- Abdullah, T. O., Ali, S. S., Al-Ansari, N. A., & Knutsson, S. (2015). Groundwater vulnerability mapping using lineament density on standard DRASTIC model: Case study in Halabja Saidsadiq basin, Kurdistan region, Iraq. Engineering, 07(10), 644-667.
- Ahani Amineh, Z. B., Hashemian, S. J. A. D., & Magholi, A. (2017). Integrating spatial multi criteria decision making (SMCDM) with geographic information systems (GIS) for delineation of the most suitable areas for aquifer storage and recovery (ASR). Journal of hydrology, 551, 577-595.
- Al-Ghobari, H., Dewidar, A., & Alataway, A. (2020). Estimation of surface water runoff for a semi-arid area using RS and GIS-Based SCS-CN method. Water (Switzerland), 12(7).
- Alkhatib, J., Engelhardt, I., & Sauter, M. (2021). Identification of suitable sites for managed aquifer recharge under semi-arid conditions employing a combination of numerical and analytical techniques. Environmental Earth Sciences, 80(17).
- (2018). Water resources evaluation report. Retrieved from Alborz Regional Water Authority. (In Persian).
- Dillon, P., Stuyfzand, P., Grischek, T., Lluria, M., Pyne, R. D. G., Jain, R. C., Bear, J., Schwarz, J., Wang, W., Fernandez, E., Stefan, C., Pettenati, M., van der Gun, J., Sprenger, C., Massmann, G., Scanlon, B. R., Xanke, J., Jokela, P., Zheng, Y., …, & Sapiano, M. (2019a). Sixty years of global progress in managed aquifer recharge. Hydrogeology Journal, 27(1), 1-30.
- Dillon, P., Stuyfzand, P., Grischek, T., Lluria, M., Pyne, R. D. G., Jain, R. C., Bear, J., Schwarz, J., Wang, W., Fernandez, E., Stefan, C., Pettenati, M., van der Gun, J., Sprenger, C., Massmann, G., Scanlon, B. R., Xanke, J., Jokela, P., Zheng, Y., …, & Sapiano, M. (2019b). Sixty years of global progress in managed aquifer recharge. Hydrogeology Journal, 27(1), 1-30.
- Jakeman, A. J., Barreteau, O., Hunt, R. J., Rinaudo, J. D., & Ross, A. (2016). Integrated groundwater management (p. 762). Springer Nature.
- Kazakis, N. (2018). Delineation of suitable zones for the application of Managed aquifer recharge (MAR) in coastal aquifers using quantitative parameters and the analytical hierarchy process. Water (Switzerland), 10(6).
- Khorsandi, A. (2009). Hashtgerd plain semi_detailed geology and quality of water resources report. Retrieved from ParsRai Ab consulting engineering company. (In Persian).
- Kourakos, G., Brunetti, G., Bigelow, D. P., Wallander, S., & Dahlke, H. E. (2023). Optimizing managed aquifer recharge locations in California’s Central Valley using an Eevolutionary multi-Objective genetic algorithm coupled with a hydrological simulation model. Water Resources Research, 59(5).
- Letz, O., Siebner, H., Avrahamov, N., Egozi, R., Eshel, G., & Dahan, O. (2021). The impact of geomorphology on groundwater recharge in a semi-arid mountainous area. Journal of Hydrology, 603.
- Maréchal, J. C., Bouzit, M., Rinaudo, J. D., Moiroux, F., Desprats, J. F., & Caballero, Y. (2020). Mapping economic feasibility of managed aquifer recharge. Water (Switzerland), 12(3), 1-13.
- Oikonomidis, D., Dimogianni, S., Kazakis, N., & Voudouris, K. (2015). A GIS/Remote Sensing-based methodology for groundwater potentiality assessment in Tirnavos area, Greece. Journal of Hydrology, 525, 197-208.
- Olivares, E. A. O., Torres, S. S., Jiménez, S. I. B., Enríquez, J. O. C., Zignol, F., Reygadas, Y., & Tiefenbacher, J. P. (2019). Climate change, land use/land cover change, and population growth as drivers of groundwater depletion in the Central Valleys, Oaxaca, Mexico. Remote Sensing, 11(11).
- Ringleb, J., Sallway, J., & Stefan, C. (2016). Assessment of Managed Aquifer Recharge through Modeling—A Review. Water, 8(12), 2073-4441.
- (2022). Identification of uncertainties and errors in estimation of water balance components and providing the appropriate solutions. Retrieved from Research Institute of Water Engineering and Management, Tarbiat Modares University. (In Persian).
- Roshun, S. H., Habibinejad Roshan, M., Shahedi, K., & Chormański, J. (2022). Preparation of curve number map and estimation of runoff height using geographic infromation system and remote sensing in North Karun basin. Journal of RS and GIS for Natural Resources, 13(3), 6-9. (In Persian).
- Sadeghi, A. R., Hosseini S, M., Yamani. M., & Jafar Beiglou, M. (2022). Site-selection of groundwater artificial recharge in Sharif-Abad aquifer with emphasis on hydrogeomorphological characteristics. Journal of Earth Science Researches, 13(1), 100-116. (In Persian).
- Sallwey, J., Bonilla Valverde, J. P., Vásquez López, F., Junghanns, R., & Stefan, C. (2019). Suitability maps for managed aquifer recharge: A review of multi-criteria decision analysis studies. Environmental Reviews, 27(2), 138-150.
- Sandoval, J. A., & Tiburan, C. L. (2019). Identification of potential artificial groundwater recharge sites in Mount Makiling Forest Reserve, Philippines using GIS and analytical hierarchy process. Applied Geography, 105, 73-85.
- Valverde, J. P. B., Blank, C., Roidt, M., Schneider, L., & Stefan, C. (2016). Application of a GIS multi-criteria decision analysis for the identification of intrinsic suitable sites in Costa Rica for the application of Managed Aquifer Recharge (MAR) through spreading methods. Water (Switzerland), 8(9).
- Varouchakis, E. A., Kalaitzaki, E., Trichakis, I., Corzo Perez, G. A., & Karatzas, G. P. (2023). An integrated method to study and plan aquifer recharge. Hydrology Research, 54(1), 1-13.
- Vaux, H. (2011). Groundwater under stress: The importance of management. Environmental Earth Sciences, 62(1), 19–23.
- Wulder, M. A., Coops, N. C., Roy, D. P., White, J. C., & Hermosilla, T. (2018). Land cover 2.0. International Journal of Remote Sensing, 39(12), 4254-4284.
- Zarate, E., Hobley, D., MacDonald, A. M., Swift, R. T., Chambers, J., Kashaigili, J. J., Mutayoba, E., Taylor, R. G., & Cuthbert, M. O. (2021). The role of superficial geology in controlling groundwater recharge in the weathered crystalline basement of semi-arid Tanzania. Journal of Hydrology: Regional Studies, 36.
- Zende, A. (2014). Analysis of surface runoff from Yerala River basin using SCS-CN and GIS. International Journal of Geomatics and Geosciences, 4, 508-516.
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