References
Barrio-Parra, F., Izquierdo-Díaz, M., Díaz-Curiel, J., and De Miguel, E. (2021). Field performance of the radon-deficit technique to detect and delineate a complex DNAPL accumulation in a multi-layer soil profile. Environmental Pollution, 269, 116200.
10.1016/j.envpol.2020.116200Berkowitz, B. (2002). Characterizing flow and transport in fractured geological media: A review. Advances in Water Resources, 25(8-12), 861-884.
10.1016/s0309-1708(02)00042-8Bertin, C., and Bourg, A. C. (1994). Radon-222 and chloride as natural tracers of the infiltration of river water into an alluvial aquifer in which there is significant river/groundwater mixing. Environmental Science & Technology, 28(5), 794-798.
10.1021/es00054a008Bianchi, M., Zheng, C., Tick, G. R., and Gorelick, S. M. (2011). Investigation of small‐scale preferential flow with a forced‐gradient tracer test. Groundwater, 49(4), 503-514.
10.1111/j.1745-6584.2010.00746.xBriganti, A., Voltaggio, M., Carusi, C., and Rainaldi, E. (2024). Radon deficit technique applied to the study of the ageing of a spilled LNAPL in a shallow aquifer. Journal of Contaminant Hydrology, 263, 104342.
10.1016/j.jconhyd.2024.104342Brusseau, M. L., Nelson, N., and Cain, R. B. (1999). The partitioning tracer method for in-situ detection and quantification of immiscible liquids in the subsurface. In: ACS Publications.
10.1021/bk-1999-0725.ch015Davis, B., Istok, J., and Semprini, L. (2002). Push–pull partitioning tracer tests using radon-222 to quantify non-aqueous phase liquid contamination. Journal of Contaminant Hydrology, 58(1-2), 129-146.
10.1016/s0169-7722(02)00010-4Davis, B., Istok, J., and Semprini, L. (2003). Static and push‐pull methods using radon‐222 to characterize dense nonaqueous phase liquid saturations. Groundwater, 41(4), 470-481.
10.1111/j.1745-6584.2003.tb02381.xDavis, B., Istok, J., and Semprini, L. (2005). Numerical simulations of radon as an in situ partitioning tracer for quantifying NAPL contamination using push–pull tests. Journal of Contaminant Hydrology, 78(1-2), 87-103.
10.1016/j.jconhyd.2005.03.003Engelmann, C., Lari, K. S., Schmidt, L., Werth, C. J., and Walther, M. (2021). Towards predicting DNAPL source zone formation to improve plume assessment: Using robust laboratory and numerical experiments to evaluate the relevance of retention curve characteristics. Journal of Hazardous Materials, 407, 124741.
10.1016/j.jhazmat.2020.124741Gelhar, L., and Collins, M. (1971). General analysis of longitudinal dispersion in nonuniform flow. Water Resources Research, 7(6), 1511-1521.
10.1029/wr007i006p01511Gouze, P., Le Borgne, T., Leprovost, R., Lods, G., Poidras, T., and Pezard, P. (2008). Non‐Fickian dispersion in porous media: 1. Multiscale measurements using single‐well injection withdrawal tracer tests. Water Resources Research, 44(6).
10.1029/2007wr006278Hoehn, E., Von Gunten, H. R., Stauffer, F., and Dracos, T. (1992). Radon-222 as a groundwater tracer. A laboratory study. Environmental Science & Technology, 26(4), 734-738.
10.1021/es00028a010Istok, J., Field, J., Schroth, M., Sawyer, T., and Humphrey, M. (1999). Laboratory and field investigation of surfactant sorption using single‐well,¡°push‐pull¡± tests. Groundwater, 37(4), 589-598.
10.1111/j.1745-6584.1999.tb01146.xIstok, J. D. (2012). Push-pull tests for site characterization (Vol. 144): Springer Science & Business Media.
Jin, A., Wang, Q., and Zhan, H. (2024). A novel four phase slug single-well push–pull test with regional flux: forward modeling and parameter estimation. Journal of Hydrology, 630, 130705.
10.1016/j.jhydrol.2024.130705Kang, P. K., Le Borgne, T., Dentz, M., Bour, O., and Juanes, R. (2015). Impact of velocity correlation and distribution on transport in fractured media: Field evidence and theoretical model. Water Resources Research, 51(2), 940-959.
10.1002/2014wr015799Kim, J., Kaown, D., and Lee, K.-K. (2024). Coupling of radon and microbial analysis for dense non-aqueous-phase liquid tracing and health risk assessment in groundwater under seasonal variations. Journal of Hazardous Materials, 134939.
10.1016/j.jhazmat.2024.134939Lerner, D., Kueper, B., Wealthall, G., Smith, J., and Leharne, S. (2003). An illustrated handbook of DNAPL transport and fate in the subsurface.
Mattia, M., Tuccimei, P., Ciotoli, G., Soligo, M., Carusi, C., Rainaldi, E., and Voltaggio, M. (2023). Combining radon deficit, NAPL concentration, and groundwater table dynamics to assess soil and groundwater contamination by NAPLs and related attenuation processes. Applied Sciences, 13(23), 12813.
10.3390/app132312813Schroth, M., Istok, J., and Haggerty, R. (2000). In situ evaluation of solute retardation using single-well push–pull tests. Advances in Water Resources, 24(1), 105-117.
10.1016/s0309-1708(00)00023-3Schubert, M., Paschke, A., Lau, S., Geyer, W., and Knöller, K. (2007). Radon as a naturally occurring tracer for the assessment of residual NAPL contamination of aquifers. Environmental Pollution, 145(3), 920-927.
10.1016/j.envpol.2006.04.029- Publisher :The Korean Society of Soil and Groundwater Environment
- Publisher(Ko) :한국지하수토양환경학회
- Journal Title :Journal of Soil and Groundwater Environment
- Journal Title(Ko) :지하수토양환경
- Volume : 29
- No :6
- Pages :141-153
- Received Date : 2024-10-23
- Revised Date : 2024-11-29
- Accepted Date : 2024-12-19
- DOI :https://doi.org/10.7857/JSGE.2024.29.6.141


Journal of Soil and Groundwater Environment





