Impact assessment of apartment building foundation to Terban spring discharge, Yogyakarta City
DOI:
https://doi.org/10.15243/jdmlm.2020.073.2111Keywords:
apartment foundation, groundwater model, spring discharge, visual modflowAbstract
The development growth of hotel and apartment in Yogyakarta city is considered to have an impact on groundwater, especially springs located along the river across Yogyakarta city. Most of the foundations of hotels and apartments are below the groundwater level. Therefore, this study aimed to predict the impact of apartment building foundations on Terban spring discharge in Yogyakarta city. Method of impact prediction was conducted by groundwater modeling approach before and after the apartment is built. Visual Modflow 3.1 software was used to develop groundwater modeling in the research area with input parameters including rock types and layers, permeability value of each rock, recharge, model boundary, groundwater level and apartment foundation design. The simulation results show that the impact of apartment foundations on the Terban spring water discharge causing decreased by 4.12% or 0.027 litres/second. Although the amount of spring discharge is relatively small, therefore it is necessary for groundwater conservation to keep the spring discharge stable by developing recharge wells.References
Anderson, M.P. and Woessner, W.W. 1992. Applied Groundwater Modeling Simulation of Flow and Advective Transport, Academic Press, Inc., San Diego, California USA, 381p.
Anderson, T.W. 1992. Electrical-analog analysis of the hydrologic system, Tucson basin, South-eastern Arizona. U.S. Geological Survey Water-Supply Paper 1939-C, 34p.
Brown, J., Wyers, A., Aldous, A. and Bach, L. 2007. Groundwater and Biodiversity Conservation, The Nature Conservancy, 176p.
Central Bureau of Statistics (BPS) of Yogyakarta City. 2017. Yogyakarta City in Figures 2016, Yogyakarta: Central Bureau of Statistics (BPS) of Yogyakarta City, 424p.
Druhan, J.L., Hogan, J.F., Eastoe, C.J., Hibbs, B.J. and Hutchison, W.R. 2008. Hydrogeologic controls on groundwater recharge and salinization: a geochemical analysis of the Northern Hueco Bolson Aquifer, El Paso, Texas, USA. Hydrogeology Journal 16(2): 281–296.
Du, X., Lu, X., Hou, J. and Ye, X. 2018. Improving the reliability of numerical groundwater modeling in a data-sparse region, Water 10(3): 289.
Harbaugh, A.W. 1990, A computer program for calculating subregional water budgets using results from the U.S. Geological Survey modular three-dimensional ground-water flow model: U.S. Geological Survey Open-File Report 90-392, 46p.
Khadri, S.F.R. and Pande, C. 2016. Groundwater flow modeling for calibrating steady state using MODFLOW software: a case study of Mahesh River basin, India. Modeling Earth Systems and Environment 2(1): 39.
Kumar, C.P. and Seethapathi, P.V. 2002. Assessment of natural groundwater recharge in upper Ganga Canal command area. Journal of Applied Hydrology 15: 13-20.
Lachaal, F. and Gana, S. 2016. Groundwater flow modeling for impact assessment of port dredging works on coastal hydrogeology in the area of Al-Wakrah (Qatar). Modeling Earth Systems and Environment 2(4):1-15.
Mayer, A., May, W., Lukkarila, C. and Diehl, J. 2007. Estimation of fault zone conductance by calibration of a regional groundwater flow model: desert Hot Springs, California. Hydrology Journal 15(6): 1093–1106.
Rivera, J.J.C. 2000, Application of the groundwater-balance quotation to indicate interbasin and vertical flow in two semi-arid drainage basins, Mexico, Hydrogeology Journal 8: 503-520.
Sheng, Z. and Devere, J. 2005. Systematic management for a stressed transboundary aquifer: The Hueco Bolson in the Paso del Norte region. Journal of Hydrogeology 13(5–6): 813–825.
Singh, A. 2013 Groundwater modeling for the assessment of water management alternatives. Journal of Hydrology 481: 220–229.
Singh, V.P. 1992. Elementary Hydrology, Prentice-Hall, Englewood Cliffs, New Jersey, 973p.
Todd, D. and Mays, L. 2005. Groundwater Hydrology, 3rd Edition, John Wiley and Sons, Inc., Hoboken, 652p.
Waterloo Hydrogeological. 2001. Visual MODFLOW Pro, 3D Groundwater Flow and Contaminant Transport Modeling, V.3.1
Wilopo, W., Putra, D.P.E. and Wibowo, D.A. 2018. Groundwater flow modeling in The Wates Coastal Aquifer, Kulon Progo District, Yogyakarta Special Province, Indonesia. International Journal of Geomate 14(41):119-125.
Yogyakarta Special Region Tourism Office. 2017. Tourism Statistic in 2017, Tourism Agency of Yogyakarta Special Region, 80p.
Zhou, Y. and Li W. 2011. A review of regional groundwater flow modelling. Geoscience Frontiers 2(2): 205-214.
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