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Abstract

R. Swennen, F. Roure, and J. W. Granath, eds., Deformation, fluid flow, and reservoir appraisal in foreland fold and thrust belts: AAPG Hedberg Series, no. 1, p. 297-316.

Copyright © 2004 by The American Association of Petroleum Geologists.

DOI:10.1306/1025696H13122

The Effect of Hydrothermal Fluid Flow on Early Diagenetic Dolomitization: An Example from the Devonian Slave Point Formation, Northwest Alberta, Canada

Ihsan S. Al-Aasm,1 Julie D. Clarke2

1Department of Earth Sciences, University of Windsor, Windsor, Ontario, Canada
2Department of Earth Sciences, University of Windsor, Windsor, Ontario, Canada; Present address: Duke Energy, Chatham, Ontario, Canada.

ACKNOWLEDGMENTS

This research was supported by a Natural Sciences and Engineering Research Council (NSERC) of Canada grant and additional grants from EnCana awarded to I. S. Al-Aasm. The authors thank I. M. Samson for assistance with fluid-inclusion measurements. Earlier versions of this chapter benefited from constructive reviews by J. Lonnee, S. Mazzullo, and J. Gregg. Reviews by R. Swennen and an anonymous reviewer of a later version of this chapter were greatly appreciated.

ABSTRACT

The Middle Devonian carbonates of the Slave Point Formation, Hamburg field, northwestern Alberta, are composed mainly of stromatoporoid and Amphipora floatstones and rudstones, with interbedded mudstone and grainstone facies characteristic of deposition in open to slightly restricted marine platform environments. These carbonates have undergone a complex diagenetic history, from shallow to deep burial, as represented by fracturing, calcite cementation, silicification, and dolomitization.

Petrographically, four different types of dolomite have been identified (from early to late): (1) fine-crystalline matrix dolomite; (2) pseudomorphic dolomite; (3) medium-crystalline pervasive dolomite; and (4) saddle dolomite. Fine-crystalline dolomite (5– 50 mum) replaces the mud matrix and slightly penetrates the edges of allochems. It occurred in mud-supported facies and was precipitated by marine fluids. Oxygen Previous HitisotopeNext Hit values range from minus11.62 to minus9.34permil (Peedee belemnite), lower than postulated values for Devonian carbonates. The enriched 87Sr/86Sr Previous HitisotopeNext Hit value from this phase (0.71002) suggests that later diagenetic fluids may have recrystallized this dolomite. Pseudomorphic dolomite (50–100 mum) replaces crinoids and occurs as single, large dolomite crystals. Its oxygen and carbon isotopic values range from minus10.58 to minus9.65 and +4.24 to +4.49permil, respectively. Medium-crystalline pervasive dolomite (10–100 mum) occurs along dissolution seams and obliterates all previous fabrics. It is proposed that this medium-crystalline dolomite formed during shallow to intermediate burial because of its association with dissolution seams and high iron content. The range of oxygen Previous HitisotopeNext Hit values for this dolomite (minus11.74 to minus9.5permil) suggests precipitation from a warm fluid, possibly in a burial environment, and/or later recrystallization by hydrothermal fluids. The relatively wide range of carbon Previous HitisotopeNext Hit values (+1.19 to +4.49permil) and enriched strontium Previous HitisotopeNext Hit ratio (0.710020) suggests recrystallization. Saddle dolomite (250–2000 mum) partially to completely occludes void spaces (both fractures and vugs) and also occurs as a minor replacement mineral. The oxygen Previous HitisotopeNext Hit values for saddle dolomite (minus13.95 to minus11.97permil), as well as the nonradiogenic to enriched strontium Previous HitisotopeTop ratios for saddle dolomite (0.70494 to 0.710351), and the fluid-inclusion data (homogenization temperature, Th, range between 125 and 161degC and estimated salinity, between 22.2 and 24.7 wt.% NaCl equivalent) indicate precipitation from hot, highly saline, hydrothermal fluids, which were probably expelled tectonically during the Late Devonian–Mississippian Antler thrust belt development.

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