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Appelo, C.A.J. and Postma, D., 2005. 2nd ed: Geochemistry Groundwater and Pollution. A.A. Balkeema. Rotterdam, 634 p.


American Society for Testing and Materials (ASTM), 2017. D2487-17e1, Standard Practice for Classification of Soils for Engineering Purposes (Unified Soil Classification System), ASTM International, West Conshohocken, PA, 2017,


Balderer, W., Pearson , F. J. jr., and Soreau, S., 1991. Sulphur and Oxygen Isotopes in Sulfate and Sulfide. In F. J. J. Pearson, W. Balderer, H. H. Loosli, B. E. Lehmann, A. Matter, T. Peters, H. Schmassmann, & A. Gautschi (Eds.), Applied Isotope Hydrogeology - A Case Study in Northern Switzerland - NTB 88-01 Amsterdam - Oxford - New York - Tokyo: Elsevier.


Balderer, W., Pearson, F. J. jr., Rauert, W., and Stichler, W., 1991. Isotopic Composition of Groundwater. In: F. J. Pearson, W. Balderer, H. H. Loosli, B. E. Lehmann, A. Matter, T. Peters, H. Schmassmann, & A. Gautschi (Eds.), Applied Isotope Hydrogeology - A Case Study In Northern Switzerland. - Studies in Environmental Science (pp. 98-115).


Belitz, K., Jurgens, B.C., and Johnson, T.D., 2016. Potential Corrosivity of Untreated Groundwater in the United States. United States Geological Survey, Scientific Investigations Report 2016–5092.


Craig, H., 1961. Isotopic Variations in Meteoric Waters. Science, vol 133, Issue 3466, pp. 1702-1703


Deutsch, C.V. and Journel, A.G., 1997. GSLIB Geostatistical Software Library and User’s Guide, Oxford University Press, New York, NY. Second Edition. 369 pages.


Deutsches Institut für Normung (DIN), 2006. Geotechnical investigation and testing - graphical presentation of logs of boreholes, trial pits, shafts and adits (DIN-4023:2006).


Drever, J. I., 1982: The Geochemistry of Natural Waters. Prentice Hall, New Jersey, Amsterdam: Elsevier, 437 p.


Durov, S. A., 1948. Classification of natural waters and graphical representation of their composition. Dokl. Akad. Nauk. USSR. 59(1):87-90.


Environmental Systems Research Institute (ESRI), 1998. ESRI Shapefile Technical Desciption. An ESRI White Paper - July 1998.


Fournier, R. O., 1981. Application of Water Chemistry to Geothermal Exploration and Reservoir Engineering. In: L. Rybach & L. J. P. Muffler (Eds.), Geothermal Systems: Principles and Case Histories, New York: Wiley, pp. 109-143.


Fournier, R.O. and Potter, R.W., 1982. An equation correlating the solubility of quartz in water from 25° to 900°C at pressures up to 10,000 bars. Geochimica et Cosmochimica Acta: v.46, no. 10, :pp.1969-1973. DOI: 10.1016/0016-7037(82)90135-1


Giggenbach, W.F., 1988. Geothermal solute equilibria. Derivation of Na-K-Mg-Ca geoindicators. Geochim Cosmochim. Acta, 52: pp. 2749-2765.


Giggenbach, W.F., 1989: The chemical and isotopic position of Ohaaki field within the Taupo Volcanic Zone. Proc. Eleventh N.Z. Geothermal Workshop, Aukland, NZ: pp. 81-88.


Hem, J.D., 1985. Study and interpretation of the chemical characteristics of natural water (3rd ed.): U.S. Geological Survey Water-Supply Paper 2254, 263 p.


Hounslow, A.W. 1995. Water Quality Data - Analysis and Interpretation. CRC Press LLC. pp. 75-85.


Howard, P.H. et al. 1991: Handbook of Environmental Degradation Rates, Lewis Publishers, 775 p.


Kharaka, Y. K., Gunter, W. D., Affarwall, P. K., Perkins, E. H., and De Braal, J. D., 1988: Solmineq.88: A computer Program Code for Geochemical Modelling of Water-Rock Interactions. In U.S.Geological Survey Water Investigations Report 88-05.


Kharaka, Y. K., and Mariner, R. H., 1989: Chemical Geothermometers and their Application to formation waters from sedimentary basins. In: N. D. Näser & T. H.


Langelier, W.F., 1936. The analytical control of anti-corrosion water treatment: Journal of the American Water Works Association, v. 28, no. 10, p. 1500–1521.


Larson, T.E. and Skold, R.V., 1958. Laboratory Studies Relating Mineral Quality of Water to Corrosion of Steel and Cast Iron, 1958 Illinois State Water Survey, Champaign, IL pp. [43] - 46: ill. ISWS C-71


Lin, S., 2001: Water and wastewater calculations manual. McGraw-Hill, New York. pp. 6-8.


Lloyd, J. W., and Heathcote, J. A., 1985. Natural inorganic hydrochemistry in relation to groundwater - An Introduction. Oxford: Clarendon Press.


Langelier, W.F. and Ludwig, H.F., 1942. Graphical methods for indicating the mineral character of natural waters. J Am Water Works Assoc; vol 34: p. 335-352.


McCulloh (Eds.), Thermal History of Sedimentary Basins; Methods and Case Histories, Springer Verlag, pp. 99-117.


Nordstrom, D. K., Plummer, L. N., Langmuir, D., Busenberg, E., Man, H. M., Jones, B. F., and Parkhurst, D. L., 1990: Revised Chemical Equilibrium Data for Major Water-Mineral Reactions and their Limitations. In: D. C. Melchior & R. L. Bassett (Eds.), Chemical Modelling of Aqueous Systems Washington: American Chemical Society.


Parkhurst D.K., Thorenston D.C. and Plummer N.L., 1980: PHREEQE - A computer program for geochemical calculations. U.S. Geological Survey Water Resource Investigations 80-96, 210 p.


Pearson, F. J. J., Lolcama, J. L., and Scholtis, A., 1989: Chemistry of Waters in the Böttstein, Weiach, Riniken, Schafisheim, Kaisten and Leuggern Boreholes: A Hydrochemically consistent Data Set. No. NTB 86-19, Nagra.


Piper, A. M., 1944. A graphic procedure in the geochemical interpretation of water analyses. American Geophysical Union Transactions, 25: 914-928.


Puckorius, P., and Strauss, S.D., 1982. Get a better reading on scaling tendency of cooling water. Power: v.129, no. 9., December 1982.


Reed, M.and Spycher N., 1984: Calculations of pH and mineral equilibria in hydrothermal waters with application to geothermy and studies of boiling and dilution. Geochimica and Cosmochimica Acta, 48, pp. 1479-1492.


Richards, L.A., 1954. Diagnosis and Improvement of Saline and Alkali Soils. Agricultural Handbook No. 60. United States Salinity Laboratory Staff, Soil  and  Water  Conservation  Research  Branch, Agricultural  Research  Service, United States Department of Agriculture.


Ryznar, J.W., 1944. A New Index for Determining the Amount of Calcium Carbonate Scale Formed By Water. Journal of the American Water Works Association. 36: 472-484.


Schoeller, H., 1962. Les Eaux Souterraines, Hydrogéologie Dynamique Et Chimique. Masson & Cie, Paris.


Sibson, R., 1981. "A Brief Description of Natural Neighbor Interpolation," Chapter 2 in Interpolating Multivariate Data. John Wiley & Sons, New York, NY. p 21–36.


Stiff, H. A., Jr., 1951. The interpretation of chemical water analysis by means of patterns: Journal of Petroleum Technology, v. 3, no. 10, p. 15-17.


Stumm, W., and Morgan, J. J., 1981. Aquatic chemistry (2nd ed.). New York: John Wiley & Sons.


Szabolcs, I and Darab, C., 1964. The influence of irrigation water of high sodium carbonate content of soils. Proceedings of 8th international congress of ISSS, Trans, II.


Tukey J.W., 1977. Exploratory Data Analysis, Addison-Wesley. Reading, Massachusetts, USA. pp. 39-43.


United States Department of Agriculture (USDA), Soil Science Division Staff, 2017. Soil survey manual. C. Ditzler, K. Scheffe, and H.C. Monger (eds.). USDA Handbook 18. Government Printing Office, Washington, D.C.


United States Environmental Protection Agency (USEPA), 2002. Guidance on Environmental Data Verification and Data Validation, 96p.  EPA/QA/G-8.


Watson, D.F., 1994. Nngridr: an implementation of natural neighbor interpolation. Claremont, Australia. 170 pp.


Wilcox, L.V., 1955. Classification and use of irrigation waters, US Department of Agriculture. Circ. 969. Washington, DC




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