2D inversion of 3D magnetotelluric data: The Kayabe dataset

In the last two Magnetotelluric Data Interpretation Workshops (MT-DIW) the participants were asked to model the Kayabe magnetotelluric dataset, a dens e (100 m) grid of thirteen lines, with thirteen stations in each line. Bahr 's phase-sensitive skew and the Groom and Bailey decomposition were used to select those lines for which the data could be considered two-dimensional, For these lines we used a 2D inversion algorithm to obtain a series of res istivity models for the earth. Finally, we constructed a 3D model using the 2D models and critically examined the validity and practicality of this ap proach based on 3D model study. We found that in the Kayabe dataset case th e common practice of using 2D models to depict 3D models, can only be used to create a starting model for 3D interpretation. The sequential 2D models as a representation of a 3D body is unacceptable in terms of fit to the obs erved data. We question the validity of some of the conductivity structures in the 2D models, as they can be mere artifacts created by the algorithm t o match 3D effects.