ABSTRACT. Batu Hijau mine pit is known as one of the largest copper pit mine in Nusa Tenggara Barat, Indonesia. Similiar as other copper mine pits in Indonesia, This site also faces acid mine water (AMD) problem. Based on the mine management plan, the AMD generated from this pit is being collected into Santong ponds in the southwest of the pit located in the upstrean area if Sejorong watershed. By the next decade, Batu Hijau mine will be in the closure mine period and it is important to understand the probable move- ment of AMD under the Santong ponds whether the AMD leaked to groundwater or not. This research aims to develop a numerical model of groundwater flow and predict the movement of AMD by applying particle tracking method. Secondary and primary data of geology, hydrology, and hydrogeology. Also, groundwater pumpage discharge infor- mation was collected and analysed to develop hydrogeological conceptual model and the numerical model. The conceptual model of hydrogeological system in the research area is known to be built on unconfined aquifer system from a combination of weathered and fractured volcanic rocks in the upstream to middle part of watershed and majorly by allu- vial and coastal deposits in the downstream area. The thickness of aquifer is vary between 20 to about 300 m and divide into 5 layers in the numerical model, with hydraulic conduc- tivity ranges between 5 to 100 m/day and groundwater recharge is vary between 180 to 700 mm/year from downstream to upstream of watershed. Groundwater flow boundaries in the Sejorong watershed are mainly controlled by topographical feature as water divide boundaries and the existing of Sejorong parennial rivers in the middle of this watershed. Steady state particle tracking results from the numerical groundwater flow model show AMD from Santong ponds may migrate in groundwater only to a distance of about 500 m to the downstream and therefore it is unlikely that AMD seepages from Santong pond may contaminate water in the production wells.

AMNT (2018) Groundwater Archive Data, PT Amman Mineral Nusa Tenggara (unpublished report).

Bear, J. and Cheng, A.H.D. (2010) Modeling Groundwater Flow and Contaminant Transport. New York: Springer Science + Business Media B.V. 756p.

Cousquer, Y., Pryet, A., Flipo, N., Delbart, C., and Dupuy, A. (2017) Estimating River Conductance From Prior Information To Improve Surface-Subsurface Model Calibration.

Ground water, Volume 55, Issue 3, p. 408-418.

Fetter, C.W. (2008), Contaminant Hydrogeology, 2nd Edition, Waveland Press, Inc., 500 p.

Fienen, M., Hunt, R., Krabbenhoft, D., and Clemo, T. (2009) Obtaining Parsimonious Hydraulic Conductivity Felds using Head and Transport Observations: a Bayesian Geostatistical parameter estimation approach.

Water Resources Research, Volume 45, Issue 8, W08405. Geldon, A.L. (2004) Hydraulic Tests of Miocene Volcanic Rocks at Yucca Mountain and Pahute Mesa and Implications for Groundwater Flow in the Southwest Nevada Volcanic Field, Nevada and California.

Geological Society of America Special Paper 381, 93p. Golder Associates (1999) Batu Hijau Project, Indonesia: Waste Dump Management Plan: Volume 3 - Hydrogeology. Lombok: Unpublished (Newmont Nusa Tenggara Company Final Report).

Gusyev, M., Abrams, D., Toews, M., Morgenstern, U., and Stewart, M. (2014) A Comparison Of Particle-Tracking And Solute Transport Methods For Simulation Of Tritium Concentrations And Groundwater Transit Times In River Water.

Hydrology and Earth System Sciences, 18, p.3109- 3119.

Hunt, R.J., Feinstein, D.T., Pint, C.D., and Anderson, M.P. (2006) The Importance Of Diverse Data Types To Calibrate A Watershed Model Of The Trout Lake Basin, Northern Wisconsin, Jurnal Hydrology 321, p. 286-296.

LKFT UGM (2012) Kajian Hidrogeologi Komprehensif Daerah Pertambangan Batu Hijau, Kabupaten Sumbawa Barat, Provinsi Nusa Tenggara Barat. Lombok: PT Newmont Nusa Tenggara. (unpublished report).

LKFT UGM (2017) Kajian Hidrogeologi Komprehensif dan Kajian air Tanah di Masyarakat di sekitar Daerah Pertambangan Batu Hijau, Lombok: PT Newmont Nusa Tenggara (unpublished report).

Lorax-Schlumberger (2014) Hydrogeological Assessment of the Batu Hijau Mine and Implications for Closure Detailed Report.

Lombok: PT Newmont Nusa Tenggara (unpublished report). Pint, C.D., Hunt, R.J., Anderson, M.P. (2003) Flowpath delineation and ground water age, AllequashBasin, Wisconsin.
Groundwater, Volume 41, No.7, p. 895-902.

Putra, D.P.E., Iqbal, M., Hendrayana, H., and Putranto, T.T. (2013) Assessment of Optimum Yield of Groundwater Withdrawal in the Yogyakarta City, Journal of Southeast Asian Applied Geology, Vol.5, No.1, January-June 2013. p. 41-49.

Spitz, K. and Moreno, J. (1996) A Practical Guide to Groundwater and Solute Transport Modeling, JohnWiley & Sons, Canada. 480p.