2D and 3D micromorphological analyses for improving soil hydrological characterization

The discrepancy between observed processes and those predicted by models assuming homogeneous unimodal porous media may result from the limitation of accuratelycharacterizing the effects of pore-scale heterogeneities in determining a non-ideality oftransport in soils. To be effectively and reliably applied all the approaches require thatthe predominant effects of the soil hydrological behaviour near saturation be supportedby accurate and detailed experimental descriptions of BTCs, retention curve and hydraulic conductivity for high water content values, which would allow less uncertainidentification of the processes and related parameters involved. This is especially trueif one consider that most analytical and numerical approaches for the unsaturated hydraulic conductivity lye on the knowledge of the pore-size distribution (PSD). In suchapproaches, estimating the tortuosity factor and the existence of different porous domains still remain a critical point.In this study pore-size geometry of porous media were estimated by coupling direct micromorphological measurements and equivalent pore-size distribution deducedfrom the water retention curves. Specifically, high resolution X ray microtomography(SKYSCAN 1072) and mechanical serial sectioning based tomography (developedat CNR-ISAFOM) were used for direct measurements while Wind's method, tensiontable method, infiltrometry were used for deducing water retention, hydraulic conduc-tivity and sorptivity.The analysis of the following selected case studies were performed :o pore size distribution obtained from 2D image analysis measurements vs unsaturated hydraulic conductivity curve k(h) obtained by tension infiltrometer in aVertisol;o 3D mechanical tomography (serial sectioning) and X-ray Micro CT vs soil water retention curve and unsaturated hydraulic conductivity in a sandy Luvisol,in an Inceptisol and in a calcarenite;o 2D pore size distribution analysis vs sorptivity in soil crusts formed after irrigation on a Vertisol;