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AAPG Bulletin

Abstract

AAPG Bulletin, V. 95, No. 11 (November 2011), P. 18511882.

Copyright copy2011. The American Association of Petroleum Geologists. All rights reserved.

Previous HitStableNext Hit-Previous HitisotopeNext Hit geochemistry of syntectonic veins in Paleozoic carbonate rocks in the Livingstone Range anticlinorium and their significance to the thermal and fluid evolution of the southern Canadian foreland thrust and fold belt

Michael A. Cooley,1 Raymond A. Price,2 T. Kurtis Kyser,3 John M. Dixon4

1Queen's University, Kingston, Ontario, Canada; [email protected]
2Queen's University, Kingston, Ontario, Canada; [email protected]
3Queen's University, Kingston, Ontario, Canada; [email protected]
4Queen's University, Kingston, Ontario, Canada; [email protected]

ABSTRACT

The Livingstone Range anticlinorium (LRA) marks a major hanging-wall ramp where the Livingstone thrust cuts approximately 1000 m (sim3281 ft) between regional decollement in the upper part of the Devonian Palliser Formation and the Jurassic Fernie Formation.

Prethrusting and folding jasper plusmn fluorite plusmn sphalerite veins with halos of altered dolomitic host rock with high 87Sr/86Sr ratios (0.7094–0.7101) relative to most Paleozoic carbonate rocks (0.7081–0.7091) record percolation of fluids along basement faults that may also have contributed anomalously radiogenic strontium to diagenetically altered Paleozoic carbonate rocks throughout the Western Canada sedimentary basin.

Fluid flow that occurred during thrust-propagation folding is recorded by dolomite plusmn calcite veins, with delta18O values that are similar to those of host rocks (–7.92 to –1.08permil Peedee belemnite). Anomalously high equilibrium temperatures (250 plusmn 50degC) as determined by oxygen-Previous HitisotopeTop thermometry and slightly higher 87Sr/86Sr ratios relative to adjacent host rocks indicate that they formed from formation fluids and hot basement fluids in a rock-dominated system.

Calcite veins with very low delta18O values (–18 to –9permil) precipitated along faults that were active while the LRA was transported eastward by underlying thrust faults, uplifted, and rapidly cooled by infiltrating meteoric water.

Thrusting created heating in the foreland basin ahead of the deformation because of the influx of thick insulating foreland basin sediments, causing thermal maturation of hydrocarbons. As thrusting deformation advanced through the rocks, infiltrating meteoric waters cooled the rocks and hydrocarbon maturation stopped. Structural traps accumulated hydrocarbons only if they were juxtaposed over both thermally favorable and hydrocarbon-favorable source rocks.

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