Dicarboxylic acids generated by thermal alteration of kerogen and humic acids.

[1]  R. Ishiwatari,et al.  Possible carotenoid-derived structures in fossil kerogens , 1987 .

[2]  K. Kawamura,et al.  Motor exhaust emissions as a primary source for dicarboxylic acids in Los Angeles ambient air , 1987 .

[3]  I. Kaplan,et al.  The role of minerals in the thermal alteration of organic matter--III. Generation of bitumen in laboratory experiments. , 1987, Organic geochemistry.

[4]  S. E. Drummond,et al.  Thermal decarboxylation of acetate. Part II. Boundary conditions for the role of acetate in the primary migration of natural gas and the transportation of metals in hydrothermal systems , 1986 .

[5]  S. E. Drummond,et al.  Thermal decarboxylation of acetate. Part I. The kinetics and mechanism of reaction in aqueous solution , 1986 .

[6]  K. Kawamura,et al.  Long-chain carboxylic acids in pyrolysates of Green River kerogen. , 1986, Organic geochemistry.

[7]  K. Kawamura,et al.  Volatile organic acids generated from kerogen during laboratory heating. , 1986, Geochemical journal.

[8]  I. Kaplan,et al.  Role of minerals in the thermal alteration of organic matter--I: generation of gases and condensates under dry condition. , 1985, Geochimica et cosmochimica acta.

[9]  L. Crossey,et al.  Organic-inorganic reactions during progressive burial: key to porosity and permeability enhancement and preservation , 1985, Philosophical Transactions of the Royal Society of London. Series A, Mathematical and Physical Sciences.

[10]  T. H. Giordano A preliminary evaluation of organic ligands and metal-organic complexing in mississippi valley-type ore solutions , 1985 .

[11]  K. Kawamura,et al.  Capillary GC determination of short-chain dicarboxylic acids in rain, fog, and mist , 1985 .

[12]  K. Peters,et al.  Geochemistry of Artificially Heated Humic and Sapropelic Sediments--II: Oil and Gas Generation , 1984 .

[13]  M. Minagawa,et al.  Comparison of Kjeldahl and combustion methods for measurement of nitrogen isotope ratios in organic matter , 1984 .

[14]  S. Franks,et al.  Relationships Among Secondary Porosity, Pore-Fluid Chemistry and Carbon Dioxide, Texas Gulf Coast: Part 1. Concepts and Principles , 1984 .

[15]  Y. Kharaka,et al.  Thermal decarboxylation of acetic acid: Implications for origin of natural gas , 1983 .

[16]  R. Ishiwatari,et al.  Evaluation of alkaline permanganate oxidation method for the characterization of young kerogen , 1983 .

[17]  J. W. Shelton,et al.  Migration of Hydrocarbons and Secondary Porosity in Sandstones , 1981 .

[18]  E. Peltzer,et al.  Low molecular weight α-hydroxy carboxylic and dicarboxylic acids in reducing marine sediments , 1981 .

[19]  K. Peters,et al.  Geochemistry of artificially heated humic and sapropelic sediments. I. Protokerogen , 1981 .

[20]  R. Mantoura Chapter 7 Organo-Metallic Interactions in Natural Waters , 1981 .

[21]  C. M. Brown,et al.  Some biologically important low molecular weight organic acids in the sediments of Loch Eil , 1979 .

[22]  V. Schmidt,et al.  The Role of Secondary Porosity in the Course of Sandstone Diagenesis , 1979 .

[23]  Y. Kharaka,et al.  Aliphatic Acid Anions in Oil-Field Waters--Implications for Origin of Natural Gas , 1978 .

[24]  I. Jonasson,et al.  The nature of metals—sediment—water interactions in freshwater bodies, with emphasis on the role of organic matter , 1978 .

[25]  W. C. Graustein,et al.  Calcium oxalate: occurrence in soils and effect on nutrient and geochemical cycles. , 1977, Science.

[26]  E. Sholkovitz,et al.  Flocculation of dissolved organic and inorganic matter during the mixing of river water and seawater , 1976 .

[27]  A. T. Myers,et al.  Association of Uranium and Other Metals with Crude Oil, Asphalt, and Petroliferous Rock , 1954 .