332                                                            References

             Shen, W., Cohen, D.R., 2005. Fractally invariant distributions and an application in geochemical
                exploration. Mathematical Geology 37(8): 895-913.
             Sibson, R.H., 1987. Earthquake rupturing as mineralizing agent in hydrothermal systems. Geology
                15(8): 701–704.
             Sibson, R.H., 1996. Structural  permeability of fluid-driven fault-fracture meshes. Journal of
                Structural Geology 18(8): 1031–1042.
             Sibson, R.H., 2000. Tectonic controls on maximum sustainable overpressure: fluid redistribution
                from stress transitions. Journal of Geochemical Exploration 69-70: 471-475.
             Sibson, R.H., 2001. Seismogenic framework for hydrothermal transport  and  ore deposition.
                Society of Economic Geologists Reviews 14, 25–50.
             Siegel, S., 1956. Non-Parametric Statistics for the Behavioral Sciences, McGraw-Hill, New York.
             Sillitoe, R.H., 1993. Epithermal models: genetic types, geometric controls and shallow features.
                Geological Association of Canada, Special Volume 40: 403-417.
             Sillitoe, R.H.,  Bonham, H.F., 1984. Volcanic  landforms and  ore deposits. Economic Geology
                79(6): 1286-1298
             Sim, B.L., Agterberg, F.P., Beaudry, C., 1999. Determining the cutoff between background and
                relative base metal smelter contamination  levels using  multifractal methods. Computers &
                Geosciences 25(9): 1023-1041.
             Simpson, C.J., Huntington, J.F., Leishman, J,  Green, A.A., 1980. A study of the Pine Creek
                Geosyncline using integrated Landsat  and aeromagnetic data.  In: J. Ferguson, A. Goleby
                (Eds.), Uranium in the Pine Creek Geosyncline, International Atomic Energy Agency, Vienna,
                pp. 141-155.
             Sinclair, A.J., 1974. Selection of threshold values in geochemical data using probability graphs.
                Journal of Geochemical Exploration 3(2): 129-149.
             Sinclair, A.J., 1983. Univariate analysis. In: R.J. Howarth (Ed.). Statistics and Data Analysis in
                Geochemical Prospecting, Handbook of Exploration Geochemistry, Vol. 2, Elsevier,
                Amsterdam, pp. 59-81.
             Singer, B., 2000. Temporal  evolution of  arc  magmatism and hydrothermal activity including
                epithermal gold veins, Borovitsa Caldera, southern Bulgaria. Economic Geology 95(5): 1155-
                1164.
             Singer, D.A., 1993. Basic concepts in three-part quantitative assessments of undiscovered mineral
                resources. Nonrenewable Resources 2(2): 69-81.
             Singer, D.A., Kouda, R., 1996. Application of a feedforward  neural network  in the search for
                Kuruko deposits in the Hokuroku district, Japan. Mathematical Geology 28(8): 1017-1023.
             Singer, D.A., Kouda, R., 1997. Use of neural network to integrate geoscience information in the
                classification of mineral deposits and occurrences. In: A.G. Gubins (Ed.), Proceedings of
                            th
                Exploration 97: 4  Decennial International Conference on Mineral Exploration, pp. 127-134.
             Singer, D.A., Kouda, R., 1999. A comparison of the weights-of-evidence method and probabilistic
                neural networks. Natural Resources Research 8(4): 287-298.
             Singer, D.A., Kouda, R., 2001. Some simple guides to finding useful information in exploration
                geochemical data. Natural Resources Research 10(2) 137-147.
             Skabar, A.A., 2005. Mapping mineralization probabilities using multilayer perceptrons. Natural
                Resources Research 14(2): 109-123.