Title : Handbook of Agricultural Geophysics
Editors : Barry J. Allred, Jeffery J. Daniels, and M. Reza Ehsani
Publisher : CRC Press, Taylor & Francis Group (2008)
Pages : 434 pages
Language : English
ISBN : 978-0-8493-3728-4
Description
Precision farming, site infrastructure assessment, hydrologic monitoring, and environmental investigations — these are just a few current and potential uses of near-surface geophysical methods in agriculture. Responding to the growing demand for this technology, the Handbook of Agricultural Geophysics supplies a clear, concise overview of near-surface geophysical methods that can be used in agriculture and provides detailed descriptions of situations in which these techniques have been employed.
Content :
Section I
Agricultural Geophysics Overview
General Considerations for Geophysical Methods Applied to Agriculture, Allred et al.
Past, Present, and Future Trends of Soil Electrical Conductivity Measurement Using Geophysical Methods, Corwin
History of Ground-Penetrating Radar Applications in Agriculture, Collins
Section II
Agricultural Geophysics Measurements and Methods
Theoretical Insight on the Measurement of Soil Electrical Conductivity, Corwin et al.
Resistivity Methods, Allred et al.
Electromagnetic Induction Methods, Daniels et al.
Ground Penetrating Radar Methods, Daniels et al.
Magnetometry, Self-Potential, and Seismic: Additional Geophysical Methods Having Potentially Significant Future Use in Agriculture, Allred et al.
Section III
The Global Positioning System and Geographic Information Systems
Integration of the Global Positioning System (GPS) to Agricultural Geophysics, Grejner-Brzezinska
Integration of Geographic Information Systems (GIS) to Agricultural Geophysics, Merry
Section IV
Resistivity and Electromagnetic Induction Case Histories
Apparent Electrical Conductivity for Delineating Spatial Variability in Soil Properties, Wienhold and Doran
Dependence of Soil Apparent Electrical Conductivity (ECa) Upon Soil Texture and Ignition Loss at Various Depths in Two Morainic Loam Soils in SE Norway, Korsaeth
Relations Between a Commercial Soil Survey Map Based on Soil Apparent Electrical Conductivity (ECa) and Measured Soil Properties on a Morainic Soil in SE Norway, Korsaeth et al.
Mapping Pesticide Partition Coefficients by Electromagnetic Induction, Jaynes
Can Apparent Soil Electrical Conductivity Be Used to Map Soil-Herbicide Partition Coefficients? A Case Study in Three Colorado Fields, Shaner et al.
Delineating Site-Specific Management Units Using Geospatial Apparent Soil Electrical Conductivity (ECa) Measurements, Corwin et al.
Mapping of Soil Drainage Classes Using Topographical Data and Soil Electrical Conductivity, Kravchenko
Productivity Zones Based on Bulk Soil Electrical Conductivity: Applications for Dryland Agriculture and Research, Johnson et al.
A Four Year Summary of the Use of Soil Conductivity as a Measure of Soil and Crop Status, Eigenberg
Mapping of Apparent Soil Electrical Conductivity (ECa) Helps Establish Research Plots at a New Research and Extension Center, Farahani et al.
Mapping Golf-Course Features with Electromagnetic Induction, with Examples from Dublin, Ohio, Taylor
Comparison of Geoelectrical Instruments in Different Soilscapes, Gebbers and Luck
Section V
Ground Penetrating Radar Case Histories
Ground Penetrating Radar Surveys Across a Prototype Surface Barrier to Determine Temporal and Spatial Variations in Soil Moisture, Clement and Ward
Soil Water Content Measurement Using the Ground-Penetrating Radar Surface Reflectivity Method, Redman
Assessing Spatial and Temporal Soil Water Content Variations with Ground Penetrating Radar, Lennartz et al.
Ground Penetrating Radar Mapping of Near-Surface Preferential Flow, Freeland
An Application of Ground Penetrating Radar in Golf Course Management, Boniak et al.
Ground Penetrating Radar Investigation of a Golf Course Green: Computer Processing and Field Survey Set-Up Considerations, Allred et al.
Agricultural Drainage Pipe Detection Using Ground Penetrating Radar, Allred and Daniels
Using Ground Penetrating Radar to Estimate Tree Root Mass: Comparing Results from Two Florida Surveys, Butnor at al.
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