Corn growth as monitored by radar

Results of an experiment to determine the feasibility of monitoring corn growth with radar are reported. Radar backscattering data were acquired with a ground based 8-18 GHz radar spectrometer during the summer of 1974. Supporting ground truth data were also collected. During the month of July the crop suffered from a water deficit, although by no means was the crop destroyed by this lack of moisture. At angles of incidence of 40 or greater, the results of the data analysis indicate a strong correlation between the radar backscattering coefficient and the "normalized plant water content" W₏₍, where W₏₍ is the mass of water in the corn plant divided by its height. The correlation coefficient between and W₏₍, which was calculated for each of 176 different combinations of the radar parameters (signal frequency, angle of incidence and polarization), was highest (0. 96) at 17. 0 GHz, 50 VV polarization. Considering the fact that the data used covered a period of four months during which the corn plants underwent considerable change in geometry and dielectric properties, the high correlation of 0. 96 between and W₏₍ points to a promising future for radar as a tool for monitoring corn development.