Publications

Turkeltaub T., O. Dahan, and D. Kurtzman (2014), Investigation of groundwater recharge under agricultural fields using transient deep vadose zone data, Vadose Zone J., 13, doi:10.2136/vzj2013.10.0176.
Turkeltaub T., D. Kurtzman, G. BelC, and O. Dahan (2015a), Examination of groundwater recharge with a calibrated/validated flow model of the deep vadose zone, J. Hydrol., 522, 618–627, doi:10.1016/j.jhydrol.2015.01.026.
Turkeltaub, T., D. Kurtzman, E. E. Russak, and O. Dahan (2015b), Impact of switching crop type on water and solute fluxes in deep vadose zone, Water Resour. Res., 51, 9828– 9842, doi:10.1002/2015WR017612.
Turkeltaub, T., D. Kurtzman, and O. Dahan (2016), Real-time monitoring of nitrate transport in deep vadose zone under a crop field - implications for groundwater protection, Hydrol. Earth Syst. Sci., 20, 3099–3108, doi:10.5194/hess-20-3099-2016.
Turkeltaub, T., Xiaoxu Jia, Yuanjun Zhu, Ming-An Shao, and Andrew Binley (2018), Recharge and Nitrate Transport Through the Deep Vadose Zone of the Loess Plateau: A Regional-Scale Model Investigation, Water Resour. Res., 54, 4332–4346, doi: 10.1029/2017WR022190.
Turkeltaub, T., Matthew J. Ascott, Daren C. Gooddy, Xiaoxu Jia, Ming-An Shao, Andrew Binley (2020), Prediction of regional-scale groundwater recharge and nitrate storage in the vadose zone: A comparison between a global model and a regional model, Hydrol. Process, 34, 3347–3357, doi:10.1002/hyp.13834.
Turkeltaub, T., Xiaoxu Jia, Yuanjun Zhu, Ming-An Shao, Andrew Binley (2021), A Comparative Study of Conceptual Model Complexity to Describe Water Flow and Nitrate Transport in Deep Unsaturated Loess, Water Resour. Res., doi.org/10.1029/2020WR029250.
Turkeltaub, T., Jiao Wang, Qinbo Cheng, Xiaoxu Jia, Yuanjun Zhu, Ming-An Shao, Andrew Binley (2021), Soil moisture and electrical conductivity relationships under typical Loess Plateau land covers, Vadose Zone J., 21, doi: 10.1002/vzj2.20174.
Turkeltaub, T., Alex Furman, Ron Mannheim, Noam Weisbrod (2022), Continuous Monitoring of a Soil Aquifer Treatment System’s Physico-Chemical Conditions to Optimize Operational Performance. Hydrol. Earth Syst. Sci., 20, 3099–3108, doi:10.5194/hess-20-3099-2016.
Maayan Grinshpan, Tuvia Turkeltaub, Alex Furman, Eran Raveh, Noam Weisbrod (2022), On the use of orchards to support soil aquifer treatment systems, Agricultural Water Management, 260, 107315, doi: 10.1016/j.agwat.2021.107315.
Turkeltaub, T., Kate Gongadze, Yihe Lü, Mingbin Huang, Xiaoxu Jia, Huiyi Yang, Ming’an Shao, Paul Harris, Andy Binley, Lianhai Wu, A review of models used for simulating the soil-plant interface for different land uses in the Loess Plateau, China, Ecological Modelling, 474, 110173, doi:10.1016/j.ecolmodel.2022.110173.
Turkeltaub, T. and Golan Bel (2023), The effects of rain and evapotranspiration statistics on groundwater recharge estimations for semi-arid environments. Hydrology and Earth System Sciences, 27(1), 289-302.
Turkeltaub, T., Alex Furman, Ron Mannheim, Noam Weisbrod (2023), Elucidating the relationship between gaseous O2 and redox potential in a soil aquifer treatment system using data driven approaches and an oxygen diffusion model, J. Hydrol., 618, 129168, doi:10.1016/j.jhydrol.2023.129168.
Turkeltaub, T., Chang S-H. Elliot, Sari Roded, Mavrik Zavrin, Annie B Kersting, Ofra Klein-BenDavid,Noam WeisbrodPI (2024), Radionuclide transport in fractured chalk under abrupt changes in salinity, Science of The Total Environment, 912, 168636.
Grossman, A.D., Qi, S., Gebretsadkan, A.A., Beyioku, O.E., Turkeltaub, T., Shames, A.I., Oren, Y., Ronen, A. and Bernstein, R., 2024. Mechanism of mitigating organic fouling on an electro-conductive membrane under anaerobic conditions and cathodic operation. Applied Surface Science, 654, p.159473.
Turkeltaub, T., Peltin, B., Dagan, A., Paz-Kagan, T., Rave, E. and Baram, S., 2024. Accounting for the impact of tree size and soil spatial variability on leaching from orchards. Computers and Electronics in Agriculture, 221, p.108996.
Jia, X., Zhu, P., Wei, X., Zhu, Y., Huang, M., Hu, W., Wang, Y., Turkeltaub, T., Binley, A. and Horton, R., 2024. Bringing ancient loess critical zones into a new era of sustainable development goals. Earth-Science Reviews, p.104852.

Turkeltaub T., O. Dahan, and D. Kurtzman (2014), Investigation of groundwater recharge under agricultural fields using transient deep vadose zone data, Vadose Zone J., 13, doi:10.2136/vzj2013.10.0176.

Turkeltaub T., D. Kurtzman, G. BelC, and O. Dahan (2015a), Examination of groundwater recharge with a calibrated/validated flow model of the deep vadose zone, J. Hydrol., 522, 618–627, doi:10.1016/j.jhydrol.2015.01.026.

Turkeltaub, T., D. Kurtzman, E. E. Russak, and O. Dahan (2015b), Impact of switching crop type on water and solute fluxes in deep vadose zone, Water Resour. Res., 51, 9828– 9842, doi:10.1002/2015WR017612.

Turkeltaub, T., D. Kurtzman, and O. Dahan (2016), Real-time monitoring of nitrate transport in deep vadose zone under a crop field - implications for groundwater protection, Hydrol. Earth Syst. Sci., 20, 3099–3108, doi:10.5194/hess-20-3099-2016.

Turkeltaub, T., Xiaoxu Jia, Yuanjun Zhu, Ming-An Shao, and Andrew Binley (2018), Recharge and Nitrate Transport Through the Deep Vadose Zone of the Loess Plateau: A Regional-Scale Model Investigation, Water Resour. Res., 54, 4332–4346, doi: 10.1029/2017WR022190.

Turkeltaub, T., Xiaoxu Jia, Yuanjun Zhu, Ming-An Shao, Andrew Binley (2021), A Comparative Study of Conceptual Model Complexity to Describe Water Flow and Nitrate Transport in Deep Unsaturated Loess, Water Resour. Res., doi.org/10.1029/2020WR029250.

Turkeltaub, T., Jiao Wang, Qinbo Cheng, Xiaoxu Jia, Yuanjun Zhu, Ming-An Shao, Andrew Binley (2021), Soil moisture and electrical conductivity relationships under typical Loess Plateau land covers, Vadose Zone J., 21, doi: 10.1002/vzj2.20174.

Turkeltaub, T., Alex Furman, Ron Mannheim, Noam Weisbrod (2022), Continuous Monitoring of a Soil Aquifer Treatment System’s Physico-Chemical Conditions to Optimize Operational Performance. Hydrol. Earth Syst. Sci., 20, 3099–3108, doi:10.5194/hess-20-3099-2016.

Maayan Grinshpan, Tuvia Turkeltaub, Alex Furman, Eran Raveh, Noam Weisbrod (2022), On the use of orchards to support soil aquifer treatment systems, Agricultural Water Management, 260, 107315, doi: 10.1016/j.agwat.2021.107315.

Turkeltaub, T. and Golan Bel (2023), The effects of rain and evapotranspiration statistics on groundwater recharge estimations for semi-arid environments. Hydrology and Earth System Sciences, 27(1), 289-302.

Turkeltaub, T., Alex Furman, Ron Mannheim, Noam Weisbrod (2023), Elucidating the relationship between gaseous O2 and redox potential in a soil aquifer treatment system using data driven approaches and an oxygen diffusion model, J. Hydrol., 618, 129168, doi:10.1016/j.jhydrol.2023.129168.

Turkeltaub, T., Chang S-H. Elliot, Sari Roded, Mavrik Zavrin, Annie B Kersting, Ofra Klein-BenDavid,Noam WeisbrodPI (2024), Radionuclide transport in fractured chalk under abrupt changes in salinity, Science of The Total Environment, 912, 168636.

Grossman, A.D., Qi, S., Gebretsadkan, A.A., Beyioku, O.E., Turkeltaub, T., Shames, A.I., Oren, Y., Ronen, A. and Bernstein, R., 2024. Mechanism of mitigating organic fouling on an electro-conductive membrane under anaerobic conditions and cathodic operation. Applied Surface Science, 654, p.159473.

Turkeltaub, T., Peltin, B., Dagan, A., Paz-Kagan, T., Rave, E. and Baram, S., 2024. Accounting for the impact of tree size and soil spatial variability on leaching from orchards. Computers and Electronics in Agriculture, 221, p.108996.

Jia, X., Zhu, P., Wei, X., Zhu, Y., Huang, M., Hu, W., Wang, Y., Turkeltaub, T., Binley, A. and Horton, R., 2024. Bringing ancient loess critical zones into a new era of sustainable development goals. Earth-Science Reviews, p.104852.

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