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Evaluation of Groundwater Recharge using a Distributed Water Balance Model (WetSpass-M model) for the Sapgyo-cheon Upstream Basin
Hyowon An^1,2·Kyoochul Ha^1,2*
¹Korea Institute of Geoscience and Mineral Resources
²Department of Mineral & Groundwater Resources, University of Science and Technology
분포형 물수지 모델(WetSpass-M)을 이용한 삽교천 상류 유역에서의 월별 지하수 함양량 산정
안효원^1,2·하규철^1,2*
¹한국지질자원연구원 지질환경연구본부 지하수연구센터, ²과학기술연합대학원대학교 광물·지하수자원학
This article is an open access article distributed under the terms of the Creative Commons Attribution Non-Commercial License (http://creativecommons.org/licenses/by-nc/4.0) which permits unrestricted non-commercial use, distribution, and reproduction in any medium, provided the original work is properly cited.

References

1. Abdollahi, K., 2015, Basin scale water balance modeling for variable hydrological regimes and temporal scales, Ph.D. Vrije Universiteit Brussel, Belgium.
2. Abdollahi, K., Bashir, I., Verbeiren, B., Harouna, M.R., Van Griensven, A., Huysmans, M., and Batelaan, O., 2017, A distributed monthly water balance model, formulation and application on Black Volta Basin, Environ. Earth Sci., 76(5), 1-18.
3. Allen, R., Pereira, L.A., Raes, D., and Smith, M., 1998, Crop evapotranspiration. FAO Irrigation and Drainage Paper No. 56, Rome, Italy. 300p.
4. An, H.W., 2021, Estimation of Groundwater recharge using WetSpass-M model in Sapgyo-cheon upstream basin, M.D. University of science and technology, Korea.
5. Arnold, J.G., Muttiah, R.S., Srinivasan, R., and Allen, P.M., 2000, Regional estimation of base flow and groundwater recharge in the upper mississippi river basin, J. Hydrol., 227(1), 21-40.
6. Ashaolu, E.D., Olorunfemi, J.F., Ifabiyi, I.P., Abdollahi, K., and Batelaan, O., 2020, Spatial and temporal recharge estimation of the basement complex in Nigeria, West Africa, J. Hydrol., 27, 1-19.
7. Batelaan, O. and De Smedt, F., 2001, WetSpass, a flexible, GIS based, distributed recharge methodology for regional groundwater modelling, IAHS Publication, 269, 11-18.
8. Batelaan, O. and De Smedt, F., 2007, GIS-based recharge estimation by coupling surface-subsurface water balances, J. Hydrol., 337(3-4), 337-355.
9. Chung, I.M., Park, S.H., Lee, J.E., and Kim, M.G., 2018, Estimation of distributed groundwater recharge in Jangseong district by using integrated hydrologic model, J. Korean Soc. Civ. Eng., 38(4), 517-526.
10. De Groen, M.M. and Savenije, H.H.G., 2006, A monthly interception equation based on the statistical characteristics of daily rainfall, Water Resour. Res., 42(12), 1-10.
11. Environmental Geographic Information Service (EGIS), 2021, land use map (2019), http://egis.me.go.kr (Cited 7 January 2021).
12. Gwak, Y.S., Cho, J.P., Jung, I.G., Kim, D.W., and Jang, S.M., 2018, Projection of future changes in drought characteristics in Korea peninsula using effective drought index, J. Climate Change Res., 9(1), 31-45.
13. Ha, K.C., Park, C.H., Kim, S.H., Shin, E., and Lee, E.H., 2021, Groundwater recharge evaluation on Yangok-ri area of Hongseong using a distributed hydrologic model (VELAS), Econ. Environ. Geol., 54(2), 161-176.
14. Ha, R., Shin, H.J., Park, G.A., and Kim, S.J., 2008, Assessment of MODIS Leaf Area Index (LAI) Influence on the Penman-Monteith Evapotranspiration Estimation of SLURP Model, Korea Water Resour. Assoc., 1087-1091.
15. IPCC, 2014, Climate Change 2014: Synthesis Report. Contribution of Working Groups I, II and III to the Fifth assessment Report of the Intergovernmental Panel on Climate Change [Core Writing Team, R.K. Pachauri and L.A. Meyer (eds)]. IPCC, Geneva, Switzerland 151 p.
16. Jyrkama, M.I. and Sykes, J.F., 2007, The impact of climate change on spatially varying groundwater recharge in the grand river watershed (Ontario), J. Hydrol., 338(3-4), 237-250.
17. Kim, N.W., Chung, I.M., Won, Y.S., Lee, J.W., and Lee, B.J., 2006, The estimation of groundwater recharge with spatial-temporal variability at the musimcheon catchment, J. Soil Groundwater Environ., 11(5), 9-19.
18. Korea Meteorological Administration(KMA), 2021, Climate data(1981~2020), http://data.kma.go.kr (Cited 7 January 2021).
19. Korea Meteorological Administration (KMA), 2018, Analysis of Korean Peninsula Climate Change Prospect, 172p.
20. Lee, J.H., Jun, S.W., Lee, M.J., and Hong, H.J., 2010, Coupled Model Development between Groundwater Recharge Quantity and Climate Change in River Watershed II, Green Growth Research 2010-18, Korea Environment Institute, 149p.
21. Lee, J.W., Jung, C.G., Kim, D.R., and Kim, S.J., 2018, Assessment of future climate change impact on groundwater level behavior in Geum river basin using SWAT, J. Korea Water Resour. Assoc., 51(3), 247-261.
22. Mair, A., Hagedorn, B., Tillery, S., El-Kadi, A.I., Westenbroek, S., Ha, K.C., and Koh, G.W., 2013, Temporal and spatial variability of groundwater recharge on Jeju Island, Korea, J. Hydrol., 501, 213-226.
23. Meyboom, P., 1961, Estimating groundwater recharge from stream hydrology, J. Geophys. Res., 66(4), 1203-1214.
24. Merz R., Bloschl, G., and Parajka, J., 2006, Spatio-temporal variability of event runoff coefficients, J. Hydrol., 331(3), 591-604.
25. Ministry of Environment(ME) and Korea Water Resources Corporation(K-water), 2018, Groundwater annual report 2018, 662p.
26. Ministry of Land, Infrastructure and Transport(MOLIT), 2017, Master plan for management of groundwater, 395p.
27. National territory information platform, 2021, elevation data, http://map.ngii.go.kr (Cited 7 January 2021).
28. NURP US EPA, 1983, Results of the Nationwide Urban Runoff Program. Vol 1-Final report. Water Planning Division, NTIS PB84-18552, Washington DC.
29. Park, C.H., Seo, J.A., Lee, J.J., Ha, K.C., and Koo, M.H., 2014, A distributed water balance approach to groundwater recharge estimation for Jeju volcanic island, Korea, Geosci. J., 18(2), 193-207.
30. Pistocchi, A., Bouraoui, F., and Bittelli, M., 2008, A simplified parameterization of the monthly topsoil water budget, Water Resour. Res., 44(12), 1-21.
31. Raes, D., 2012, Reference Manual, ETO Calculator, Version 3.2. Food an Agriculture Organization of the United Nations Land and Water Division, Rome, Italy. 36p.
32. Schroeder, P.R., Cheryl, M.L., and Paul, A.Z., 1994, The hydrologic evaluation of landfill performance (HELP) model, user's guide for version 3, environmental protection Agency Office of Research and Development, 84p.
33. Shin, E., Koh, E.H., Ha, K.C., Lee, E.H., and Lee, K.K., 2016, Impact of Climate Change on the Groundwater Recharge and Groundwater Level Variations in Pyoseon Watershed of Jeju Island, Korea, J. Soil Groundwater Environ., 21(6), 22-35.
34. Shrestha, S., Bach, T.V., and Pandey, V.P., 2016, Climate change impacts on groundwater resources in Mekong Delta under representative concentration pathways (RCPs) scenarios, Environ. Sci. Policy, 61, 1-13.
35. Soleimani-Motlagh, M., Ghasemieh, H., Talebi, A., Abdollahi, K., and Dragoni, W., 2020, Groundwater budget deficit caused by drought and overexploitation, Water Supply, 20(2), 621-632.
36. Sutanto, S.J., Wenninger, J., Coenders-Gerrits, A.M.J., and Uhlenbrook, S., 2012, Partitioning of evaporation into transpiration, soil evaporation and interception: a comparison between isotope measurements and a HYDRUS-1D model, Hydrol. Earth Syst. Sci., 16(8), 2605-2616.
37. Theis, C.W., 1937, Amount of groundwater recharge in the southern high plains, Transaction, American Geophysical Union 18, 564-568.
38. Tilahun, K. and Merkel, B.J., 2009, Estimation of groundwater recharge using a GIS-based distributed water balance model in Dire Dawa, Ethiopia. Hydrogeol. J., 17, 1443-1457.
39. Westenbroek, S.M., Kelson, V.A., Dripps, W.R., Hunt, R.J., and Bradbury, K.R., 2010, SWB-A modified Thornthwaite-Mather Soil-Water-Balance code for estimating groundwater recharge, Techniques and Methods, 52p.
40. Wu, J., Zhang, R., and Yang, J, 1996, Analysis of rainfall-recharge relationships, J. Hydrol., 177(1), 143-160.

This Article

2021; 26(6): 47-64

Published on Dec 31, 2021
10.7857/JSGE.2021.26.6.047
Received on Nov 4, 2021
Revised on Nov 15, 2021
Accepted on Nov 29, 2021

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Correspondence to

Kyoochul Ha
¹Korea Institute of Geoscience and Mineral Resources
²Department of Mineral & Groundwater Resources, University of Science and Technology
E-mail: hasife@kigam.re.kr