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Kinetics of the smectite to illite transformation in the Denver Basin: Clay mineral, K-Ar data, and mathematical model results

Journal Article · · AAPG Bulletin (American Association of Petroleum Geologists); (United States)
OSTI ID:5750242
; ;  [1];  [2]
  1. Case Western Reserve Univ., Cleveland, OH (United States)
  2. Geological Survey, Denver, CO (United States)
+ Show Author Affiliations
Clay mineral data, potassium-argon (K-Ar) ages, and mathematical model simulations indicate the important kinetic factors controlling the smectite to illite transformation (illitization) in Upper Cretaceous Mowry and Niobrara core and outcrop bentonites from the Denver basin. The data also provide additional information on the thermal history of the basin. Data show that both the percentages of illite layers and the K-Ar ages of mixed layer illite-smectite (I/S) increase with increasing depths of burial, and this trend was simulated mathematically employing a very simplified burial model with a fifth-order overall kinetic expression for the information of illite. For most of the basin, the data is compatible with I/S having been formed in response to increased temperature from progressive burial, because the oldest K-Ar ages of I/S are from the deepest buried I/S along the basin axis. In addition, these data qualitatively suggest that I/S even as small as <0.1 {mu}m retains radiogenic argon under Denver basin burial temperatures. I/S separated from drill core bentonites from the Watenberg gas field, astride the basin axis and known to have been subjected to an anomalously high temperature history, are the most illitic and among the oldest measured from core in this study. The ages of illitization (about 60 Ma) are coincident with the Laramide time of structural development of the basin and uplift of the Front Range. The reconstructions of the burial history, and the modeling of the timing and extent of illitization, suggest that the area of the Wattenberg as field was an upper Cretaceous depocenter, an area of relatively deeper burial along the basin axis.
OSTI ID:
5750242
Journal Information:
AAPG Bulletin (American Association of Petroleum Geologists); (United States), Journal Name: AAPG Bulletin (American Association of Petroleum Geologists); (United States) Vol. 75:3; ISSN 0149-1423; ISSN AABUD
Country of Publication:
United States
Language:
English

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Related Subjects

03 NATURAL GAS
030200 -- Natural Gas-- Reserves
Geology
&amp; Exploration
58 GEOSCIENCES
580000* -- Geosciences
AGE ESTIMATION
ALKALI METAL ISOTOPES
ARGON ISOTOPES
BENTONITE
CHEMISTRY
CLAYS
COLORADO
CRETACEOUS PERIOD
DEVELOPED COUNTRIES
FEDERAL REGION VIII
GEOCHEMISTRY
GEOLOGIC AGES
GEOLOGIC DEPOSITS
GEOLOGIC HISTORY
GEOLOGIC STRUCTURES
HYDROTHERMAL ALTERATION
ILLITE
INORGANIC ION EXCHANGERS
ION EXCHANGE MATERIALS
ISOTOPE DATING
ISOTOPES
KINETICS
MATERIALS
MATHEMATICAL MODELS
MATURATION
MESOZOIC ERA
MINERAL RESOURCES
MINERALS
NATURAL GAS DEPOSITS
NORTH AMERICA
POTASSIUM ISOTOPES
REACTION KINETICS
RESOURCES
SEDIMENTARY BASINS
SILICATE MINERALS
SMECTITE
USA