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The AAPG/Datapages Combined Publications Database
Houston Geological Society Bulletin
Abstract
Abstract: Apatite Fission Track Analysis
Applied To The Margins Of The Gulf Coast Basin
By
Trace quantities of radioactive uranium
occur in apatite grains. When one of
these uranium nuclei decays by nuclear
fission, the tm, resultant
nuclear
fragments
repel each other and tear a damage
trail through their host apatite crystal
lattice. Damage trails of this type are
called fission tracks, and they can be
made visible using conventional light
microscopes by immersion in acid solution.
The measurable characteristics of
the fission tracks in apatite (i.e., their
number, length, width) contain a wealth
of information regarding the thermal
history that the host rock has experienced
during its geological evolution.
Apatite fission track ages from 12 Precambrian granitic samples from the Llano Uplift vary from 182+50 Ma to 425+72 Ma (95% confidence intervals) , with mean track lengths varying from 11.2+0.1 µm for the same samples. While not systematic, ages generally increase from cart to west Zircons from these samples are metamict, indicating that rocks presently exposed in the Llano Uplift did not experience temperatures greater than ~225+25°C since Precambrian time. A single sample from a Pennsylvanian sandstone (Smithwick Formation), located just east of the Llano Uplift, gives an apatite fission track age of 241+18 Ma, and a mean length of 11.9+0.2 µm. Using available stratigraphic constraints, it is inferred that the Llano basement samples were at temperatures of <70°C prior to initiation of the Ouachita orogeny during Pennsylvanian time. Subsequent heating of the Llano basement samples associated with the Ouachita orogeny is evident in the apatite fission track data. The ages and track length distributions are all consistent with the Llano basement samples having been heated to temperatures of ~90-120°C due to burial of the Llano by a 1-2 km thick Pennsylvanian to Permian molasse sequence (Strawn to Cisco Groups) derived from the Ouachita orogeny. Based on numerical modeling of the apatite fission track data, we interpret the variability in ages and mean track lengths to reflect small magnitude (<1 km) differential loading of the Llano Uplift due to westward thinning of this molasse sequence. From late Permian (?) through Julassic time, samples cooled from ~90-120°C, based on model results, to <40°C, based on stratigraphic constraints. This early Mesozoic stage of cooling is attributed to erosional unroofing associated with extensional collapse of the Ouachita orogen during initial opening of the Gulf of Mexico. Mild reheating of these samples to >60°C due to deposition of -1 km of Cretaceous to Early Tertiary (?) strata across the Llano region is needed to explain the low percentage of tracks in the 14-16 µm range. Final cooling of these samples below ~60°C did not occur until post- Paleogene (?) time. This late stage cooling is interpreted in terms of regional Tertiary erosion along the outer rim of the Gulf of Mexico basin due to flexural upwarping associated with basinward loading of the crust.
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