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Geologic Overview of the Talladega Belt. Presented By: Alex Owen Rachael Hudson Matt McDonald Kyle Williams. Location. Ashland Supergroup. Precambrian in age High grade belt composed of amphibolite facies metamorphic rock. Kahatchee Mountain Group. Pre-Cambrian to Cambrian in age
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Geologic Overview of the Talladega Belt Presented By: Alex Owen Rachael Hudson Matt McDonald Kyle Williams
Ashland Supergroup • Precambrian in age • High grade belt composed of amphibolitefacies metamorphic rock
Kahatchee Mountain Group • Pre-Cambrian to Cambrian in age • Dominantly pelitic rocks • Slates and phylites • Bound above and below by carbonate sequences • Truncated by the Talladega-Carterville fault
Kahatchee Mt. Group • Waxahatchee Slate Formation: • Very fine grain, thin laminated grey-green, charcoal grey, to black meta-mudstone (interbedded with yellow-brown siltstone) • NE unit forms an isoclinal anticline • Oolites and stromatolites are present • Contacts are conformable and gradational • Pelitic rocks contain muscovite flakes and some biotite
Kahatchee Mt. Group • Brewer Phyllite Formation: • Gray coarse-grained, poorly sorted sandstone (sub angular-sub rounded). Thickness: 150-450m • Meta-siltstone with chlorite porphyroblasts and detrital muscovite flakes. • Pelitic rocks are hematitic • Contains intervals of thick bedded quartzarenite
Kahatchee Mt. Group • Wash Creek Slate: • Carbonaceous phyllite and fine grain sandstone. Holds up ridges (sandstones about 86.3 % quartz) • Gradationally overlays Brewer phylite. • 2300-2400 M thick • Bioturbation: burrows and feeding trails are near top of layer
Sylacauga Marble Group • Gray dolomitic marble, thin laminated micritic marble and med-grained calcitic marble • Fossils within group are sparse -due to a singular metamorphic event • Jumbo dolomite formation (basal unit)-poorly exposed with low topography (black slate interbedded) • Fayetteville Phyllite Formation: Tan, marble, maroon charcoal purple phyllite
Sylacauga Marble Group • Shelvin Rock Church Formation: grey thinly laminated micritic marble with limited phyllite. (calcite/dolomite with wavy laminations) • Gooch Branch Chert Formation: Purely calcitic marble (mostly white) and composes core of Sylacauga syncline. • Marble observed has tight isoclinal folding with axial plane parallel or nearly parallel to cleavage in the phyllite formation
Talladega Group (Ordivician-Early Mississippian) • >2.5 km clasticwedge made up of metaturbidites, arkosic conglomerates, and olistromes(lower Lay Dam Formation) • Formations • Lay Dam Formation (O-S): comprised of slates and metasandstones • Butting Ram/ Cheaha Quartzite (D): contains metasandstones, conglomerate, and chert • Jemison Chert/ Erin Slate (D- early M): made of black slate and siliceous argillite
Lay Dam Formation • Comprised of a >2 km thick clastic wedge and contains metaturbidites, arcosic conglomerates, and thick olistromal beds from the south to the southeast. • Sand to boulder-sized fragments of carbonate rock, metachert, and metasandstone/metasiltstone are contained within the olistromal beds which are similar to the lithology of the underlying Sylacauga Marble and Kahatchee Mountain groups. • It is Ordivician to Silurian in age.
Butting Ram/ Cheaha Quartzite • Arkosic metasandstone • Gradational contact into the Lay Dam formation • Thin to massively bedded , locally conglomerate, med-coarse grained. • Invertebrate fossils bryozoans, gastropods, corals, and brachiopods • Suggested that it is Devonian in age
Jemison Chert/ Erin Slate • Contains the thickest (400 m) and least deformed part of the unit. • Metachert composes 80% of the Jemison. • Fine grained sandy chert common within the phyllite zone • Lower half of Formation contains brachiopods • Gradational contact between Hillabee greenstone and Jemison Chert. • Erin slate thickness is estimated to be about 950m • Later studies show that Erin is conformable unit at the top of Talladega Group • Middle Devonian and Early Mississippian
Hillabee Greenstone • 80% of HG is made up of greenstones and maficphylites • Ranges from 2.6 km to only a few hundred meters thick • Runs 170 km from Cleburne County to Chilton County
Deformational Phase 1 • Deformation Phase One (D1): Regional Metamorphic (dynamothermal) and recrystallization (M1) event • Resulted in Folding (F1) and Foliation (S1): Fold structures range from tight to isoclinal (0 to 20º) • F1 geometry is asymmetric: short limbs 80-90% shorter than long limbs • Represented by predominately mesoscopic folds • S1 foliation is parallel to the axial surfaces of the folds
Deformational Phase 3 • Deformational Phase Three (D3): Intense structural deformation event across the Alabama Piedmont • F3 fold structures vary from tiny crenulations to megascopic folds over 1 km in wavelength • F3 folds generated by flexural slip process • Crenulation cleavage (S3) is parallel to the axial planes in F3. • No changes in mineralogy or recrystallization
Deformational Phase 4 • Deformational Phase Four (D4): Formation of Hollins Line Fault • Structures associated with D3 are deformed by generation of the Hollins Line Fault • Reverse thrust fault that juxtaposes lithologies and older structures between the upper Coosa block and lower Talladega block • Knife-sharp contact with variable dips to the southeast
Deformational Phase 5 • Deformational Phase Five (D5): Folding event of Hollins Line Fault designated as F4 folding • Crenulations crosscut older F3 structures thereby generating two phases of crenulations • Several known megascopic F4 folds near Millerville HighTower • The Goodwater-Enitachopco Fault was not affected by F4 folding indicating it is younger than the Hollins Line Fault system
Deformational Phase 6 • Deformational Phase Six (D6): Formation of Goodwater- Enitachopco Fault System • This fault system cuts the Hollins Line fault once near Millerville and again near Hightower • The fault system juxtaposes the Talladega and Tallapoosa blocks in the extreme northeast of the Alabama Piedmont • This fault structure differs from the Hollins Line: contact is a zone 4 to 50 meters thick and steeply dipping (65-70º)
Folds Predating Pre-Lay Dam Unconformity • Sylacauga Syncline: The hinge of this synclinal fold is located within the Gooch Branch Chert. The south limb of the fold is truncated by the unconformity. The fold plunges at a very low angle to the west-southwest. • Sycamore Anticline: This fold is a companion of the Sylacauga Syncline and is located to the south. These companions share a common limb. The anticline plunges toward the northeast do to the interference from the Poe Bridge Mountain synform and the Millervilleantiform.
Folds Postdating Pre-Lay Dam Unconformity • Columbiana Synform: Occurs along the frontal ramp of the Talladega-Carterville fault and contains the Sylacauga Marble Group up to the Shelvin Rock Church formation. This synform causes the surrounding stratigraphy to plunge towards the northeast while the fault plunges southwestward. • Kelley Mountain Antiform: A companion fold of the Columbiana synform that forms a large composite half window in the Talladega-Cartersville fault.
Folds Postdating Pre-Lay Dam Unconformity (cont.) • Fayetteville Synform: Companion fold of the Kelley Mountain antiform. Plunges to the southeast and trends northwest-southeast. • Cross-Antiform and Synform at Sycamore: Companion antiform of the Poe Bridge Mountain synform and companion synform to the Millervilleantiform. These folds interfere with the Columbiana- Jemison phase.
References: • Tull, J. F., 1978, Structural Development of the Alabama Piedmont Northwest of the Brevard Zone: American Journal of Science., v. 278, April, 1978, p. 442-446 • Tull, J. F., et al., 1978, The Hillabee Greenstone: Stratigraphy, Geochemistry, Structure, Mineralization and Theories of Origin: University of Alabama MRI Research Report Series, Tull , J. F., Southeastern margin of the middle Paleozoic shelf, southwesternmost Appalachians: Regional stability bracketed by Acadian and Alleghaniantectonism.