Selected Publications
David I. Norman, Professor of Geochemistry

Albinson, Tawn, David I. Norman, David Cole, and Beverly Chomiak, 2001, Controls on Formation of Low-Sulfidation Epithermal Deposits in Mexico: Constraints from Fluid Inclusion and Stable Isotope Data: Special Publication 8: New Mines and Discoveries in Mexico and Central America, Society of Economic Geology, pp. 1-38.

Blamey, N., David Norman (2002). New Interpretations of Geothermal Fluid Inclusion Volatiles: Ar/He and N2/Ar ratios - A Better Indicator of Magmatic Volatiles, and Equilibrium Gas Geothermometry , PROCEEDINGS, Twenty-Seventh Workshop on Geothermal Reservoir Engineering Stanford University, Stanford, California.

Norman, David I, Nigel J.F.Blamey and  Joseph N. Moore, (2001), Overabundance of Gaseous Species and the Source of Organic Compounds in Geothermal Fluids, PROCEEDINGS, Twenty-Sixth Workshop on Geothermal Reservoir Engineering Stanford University, Stanford, California, January 29-31, 2001, pp. 234-242.

Moore, J.,Thomas S. Powell, Matthew T. Heizler and David I. Norman, (2000) Mineralization and Hydrothermal History of the  Tiwi, Philippines Geothermal System: Economic Geology, v. 95, pp.1001-1023.

Moore, J.N., David I. Norman, and B. Mack Kennedy, (2001),  Fluid inclusion gas compositions from an active magmatic hydrothermal system: A case study of The Geysers geothermal field, USA, Chemical Geology, v.173: 3-30

Newman, B.D., Campbell, A.,  and Norman, D.I., (1997). Model for microbially induced precipitation of vadose zone calcite in fractures at Los Alamos National Laboratory, Geochim. Cosmo. Acta; v.132, pp 205-213.

Norman, D.I., and Moore, J.N, (1999). Methane and  Excess N2 and Ar in geothermal fluid inclusions. Proceedings: Twenty-fourth Workshop of Geothermal Reservoir Engineering, Stanford University, Stanford, California, January 22-24, p. 233-240.

Norman, D.I. and Musgrave, J.A. (1994). N2-Ar-He compositions in fluid inclusions: Indicators of fluid source. Geochimica et Cosmochimica Acta 58: 1119-1131.

Norman, D.I., (1998), Approaching equilibrium from the hot and cold sides in the pyrite-pyrrhotite-magnetite-H2S-CO2-CH4 system in light of fluid inclusion gas analysis. Proceedings of the Water-Rock  Conference, Taupo, New Zealand, pp.

Norman, D.I., Moore, J.N, Musgrave, J. (1997). Gaseous species as tracers in geothermal systems, Proc. 22th Wkshp. on Geotherm. Reservoir Eng., Stanford Univ., pp. 419-426.

Norman, D.I., Moore, J.N., Yonaka, B. and Musgrave J.A. (1996). Gaseous species in fluid inclusions: A tracer of fluids and an indicator of fluid processes. Proceedings of the 21st Workshop of Geothermal Reservoir Engineering: 233-240.

Norman, D.I., and Sawkins, F.J., (1987).  Analysis of fluid inclusions by mass spectrometer: J. Chem. Geol. v.61, p1-10. Norman, D. I., and Bernhart, C., (1982).  Assessment of geothermal reservoirs by analysis of gases  in thermal waters: New Mexico Energy Institute, EMI-2-68-2305, 129p.

Norman, David I., Nigel Blamey, and Joseph N. Moore, 2002, Interpreting Geothermal Processes and Fluid Sources from Fluid Inclusion Organic Compounds and CO2/N2 Ratios: PROCEEDINGS, Twenty-Seventh Workshop on Geothermal Reservoir Engineering Stanford University, Stanford, California, January 28-30, 2002

Norman, D. I., Nigel Blamey, Joseph N. Moore (2002). Interpreting Geothermal Processes and Fluid Sources from Fluid Inclusion Organic Compounds and CO2/N2 Ratios. PROCEEDINGS, Twenty-Seventh Workshop on Geothermal Reservoir Engineering Stanford University, Stanford, California.

Norman, David I, Nigel Blamey, & Lynne Kurilovitch, (2002) New Applications of Geothermal Gas Analysis to Exploration: Proceedings 2002 GRC Meeting (in press)

Norman, David I., Nigel J.F.Blamey and Joseph N. Moore, (2001) Overabundance of Gaseous Species and the Source of Organic Compounds in Geothermal Fluids, PROCEEDINGS, Twenty-Sixth Workshop on Geothermal Reservoir Engineering Stanford University,Stanford, California, January 29-31, 2001. pp. 390-397.

Norman, D.I., Moore, Joseph N., 1998, Approaching equilibrium from the hot and cold sides in the pyrite-pyrrhotite-magnetite -H2S-CO2-CH4- system in light of fluid inclusion gas analysis. Proceedings of the Water-Rock Interaction WRI-9, Taupo, New Zealand, p.565-568.