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Ronen‐Eliraz, G., Ginat, H., Dody, A., Blumberg, D., & Dahan, O. (2016). Flood hydrograph reconstruction from the peak flow value in ephemeral streams using a simplified robust single‐parameter model. Hydrological Processes, 30(17), 3004-3013.

Avishai, L., Siebner, H., Dahan, O., and Ronen, Z. (2016). Using the natural biodegradation potential of shallow soils for in-situ remediation of deep vadose zone and groundwater. J. Hazard. Mater. 324, 398–405. doi:10.1016/j.jhazmat.2016.11.003.

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Aharoni, I., Siebner, H., and Dahan, O. (2017). Application of vadose-zone monitoring system for real-time characterization of leachate percolation in and under a municipal landfill. Waste Manag. doi:10.1016/j.wasman.2017.05.012.

Dahan, O., Katz, I., Avishai, L., & Ronen, Z. (2017). Transport and degradation of perchlorate in deep vadose zone: implications from direct observations during bioremediation treatment. Hydrology & Earth System Sciences, 21(8).

Moshkovich, E., Ronen, Z., Gelman, F., & Dahan, O. (2018). In Situ Bioremediation of a Gasoline‐Contaminated Vadose Zone: Implications from Direct Observations. Vadose Zone Journal, 17(1), 1-11.

Levakov, I., Ronen, Z., & Dahan, O. (2019). Combined in-situ bioremediation treatment for perchlorate pollution in the vadose zone and groundwater. Journal of hazardous materials, 369, 439-447.

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Weissman, G., Bel, G., Ben‐Gal, A., Yermiyahu, U., Alexandrov, B., Rasmussen, K. Ø., & Dahan, O. (2020). Increased irrigation water salinity enhances nitrate transport to deep unsaturated soil. Vadose Zone Journal, 19(1), e20041.

Aharoni, I., Siebner, H., Yogev, U., & Dahan, O. (2020). Holistic approach for evaluation of landfill leachate pollution potential–From the waste to the aquifer. Science of The Total Environment, 741, 140367.