Ya. A. Pachepsky mostly deals with Pedotransfer function, Soil water, Soil science, Hydrology and Hydraulic conductivity. Ya. A. Pachepsky integrates Pedotransfer function with Water retention in his research. His Soil water study integrates concerns from other disciplines, such as Regression analysis and Water content.
His study in Soil science focuses on Soil organic matter in particular. His work in Hydrology addresses subjects such as Soil test, which are connected to disciplines such as Soil horizon and Soil structure. Ya. A. Pachepsky has included themes like Geotechnical engineering and Spatial variability in his Hydraulic conductivity study.
His primary scientific interests are in Soil water, Soil science, Pedotransfer function, Water content and Hydrology. In general Soil water study, his work on Water retention, Soil structure, Soil test and Bulk density often relates to the realm of Fractal dimension, thereby connecting several areas of interest. His Soil science research is multidisciplinary, incorporating elements of Porosity, Regression and Spatial variability.
His Water content research focuses on subjects like Loam, which are linked to Environmental engineering. His Hydrology research incorporates themes from Atmospheric sciences and Stability. His study in Soil horizon is interdisciplinary in nature, drawing from both Pedology and Cation-exchange capacity.
His primary areas of investigation include Hydrology, Soil science, Environmental resource management, Water content and Soil processes. His studies deal with areas such as Soil water and Vertisol as well as Hydrology. His Soil water study frequently involves adjacent topics like Stability.
His research in Soil science focuses on subjects like Spatial variability, which are connected to Soil surface and Soil test. His work on Water retention curve as part of general Water content research is often related to Pedotransfer function, thus linking different fields of science. His Soil processes research integrates issues from Atmospheric sciences and Biogeochemical cycle.
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Pedotransfer functions: bridging the gap between available basic soil data and missing soil hydraulic characteristics
J.H.M. Wösten;Ya.A. Pachepsky;W.J. Rawls.
Journal of Hydrology (2001)
Artificial Neural Networks to Estimate Soil Water Retention from Easily Measurable Data
Ya. A. Pachepsky;Dennis Timlin;G. Varallyay.
Soil Science Society of America Journal (1996)
Using pedotransfer functions to estimate the van Genuchten-Mualem Soil Hydraulic Properties: a review.
Harry Vereecken;Mélanie Weynants;Mathieu Javaux;Mathieu Javaux;Y. Pachepsky.
Vadose Zone Journal (2010)
Fractal models for predicting soil hydraulic properties: a review
D. Giménez;E. Perfect;W.J. Rawls;Ya. Pachepsky.
Engineering Geology (1997)
Soil Water Retention as Related to Topographic Variables
Ya. A. Pachepsky;D. J. Timlin;W. J. Rawls.
Soil Science Society of America Journal (2001)
Development of pedotransfer functions in soil hydrology
Y. Pachepsky;W. J. Rawls.
Spatial and temporal variability of corn grain yield on a hillslope
D. J. Timlin;Ya. Pachepsky;V. A. Snyder;R. B. Bryant.
Soil Science Society of America Journal (1998)
Accuracy and reliability of pedotransfer functions as affected by grouping soils
Ya. A. Pachepsky;Ya. A. Pachepsky;W. J. Rawls.
Soil Science Society of America Journal (1999)
Hydropedology and pedotransfer functions
Y.A. Pachepsky;W.J. Rawls;H.S. Lin.
Comparison of Two Techniques to Develop Pedotransfer Functions for Water Retention
J. Tomasella;Y.-A. A. Pachepsky;S. Crestana;W. J. Rawls.
Soil Science Society of America Journal (2003)
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