Inferring soil's dynamic parameters using Electromagnetic instrument and time-lapse inversion algorithm

Recent research shows how soil information can be generated quickly and cheaply, by using a state-of-the-artelectromagnetic (EM) instrument and the inversion method to generate high-resolution EM conductivity images(EMCI). EM instruments have the advantages of being faster, less expensive, and also to collect data easier thanthe common Electrical Resistivity Tomography (ERT) method, which makes EM adequate to cover a larger areain regional studies. However, the capability of the technique is limited in mapping soil dynamic parameters (i.e.water content, salinity) due to the lack of a time-lapse inversion algorithm.While several time-lapse inversion algorithms have been developed for modeling of time-lapse ERT data inorder to reduce the inversion artefact, no attempt has been made to implement a time-lapse inversion algorithmto invert the EM data. Developing a time-lapse inversion algorithm for EM data is, therefore, a determined stepforward for application of EM instruments in characterization of the soil's dynamic parameters where a multipledatasets is required.We developed a time-lapse inversion algorithm where a spatiotemporal objective function is minimized andwe evaluated the algorithm by performing several synthetic tests. The developed program will be applied to thefield data collected in the scope of the SALTFREE project to image spatiotemporal variability of soil salinity.The project consortium is formed by five partners from four countries around the Mediterranean - Egypt, Italy,Portugal, and Tunisia in the scope of ARIMNET2 program and aims to develop a framework for the evaluation ofthe salinization risk in the management scale.