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Quantifying groundwater recharge dynamics and unsaturated zone processes in snow‐dominated catchments via on‐site dissolved gas analysis
Schilling, O. S., Parajuli, A., Tremblay Otis, C., Müller, T. U., Antolinez Quijano, W., Tremblay, Y., … Therrien, R. (2021). Quantifying groundwater recharge dynamics and unsaturated zone processes in snow‐dominated catchments via on‐site dissolved gas analysis. Water Resources Research. https://doi.org/10.1029/2020WR028479
A global-scale dataset of direct natural groundwater recharge rates: a review of variables, processes and relationships
Moeck, C., Grech-Cumbo, N., Podgorski, J., Bretzler, A., Gurdak, J. J., Berg, M., & Schirmer, M. (2020). A global-scale dataset of direct natural groundwater recharge rates: a review of variables, processes and relationships. Science of the Total Environment, 717, 137042 (19 pp.). https://doi.org/10.1016/j.scitotenv.2020.137042
Impact of urbanization on groundwater recharge rates in Dübendorf, Switzerland
Minnig, M., Moeck, C., Radny, D., & Schirmer, M. (2018). Impact of urbanization on groundwater recharge rates in Dübendorf, Switzerland. Journal of Hydrology, 563, 1135-1146. https://doi.org/10.1016/j.jhydrol.2017.09.058
Groundwater recharge predictions in contrasted climate: the effect of model complexity and calibration period on recharge rates
Moeck, C., von Freyberg, J., & Schirmer, M. (2018). Groundwater recharge predictions in contrasted climate: the effect of model complexity and calibration period on recharge rates. Environmental Modelling and Software, 103, 74-89. https://doi.org/10.1016/j.envsoft.2018.02.005
The influence of model structure on groundwater recharge rates in climate-change impact studies
Moeck, C., Brunner, P., & Hunkeler, D. (2016). The influence of model structure on groundwater recharge rates in climate-change impact studies. Hydrogeology Journal, 24(5), 1171-1184. https://doi.org/10.1007/s10040-016-1367-1
Partitioning sources of recharge in environments with groundwater recirculation using carbon-14 and CFC-12
Bourke, S. A., Cook, P. G., Dogramaci, S., & Kipfer, R. (2015). Partitioning sources of recharge in environments with groundwater recirculation using carbon-14 and CFC-12. Journal of Hydrology, 525, 418-428. https://doi.org/10.1016/j.jhydrol.2015.03.061
Hydrological modelling of a heterogeneous catchment using an integrated approach of remote sensing, a geographic information system and hydrologic response units: the case study of Wadi Zerka Ma'in catchment area, north east of the Dead Sea
Odeh, T., Rödiger, T., Geyer, S., & Schirmer, M. (2015). Hydrological modelling of a heterogeneous catchment using an integrated approach of remote sensing, a geographic information system and hydrologic response units: the case study of Wadi Zerka Ma'in catchment area, north east of the Dead Sea. Environmental Earth Sciences, 73(7), 3309-3326. https://doi.org/10.1007/s12665-014-3627-5
Estimation of groundwater recharge and its relation to land degradation: case study of a semi-arid river basin in Iran
Rafiei Emam, A., Kappas, M., Akhavan, S., Hosseini, S. Z., & Abbaspour, K. C. (2015). Estimation of groundwater recharge and its relation to land degradation: case study of a semi-arid river basin in Iran. Environmental Earth Sciences, 74(9), 6791-6803. https://doi.org/10.1007/s12665-015-4674-2
Estimation of groundwater recharge and drought severity with varying model complexity
von Freyberg, J., Moeck, C., & Schirmer, M. (2015). Estimation of groundwater recharge and drought severity with varying model complexity. Journal of Hydrology, 527, 844-857. https://doi.org/10.1016/j.jhydrol.2015.05.025
Towards a better understanding of sewer exfiltration
Rutsch, M., Rieckermann, J., Cullmann, J., Ellis, J. B., Vollertsen, J., & Krebs, P. (2008). Towards a better understanding of sewer exfiltration. Water Research, 42(10–11), 2385-2394. https://doi.org/10.1016/j.watres.2008.01.019
Quantification of sewer leakage: a review
Rutsch, M., Rieckermann, J., & Krebs, P. (2006). Quantification of sewer leakage: a review. Water Science and Technology, 54(6-7), 135-144. https://doi.org/10.2166/wst.2006.616