1. BROOKINS, D.G., REGISTER, J.K., REGISTER, M.E., and LAMBERT, S.J., 1980, Long-term stability of evaporite minerals: Geochronological evidence,in Northrup, C.J.M., (ed.) Scientific Basis for Nuclear Waste Management: Volume 2. Plenum Press, New York City, New York, p. 453–464.
2. CASAS, E. and LOWENSTEIN, T.K., 1989, Diagenesis of saline pan halite: Comparison of petrographic features of Modern, Quaternary, and Permian halites:Journal of Sedimentary Petrology, v. 59, p. 724–739.
3. CASAS, E., LOWENSTEIN, T.K., SPENCER, R.J., and PENGXI, Z., 1992, Carnallite mineralization in the nonmarine, Quidam Basin, China: Evidence for the early diagenetic origin of potash evaporites:Journal of Sedimentary Petrology, v. 62, p. 881–898.
4. EUGSTER, H.P., 1970, Chemistry and origin of the brines of Lake Magadi, Kenya: Mineralogical Society of America Special Paper 3, p. 213–235.
5. FABRICIUS, J., 1985, Studies of fluid inclusions in halite and euhedral quartz crystals from salt domes in the Norwegian-Danish Basin,in Schreiber, C.B. and Harner, H.L., (eds.), Sixth International Symposium on Salt: Volume 1. The Salt Institute, Alexandria, Virginia, p. 247–253.