Scientia Sinica

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SCIENTIA SINICA Vol, V

Gruner, J. W., 1939. Formation and Stability of Muscovite in Acid Solutions at Elevated Temperatures. dm. Mineralogist, 24, 624—628.

, 1942. Conditions for the Formation of Paragonite. Am. Mineralogist, 27, 131—134.

| 1944. The Hydrothermal Alteration of Feldspars in Acid Solutions between 300 and 400°C. Econ. Geol., 39, 578—589.

Gustavson, J. K., 1946. Two Occurrences of Chloritoid as a Hydrethermal Mineral in Igneous Rocks. Am. Mineralogist, 31, 313316.

Harker, A., 1950. Metamorphism, 3rd ed., 148—151.

Laren, E. S., 1941. Geochemistry. Geol. Soc. Am., 50th Anniversary Vol., Geol. 1888-1938, 391—413.

Lemberg, J., 1887. Zur Kenntnis der Bildung und Umbildung von Silicaten. Zeits. Deut, Geol. Ges., 39, 559—600.

Morey, G. W., and Ingerson, E., 1937. A Bomb for Use in Hydrothermal Experimentation. Am. Mineralogist, 22, 1121—1122.

Noll, W., 1932. Hydrothermale Synthese des Muscovits. Nach. Gesell. Wiss. Gottingen, Math.-Physik. K1., 122—134.

Norton, F. H., 1939. Hydrothermal Formation of Clay Minerals in the Laboratory. Am. Mineralogist, 24, 1—17. :

O'Neill, J. F., 1948. The Hydrothermal Alteration of Feldspars at 250-400°C. Econ. Geol., 43, 167—180. :

Phillips, F. C., 1931. Ephesite (soda-margarite) from the Postmasburg District, S. Africa. Mineral. Mag., 22, 482—485.

Read, H. H., 1948. A Commentary on Place in Plutonism. OQuar. Jour. Geol. Soc. London, 54, 155—205.

Roedder, E. W., 1948. System K,O-MgO-SiOz. Geol. Soc. Am. Bull., 59, 1347. (in abstract form).

Roy, R., 1949. Decomposition and Re-synthesis of the Micas. four. Am. Ceramic Soc., 32, 202—209.

Tu, K. C., 1951. The Hydrothermal Synthesis of the Mg-clorite, Science Record, 4 (2), 157—162.