65-1 Monitoring Infiltration Process in Field Soil Seamlessly Using Array Ground Penetrating Radar.
See more from this Division: SSSA Division: Soil Physics and Hydrology
See more from this Session: Advances in Soil Sensing and Model Integration with Instrumentation Oral
Abstract:
Recently, a family of array GPR has been developed. The basic concept is to electrically switch multiple antennas sequentially in milliseconds to scan subsurface processes in a minimal effort. To our knowledge, it has not been fully investigated whether array GPR can be used for monitoring infiltration in the field soil. The main objective of this study was therefore to investigate if MOG obtained by the array GPR could track a wetting front seamlessly during vertical infiltration in the field soil.
An infiltration test was conducted at a test site in Tottori Sand Dune, Japan. An array GPR system was used to acquire time-lapse MOG data seamlessly during the infiltration in the field soil without physically moving antennas unlike conventional GPR. The GPR system used in this study was a step-frequency continuous waveform radar operating over the frequency range from 100 MHz to 3000 MHz, paired with an array consisting of 10 transmitting antennas and 11 receiving antennas, for a total of 110 transmitter-receiver combinations. Collected time-lapse MOG data clearly show the wetting front evolution with time. Reflection signals in MOG data agree well with two-way travel times predicted from dielectric constant observed independently with a soil moisture sensor.
See more from this Division: SSSA Division: Soil Physics and Hydrology
See more from this Session: Advances in Soil Sensing and Model Integration with Instrumentation Oral