Modeling and correction of soil penetration resistance for varying soil water content

For this study penetration resistance (PR) was measured within the profiles of four Oxisols for a wide range of water contents (θ) and bulk densities. Obtained data were utilized to parameterize 23 previously applied regression models. The most promising models were selected to illustrate effects of soil texture on PR. Finally, a new correction method based on normalization of PR with θ corresponding to a matric potential of − 10 kPa was introduced. Evaluation of texture effects revealed that for very wet soils PR was lowest, but increased with clay content. PR at − 1500 kPa exhibited a maximum at clay content of 35% and at − 10 kPa PR was least affected by texture. From all regression models three- and two-parametric exponential and power functions yielded closest matches to measured data. The proposed correction significantly dampened the influence of θ on PR, which allows better comparison for a specific soil or among different soils.

►Soil PR was directly correlated to bulk density-BD and inversely to water content–WC. ►Modeling PR as function of BD and WC allowed correcting PR to a common WC value. ►The proposed correction method dampened the influence of water content on PR. ►At matric potentials of − 10 kPa PR was least affected by texture.