參考文獻 |
[1] Renslow, G., “Is Seawater Intrusion Affecting Ground Water on Lopez Island, Washington?”, U.S. Geological Survey Fact Sheet 057-00, 2003.
[2] Bear, J., Hydraulic of Groundwater, Dover Edition, New York, 2007.
[3] 張奇,「海水入侵的實驗研究」,水文地質工程地質,4, 43-47頁,2005年。
[4] Bear, J., Sorek, S., Ouazar, D., Seawater Intrusion in Coastal Aquifers: Concepts, Methods, and Practices, Springer, 1999.
[5] Gotovac, H., Andričević, R., Vranješ, M., “Effects of Aquifer Heterogeneity on the Intrusion of Sea Water”, First International Conference on Saltwater Intrusion and Coastal Aquifers Monitoring, Modeling, and Management, Essaouira Morocco, April 23-25, 2001.
[6] Reilly, T. E., Goodman, A. S., “Quantitative Analysis of Saltwater- Freshwater Relationships in Groundwater Systems – A Historical Perspective”, Journal of Hydrology, Vol 80, pp. 125-160, 1985.
[7] 郭占榮、黃奕普,「海水入侵問題研究綜述」,水文HYDROLOGY,9-15頁,23 (3),2003年6月。
[8] Michael, H. A., Mulligan, A. E., Harvey, C. F., “Seasonal Oscillations in Water Exchange Between Aquifers and the Coastal Ocean”, Nature, Vol 436, pp. 1145-1148, 2005.
[9] Narayan, K. A., Schleeberger, C., Charlesworth, P. B., Bristow, K.L.,
”Effects of Groundwater Pumping on Saltwater Intrusion in the Lower Burdekin Delta, North Queensland”, International Congress on Modelling and Simulation, Vol 2, pp. 212-217. Australia and New Zealand, 2003.
[10] Darnault, C. J. G. “Coastal Aquifer and Seawater Intrusion”, Overexploitation and Contamination of Shared Groundwater Resources NATO science for Peace and Security Series –C: Environment Security, pp. 185-201, 2006.
[11] Schwartz, F. W., Zhang, H., Fundamentals of Groundwater, John Wiley & Sons, Inc., 2003.
[12] Whiteman, K. J., Molenaar, Dee, Jacoby, J. M., Bortleson, G. V., “Occurrence, Quality, and Use of Ground Water in Orcas, San Juan, Lopez, and Shaw Islands, San Juan County, Washington”, Water-Resources Investigations Report 83-4019, 1983.
[13] Simmons, C.T., Fenstemaker, T.R. and Sharp Jr., J.M., “Variable-Density Groundwater Flow and Solute Transport in Heterogeneous Porous Media: Approaches, Resolutions and Future Challenges”, Journal of Contaminant Hydrology, Vol 52, No11, pp. 245- 275, 2001.
[14] Cameo, E. A., “Seawater Intrusion in Complex Geological Environments”, Technical University of Catalonia, PhD Study, March 2006.
[15] Dagan, G., Zeitoun, D. G., “Seawater-freshwater interface in a stratified aquifer”, Journal of Contaminant Hydrology, Vol 29, pp. 185-203, 1998.
[16] Naji, A., Cheng, A. H.-D., Ouazar, D., “Analytical Stochastic Solutions of Saltwater/Freshwater Interface in Coastal Aquifers”, Stochastic Hydrology and Hydraulics, Vol 12, No 6, pp. 413-430, 1998.
[17] Abarca, E., Carrera, J., Sanchez-Vila, X., “Heterogeneous Dispersive Henry Problem”, Second International Conference on Seawater Intrusion and Coastal Aquifers – Monitoring, Modeling, and Management, Merida, Mexico, 2003.
[18] Lecca, G., CauUsing, P., “a Monte Carlo approach to evaluate seawater intrusion in the Oristano coastal aquifer: A case study from the AQUAGRID collaborative computing platform”, Physics and Chemistry of the Earth, Vol 34, pp. 654-661, 2009.
[19]Prieto, C., Kotronarou, A., Destouni, G., “The Influence of Temporal Hydrological Randomness on Seawater Intrusion in Coastal Aquifers”, Journal of Hydrology, Vol 330, pp. 285-300, 2006.
[20] Chen, B. F., ASCE, M., Hsu, S. M., “Numerical Study of Tidal Effects on Seawater Intrusion in Confined and Unconfined Aquifers by time-Independent Finite-Difference Method”, Journal of Waterway, Port, Coastal and Ocean Engineering, Vol 130, No 4, pp. 191-206, 2004.
[21] Naji, A., Cheng, A.H.-D., Ouazar, D., “BEM Solution of Stochastic Seawater Intrusion Problems”, Engineering Analysis with The boundary Elements, Vol 23, pp. 529-537, 1999.
[22] Bhattacharjya, R. K., Datta, B., Satish, M. G., ”Artificial Neural Networks Approximation of Density Dependent Saltwater Intrusion Process in Coastal Aquifers”, Journal of Hydrologic Engineering, Vol 12, No 3, pp. 273-282, 2007.
[23] Lu, C., Kitanidis, P. K., Luo, J., “Effects of Kinetic Mass Transfer and Transient Flow Conditions on Widening Mixing Zones in Coastal Aquifers”, Water Resources Research, Vol 45, W12402, doi: 10.1029/2008WR007643, 2009.
[24] Su, N., Liu, F., Anh, V., “Tides as Phase-Modulated waves inducing periodic groundwater flow in coastal aquifers overlying a sloping impervious base”, Environmental Modeling & Software, Vol. 18, pp. 937-942, 2003.
[25] Li, X., Hu, B. X., Burnett, W. C., Santos, I. R., Chanton, J. P., “Submarine Ground Water Discharge Driven by Tidal Pumping in a Heterogeneous Aquifer”, Ground Water, Vol. 47, No 4 , pp. 558- 568, 2009
[26] Zektser, I. S., Dzhamalov, R. G., Submarine Groundwater, Lorne G. Everett, CRC; 1 edition, 2006.
[27] Dentz, M., Tartakovsky, D. M., Abarca, E., et al., “Variable-Density Flow in Porous Media”, Journal of Fluid Mechanics, Vol 561, pp. 209-235, 2006.
[28] Hocking, G. C., Forbes, L.K., “The Lens of Freshwater in a Tropical Island – 2D Withdrawal”, Computers & Fluids, Vol 33, pp. 19-30, 2004.
[29] Sakr, S. A., “Validity of a Sharp-Interface Model in a Confined Coastal Aquifer”, Hydrogeology Journal, 7,155-160, 1999.
[30] Al-Bitar, A., Ababou, R., “Random Field Approach to Seawater Intrusion in Heterogeneous Coastal Aquifers: Unconditional Simulations and Statistical Analysis”, EUROPEAN COMMISSION Contract ICA3-CT2002-10004 Research Directorate-General, pp. 233-247, 2003.
[31] Cartwright, N., Li, L., Nielsen, P., “Response of The Salt-Freshwater Interface in a Coastal Aquifer to a Wave-Induced Groundwater Pulse: Field Observations and modeling”, Advances in Water Resources, Vol 27, pp. 297-303, 2004.
[32] Bear, J., Zhou, Q., Bensabat, J., “Three Dimensional Simulation of Seawater Intrusion in Heterogeneous Aquifers, with Application to the Coastal Aquifer of Israel”, First International Conference on Saltwater Intrusion and Coastal Aquifers-Monitoring, Modeling, and Management. Essaouria, Morocco, 2001.
[33] Das, A., Datta, B., “Simulation of Seawater Intrusion in Coastal Aquifers: Some Typical Responses”, Sadhana, Vol 26, pp. 317-352, 2001.
[34] Frind, E. O., “Seawater Intrusion in Continuous Coastal aquifer – aquitard systems“, Advances in Water Resources, Vol 5, pp. 89-97, 1982.
[35] Voss, C. I., Souza, W. R.,”Variable Density Flow and Solute Transport Simulation of Regional Aquifers Containing a Narrow Freshwater- Saltwater Transition Zone”, Water Resources Research, Vol 23, No 10, pp. 1851-1866, 1987.
[36] Turner, I., “Water Table Outcropping on Macro-Tidal Beaches: a Simulation Model”, Marine Geology, Vol 115, pp. 227-238, 1993.
[37] Li, L., Barry, D. A., Pattiaratchi, C. B., “Numerical Modeling of Tide- Induced Beach Water Table Fluctuations”, Coastal Engineering, Vol 30, pp. 105-123, 1997.
[38] Ataie-Ashtiani, B., Volker, R. E., Lockington, D. A., “Tidal Effects on Sea Water Intrusion in Unconfined Aquifer”, Journal of Hydrology, Vol 216, pp. 17-31, 1999.
[39] Ataie- Ashtiani, B., Volker, R. E., Lockington, D. A., “Numerical and Experimental study of Seepage in Unconfined Aquifers with a Periodic The Boundary Condition”, Journal of Hydrology, Vol 222, pp. 165-184, 1999.
[40] Li, L., Barry, D. A., Stagnitti, F., Parlange, J. -Y., Jeng, D.-S., ”Beach Water Table Fluctuations Due to Spring- Neap Tides: Moving The boundary Effects”, Advances in Water Resources, Vol 23, pp. 817-824, 2000.
[41] Li, L., Dong, J., Barry, D. A., “Tide- Induced Water Table Fluctuations in Coastal Aquifers The Bounded by Rhythmic Shorelines”, Journal of Hydraulic Engineering, Vol 128, No 10, pp. 925-933, 2002.
[42] Li, H., Jiao, J. J., “Analytical Solutions of Tidal Groundwater Flow in Coastal Two- Aquifer System”, Advances in Water Resources, Vol 25, pp. 417-426, 2002.
[43] Li, H., Jiao, J. J., ”Tide- Induced Seawater- Groundwater Circulation in a Multi- Layered Coastal Leaky Aquifer System”, Journal of Hydrology, Vol 274, pp. 211-224, 2003.
[44] Mao, X., Enot, P., Barry, D. A., Li, L., Binley, A., Jeng D. S., “Tidal Influence on Behavior of a Coastal Aquifer Adjacent to a Low-Relief Estuary”, Journal of Hydrology, Vol 327, pp. 110-127, 2006.
[45] Werner, A. D., Lockington, D. A., “Tidal Impacts on Riparian Salinities near Estuaries”, Journal of Hydrology, Vol 328, pp. 511-522, 2006.
[46] Robinson, C., Li, L., Barry, D. A., “Effect of Tidal Forcing on a Subterranean Estuary”, Advances in Water Resources, Vol 30, pp. 851-865, 2007.
[47] Vandenbohede, A., Lebbe, L., “Effects of Tides on a Sloping Shore: Groundwatr Dynamics and Propagation of The Tidal Wave”, Hydrogeology Journal, Vol 15, pp. 645- 658, 2007.
[48] Park, C. H., Aral, M. M., “Saltwater Intrusion Hydrodynamics in a Tidal Aquifer”, Journal of Hydrologic Engineering, Vol 9, pp. 863-872, 2008.
[49] Lenkopane, M., Werner, A. D., Lockington, D. A., Li, L., “Influence of Variable Salinity Conditions in a Tidal Creek on Riparian Groundwater Flow and Salinity Dynaics”, Journal of Hydrology, Vol 375, pp. 536-545, 2009.
[50] Robinson, C., Brovelli, A., Barry, D. A., Li, L., “Tidal Influence on BTEX Biodegradation in Sandy Coastal Aquifers”, Advances in Water Resources, Vol 32, pp. 16-28, 2009.
[51] Zhang, Q., Volker, R. E., Lockington, D. A., “Influence of seaward the boundary condition on contaminant transport in unconfined coastal aquifers”, Journal of Contaminant Hydrology, Vol 49, pp. 201-215, 2001.
[52] Deutsch, C.V., Journel A.G., GSLIB, Geostatistical software library and user’s guide, Oxford University Press, New York, 1998.
[53] Zhao, Y., Xu, X., Darilek, J. L., et l., “Spatial Variability Assessment of Soil Nutrients in an Intense Agricultural Area, a Case Study of Rugao Country in Yangtze River Delta Region, China.”, Environmental Geology, Vol 57, pp. 1089-1102, 2009.
[54] Yeh, G. T., 3DFEMWATER: A three-dimensional finite element model of water flow through saturated-unsaturated media, ORNL-6368, Oak Ridge National Laboratory, Oak Ridge, TN, 1987.
[55] Yeh, G. T., 3DLEWASTE: A hybrid Lagrangian-Eulerian finite element model of waste transport through saturated-unsaturated media, PSU Technical Report, Department of Civil Engineering, The Pennsylvania State University, University Park, PA, 1990.
[56] Lin, H. J., Rechards, D. R., Talbot, C. A., et al., A three-dimensional finite-element computer model for simulating density-dependent flow and transport in variable saturated media: Version 3.1, U.S. Army Engineering Research and Development Center, Vicksburg, Miss, 1997.
[57] 林淇平,「序率譜方法制定異質性含水層水井捕集區」,國立中央大學,碩士論文,2009年。
[58] Stauffer, F., Guadagnini A., bulter, A., et al., “Delineation of Source Protection Zones Using Statistical Methods”, Water Resources Management, Vol 19, pp. 163-185, 2005
[59] Segol, G., Classic Groundwater Simulations – Proving and Improving Numerical Models, Bechtel Group, Inc., San Francisco, 1993.
[60] Hardyanto, W., Merkel, B., “Introducing probability and uncertainty in groundwater modeling with FEMWATER-LHS”, Journal of Hydrology, Vol 332, pp. 206– 213, 2007.
[61] Environmental Protection Agency, 台灣環境敏感指標(ESI)海岸調查手冊, http://www.epa.gov.tw/FileDownload/FileHandler.ashx?FLID=8592
[62] Mahesha, A., Nagaraja, S. H., “Effect of natural recharge on sea water intrusion in coastal aquifers”, Journal of Hydrology, Vol 174, pp. 211– 220, 1996.
[63] van Genuchten, M. Th.,“A closed form equation for predicting the hydraulic conductivity of unsaturated soils”, Soil Science Society of America Journal, Vol. 44, pp. 892–898, 1980.
|