Šimůnek, J., M. Th. van Genuchten, and R. Kodešová (eds.), Proceedings of the 4th International Conference "HYDRUS Software Applications to Subsurface Flow and Contaminant Transport Problems", March 21-22, 2013, Dept. of Soil Science and Geology, Czech University of Life Sciences, Prague, Czech Republic, ISBN: 978-80-213-2380-3, pp. 404, 2013.
No
|
Authors and Title
|
Pages
|
|
Papers (Invited Presentations)
|
|
1
|
Jacques, D., J. Šimůnek, D. Mallants, and M. Th. van Genuchten, The HPx reactive transport models: Summary of recent developments and applications. (pdf)
|
7-16
|
2
|
Šimůnek, J., M. Šejna, D. Jacques, G. Langergraber, S. A. Bradford, and M. Th. van Genuchten, New features of the HYDRUS computer software packages. (pdf)
|
17-26
|
|
Papers (Volunteered Presentations)
|
|
3
|
Abramson, A., E. Adar, and N. Lazarovitch, Investigating the impact of irrigation method on profitability of smallholder gardening: Incorporating HYDRUS-1D into a decision support system. (pdf)
|
27-32
|
4
|
Anlauf, R., and P. Rehrmann, Simulation of water and air distribution in growing media (pdf)
|
33-46
|
5
|
Antonov, D., D. Mallants, J. Šimůnek, and D. Karastanev, Application of the HYDRUS (2D/3D) inverse solution module for estimating of the soil hydraulic parameters of a quaternary complex in Northern Bulgaria. (pdf)
|
47-52
|
6
|
Bezerra Coelho, B., C. R., 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. (pdf)
|
53-62
|
7
|
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). (pdf)
|
63-68
|
8
|
Diamantopoulos, E., S. C. Iden, and W. Durner, Modeling non-equilibrium water flow in multistep outflow and multistep flux experiments. (pdf)
|
69-76
|
9
|
El-Nesr, M. N. B., A. Alazba, and J. Šimůnek, Dual-drip subsurface irrigation system: Can it act as a hydraulic barrier? (pdf)
|
77-86
|
10
|
Filipović, V., R. Kodešová, and D. Petošić, Numerical modeling of water flow and nitrate dynamics in zero tension plate lysimeters using HYDRUS-2D. (pdf)
|
87-94
|
11
|
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. (pdf)
|
95-106
|
12
|
Grinevskiy, S. O., and S. P. Pozdniakov, The use of HYDRUS-1D for groundwater recharge estimation in boreal environments. (pdf)
|
107-118
|
13
|
Haile, S. S., and B. J. Merkel, Simulation of uranium tailing leaching using VS2DRT. (pdf)
|
119-126
|
14
|
Hlaváčiková, H., V. Novák, and M. Rodný, Infiltration into stony soil: modeling of the process using HYDRUS codes. (pdf)
|
127-134
|
15
|
Izadi, F. T., A. M. Damuchali, G. A. Fardi, and A. Khodadadi, Simulations of the impact of different rainfall intensities on reactive transport of metal contaminants from mine tailings. (pdf)
|
135-144
|
16
|
Izadi, F. T., G. A. Fardi, A. Khodadadi, and M. Faridzad, Investigating the effect of acidic rain on reactive transport of metal contaminants in groundwater. (pdf)
|
145-154
|
17
|
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. (pdf)
|
155-164
|
18
|
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. (pdf)
|
165-174
|
19
|
Kanzari, S., I. Bâ, M. Hachicha, and R. Bouhlila, Characterization and modeling of water and salt dynamics in a sandy soil under the effects of surface drip irrigation. (pdf)
|
175-182
|
20
|
Karlsson, S. C., S. Dalahmeh, C. Lalander, and H. Jönsson, Hydraulic properties and reduction of COD, phosphorus and nitrogen in a sand filter used for greywater treatment – simulation and verification. (pdf)
|
183-190
|
21
|
Kato, C., T. Nishimura, H. Imoto, and T. Miyazaki, Predicting soil CO2 dynamics in arable land of Andisol in western suburb of Tokyo.(pdf)
|
191-202
|
22
|
Kébré, M. B., F. Cherblanc, F. Ouédraogo, Jean-Claude Bénet, and F. Zougmoré, Flow at low water contents: A simple approach for inverse estimation of van Genuchten-Mualem soil hydraulic parameters. (pdf)
|
203-214
|
23
|
Léger, E., A. Saintenoy, and Y. Coquet, Estimating saturated hydraulic conductivity from surface ground-penetrating radar monitoring of infiltration. (pdf)
|
215-224
|
24
|
Leterme, B., and D. Jacques, Modeling Hg reactive transport in soil system using HP1. (pdf)
|
225-234
|
25
|
Leterme, B., M. Gedeon, and D. Jacques, Groundwater recharge modeling in the Nete catchment (Belgium) with HYDRUS-1D – MODFLOW package. (pdf)
|
235-244
|
26
|
Morvannou, A., N. Forquet, M. Vanclooster, and P. Molle, Which hydraulic model to use for vertical flow constructed wetlands? (pdf)
|
245-256
|
27
|
Nakhaei M. and J. Šimůnek, Estimating the soil hydraulic and thermal properties of unsaturated porous media using HYDRUS-2D. (pdf)
|
257-266
|
28
|
Phogat, V., M. A. Skewes, M. Mahadevan, and J. W. Cox, Simulation of water and salinity dynamics under different irrigation applications to an almond tree in pulsed and continuous mode. (pdf)
|
267-276
|
29
|
Pontedeiro, E. M., V. Ottoni, and M. Th. van Genuchten, HYDRUS-1D modeling applications to waste disposal problems in Brazil. (pdf)
|
277-288
|
30
|
Pozdniakov, S., P. Wang, S. Grinevskiy, and J. Yu, Simulation of groundwater evapotranspiration with HYDRUS-1D in desert environments. (pdf)
|
289-298
|
31
|
Raij, I., N. Lazarovitch, A. Ben-Gal, U. Yermiyahu, and D. Jacques, Accounting for solution composition in a plant roots active nutrient uptake model. (pdf)
|
299-306
|
32
|
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. (pdf)
|
307-314
|
33
|
Ružičić, S., Z. Kovac, M. Mileusnic, and K. Posavec, Longitudinal dispersivity determination using conservative tracer in the field. (pdf)
|
315-322
|
34
|
Sandhu, C., T. Fichtner, I. Hasan, and P.-W. Gräber, Predicting the impact of treated wastewater infiltration on groundwater recharge by simulating reactive transport in the unsaturated zone. (pdf)
|
323-332
|
35
|
Schwen, A., G. Bodner, and W. Loiskandl, Temporal variations of soil hydraulic properties and its effect on soil water simulations. (pdf)
|
333-344
|
36
|
Šimůnek, J., D. Jacques, and M. Šejna, HP2/3: Extensions of the HP1 reactive transport code to two and three dimensions. (pdf)
|
345-354
|
37
|
Thaysen, E. M., E. Laloy, and D. Jacques, CO2 fluxes to aquifers beneath cropland: Merging measurements and modeling. (pdf)
|
355-364
|
38
|
Toride, N., and DaiWen Chen, Fate and transport of nitrogen in soils based on a coupled nitrogen-carbon cycling model using the HP1 code. (pdf)
|
365-376
|
39
|
Valdes-Abellan, J., J. Jiménez-Martínez, and L. Candela, HYDRUS application to assess possible impacts of non-conventional water irrigation under two different vadose zone monitoring strategies. (pdf)
|
377-384
|
40
|
Xiao, H., J. Böttcher, and J. Šimůnek, Simulation of the heavy metal transport in unsaturated soils: Use of scale factors to quantify variable sorption isotherms. (pdf)
|
385-394
|
41
|
Yurtseven, E., J. Šimůnek, S. Avci, and H. S. Öztürk, Comparison of HYDRUS-1D simulations and ion(salt) movement in the soil profile subject to leaching. (pdf)
|
395-404
|