBs. See Differential code biases (DCBs) Delineation, 60,252-254 Delta process, 175 DEM. See Digital Elevation Model (DEM) 396 Index Dense nonaqueous phase liquid (DNAPI.), 145 Department of Transportation (DOT). 187 DepoMtional sand, 60 Depth-distance cross section. 140 Depth of penetration. 22. 120, 138 Depth sections, 104-105 Depth sensitivity. 301 Depth-weighed effect. 225 Depth-weighted nonlinear response of EMI. 24 Design-based sampling, 30 Deterministic conversion model. 72 DGPS. See Differential GPS (DGPS) Dielectric constant (e) discontinuity. 364-365 electromagnetic wave. 130. 323-324 GPR method. 12 material to polari/e. 309 radar reflection coefficient. 370 radar signal velocity. 6 relative. 330 soil volumetric water content. 365 TDR technique. 27 velocity of GPR electromagnetic waves. 324-325 velocity of propagation. 18. 64 WOR GPR. 311-313 Dielectric permittivity, 18. 64 Difference radargrams. 327-328 Differential code biases (DCBs). 174 Differential GPS (DGPS) defined. 387 EC, measurements. 219. 227 geo-referenced data. 299 GPS positioning modes. 190 mathematical models. 166 message format. 184-187 positioning accuracy. 191-192 precise point positioning, 189 real time tracking. 340 relative positioning. 180-182 relativistic propagation error. 172 services. 182-184 Diffraction scattering. 131 Diffusion potential gradients, 153 Digital Elevation Model (DEM). 206 Dipole-dipole array. 94. 95,98-99. 100. 105 Dipole mode. 24 Direct applications, 45-48 Direct contact method. 63 Direct electric current (DC). 95. 112 Direct or indirect applications. 45 Direct soil sampling. 30 Discriminant analysis/geostatistical procedures, 257-258. 259-260 DISCRIM procedure. 257 Dispersion. 157 Dissolved ion mobility. 87. 88. 89 Distance, 8 Distance-dependent biases, 187-188 Division of Geoprobe® Systems. 256 DNAPL. See Dense nonaqueous phase liquid (DNAPL) DOD. See U.S. Department of Defense (DOD) Doppler. 169. 178 DOT. See Department of Transportation (DOT) Drainage classes. 236, 256, 257, 258 Drainage pipe detection, 364 Drainage tiles, 346-347. 349. 350 Drainage water management, 106 Dryland system research. 264 Dualem. Inc. 19 DUALE.M-2. 19.24,274 Dye experiment, 330 Dynamic factors, 32. 68 Earth borehole magnetometry, 148 electric potential gradients, 6 geographic coordinate system. 204 geophysics studies. 3 GPS receiver clock, 172 GPS satellites, 166-167 gravitational field, 4 magnetic field, 6, 147-148, 149 natural EM field, 113 operational constellation, 167-168 seismic waves. 155-156, 157 surface can be modeled. 124-125 Zeeman-effect, 148 Earth-Centered-Earth-Fixed (ECEF), 168 Earthquakes. 4, 155, 161 Earth Resistivity Meter (ERM), 299-300 ECa. See Apparent electrical conductivity (ECU) EC. See Electrical conductivity (resistivity) (ECe) ECEF. See Earth-Centered-Earth-Fixed (ECEF) Edaphic/anthropogenic, 34. 35 Edaphic mapping, 28, 33 Eddy currents, 109 EKKO Mapper software, 358 Elastic (seismic) waves. 6, 161 Electrical conductance, 20, 32,61 Electrical conductivity (EC). See also Ohm"s Law; Soil electrical conductivity agricultural uses, 273 amplitude decay signals, 115 bulk density, 249 clay content, 234 data analysis products, 103 depth of penetration, 120 depth sections. 104-105 depth-weighed effect, 225 drainage classes, 258 electrical current. 86 field-scale, 255 log-transformed. 219 measurements, 235 and molar concentrations of ions, 61 pure solution, 60 saturation percentage, 249 soil pathways, 222, 230 soil salinity measurement, 20 soil volumetric water content, 368 standard soil physicochemical measurement, 59 Electrical conductivity (resistivity) (ECe), 5-6, 7, 10, 18 Electrical current (/') Index 397 depth of penetration, 22 electrical conductivity, 86 electrical resistivity, 21, 62 EM methods, 110 four-electrode contact methods, 60 polarization, 133 resistivity method, 5, 85 thermal noise, 173 Electrical resistivity (ER) agricultural research techniques, 17 apparent electrical conductivity, 21-23, 69 electrical current, 62 vs. EMI, 63 and geospatial measurement of EC, 59 Electric current (/) antennas, 136 capacitively coupled systems, 98, 99 defined, 86, 385 dissolved ions and, 87, 89 electrode array, 100 electrokinetic, 153 field resistivity surveys, 95 four-electrode array, 93 hemispherical shell, 92 and magnetic field, 110—111 noise, 94 parallel resistors, 91 resistivity, 96 sandy/silty soil capacity, 88 self-potential methods, 6 soil material transfers, 86 transmitted electrolytically through soil, 90 Veris 3100 Soil EC Mapping System, 97 Electric dipole, 117 Electric potential, 92-93, 95, 152. 153, 160, 385 Electric potential gradients, 6 Electrochemical, 153 Electrode arrays, 93-95, 100-101 Electrode configuration, 296 Electrodes at soil surface, 22 Electrokinetic, 153, 155 Electrolytic conductivity, 61 Electromagnetic (EM) methods arrays used, 287 basic principles, 110-113 data preparation and processing, 121-123 depth of penetration, 120 ECa measurements, 242 vs. EMI, 23 field procedures, 118-119 forward modeling, 124—126 geophysical technique, 45 geophysical techniques, 113-118 and GPR comparison, 47 GPR surface reflectivity, 317 incorporates HCP and PRP arrays, 292-294 interference effects, 120-121 interpretation, 123-124 inverse modeling, 126-127 locate conductive/semiconductive materials, 127-128 locating conductive/metallic objects, 109 measurements profile, 122-123 mode of sensor transport, 119 properties/hydrological parameters, 305-306 rely on EM source, 17-18 station spacing, 119-120 theory and laws, 112-113 velocity, 309. 311-312, 314 visual interpretation, 124 Electromagnetic energy travel, 130 Electromagnetic field (primary field), 5-6, 109. 113 Electromagnetic induction (EMI) active methods, 5 agricultural applications, 19 agricultural research techniques, 17 agronomic effectiveness/environmental consequences, 273-274 apparent conductivity by EMI, 287-288 apparent electrical conductivity, 23-24, 106. 217. 225. 234 bulk soil volumetric water content. 12 conductivity meter, 29 defined, 385 electrical resistivity, 63 EM methods, 23 employs lower-frequency signals, 18 galvanic contact resistivity, 301 geoelectric instruments, 295 geophysical methods, 3, 4, 5, 13 and geospatial measurement of EC, 59 golf-course green model, 289-290 incorporates HCP and PRP arrays. 292-294 mapping, 287 measurement of soil ECa, 62.63 mobile measurement equipment, 28-29 mobilization of. 21 noncontact measure soil EC. 60 resolution of measurement, 288-289 sensors, 273 soil-plant systems. 35 soil salinity, 10, 23 survey examples, 290-292 surveys for ECa, 69 technique for mapping ECa, 287 vs. GCR methods, 301 Electromagnetic radio energy (radar) pulse, 6, 354-355. 364, 366 Electromagnetic wave dielectric constant, 130, 323-324 free electrons, 170 GPR amd TDR principles, 26 permittivity, 130-131 polarization, 133 propagation velocity of GPR, 324 reflection times, 328 scattering electromagnetic energy. 130 TDR technique, 27 tomographic procedures. 323 transmit antenna, 135-136 and travel time, 134 ELF. See Extremely low frequency (ELF) Ellipsoid of revolution, 115 EM. See Electromagnetic (EM) methods EM-ECS device, 218-219, 227 EM-EC, technique, 217-218, 222, 225-226, 230 EM energy (flux). 113 398 Index EM field (secondary field) amplitude and orientation, 115 current Row direction, 109 transmitting and receiving. 116-118 vector. 113, 114 EMI. See Electromagnetic induction (EMI) Energy input pulse, 136 signal trace, 355. 364 time-varying EM energy, 112 trace, 139 transmitted into soil, 325 Engineering applications, 189 Environmental and hydrological disciplines, 107 Environmental Systems Research Institute, Inc., 257 Eôtvos, Roland von. 4 Ephemeris data, 168. 169. 184 Epsilon process. 175 Equipment calibration of EMI equipment, 24 EM-EC, device, 218-219, 227 EMI measurement instruments, 274 EM methods, 113-118 fixed-array electrical resistivity. 248 fluxgate and optically pumped magnetometers, 148 gas chromatograph w/mass spectrophotometer, 242 geophysical instruments, 47, 123-124 GPS instrumentation. 192-194 gradiometers. 6, 148 kinematic soil mapping, 295, 296-299 magnetometer, 6 passive remote sensing device, 148 seismic, 160-161 seismoscope, 4 self-potential methods, 153-154 setup, 7-8, 96-100. 153 soil conductivity, 274-275 surveying instruments, 207 thermocouple temperature probes, 274 vehicle-mounted GPR, 318 ER. See Electrical resistivity (ER) ERDAS, 267 ERM. See Earth Resistivity Meter (ERM) Error sources. 166, 170, 183, 189, 269 ESAP software package, 30, 71. 212, 248-249 ESP. See Exchangeable sodium percentage (ESP) ESRI ArcGIS 9.0,283 ESRI ArcMap 9, 343 ESRI ArcView3.3, 249 Evapotranspiration-associated losses, 87 Exchangeable sodium percentage (ESP), 33 Experimental setup. 325-326 Experiments. 4 Exploratory statistical analyses, 250-251 Extremely low frequency (ELF), 113 Farm equipment technology, 10-11 Farm management, 270-271 Farm-Scale Intensive Cropping Study (FICS), 264-265, 267, 269-270 FDTD. See Finite difference time domain (FDTD) Feature resolution (detection), 8 Federal Aviation Administration (FAA), 183, 184 FICS. See Farm-Scale Intensive Cropping Study (FICS) Field- and landscape-scale issues, 34-35 Field and landscape scales, 59 Field-applied pesticides, 233 Field data collection modes, 100-101 Field measurements apparent electrical conductivity, 64, 68, 278-279 data collection and analysis, 319-321 geospatial measurements of ECa, 64 ground-penetrating radar methods, 319-321 Field operations, 8-9, 274 Field principles, 149 Field procedures EM methods, 118-119 geophysical surveys, 137-138 GPR methods, 137-138 self-potential methods, 154-155 Field resistivity surveys, 95 Field-scale agronomic research, 263-264 crop yield, 268 ECa-directed soil sampling, 69—71 electrical conductivity, 255 soil salinity, 19, 27 volumetric water estimate, 48 yield data integrated by ECa, 269 Field sensor measurements, 119 Field zones, 11-12 Filtering and amplification, 139 Final orbits, 173 Finite difference time domain (FDTD), 321 Finite impulse response filter (FIR) method, 377 FIR. See Finite impulse response filter (FIR) method Fisher's least significant difference (LSD), 227 Fixed-array electrical resistivity, 248 Fixed-mode antenna arrangement, 137 Fixed offset (FO) method, 325 Florida Cooperative Soil Survey Program, 45,46 Flux-density, 111 Fluxgate magnetometers, 148, 149 FO. See Fixed offset (FO) method Forward modeling, 124-126 Four-electrode array, 85, 93, 101 Four-electrode contact methods, 60 Fourier Transform, 115 Fox, Robert, 4 Free electrons, 170 Frequency, 161, 313 Frequency domain system, 113, 116 Fresnel, Augustin Jean, 131 FAA. See Federal Aviation Administration (FAA) Fan-pattern seismic refraction surveys, 4 Faraday, Michael, 110,111 Faraday's law, 112 G. See Geometric factor (G) Galileo, 186, 194 Index 399 Galvanic contact resistivity (GCR), 96-98, 295, 301 Galvanic contact systems, 99, 104 Gamma ray attenuation, 17, 24-25 Garmin WAAS products, 195-196 Gas chromatograph w/mass spectrophotometer, 242 GCR. See Galvanic contact resistivity (GCR) GE HealthCare, 341 Generalized universal kriging models, 71 Geo-aligned data layers, 267 Geocarta SA, 98, 299 Geodetic surveys, 206 Geoelectric instruments, 295, 296-299, 299-301 Geographic coordinate system, 204 Geographic data, 201 Geographic information system (GIS) common coordinate systems, 204—206 components of, 199-200 computer software/systems, 200, 204, 207, 249 denned,386 farm equipment technology, 10-11 geo-aligned data layers, 267 geophysical data analysis, 9 and GPS, 166 introduction, 199 mapping concepts, 200-203 models and modeling, 207-208 nongeophysical spatial data, 207 sampling strategies, 35 spatial analysis, 249 spatial databases, 206-207 three-dimensional modeling of radar, 51 GeoLog, 296 Geometric factor (G), 93 Geometries, Inc., 99 Geometry, 174-175 Geonics EM38, 19, 24, 217, 218,222 Geonics Limited, Inc., 19, 120, 212, 235, 274, 296-298, 300 Geophones, 7, 160, 386 Geophysical data, 9,13-14, 126-127 Geophysical measurement, 8,9, 118-119, 124-126, 207 Geophysical methods and agriculture, 5, 199 data collection and analysis, 7 electromagnetic induction, 3,4, 5, 13 and GPS, 195 gravity, 3 ground-penetrating radar, 3,4,5, 13 induced polarization, 3,13 magnetometry, 3,5 nuclear magnetic resonance, 3,13 passive vs. active, 5 potential agricultural uses, 9-13 radioactivity, 3 resistivity, 3,4, 5, 13 seismic, 3,4, 5 self-potential, 3,4, 5 Geophysical surveys depth of penetration, 120, 138 field procedures, 137-138 hydrological investigation, 5 interference effects, 120-121 and investigation depth of interest. 4-5 multisensor systems, 13 near-surface seismic reflection, 151 planning stages, 7 precision agriculture role, 11 station interval, 8 station spacing, 119-120 Geophysical Survey Systems, Inc., 343, 347, 348, 376 Geophysical techniques agricultural research techniques, 24 compilation of literature measuring ECa, 65 current status of, 28 EM method and equipment, 45, 113-118 future trends and needs, 34-36 geospatial measurement of EC, 59 GPR subsurface/near-surface use, 345-346 GPS mapping projects, 194, 195 hyperspectral imagery, 35 karst environments, 49 measurement of soil ECa, 62 resistivity method, 85 types of, 45 used in agricultural research, 17-18 Geophysics, 3,4, 17, 386 Geo-referenced data, 35, 299 Geoscan's Geoplot, 149 Geosoft's Oasis Montaj, 149 Geospatial applications, 195 Geospatial ECa measurements, 28 Geospatially interpolated, 343 Geospatial measurements of EC, characterize within-field variability, 247 field measurements, 64 geophysical techniques, 59 geo-referenced yield data, 35 identify edaphic/anthropogenic properties, 34 impact of, 18 positive benefit, 32, 33 Geostatistical analysis, 13-14, 257-258 Geostatistical models, 71 Geostatistical software package, 258 Geotomo software, 299 Gf Instruments, 298 GGN. See Global GPS Network (GGN) Gilbert's discovery, 17 GIS. See Geographic information system (GIS) Global Differential GPS (IGDG). 183 Global GPS Network (GGN), 183 Global Positioning System (GPS) accuracy of, 191-192 agricultural geophysics, 166 antenna phase center location, 174 defined, 386 DGPS, 182-187 EC,-directed soil sampling, 28-29 ECa measured using EMI and, 211 Error Sources and Approximated Magnitudes, 173 farm equipment technology, 10-11 galvanic contact resistivity, 97 geographic information system, 166 geophysical methods, 195 geo-referenced measurements, 299 guidance devices, 13 how GPS works, 166-167 400 Index instrumentation, 192-194 integration with geophysical equipment, 9 intentional degradation of satellite signal. 175-176 interference and jamming. 175 introduction. 166 ionosphere and troposphere delays. 170-172 main components of. 167-168 mapping projects, 194-196 mode of sensor transport. 119 moderni/ation/other satellite systems, 194 multiputh. 172 network-based RTK GPS. 187-189 nongeophysical spatial data. 207 obtain positional data, 274 orbital errors, 172-173 point (absolute) positioning, 180 point vs. relative positioning. 180-182 positioning modes. 190 positioning with GPS. 179-180 precise point positioning. 189-190 processing strategies. 191 pseudorange/carrier phase observables. I76-179 real time vs. postprocessing. 190-191 receiver noise and biases. 173-174 receivers. 195-196 reference station error. 174 relative positioning. 180-182 relativistic propagation error. 172 sample-site scale analyses. 267 satellite and receiver clock errors. 172 satellites. 169 satellites and their geometry. 174-175 satellites location. 182 satellites signal data. 184 signal characteristics. 168-170 soil electrical conductivity. 166 spatial variation of yield. 248 spherical-projected GOS, 341 three-dimensional mapping of soil, 346 and underground drainage tile, 51 and Veris unit. 62-63, 282 Global Satellite Based Augmentation System (GSBAS), 182.183 GLONASS. 186. 194 Golden Software, Inc., 151, 235 Golden Software's Surfer. 149, 151 Golf course green construction methods, 353-354 drainage system. 347, 349-350, 351 management, 345-346. 353-354 model. 289-290 studies. 50-51. 361 Golzow test site, 296.298 GPR. See Ground-penetrating radar (GPR) methods GPS. See Global Positioning System (GPS) GP sentences. 186-187 Gradiometers, 6. 148 Granular fertilizer. 347-348 Gravimetric basis. 32 Gravimetric water content. 66 Gravitational field, 4 Gravity, 3 Griddeddata, 122 Grid locations. 234-235. 236, 257, 347 Ground-coupled antenna, 337, 376 Ground-level measurements, 292-294 Ground-penetrating radar (GPR) methods active methods, 5 and agricultural applications, 47 agricultural drainage pipe, 373 agricultural research techniques, 17 agriculture products and management. 51 amplitude map, 370 antenna center frequency, 366 antenna frequency, 138-139 antennas. 135-137 antenna selection, 347 applications to study plants, 50 attenuation by soils with clay content, 151 cation exchange capacity, 47 compared to TDR, 26 computer-processing procedures, 361 data and analysis, 309-314 data processing, 340-343, 348 depth of penetration, 138 dielectric constant, 12 direct applications, 45-48 direct or indirect applications, 45 display processing, 142 drainage pipe mapping, surveys, 370 dye experiment, 330 electrical properties of soils, 18 electromagnetic radio energy (radar) pulse, 6, 354-355, 364 EM properties/hydrological parameters, 305-306 estimates and root biomass, 50 experimental setup, 325-326 field measurements, 319-321 field procedures, 137-138 filtering and amplification, 139 geophysical methods, 3, 4, 5, 13 golf course green issues, 356 golf course management, 345-346, 353-354 golf course studies. 50-51, 361 golf greens and. 350-351 golf greens selection, 346-347 GPR recording, 132-133 GPR surveys. 306-309 GPR technique, 324-325 indirect applications, 48-50 interpretation, 145 large physical sand tank, 326 lysimeter stand, 326 materials and methods, 354-356, 364-366, 376-378 maximum reflection amplitude, 330-332 measurements, 347-348, 355, 365 methodology, 318-319 near-surface water pathways, 337-338, 343 normalized maximum amplitude analysis (NMRA), 325 polarization. 133-134 propagation and scattering, 130-132 publications and work, 46 radargrams, migration of, 325 recording. 132-133 results and discussion, 343. 348-350, 356-361, 366-372, 378-381 Index 401 sample volume, 319 saturated soil radargram characteristics, 338-339 scattering from surface roughness, 321 signal saturation correction filter, 365 site preparation prior to measurement, 347 soil mapping, 46 soil—plant systems, 35 soil surveying using, 45 soil volumetric water content, 12-13,48, 305 soil water content, 323-324 soil water content changes, seasonal, 328-330 soil water content measurement, 317-318, 333-334 soil water content profiles, 327, 332-333 static corrections, 139 station and trace spacing, 138 subsurface drainage systems, 363-364 subsurface/near-surface use, 345-346 surface reflectivity method, 317, 322 survey protocol, 339-340 surveys, 306-309 system overview, 134-135 technology advances in, 26 temporal/spatial changes, 314 three-dimensional displays, 143-144 three-dimensional modeling of radar, 51-53 time-dependent geophysical technique, 129 time domain reflectometry, 26, 324-325, 365 time-slice amplitude maps, 9,11 transmitter and receiver, 134-135 tree roots, 375-376, 381 two-dimensional displays, 142 uses of, 7 velocity, 134 velocity analysis and two-dimensional filtering, 139-142 water front propagation, 327-328 Ground surface trends, 5 Groundwater detection and GPR, 48 GSBAS. See Global Satellite Based Augmentation System (GSBAS) Guidance devices, 13 H Haake Buchler Instruments, 234 Hazen's empirical formula, 327 HCP. See Horizontal coplanar (HCP) HCP and PRP arrays, 288-289, 292-294 Hemispherical shell, 92 Herbicides, 237-238, 241-242 Herbicides/field correlations, 243-245 Herbicide-soil binding, 242-243 Herbicide-soil binding variability, 244 Herbicide—soil sorption coefficient, 242 High-frequency antenna, 138, 376 High-performance liquid chromatography (HPLC), 235 Hilbert transformation, 377, 378 Horizontal (EMh) dipole, 24, 29 Horizontal coplanar (HCP), 287-292 Horizontal EC, maps, 103-104 Horizontal spatial patterns, 104, 155 HPLC. See High-performance liquid chromatography (HPLC) Humus, 89 Hydrological investigation, 5 Hydrologie conditions, 368-370 Hydrology, 3 Hydrus-2D package, 327 Hyperspectral imagery, 35 I ICD-GPS-200, 174 IERS. See International Earth Rotation Service (IERS) IGDG. See Global Differential GPS (IGDG) IGS. See International GPS Service (IGS) Imaging near-surface features, 345-346 Impedance mismatch, 136-137 Incident wave, 132 Index models, 207 Indirect applications. 48-50 Induced current, 111-112 Induced polarization, 3, 13 In-phase component, 115 Input pulse, 136 Insightful Corp., 243 In situ measurement, 20, 25, 60,296 Instrumental biases, 174 Integrated Mapping Systems Inc. 196 Intelligent vehicle highway system (IVHS). 183 Interelectrode spacing (m), 22 Interference biases and errors of GPS, 170 distance-dependent biases, 187-188 effects. 120-121 granular fertilizer, 347-348 and jamming, 175 multipath, 172 self-potential, 152-153 thermal noise, 173 International Earth Rotation Service (IERS), 174 International GPS Service (IGS), 173, 187, 189-190 International Terrestrial Reference Frame (ITRF), 174 Interpretation, 123-124, 145 Inverse computer modeling approach, 102-103 Inverse modeling, 126-127 Investigation depth, 4-5,7-8 Ion mobility influence, 88 Ionosphere and troposphere delays, 170-172 Irrigation and drainage, 48, 345, 346 ITRF. See International Terrestrial Reference Frame (ITRF) IVHS. See Intelligent vehicle highway system (IVHS) J Jamming, 175 Karst, microanalyses of, 47 Karst environments, 49 402 Index Kassow test site. 296, 298 Kendall's Tau Correlations, 297, 299 Kinematic soil mapping, 295, 296-299 Kirchoff migration, 377. 378 Kolmogorov-Smirnov test, 236 L. See Length (L) LA AS. See Local Area Augmentation System (LAAS) LADG. See Local Area DGPS (LADGPS) Lambert conformai conic, 205 Landsat Thematic Mapper (TM), 206 Landscape-scale agricultural applications, 32 Law of Reflection, 131 Leaching fraction (LF), 34 Least significant difference (LSD), 227 Least-squares inversion, 126-127 Length (L), 86 Lenz, Heinrich Friedrich Emil, 110 Lenz's law, 113 LF. See Leaching fraction (LF) Light detection and ranging (LiDAR), 183 Lime, 214 LIN. See Low-frequency antenna Line-of-sight (LOS) system, 168, 175 Lines of force. 111 Link spatial data, 203 Local Area Augmentation System (LAAS), 183-184 Local Area DGPS (LADGPS), 183 Local-scale variability, 21 Location-based services (LBS), 166 Locations. 182, 218. 226 Log-log scatterplot, 299 Log-transformed, 219 Loop-loop systems, 118 LOS. See Line-of-sight (LOS) system Love waves, 156, 160,388 Low-frequency antenna, 138-139, 376 Low induction number (LIN), 288 LSD. See Least significant difference (LSD) Lysimeters. 107, 325, 328 Lysimeter stand, 326 M Magellan WAAS receivers, 195 Magnetic compass, 4 Magnetic dipole soil conductivity meters, 274 Magnetic field, 6, 110-111, 147-148, 149-151, 153 Magnetic induction, 111 Magnetic loop, 117 Magnetometers, 4, 148-149 Magnetometry, 3, 5, 149-151 Magnetometry methods, 6 agricultural applications, 151-152 data processing and analysis. 149-151 defined, 388 field principles, 149 introduction, 147-148 locate subsurface drain lines, 9 magnetic susceptibility, 7 types of magnetometers, 148-149 MALA Geoscience, 325 Management-induced spatiotemporal monitoring, 32, 34, 60,77 Management practices, 263, 270-271 Management System Evaluation Area (MSEA), 203, 205 Manure/compost application comparison, 274 Mapping. See also Soil mapping agricultural geophysics, 200 apparent electrical conductivity, 265-267 ArcView GIS, 227 bulk density, 106 cost-effective technologies, 264 data preparation and processing, 121-123 dipole-dipole array, 95 EM-EC, technique, 222 and EMI, 287 farm field map, 11-12 GIS, 200-203 GIS concepts, 200-203 golf green drainage system, 347, 349-350, 351 GPR amplitude map, 370 ground-level measurements, 292-294 HCP and PRP arrays, 288-289 herbicides, 241-242 inherent soil properties, 214 log-log scatterplot, 299 measurement and soil samples, 242 pesticide partition coefficients, 233-234 potential of herbicide applications, 237—238 productivity zones, 264 projects, 194-196 SAREC, 283 software, 149, 196 soil and yield baseline, 281 soil conductivity, 273 soil drainage classes, 255, 260 soil properties, 33, 226 soil texture, 59 soil volumetric water content, 346 subsurface features, 354 time-slice amplitude maps, 355, 358-361, 365, 371-372 utility of EC,, 71 yield and EC,, 284-286 and yield heterogeneity, 268 Map projection, 204 Map Unit Interpretations Record (MUIR), 206-207 Master control station and errors, 182 Mathematical models, 124, 166 MathWorks, Inc., 343 Maximum reflection amplitude, 330-332 Maxwell, James Clerk, 110, 111 Maxweliian physics, 125-126 Maxwell's equation, 130 Measurement apparent electrical conductivity, 219, 227 electrical conductivity, 235 GPR method, 347-348 principles, 295 range, 236 resistive load impedance, 27 of soil EC,, 62,63-64 Index 403 soil electrical conductivity, 21 soil salinity, 19-21 soil volumetric water content, 18, 24-26 of water content, 24-26 Wenner array, 62 Measurement error, 295 Metal detectors, 121 Meteorology, 3 Methodology, 318-319 Microbial-scale measures, 267, 269 Microelectronics advances, 26 Microsoft Corp., 341 Mineral, 153 MINITAB, 219, 227 MLR. See Multiple linear regression (MLR) Mobile measurement equipment, 28-29, 296 Mobilization, 19, 21 Model-based sampling, 30, 69 Modeling software, 321 Mode of sensor transport, 119 Modernization/other satellite systems, 194 Moisture measurement, 60 Molar concentrations of ions, 61 Mollisols and soils with mollic epipedons, 47 Monitoring stations, 167 Morainic soils, 218, 226 Moving-mode arrangement, 137 MSEA. See Management System Evaluation Area (MSEA) MT. See Telluric, magnetelluric (MT) method Multielectrode array, 296 Multipath (GPS), 172 Multiple linear regression (MLR), 250, 251 Multisensor systems, 13 N NASA JPL, 183 National Geodetic Survey (NGS), 174, 187, 205 National Geospatial-lntelligence Agency (NGA), 167, 179 National Golf Foundation, 353 National Golf Foundation and McKinsey Company, 353 National Marine Electronics Association (NMEA), 186-187 National Research Council, 11 Natural EM field, 113 Natural potential, consistent and unidirectional. 153 Natural Resources Conservation Service (NRCS), 46, 206 NAVCEN, 184 Near-surface seismic reflection, 17, 151 Near-surface water pathways, 337-338, 343 Nernst potential gradients, 153 Network-based RTK GPS, 187-189 Neutron thermalization, 17, 25-26 Newtonian physics, 125-126 Newton's theory of gravitation, 17 NGS. See National Geodetic Survey (NGS) Nitrogen loss, 48 NMEA. See National Marine Electronics Association (NMEA) NMR. See Nuclear magnetic resonance (NMR) No-cover, all treatments, 278 Noise, 94. See also Interference Noncontact measure soil EC, 60 Nongeophysical spatial data, 207 Nonpolarizing electrode, 95 Nonspatial attribute data, 202 Normalized maximum reflection amplitude analysis (NRMA), 325, 331,332 North Magnetic Pole, 147 NRCS. See Natural Resources Conservation Service (NRCS) NRMA. See Normalized maximum reflection amplitude analysis (NRMA) Nuclear magnetic resonance (NMR), 3, 13, 17 Numerical modeling, 318, 319, 321 Nyquist sampling frequency, 120, 138 o Ohm (to), 21 OhmMapperTRl, 99-100, 104, 105 Ohm-meters (C2m), 86 Ohm's Law, 21. 86. 92 OLS. See Ordinary least squares regression (OLS) OM. See Organic matter (OM) OmniSTAR™, 183 One-dimensional forward modeling approach, 102 On the Examination of Iron Ore Deposits by Magnetic Methods (Thalén), 4 Open-top chambers (OTC), 380 Operating domain, 115 Operational constellation, 167-168 Optically pumped gradiometer, 151 Optically pumped magnetometers, 148, 149 Optimal offset, 310 Optimized Van-Genuchten parameter values, 332 Orbital errors, 172-173 Ordinary least squares regression (OLS), 249, 251 Oregon State University Research Dairy. 151, 152 Organic and commercial amendments, 276 Organic matter (OM) correlated with soil texture. 300 of cover crop, 276 determined using standard procedures. 282 GPR to map soils, 46 high water content and, 230 mapping edaphic properties, 28 measurement factors of ECa, 33, 67 mineralization in soil, 273 morainic soils, 218 non-target reflectors, 381 peatlands as fuel, 47 physical and chemical properties of texture, 286 soil amendment, 34 soil-applied herbicides, 241 soil EC, map, 286 soil properties, 18 soil properties affecting EC,, 64, 247, 284 soil resistivity, 89 SP and pb are influenced by, 32, 67 Organic soil materials, 46 OTC. See Open-top chambers (OTC) Out-of-phase component, 115 404 Index Paleo-sinkhole. 49 Parallel resistors. 91 Parallel swather, 63 Partition coefficients. 233 Passive methods. 5 Passive microwaves (PM). 17. 18 Passive remote sensing device. 148 Pathways ot radio frequency signals. 18 PDOP. See Position dilution of precision (PDOP) Pearson's r correlation coefficient, 299 Peatiands as fuel, 47 Permittivity. 27. 130-131. 134. 137, 145 Perpendicular (PRP). 287-292 Pesticide partition coefficients, 233-234 Phase-range, 179 Phase shift. 113-114 Phases of soil. 86-87 Physical oceanography. 3 Physical quality measurement techniques. 3 Physicochemical nature. 30 Plane coordinate system. 204 Plant(s) corn (Zea mays L.). 50. 265, 274 Escherkhia cnli. 151 fresno cotton (Gossypium hirsuturn L.) field, 74-76 fungi (Armillaria sp.), 379 grain sorghum {Sorghum bicolnr L. Moench). 286 loblolly pine (Pinus taeda L.). 50. 376 oak (Quercus sp.). 376 oak trees (Quercus petraea (Mattusch.) Liebl), 50 peach orchards (Primus persica). 379 proso millet (Panicutn militweum L.), 265 sorghum (Sorghum bicolor (L.) Moench), 211. 286 soybean (Glycine max L). 211 study using GPR. 50 vesicular-arbuscular mycorrhizal ( VAM) fungi. 267 winter wheat (Secale céréale L.). 274 winter wheat (Triticum aestivum L.), 74. 211, 264 Plot-scale blocking. 269-270. 271 Plot-scale experiments. 263 PM. See Passive microwaves (PM) Point (absolute) positioning, 180 Point vs. relative positioning. 180-182 Polarization. 133-134. 137. 309 Polarization ellipsoid. 114 Polyvinyl chloride (PVC), 151 Porous-matrix salinity sensors. 20 Positional data, 274 Position dilution of precision (PDOP), 175,176, 191 Positioning accuracy. 166, 170, 191-192, 205-206 Positioning with GPS, 179-180 Position vectors. 179 Postcollection processing. 377 Potential electrodes. 93 Potential energy. 86 PPP. See Precise point positioning (PPP) PPS. See Precise Positioning Service (PPS) Precise point positioning (PPP). 189-190, 191 Precise Positioning Service (PPS). 170. 189-190 Precision agriculture. 11, 247, 286 Preferential-flow pathways, 337. 339. 343 Principles of induction, 111-112 PRN. See Pseudo-Random Noise (PRN) code Probe impedance (12). 27 Process models, 207-208 Productivity zones apparent electrical conductivity. 269-270 crop yield, 263-264, 268-269 management practices. 270-271 mapping, 267 materials and methods, 264-267 microbial-scale measurements, 269 soil edaphic properties. 267-268 soil spatial variability, 32 SSCM, 34. 35 SSMUs. 268 Propagating wave. 130 Propagation and scattering, 130-132 Propagation velocity of GPR, 324 Proton precession magnetometers, 148 PRP. See Perpendicular (PRP) PRP and HCP arrays, 288-289, 292-294 Pseudo-Random Noise (PRN) code, 168, 174, 176-177 Pseudorange broadcasting corrections, 185-186 carrier modulation, 168-169 and carrier phase observables, 176-179 data processing, 187 defined, 387 GPS receiver performance, 173 GPS receiver task, 193 Local Area Augmentation Systems. 183 master control station and errors, 182 multipath. 172 point positioning procedure, 174 positioning accuracy, 191-192 positioning with GPS, 179-180 precise point positioning. 189 signal speed. 170 true observations and underlying parameters, 181-182 Pseudo-section. 140 Pure solution (aw), 60 PVC. See Polyvinyl chloride (PVC) P-waves. 156, 157-160 Quadrature component, 115 R. See Resistance (R) Radar amplitudes, 9 Radar energy, 9 Radar events used, 309 Radargram. 325. 337-339, 377-378, 379 Radar reflection coefficient, 370 Radar scatterometry, 17 Radar signal velocity, 6 Radioactivity, 3. 25-26 Radio-frequency (RF), 173, 193 Radio frequency signals, 18, 168, 174 Radio signals, 168 Index 405 Radio Technical Commission for Maritime Services (RTCM), 184-186 Raster data format, 202 Rayleigh waves, 156, 160 RDOP. See Relative DOP (RDOP) Real-time kinematic (RTK) GPS, 13, 35, 166. 186 Real time tracking, 340 Real-time users, 194 Real time vs. postprocessing GPS, 190-191 Receiver clock, 172, 180, 189 Receiver Independent Exchange Format (RINEX), 184, 186 Receiver noise and biases, 173-174 "Recommended Standards for Differential Navstar GPS Service" (RTCM), 184 Reference station error, 174 Reflection hyperbola, 366-367, 370-371, 372 Reflection times, 328 Regression models, 69, 207 Relational database model, 206 Relative DOP (RDOP), 175 Relative permittivity (er), 12, 134 Relative positioning, 180-182 Relative values. 236 Relativistic propagation error, 172 Remotely sensed imagery, 35,48 RES2DINV, 105, 297, 299 Research conducted/investigations, 12, 59 Residual mean square (RSS), 212 Resistance (R), 21 Resistive load impedance, 27 Resistivity data collection, 100-101 Resistivity methods agriculture applications, 106-107 capacitively coupled resistivity. 98-100 computer-controlled multielectrode systems, 95-96 conventional equipment, 95 current flow and potential, 91-93 data analysis products, 101-105 electrical current, 5, 85 electric current, 96 electrode arrays, 93-95 field data collection modes, 100-101 galvanic contact resistivity, 96-98 geophysical methods, 3, 4, 5, 13 geophysical techniques, 85 Ohm's Law, 86 soil gravimetric water content, 12 and soil materials, 86-91 soil properties, 21 soil salinity assessment, 10 uses of, 85 Resistivity surveys, 96,153-154 Resolution of measurement, 288-289 Resonant scattering, 131-132 Response-surface approach, 30, 69-70 RF. See Radio-frequency (RF) Richards equation, 327 Ricker wavelet, 321 RINEX. See Receiver Independent Exchange Format (RINEX) RMS. See Root mean square (RMS) Rock stratigraphy. 48 Root mass, 376, 378-380 Root mean square (RMS), 173 Root zone. 23, 24, 106 RSS. See Residual mean square (RSS) RTCM. See Radio Technical Commission for Maritime Services (RTCM) RTK. See Real-time kinematic (RTK) GPS SA. See Selective Availability (SA) Saline-sodic soil, 33 Salinity mapping and assessment, 59. 106 Salinity measurements, 74 Sample-site scale analyses, 267 Sample volume, 319 Sampling-site scale analyses, 267 Sampling-site scale properties, 268, 269 Sandy/silty soil, 88, 89 San Joaquin Valley. California, 32 SAR. See Sodium adsorption ratio (SAR) SAREC. See Sustainable Agriculture Research and Extension Center (SAREC) Satellite and receiver clock errors, 172 Satellite imagery, 207 Satellite magnetometry, 148 Satellites and their geometry, 174-175 Satellite signal, intentional degradation of, 175-176 Satellite systems, modernization/other. 194 Saturated soil radargram characteristics. 338-339 Saturation percentage (SP). 32, 66, 67, 74, 249 SBSF. See Spatial Background Subtraction Filter (SBSF) Scaling problems and defects, 149-151 Scan display, 142.143 Scattering, 131 Scattering electromagnetic energy principle, 130 Scattering from surface roughness, 321 Scattering reflections, 145 Scatter plots, 251,252 Schlumberger, Conrad, 21. 85 Schlumberger, Marcel. 85 Schlumberger array, 94, 100, 102 Schlumberger Limited, 85 Schlumberger Wireline and Testing. 90 Scrub ecosystem, 380-381 SDSS design, 33 Seismic methods, 6—7 active methods, 5 data collection. 160-161 defined, 390 geophysical methods, 3,4, 5. 195 introduction, 155-156 migration of radargrams, 325 wave propagation, 157-160 wave types, 156-157 Seismic reflection method, 130 Seismic refraction. 160 Seismic trace analyses, 324 Seismic waves frequency, 161 propagation, aspects of, 157-160 406 Index seismic methods. 6-7. 155-156 types. 156-157 Seismology, 3 Seismoscope, 4 Selective Availability (SA). I75-176 Sell-potential methods. 6 agricultural applications. 155 agricultural geophysics. 195 consistent and unidirectional natural potential. 153 defined. 390 equipment. 153-154 field procedures. 154-155 geophysical methods. 3. 4, 5, 13. 14 introduction. 152-153 Passive methods. 5 Sensitivity analysis simulations. 74 Sensors. 20-21 Sensors Software Inc. 320. 355-356. 365 Sensor techniques, 217-218 Sensor transport mode, 119 Shaded-relief map, 151. 152 Shaly (clayey) sand value. 90 Shielding, 137 SH-waves. 156, 158-160 Sigma Scan Pro Image Analysis software (Systat). 377 Signal characteristics, 168-170 Signal data. 184 Signal Saturation Correction Filter (SSCF) compute processing procedure. 355. 361 GPR profiles. 356. 365 time-slice amplitude map. 358. 359 Signal trace AGCF equalizing amplitudes. 358 measurement points. 365 radar wave amplitude. 6, 355. 364 spatial background substraction. 355-356 time-slice amplitude maps. 359 Signal Trace Enveloping (STE), 355, 358, 361 Signal velocity and attenuation, 18 Signal voltage. 26 Simple statistical correlation. 72. 73 Sinkholes. 48 Sites apparent electrical conductivity. 242 data collection and analysis, 300-301 geoelectric instruments, 296 GPR methods. 347 soil conductivity. 274 Site-specific crop management (SSCM) correlation between crop yield and EC,, 249-250 crop yield, 64, 73. 247-248 crop yield response model development, 251-252 delineated SSMUs, 252-254 delineation of, 60 EC, survey data, 248-249 exploratory statistical analyses, 250-251 productivity zones. 34. 35 spatial information required, 35-36 spatial measurements of soil EC,, 74 spatial variability, 33 statistical and spatial analyses, 249 study site. 248 yield monitoring and EC, survey, 248 Site-specific management (SSM), 247 Site-specific management units (SSMUs) crop yield. 73 crop yield integration, 34 delineated. 252-254 geo-referenced yield data, 35 productivity zones, 268 spatial analysis, 249 spatial variability, 32 spatial variability of edaphic, 248 Site-specific nutrient management, 270 Snell'slaw, 131. 158-159 Sodium adsorption ratio (SAR), 33, 390 Soil. See also Soil mapping; Soil properties; Soil salinity; Soil sampling; Soil surveys agricultural products and management, 47 conditions, monitoring changes, 7 depth sensitivity, 301 drainage classes, 256 electrical properties of, 18 and field properties, 234 and karst, microanalyses of, 47 management practices, 263 measurement principles, 295 mollisols and soils with mollic epipedons, 47 organic matter, 34 phases of, 86-87 and resistivity methods, 86 and topographical data, 256-257 water application, 253 watershed characteristics, 234 water tables, 46 and yield baseline, 281 Soil-applied herbicides, 241 Soil conductivity. See also Soil electrical conductivity ECa maps and plots, 275-276 electromagnetic impulse, 338 electromagnetic induction sensors, 273 EM-EC, device, 227 equipment, 274-275 field measurements of ECa, 278-279 field operations, 274 intermediate-depth investigations, 116 mapping, 273 site description, 274 statistical analysis, 277-278 sub-sand fluctuatons in native, 290 Soil Conservation Services. See Natural Resources Conservation Service (NRCS) Soil cores analyzed, 274-275 Soil drainage anaerobic conditions, 345 classes, 255, 260 discriminant analysis/geostatistical procedures, 257-258 results and discussion, 258-260 soil and topographical data, 256—257 soil electrical conductivity, 255 topography, 255-256 Soil EC, map, 286. See also Apparent electrical conductivity (ECJ Soil edaphic and biological variability, 269 Soil electrical conductivity Index 407 antenna frequency/factor influencing, 364 background, 60-64 cation exchange capacity, 7 clay content correlation, 258 data collection, 256-257 ECa and mapping, 234 and GPS, 166 measurement of, 21 relative values, 236 soil drainage, 255 soil sampling, 61 Soil Electrical Conductivity in Precision Agriculture Symposium, 28 Soil equivalent resistance model, 66 Soil factors, means and ranges of, 75 Soil gravimetric water content, 12 Soil heterogeneity, 263-264, 267, 269, 270 Soil-landscape modeling, 46 Soil mapping bedrock depth in glaciated landscape, 47 EM-ECa technique, 225-226 and GPR, 46 precision agriculture, 286 and rock stratigraphy, 48 Soil materials, 86-91 Soil microvariability, 46 Soil moisture measurement, 4 Soil organic matter (SOM), 227, 228, 230 Soil pathways, 222, 230 Soil permittivity, 325. See also Permittivity Soil phases, 61 Soil physical and chemical properties cation exchange capacity, 286 electrical conductance pathway, 32 EM-ECa technique, 217-218, 225 soil ECa map, 286 soil sample analysis, 249 spatial variability, 30, 33 Soil physicochemical measurement, 59 Soil-plant systems, 35 Soil profile, 8 Soil properties apparent electrical conductivity, 65-66, 71-74, 247, 268 apparent soil electrical conductivity, 106 cation exchange capacity, 60 characterize and assess soil condition, 33 clay content, 60,91, 212 correlation coefficient, 227-228 Correlation Coefficients, 73 correlation matrix of, 76 correlations between EMI and, 76 ECa-directed soil sampling, 253-254 ECa measurements, 64-65,77, 220-222 ECa survey, 72 electrical conductivity in bulk soil, 18 EM-EC, technique, 230 exploratory statistical analyses, 250-251 field-applied pesticides, 233 field observations vs., 67 and herbicides, 241 inherent, 211 mapping, 33,226 moisture measurement, 60 morainic soils, 218, 226 nitrogen loss, 48 parameters related to measurable, 66-67 precision agriculture role, 247 resistivity, 21 soil surveys, 227-229 spatially characterize, 34 spatial pattern, 212, 214 STATSGO, 46-47 within-field spatial variability, 30 Soil quality assessment, 60 Soil radar signal velocity, 12 Soil reclamation, 34 Soil resistivity, 60, 89,90, 91 Soil salinity apparent soil electrical conductivity, 61-62 denned, 60 dominates ECa measurements, 72 electrical conductance pathway, 32 electrical conductivity, 20 EMI for measuring, 23 and ER, 21 field scales methods, 19 measurement of EC, 20 measurement of ECa, 234 resistivity methods, 10 sensors, 20—21 vertical profiting, 23-24 Soil sampling ECa-directed, 28-30 EC, measurements, 219,227, 235, 282 ECa survey data, 248-249 geospatial EC, measurements, 28 herbicides, 242 herbicides/field correlations, 243—245 soil and topographical data, 256 soil EC, 61 statistical methods, 214 statistical sample design, 29-30 Soil science, 72 Soil solution, 89-90, 107. See also Soil volumetric water content (8) Soil-solution extractor, 20-21 Soil spatial variability, 32 Soil Survey Geographic (SSURGO) database, 206 Soil surveys. See also Surveys EC, survey, 69 quality and efficiency increase, 46 regression model, 69 response-surface approach, 69-70 soil properties, 227-229 statistical test 230 using GPR methods, 45 Soil texture, 59,300 Soil type, 59 Soil volumetric water content (6) and amplitude, 313-314, 319 box plots, 334 dielectric constant dependent on, 365 EC, measurements, 234 and electrical conductivity, 368 GPR methods, 12-13,48,305,323-324,328-330 408 Index influencing measured EC,. 230 mapping. 346 measurement. 317-318. 333-334 measurement of, 24-26 profiles, 327. 332-333 radar events used. 309 research investigations, 12 salinity measurements. 74 and sandy/silty soil. 89 soil EC, map. 286 and soil materials. 87 spatial variability. 330 TDR point source technique for. 26-27 time domain reHectometry. 317. 320. 323 Solar Cycle. 171 Solar energy. 167 Solid-liquid phase pathway. 67 SOM. See Soil organic matter (SOM) South Magnetic Pole. 147 SP. See Saturation percentage (SP) Space Seamen!. 167 Spatial analysis. 249 Spatial and biological scales, 267 Spatial Background Subtraction Filter (SBSF), 355-356. 358 Spatial databases. 206-207 Spatial decorrelation. 183 Spatial distribution. 237-238, 380-381 Spatial EC4 patterns. 104 Spatial information required for SSCM, 35-36 Spatially referenced regression models, 71 Spatial measurements of soil EC. 59 Spatial measurements of soil EC,, 74 Spatial patterns. 212, 214, 270 Spatial response surface sampling (SRSS). 30 Spatial sampling error, 337 Spatial variability apparent electrical conductivity, 18, 30-32 characterizing. 214. 233-234 crop patterns, 33 dielectric properties in subsurface. 324 ECa-directed soil sampling, 68, 69 ECa map use, 62. 104 ofedaphic, 247. 248 field- and landscape-scale issues, 34-35 inherent soil properties, 211 parameters correlated w/drainage class, 236 plot-scale experiments. 263 site-specific crop management. 33 site-specific management units, 32 soil physical and chemical properties, 30,33 and soil resistivity, 91 soil water content measurement, 330 spatial measurements of soil EC, 59 surface water content. 48. 53 yield and irrigated fields, 283 Spatial variation of yield, 248 Spherical-projected GOS. 341 Spiral plot, 340 Split-plot design. 274. 275, 277 SPS. See Standard Positioning Service (SPS) SPSS Inc. 243 SRSS. See Spatial response surface sampling (SRSS) SSCF. See Signal Saturation Correction Filter (SSCF) SSCM. See Site-specific crop management (SSCM) SSM. See Site-specific management (SSM) SSMUs. See Site-specific management units (SSMUs) SSURGO. See Soil Survey Geographic (SSURGO) database Stacking. 8 Standard Positioning Service (SPS), 170, 175, 191 StarFire™. 183 State Plane coordinate (SPC) system, 204, 205, 341 State Soil Geographic (STATSGO), 46-47 Static corrections, 139. 141 Static factors, 32. 68 Station and trace spacing, 138 Station interval, 8 Station spacing, 119-120 Statistical analysis, 249, 267, 277-278, 324, 377 Statistical and spatial analyses, 249 Statistical methods, 214 Statistical sample design, 29-30 Statistical test, 230 Statistics and data analyses, 227 STATSGO. See State Soil Geographic (STATSGO) Stepwise discriminant procedure (STEPDISC), 257, 258 Stochastic models, 71 Stolt migration algorithm, 325 Stream tubes, 32-33 Subsurface antenna frequency, 368 artificial energy, 157 and electromagnetic energy travel, 130 features and GPR, 345, 361 mapping. 354 spatial variability, 324 Subsurface drainage systems, 363-364 Subsurface drain lines, locate, 9 Subsurface electrical permittivity, 120 Subsurface flow pathways, 48-50, 51 Suction lysimeters, 107 Surface-based measurements, 3 Surface methods with raw data, 299 Surface modeling, 124-125 Surface reflectivity method, 319, 322 Surface water content, 48, 53 Surface waves, 156 Surveys ECB data, 248-249 EMI effectiveness, 290-292 Geophysical measurement, 118-119 GPR drainage pipe mapping, 370 GPR golf course green issues, 356 GPS planning process, 195 grid GPS, 257 magnetometry data processing and analysis, 149-151 mapping, 275-276 near-surface water pathways protocol, 343 protocol, 339-340 seismic refraction, 160 soil cores analyzed, 274-275 surface reflectivity method, 319 Sustainable Agriculture Research and Extension Center (SAREC), 281, 283, 284 Index 409 SV-waves, 156, 158-160 S-waves, 156, 158 Taylor series expansion, 178-179 TDR. See Time domain reflectometry (TDR) TEC. See True Electron Content (TEC) Technology advances in GPR methods, 26 Tectonophysics, 3 Telluric, magnetelluric (MT) method, 113 Temperature, 32, 88, 90 Temperature conversion factor, 20, 61 Temporal and spatial high-resolution measurements, 314, 325 Temporal variations, 148 Tesla, 148 Thalén, Robert, 4 Thalén-Tiberg magnetometers, 4 Thermal noise, 173 Thermocouple temperature probes, 274 Thomson-Thalén magnetometers, 4 Three-dimensional (3D) position, 166, 194 Three-dimensional displays, 143-144 Three-dimensional mapping of soil, 346 Three-dimensional modeling of radar, 51-53 Time and frequency domain, 115-116 Time-dependent geophysical technique, 129 Time-distance cross section, 140, 141 Time domain reflectometry (TDR), 26-27 agricultural research techniques, 17-18 calibration curves developed for, 328, 330 defined,391 field-scale soil salinity assessment, 27 and geospatial measurement of EC, 59 GPR compared to, 48, 53 GPR profiles, 365 vs. GPR technique, 324-325 measurement of soil ECa, 62, 63-64 point source technique, 26—27 soil water content measurement, 317, 320, 323 Time-domain system, 113 Time-domain wave, 130 Time-of-measurement dependent, 65 Time-slice amplitude maps GPR methods, 9, 11 mapping, 355, 358-361, 365, 371-372 Time-varying EM energy, 112 TM. See Landsat Thematic Mapper (TM) Tomographic procedures, 14, 323 Topcon receivers, 195 Topographical variables, 258 Topography, 255-256 Topp's equation, 309, 313, 324, 333 Torsion balance gravity measurements, 4 Trace, 139 Transects, 8, 9 Transmission frequency, 99 Transmit and receive antennas, 137 Transmit antenna, 135—136 Transmitted electrolytically through soil, 90 Transmitter and receiver, 113. 116-118. 134-135 Transverse Mercator projection, 205 Travel direction, 158-160 Travel time, 134 Tree root mass, 375-376, 381 Triangulation in space, 166, 179 Trimble AgGPS series, 195 Trimble Navigation Ltd., 63, 212 Trimble PRO-XR GPS, 274 Trimble VRS™, 188-189 True Electron Content (TEC), 170 2-D Migration (2DM), 356, 358, 361 Two-dimensional (2D) position, 166 Two-dimensional displays, 142 u UBC Geophysical Inversion Facility Web site, 126 UERE. See User Equivalent Range Error (UERE) Ultrahigh frequency (UHF), 168, 182 Underground drainage tile, 51 Universal Transverse Mercator (UTM) system, 204, 205. 341 University of Wyoming, 281 U.S. Coast Guard Maritime DGPS, 184 USDA. See U.S. Department of Agriculture (USDA) USDA-ARS. See U.S. Department of Agriculture- Agricultural Research Service (USDA-ARS) USDA Economic Research Service, 363 USDA Handbook 60 (U.S. Salinity Laboratory Staff). 20, 61 U.S. Department of Agriculture (USDA), 46, 60, 256, 363-364 U.S. Department of Agriculture-Agricultural Research Service (USDA-ARS), 28. 59, 214. 281 U.S. Department of Agriculture-Agricultural Research Service-Soil Drainage Research Unit (USDA- ARS-SDRU), 294 U.S. Department of Defense (DOD), 166. 170. 175 U.S. Department of Energy, 305-306 User Equivalent Range Error (UERE), 175 User Segment, 168,169 USGA (U.S. Golf Association) Method, 353-354, 355. 356,359 USGA Green Section Record, 347 U.S. Meat Animal Research Center (USMARC), 274 U.S. Naval Observatory (USNO), 168 U.S. Salinity Laboratory, 59 U.S. Salinity Laboratory Staff. 20, 21, 60. 61 UTM. See Universal Transverse Mercator (UTM) system V. See Voltage (V) Vadose zone. 32, 48. 51 van Genuchten-Mualem soil hydraulic functions, 327 van Genuchten parameter values, optimized, 332 Variance inflation factors (VIF). 219 VDB. See VHF data broadcast (VDB) transmitter Vector, 113. 114, 133 Vector data format, 201-202 Vector line, 131 410 Index Vehicle-based monitoring, 27 Vehicle-mounted GPR, 318 Velocity. 134 dielectric constant, 6, 323-324 electromagnetic wave, 27, 323, 333, 350 GPR methods, 134, 139-142 GPS technology, 167, 184 of material, 141-142 permittivity, 132, 137 propagating wave, 130 P-wave or S-wave, 160 radar signal propagation, 348 reflection hyperbolas, 145 refraction, 131 sampling depth, 319 seismic wave, 7, 156, 157, 159 Velocity of propagation, 18, 64 Veris 3100 Soil EC Mapping System, 97 Veris Soil EC Mapping System, 62,97, 104,107, 242 Veris Technologies, 28-29,62,97, 242, 265, 270, 282, 299 Veris unit, 62-63, 282 Vertical (EM.) dipole, 24, 29 Vertical electric sounding, 100, 101 Vertical profiting, 23-24, 25 Very low frequency (VLF), 113, 182 VHF data broadcast (VDB) transmitter, 184 Virtual reference station (VRS), 188-189 Visual crop observation, 19 Visual interpretation, 124 VLF. See Very low frequency (VLF) Vollath, U., 187 Voltage (V), 21, 85,93, 98, 155 Volume of measurement, 22-23 Volume of spatial data, 72-73 Volumetric water estimate, 48 Vortex currents, 109 VRS. See Virtual reference station (VRS) w WAAS. See Wide Area Augmentation System (WAAS) WADGPS. See Wide Area DGPS (WADGPS) Water application, 253 Water content, 32 Water-filled pore space (WFPS), 275, 278 Water front propagation, 327-328 Water molecules, 90 Watershed characteristics, 234 Water tables, 46 Wave equation, 112,120, 130 Wavelet analysis, 72 Wave propagation, 157-160 Wave's amplitude, 310 Wave types, 156-157 Wenner, Frank, 21, 60 Wenner array apparent electrical conductivity, 22 apparent soil electrical conductivity, 100 areal resistivity mapping, 94 Earth Resistivity Meter, 299 electrode configuration switched, 296 electrodes at soil surface, 22 galvanic contact resistivity, 97-98 measure of ECa, 62 volume of measurement, 22-23 WFPS. See Water-filled pore space (WFPS) WGS84. See World Geodetic System 1984 (WGS84) Wide Area Augmentation System (WAAS), 183, 184 Wide Area DGPS (WADGPS), 182-183 Wide-offset reflection (WOR) data, 307-309, 310 Wide-offset surveys, 310-314 Wiggle trace (scan), 142 Within-field spatial variability, 30 Within-field variation, 33, 77 WOR. See Wide-offset reflection (WOR) data WOR GPR, 311-313 World Geodetic System 1984 (WGS84), 168, 179, 180 Yield and ECa, 284-286 Yield and irrigated fields, 283 Yield and precipitation relationships, 270 Yield data integrated by ECa, 269 Yield monitoring and ECa survey, 248 Yield relationships, 270 Zeeman-effect, 148 Zero crossings, 114 Zone sampling, 270 Zones of productivity, 60
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publisher	CRC Press
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spelling	Handbook of agricultural geophysics ed. by Barry J. Allred ... Boca Raton [u.a.] CRC Press 2008 XXII, 410 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Agriculture - Innovations Agriculture - Innovations - Guides, manuels, etc ram Géophysique Géophysique - Guides, manuels, etc ram Landwirtschaft Landwirtschaft (DE-588)4034402-2 gnd rswk-swf Geophysik (DE-588)4020252-5 gnd rswk-swf Umweltgeophysik (DE-588)4299577-2 gnd rswk-swf (DE-588)4143413-4 Aufsatzsammlung gnd-content Landwirtschaft (DE-588)4034402-2 s Geophysik (DE-588)4020252-5 s DE-604 Umweltgeophysik (DE-588)4299577-2 s b DE-604 Allred, Barry J. Sonstige oth HBZ Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=015046533&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Handbook of agricultural geophysics Agriculture - Innovations Agriculture - Innovations - Guides, manuels, etc ram Géophysique Géophysique - Guides, manuels, etc ram Landwirtschaft Landwirtschaft (DE-588)4034402-2 gnd Geophysik (DE-588)4020252-5 gnd Umweltgeophysik (DE-588)4299577-2 gnd
subject_GND	(DE-588)4034402-2 (DE-588)4020252-5 (DE-588)4299577-2 (DE-588)4143413-4
title	Handbook of agricultural geophysics
title_auth	Handbook of agricultural geophysics
title_exact_search	Handbook of agricultural geophysics
title_exact_search_txtP	Handbook of agricultural geophysics
title_full	Handbook of agricultural geophysics ed. by Barry J. Allred ...
title_fullStr	Handbook of agricultural geophysics ed. by Barry J. Allred ...
title_full_unstemmed	Handbook of agricultural geophysics ed. by Barry J. Allred ...
title_short	Handbook of agricultural geophysics
title_sort	handbook of agricultural geophysics
topic	Agriculture - Innovations Agriculture - Innovations - Guides, manuels, etc ram Géophysique Géophysique - Guides, manuels, etc ram Landwirtschaft Landwirtschaft (DE-588)4034402-2 gnd Geophysik (DE-588)4020252-5 gnd Umweltgeophysik (DE-588)4299577-2 gnd
topic_facet	Agriculture - Innovations Agriculture - Innovations - Guides, manuels, etc Géophysique Géophysique - Guides, manuels, etc Landwirtschaft Geophysik Umweltgeophysik Aufsatzsammlung
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=015046533&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT allredbarryj handbookofagriculturalgeophysics

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