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HYDRUS 2013 Presentations

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Home / Support and Services / HYDRUS Support / Courses and Workshops / Short Courses & Workshops 2013 / HYDRUS Conference, Prague 2013 / HYDRUS 2013 Presentations

Keynote Presentations (no abstract needed)

  1. van Genuchten, M. Th., General thoughts on modeling flow and transport processes in soils and groundwater.
  2. Šimůnek, J., M. Šejna, D. Jacques, G. Langergraber, S. A. Bradford, and M. Th. van Genuchten, Development and applications of the HYDRUS software since the last HYDRUS workshop. (pdf)
  3. Langergraber, G., and J. Šimůnek, Reactive transport modeling of subsurface flow constructed wetlands using the HYDRUS wetland module.
  4. Jacques, D., J. Šimůnek, D. Mallants, M. Th. van Genuchten, The HPx reactive transport models: a short overview of development and possibilities.
  5. Kodešová, R., Selected applications of HYDRUS models to evaluate uniform and nonequilibrium flow in structured soils.

List of Received Abstracts

  1. Abramson, A., and N. Lazarovitch, Investigating the impact of irrigation method on profitability of smallholder gardening: Incorporating HYDRUS-1D into a decision support system. (Israel) (poster)
  2. Alazba, A. A., M. N. ElNesr, and N. A., Alradyan, The effect of intermittent water flux through dripping source on water and solutes distribution in soil. (Saudi Arabia)
  3. Anlauf, R., and P. Rehrmann, Simulation of water and air distribution in growing media. (Germany)
  4. Antonov, D., D. Mallants, J. Šimůnek, and D. Karastanev, Application of the HYDRUS (2D/3D) inverse solution module for evaluation of the soil hydraulic parameters of a quaternary complex in Northern Bulgaria. (Bulgaria) (poster)
  5. Arye, G., and J. Šimůnek, Modeling surface-active solute transport with HYDRUS. (Israel)
  6. Couvreur, V., F. Meunier, J. Vanderborght, and M. Javaux, The root system as a hydraulic architecture: principles and applications. (Belgium)
  7. Coelho, C. R. B., M. S. Batalha, D. Jacques, M. C. Barbosa, and M. Th. van Genuchten, Using HYDRUS-HP1 to estimate 226Ra transport in soils following the use of phosphogypsum in agriculture. (Brazil) (poster)
  8. Dabach, S., J. Šimůnek, A. Ben-Gal, J. Shi, and N. Lazarovitch, Optimization of triggered irrigation using a system dependent boundary condition in HYDRUS (2D/3D). (Israel)
  9. Diamantopoulos, E., S. C. Iden, and W. Durner, Modeling non-equilibrium water flow in multistep outflow and multistep flux experiments. (Germany)
  10. El-Nesr, M. N. B., A. Alazba, and J. Šimůnek, Dual-Drip Subsurface Irrigation System: Can it Act as a Hydraulic Barrier? (Saudi Arabia)
  11. Elmi, A., Phosphorus Leaching Potentials from Re-constructed Soil Columns Using HYDRUS-1D Model. (Kuwait)
  12. Fér, M. and R. Kodešová, Using HYDRUS-1D for estimating hydraulic conductivities of the soil aggregates and their clay-organic coatings from capillary rise data. (Czech Republic) (poster)
  13. Filipović, V., R. Kodešová, and D. Petošić, Numerical modeling of water flow and nitrate dynamics on zero tension plate lysimeters using HYDRUS-2D. (Croatia)
  14. Glæsner, N., and H. H. Gerke, Single- and double-porosity modeling of solute transport in intact soil columns – effects of texture, slurry placement, and intermittent irrigation. (Denmark, Germany)
  15. Grinevskiy, S. O., and S. P. Pozdniakov, The use of HYDRUS-1D for groundwater recharge estimation in boreal environments. (Russia)
  16. Haile, S. S., and B. J. Merkel, Simulation of uranium tailing leaching using VS2DRT. (Germany)
  17. Hlaváčiková, H., V. Novák, and M. Rodný, Infiltration into stony soil: modeling of the process using HYDRUS codes. (Slovakia) (poster)
  18. Izadi, F. T., G. A. Fardi, and A. Khodadadi, Investigation the effect of Acidic rain pH on reactive transport of groundwater metal contaminants. (Iran) (poster)
  19. Izadi, F. T., A. M. Damuchali, G. A. Fardi, and A. Khodadadi, Simulation of different rainfall intensities impact on the reactive transport of mine tailing metal contaminants. (Iran) (poster)
  20. Kalin, J., B Petkovšek, P. Montarnal, A. Genty, E. Deville , and J. Krivic, Comparison of Two Numerical Modeling Codes for Hydraulic and Transport Calculations in the Near Field. (Slovenia and France)
  21. Kanzari, S., M. Hachicha, R. Bouhlila, and J. Battle-Sales, Characterization and modeling of water movement and salts transfer in a semi-arid region of Tunisia. (Tunisia)
  22. Kanzari, S., I. Ba, M. Hachicha, and R. Bouhlila, Characterization and modeling of water and salt dynamics in a sandy soil under the effect of surface drip irrigation. (Tunisia) (poster)
  23. Karlsson, S. C., H. Jönsson, S. Dalahmeh, and C. Lalander, Hydraulic properties and reduction of COD, phosphorus and nitrogen in sand filters used for greywater treatment – simulation and verification. (Sweden)
  24. Kato, C., T. Nishimura, H. Imoto, and T. Miyazaki, Predicting soil CO2 dynamics in arable land of Andisol in western suburb of Tokyo. (Japan) (poster)
  25. Kébré, M. B., F. Ouédraogo, F. Cherblanc, and F. Zougmoré, Transfer at low water content: new and simple experimental approach for inverse determination of van Genuchten transport coefficients. (France, Burkina Faso)
  26. Krounbi, L., and N. Lazarovitch, Root water uptake under deficit irrigation: Model calibration and comparison. (Israel) (poster)
  27. Kurinova, N., Sensitivity of recharge evaluation results using HYDRUS to parameters and boundary conditions variations. (Russia)
  28. Léger, E., A. Saintenoy, and Y. Coquet, Inverting saturated hydraulic conductivity from surface ground-penetrating radar monitoring of infiltration. (France)
  29. Leterme, B., M. Gedeon, and D. Jacques, Groundwater recharge modelling in the Nete catchment (Belgium) with HYDRUS-1D – MODFLOW coupling. (Belgium)
  30. Leterme, B., and D. Jacques, Hg modelling in soil systems using HP1. (Belgium)
  31. Lugli, F., M. Th. van Genuchten, and C. F. Mahler, Modeling phytoextraction and contaminant transport processes using HYDRUS-1D. (Brazil) (poster)
  32. Morvannou, A., N. Forquet, M. Vanclooster, and P. Molle, Which Hydraulic Model to Use in Vertical Flow Constructed Wetlands? (France, Belgium)
  33. Nakhaei M. and J. Šimůnek, Parameter estimation of soil hydraulic functions and thermal properties for unsaturated porous media using HYDRUS-2D code. (Iran) (poster)
  34. Nikodem, A., R. Kodešová, and L. Bubeníčková, Using HYDRUS programs for simulating Al and SO42- leaching from forest soils. (Czech Republic) (poster)
  35. Nováková, M., J. Takáč, and R. Skalský, Agro-ecological application of soil hydrological data: two local-scale modelling examples. (Slovakia)
  36. Orfánus, T., Slope drainage by logging roads and its contribution to the 2011 flood peak in the Píla village. Simulation with HYDRUS-2D. (Slovakia) (poster)
  37. Phogat, V., M. A. Skewes, M. Mahadevan, J. W. Cox, Seasonal simulation of water and salinity dynamics under different irrigation applications of almond in pulsed and continuous mode. (Australia)
  38. Pontedeiro, E. M., V. O. Almeida de Sousa, and M. Th. van Genuchten, HYDRUS-1D modeling applications to waste disposal problems in Brazil. (Brazil)
  39. Pozdniakov, S., P. Wang, S. Grinevskiy, and J. Yu, Simulation of groundwater evapotranspiration with HYDRUS-1D in desert environments. (Russia)
  40. Raij, I., N. Lazarovitch, A. Ben-Gal, U. Yermiyahu, and D. Jacques, Accounting for solution composition in an active nutrient uptake model by plant roots. (Israel) (poster)
  41. Ramos, T. B., J. Šimůnek, M. C. Gonçalves, J. C. Martins, A. Prazeres, and L. S. Pereira, Modeling water and nitrogen fate in plots with sweet sorghum irrigated with fresh and blended saline waters using HYDRUS-2D. (Portugal)
  42. Rizzo, A., and G. Langergraber, Simulation of peak loads for horizontal flow constructed wetlands. (Italy) (poster)
  43. Ruzicic, S., Z. Kovac, M. Mileusnic, and K. Posavec, Longitudinal dispersivity determination using conservative tracer in the field. (Croatia) (poster)
  44. Sanchez-Ramos, D., and G. Langergraber, Modelling horizontal flow constructed wetlands treating effluents of wastewater treatment plants. (Spain and Austria) (poster)
  45. Sandhu, C., T. Fichtner, I. Hasan, and P.-W. Graeber, Predicting the impact of treated wastewater on groundwater recharge by simulating reactive transport in the unsaturated zone. (Germany)
  46. Schwen, A., G. Bodner, and W. Loiskandl, Temporal variations of soil hydraulic properties and its effect on soil water simulations. (Austria)
  47. Šimůnek, J., D. Jacques, and M. Šejna, New developments in the HPx reactive transport code: Extension to two dimensional flow and transport problems (USA) (poster)
  48. Smethurst, P. J., and G. Langergraber, Hillslope application of the HYDRUS-Wetland wetland module. (Australia) (poster)
  49. Thaysen, E. M., E. Laloy, D. Jacques, CO2 fluxes to aquifers beneath cropland: merging measurements and modeling. (Denmark)
  50. Toride, N., and D. Chen, Fate and transport of nitrogen in soils based on a coupled nitrogen-carbon cycling model using the HP1 code. (Japan)
  51. Trakal, L., R. Kodešová, and M. Komárek, Simulation of metal transport in the soil and into the willows using the HYDRUS program. (Czech Republic) (poster)
  52. Turkeltaub, T., O. Dahan, and D. Kurtzman, Investigation of recharge fluxes under different land-uses with calibrated models to transient deep vadose zone data. (Israel)
  53. Tyrrell, S. R., T. Hess, S. F. Tyrrel, and D. Knaggs, Microtopographic enhancement of soil-based wastewater treatment. (United Kingdom) (poster)
  54. Valdes-Abellan, J., J. Jiménez-Martínez, and L. Candela, Using HYDRUS and HP1 codes to study possible impacts of irrigation with non-conventional water under two different vadose zone monitoring strategies. (Spain) (poster)
  55. Xiao, H., J. Böttcher, and J. Šimůnek, Simulation of heavy metal transport in unsaturated soil: Use of scale factors to quantify variable sorption isotherms. (Germany)
  56. Yurtseven, E., J. Šimůnek, H. S. Öztürk, and S. Avci, Comparison of ion(salt) movement in the soil profile subject to leaching with the HYDRUS-1D simulations. (Turkey)
 

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