داوری، ک. 1399. پایش و مدیریت. نشریه آب و توسعه پایدار، 7(2): سرمقاله.
رضوی، س.، داوری، ک.، قهرمان، ب.، ضیائی، ع.ن.، ایزدی، ع.، اسحاقیان، ک.، شاهدی، م. و طالبی، ف. 1395. توسعه مدل شبهتوزیعی برای برآورد بیلان (QDWB) و ارزیابی آن در محدوده مطالعاتی رخ-نیشابور، 30(6): 1888-1904.
Anderson M.P., Woessner W.W. and Hunt R.J. 2015. Applied Groundwater Modeling-Simulation of Flow and Advective Transport. Second Edition. Academic Press. London, UK.
Anderson R., Hansen J., Kukuk K. and Powell B. 2006. Development of a watershed-based water balance tool for water supply alternative evaluations. Proceedings of the Water Environment Federation, 2006(10): 2817-2830.
Crawford N.H. and Linsley R.K. 1966. Digital simulation in hydrology: Stanford watershed model 4. Technical Report, 39: 1-10.
California Department of Water Resources. 2020. DRAFTHandbook for Water Budget Development-With or Without Models. https://groundwaterexchange.org/news-post/draft-handbook-for-water-budget-development-released-webinar-scheduled/. (visited 22 December2020).
Dripps W.R. and Bradbury K.R. 2007. A simple daily soil–water balance model for estimating the spatial and temporal distribution of groundwater recharge in temperate humid areas, Hydrogeology Journal, 15(3): 433–444.
Dunne T. 1978. Field studies of hillslope flow processes. Hillslope hydrology, 227: 227-293.
Hu C., Guo S., Xiong L. and Peng D. 2005. A modified Xinanjiang model and its application in northern China. Hydrology Research, 36(2): 175-192.
Izady A., Davary K., Alizadeh A., Ziaei A.N., Alipoor A., Joodavi A. and Brusseau M.L. 2014. A framework toward developing a groundwater conceptual model. Arabian Journal of Geosciences, 7(9): 3611-3631.
Long Y., Zhang Y., Yang D. and Luo L. 2016. Implementation and application of a distributed hydrological model using a component-based approach. Environmental Modelling & Software, 80: 245-258.
Niemann J.D. and Eltahir E.A.B. 2004. Prediction of regional water balance components based on climate, soil, and vegetation parameters, with application to the Illinois River Basin. Water Resources Research, 40(3):n/a-n/a.
Portoghese I. Uricchio V. and Vurro M. 2005. A GIS tool for hydrogeological water balance evaluation on a regional scale in semi-arid environments. Computers & geosciences, 31(1): 15-27.
Sivapalan M., Blöschl G., Zhang L. and Vertessy R. 2003. Downward approach to hydrological prediction. Hydrological processes, 17(11): 2101-2111.
Sokolov A.A. and Chapman T.G. 1974. Methods for water balance computations, An international guide for research and practice-A contribution to the International Hydrological Decade. Paris: Unesco Press.
Thornthwaite C.W. 1948. An approach toward a rational classification of climate. Geographical review, 38(1): 55-94.
Thornthwaite C.W. and Mather J.R. 1955. The water balance, Publ. Climatol. Lab. Climatol. Dresel Inst. Technol, 8(8): 1–104.
Thornthwaite C. and Mather J. 1957. Instructions and tables for computing potential evapotranspiration and the water balance, 5th printing. CW Thornthwaite Associates, Laboratory of Climatology, Elmer, NJ, USA, 10(3).
Westenbroek S.M., Engott J.A., Kelson V.A. and Hunt R.J. 2018. SWB Version 2.0—A soil-water-balance code for estimating net infiltration and other water-budget components: U.S. Geological Survey Techniques and Methods. book 6. chap. A59. 118 p. Reston, U.S.
Xu C.Y. and Singh V.P. 1998. A review on monthly water balance models for water resources investigations. Water Resources Management, 12(1): 20-50.
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