BIBLIOGRAPHY 



Bailly, F. H., 1952, Differential thermal analysis compared to micropaleontology for 



stratigraphic correlation: Paper presented at Mtg. of Am. Assoc. Petroleum Geologists, 



Pasadena. 

 Berg, L. G., 1943, Influence of salt admixtures upon dissociation of dolomite: Acad. Sci. 



U. R. S. S. (Doklady) Comptes Rendus, no. 1, p. 24-27. (In English.) 

 Bergstrom, R. E., 1956, Surface correlation of some Pennsylvanian limestones in mid- 

 continent by thermoluminescence : Am. Assoc. Petroleum Geologists Bull., v. 40, no. 5, 



p. 918-942. 

 Berkelhamer, L. H., 1944, Differential thermal analysis of quartz: U. S. Bur. Mines Rept. 



Inv. 3763. 

 Chilingar, G. V., 1956a, Relationship between Ca/Mg ratio and geologic age: Am. Assoc. 



Petroleum Geologists Bull., v. 40, no. 9, p. 2256-2266. 

 , 1956b, Use of Ca/Mg ratio in porosity studies: Am. Assoc. Petroleum 



Geologists Bull., v. 40, no. 10, p. 2489-2493. 

 Faust, G. T., 1949, Dedolomitization, and its relation to a possible derivation of a magnesium- 

 rich hydrothermal solution: Am. Mineralogist, v. 34, p. 789-823. 

 Ginsburg, R. N., 1956, Environmental relationships of grain and constituent particles in 



some south Florida carbonate sediments: Am. Assoc. Petroleum Geologists Bull., v. 40, 



no. 10, p. 2384-2427. 

 Graf, D. L., 1952, Preliminary report on the variations in differential thermal curves of 



low-iron dolomites: Illinois Geol. Survey Rept. Inv. 161. (Repr. from Am. Mineralogist, 



1952, v. 37, p. 1-27.) 

 Grim, R. E., 1944, Differential thermal analysis of clays and shales, control and prospecting 



method: Illinois Geol. Survey Rept. Inv. 96. 

 , and Rowland, R. A., 1943, Differential thermal analysis of clay minerals and 



other hydrous materials: Am. Mineralogist, v. 27, no. 11, p. 746-761. 

 Hunt, J. M., and Jamieson, G. W., 1956, Oil and organic matter in source rocks of petroleum: 



Am. Assoc. Petroleum Geologists Bull., v. 40, no. 3, p. 477-488. 

 Keller, W. D., 1956, Clay minerals as influenced by environments of their formation: Am. 



Assoc. Petroleum Geologists Bull., v. 40, no. 11, p. 2689-2710. 

 Kerr, P. F., and Kulp, J. L., 1950, Multiple-differential thermal analysis: in Subsurface 



Geologic Methods, Golden, Colorado School of Mines, p. 240-271. 

 , and Hamilton, P. K., 1949, Differential thermal analysis of 



reference clay mineral specimens: Am. Petroleum Inst. Proj. 49 on Clay Mineral Stand- 

 ards, Columbia Univ., Rept. 3. (May) 

 Mangold, G. B., 1955, Differential thermal analysis, a new type of formation correlation: 



World Oil, v. 140, nos. 2, 4. 

 Norton, F. H., 1939, Critical study of the differential thermal method for the identification 



of the clay minerals: Jour. Am. Ceramic Soc, v. 22, p. 54-63. 

 Pask, J. A., and Turner, M. D., 1952, Geology and ceramic properties of the lone formation, 



Buena Vista area, Amador County, California: California Dept. Nat. Res., Div. of Mines, 



Spec. Rept. 19, San Francisco. 

 Pitrat, C. W., 1956, Thermoluminescence of limestones of Mississippian Madison group in 



Montana and Utah: Am. Assoc. Petroleum Geologists Bull., v. 40, no. 5, p. 943-952. 

 Rowland, R. A., and Lewis, D. R., 1951, Furnace atmosphere control in differential thermal 



analysis: Am. Mineralogist, v. 36, nos. 1-2, p. 80-91. 

 Speil, Sidney, Berkelhamer, L. H., Pask, J. A., and Davies, Ben, 1945, Differential thermal 



analysis, its application to clays and other aluminous minerals: U. S. Bur. Mines Tech. 



Paper 664. 

 Stone, R. L., 1954, Thermal analysis of magnesite at C0 2 pressures up to six atmospheres: 



Jour. Am. Ceramic Soc, v. 37, no. 2, p. 46-47. 



, and Rowland, R. A., 1955, DTA of kaolinite and montmorillonite and water 



vapor pressures up to six atmospheres: Nat. Acad. Sci. Pub. 395, Nat. Research Council. 



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