Coal Creek Serpentinite
Stratigraphic range: Mesoproterozoic
TypeGeological formation
Unit ofCoal Creek domain
Areasoutheastern Llano Uplift,  Texas-(central)
Thicknessmaximum of 1.4 mi (2.3 km)
Lithology
Primaryserpentinite
Othersoapstone
Location
Coordinates30°28′50″N 98°37′48″W / 30.48056°N 98.63000°W / 30.48056; -98.63000
RegionLlano Uplift, Texas
Country United States-(Central Texas)
Extent2.54 sq mi (6.6 km2)
Type section
Named forCoal Creek, a local intermittent stream[1]
Named byVirgil E. Barnes[1]
Year defined1940

The Coal Creek Serpentinite (Coal Creek Serpentine) is a name for a Precambrian rock formation that outcrops on the southeastern side of the Llano Uplift in Gillespie and Blanco counties, Texas. The Coal Creek Serpentinite is tabular south-dipping body of serpentinite. Its outcrop is about 3.7 mi (6.0 km) long along an east–west axis and varies in width from 0.3 to 1.4 mi (0.48 to 2.25 km). Along the central part of the body, the southern contact of the serpentinite slopes about 60° to the south and gradually decreases in dip to about 40° further west. The southern and northern contacts are shear zones.[2][3][4] The serpentinite underlies a very sparsely vegetated east–west trending ridge.[5]

V. E. Barnes named the Coal Creek Serpentinite in 1940 for Coal Creek.[1] This creek is a broad intermittent stream that transports granite wash and crosses the western end of the serpentinite outcrop.[6]

Accessibility

The entire outcrop can be accessed by driving on Willow City Loop and County Road 310. The easiest way of getting to a decent outcrop is turning onto Willow City Loop off of State Road 16. The Coal Creek Serpentinite is accessible only by entering private property, so prior permission is required. The Willow City Loop, which is the main route can be accessed by the public, however signs are posted exclaiming no one can stop for anything.[4][5]

Geology

Coal Creek Serpentinite is a large tabular body of serpentinized harzburgite. It is in tectonic contact with the enclosing meta-igneous rocks and shows a complex history of serpentinization, metamorphism, and deformation. It is highly foliated and intruded by numerous thin metabasaltic dikes that show metasomatic alteration zones at their margins.[2][4] The serpentinite varies widely in color, texture, and structure. In color, it exhibits various shades of green, ranging from light yellowish green through dark green to very dark-colored rocks with a greenish cast.[7]

The Coal Creek Serpentinite is typically composed of lizardite cross-cut by secondary veins of chrysotile and layers of accessory magnetite, tremolite, talc, chlorite, and relict chromite. The massive specimens of this serpentinite exhibit a lizardite mesh texture that represent pseudomorphs after olivine, pyroxene, and minor metamorphic amphibole. The presence of olivine, orthopyroxene, and anthophyllite in two specimens suggest that the Coal Creek Serpentinite is metamorphosed harzburgite. This is interpreted to indicate that the serpentinite is the highly altered ultramafic tectonite portion of an ophiolite.[2][3][4]

The contacts of the Coal Creek Serpentinite with the surrounding metamorphosed igneous rocks consists entirely of shear zones.[2][3] Its southern edge is bordered by the Big Branch Gneiss except along Big Branch Creek where it lies adjacent to a small sliver of Packsaddle Schist. Along its northern margin, the Big Branch Gneiss and Packsaddle Schist are in contact with this body of serpentinite.[7][4]

Coal Creek Domain

Th Coal Creek Serpentinite is part of the Coal Creek Domain. The Coal Creek Domain consists of metamorphosed, and deformed (foliated, sheared, and faulted) diorite and tonalite igneous plutons, including the Big Branch Gneiss, that are exposed within southeastern Llano Uplift. Crystallization ages (U–Pb dating of zircons) of the original igneous protoliths lie in the ranges of 1326–1301 Ma and 1286–1275 Ma. The Coal Creek Serpentinite is interpreted to be a piece of oceanic crust that was tectonically incorporated within the Coal Creek Domain during the accretion of an island arc by plate tectonics to continental crust (Packsaddle Schist) of Laurentia. A thick mylonite zone, the Sandy Creek shear zone, is the boundary between the Coal Creek Domain (island arc) and Packsaddle Schist (Laurentia).[4][8]

See also

References

  1. 1 2 3 United States Geological Survey, 2001. Geologic Unit: Coal Creek, National Geologic Map Database Catalog, National Geologic Map Database, United States Geological Survey United States Geological Survey, Virginia, Reston. last accessed March 27, 2022.
  2. 1 2 3 4 Garrison Jr, J.R., 1981a. Coal Creek Serpentinite, Llano Uplift, Texas: A fragment of an incomplete Precambrian ophiolite. Geology, 9(5), pp.225-230.
  3. 1 2 3 Garrison, J.R., 1981b. Metabasalts and metagabbros from the Llano Uplift, Texas: Petrologic and geochemical characterization with emphasis on tectonic setting. Contributions to Mineralogy and Petrology, 78(4), pp.459-475.
  4. 1 2 3 4 5 6 Mosher, S., Helper, M., and Levine, J., 2008. The Texas Grenville Orogen, Llano Uplift, Texas, Field trip guide to the Precambrian geology of the Llano Uplift. Trip 405 for the Geological Society of America (GSA) Annual Meeting, Houston, Texas. Boulder, Colorado, Geological Society of America.
  5. 1 2 Barnes, V. E., 1988. The Precambrian of central Texas. In Hayward, O. T., ed., Centennial field guide, Volume 4. Boulder, Colorado, Geological Society of America, South-Central Section, pp. 361–368.
  6. Romberg, F. and Barnes, V.E., 1949. Correlation of gravity observations with the geology of the Coal Creek serpentine mass, Blanco and Gillespie Counties, Texas. Geophysics, 14(2), pp.151-161.
  7. 1 2 Barnes, V.E., Shock, D.A., and Cunningham, W.A., 1950. Utilization of Texas Serpentine, The University of Texas Publication, No. 5020. Austin, Texas Bureau of Economic Geology. 52 pp.
  8. Carlson, W. D., Anderson, S. D., Mosher, S., Davidow, J. S., Crawford, W. D. & Lane, E. D. 2007. High-pressure metamorphism in the Texas Grenville Orogen: Mesoproterozoic subduction of the southern Laurentian continental margin. International Geology Review, 49, pp. 99–119.
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