Ground-penetrating radar measurement of crop and surface water content dynamics

## Abstract The spatial variability of soil water content can be measured with the ground wave velocity of ground‐penetrating radar (GPR) using short antenna offsets, but picking the correct ground wave arrival time is rather difficult. In applying the GPR ground wave method to soil water content e

## Abstract The plane‐wave transmitting spectrum (PWTS) of a ground‐penetrating radar (GPR) loop antenna close to the air–soil interface is measured by means of a probe buried in soil. Probe correction is implemented based upon knowledge about the complex permittivity of the soil and the current di

comments which helped improve the individual articles. In fact, several authors have expressed that they were very happy with the high level of expertise of the reviewers and the quality of the reviewer comments. The editorial staff of Journal of Applied Geophysics are thanked for their professional

## Abstract The portable surface capacitance insertion probe was used to measure the __in situ__ water content of near surface soil layers. The probe readings were calibrated against gravimetric samples collected over a wide range of water contents, and were found to be very closely correlated. The

Ground temperature measurements are largely used in agronomy, hydrology, or climatology. As temperature variations in the subsurface depends on its thermal diffusivity which itself is a function of water content, temperature measurements are also relevant in hydrogeophysics. In this paper, we model