Novaculite, also called Arkansas Stone, is a microcrystalline to cryptocrystalline rock type that consists of silica in the form of chert or flint. It is commonly white to grey or black in color, with a specific gravity that ranges from 2.2 to 2.5. It is used in the production of sharpening stones. It occurs in parts of Arkansas, Oklahoma, and Texas, as well as in Japan and parts of the Middle East. The name novaculite is derived from the Latin word novacula, meaning a sharp knife, dagger, or razor,[2] in reference to its use in sharpening. The first recorded use of the term whetstone was in reference to a honing stone from Arkansas.[3]

Novaculite forms light grey flatirons in the Marathon Uplift area of Texas.[1]

Occurrence

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Novaculite beds are present in the Ouachita Mountains of Arkansas and Oklahoma, and in the Marathon Uplift and Solitario regions of Texas. Novaculite is very resistant to erosion and the beds stand out as ridges in the Ouachita Mountains.[1] There are also occurrences in Japan, Syria, Lebanon, and Israel.[4]

Origin

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The novaculite beds of the south-central United States were deposited in the Ouachita Geosyncline, a deep-water marine trough, during Silurian to early Mississippian time. Sedimentation consisted primarily of siliceous skeletal particles of marine organisms such as sponge spicules and radiolaria, and very fine-grained, wind-blown quartz particles; there was very little argillaceous sedimentation during novaculite deposition.[5] The novaculite beds were later subjected to folding and uplift, and probably low-grade metamorphism, during the Ouachita orogeny in early Pennsylvanian time.[1]

 
Novaculite spalls (flakes) from knapping.

Because novaculite is very hard and dense, it has been mined since prehistoric times, first for use as arrow and spear points, and later to make sharpening stones. Novaculite-rich sharpening stones from Arkansas are called Arkansas stones;[6] stones produced in the Ottoman empire (Syria, Lebanon, and Israel) were called Turkey stones;[4] and novaculite stones were also produced in Japan.[4] The crystal grains of novaculite measure 3 to 5 microns, equivalent to a US grit size of 600-1200, making novaculite suitable for the final stages of metal blade sharpening. Novaculite sharpening stones are classified by density.[7]

The weathered upper strata of Arkansas novaculite, known as tripoli or "rotten stone", are rich in silica and have found a niche market as a performance additive or filler in the coatings, adhesives, sealants, and elastomer industries. Tripoli is mined just east of Hot Springs, Arkansas by the Malvern Minerals Company.[3]

References

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  1. ^ a b c Spearing, Darwin V. (1991). Roadside Geology of Texas. Mountain Press Publishing Company. ISBN 0-87842-265-X.
  2. ^ Wiktionary. "Novacula". Wikimedia Foundation. Retrieved 9 March 2018.
  3. ^ a b Nichols, John C., Minerals on the Ouachita National Forest, USDA Forest Service 12 May 2008
  4. ^ a b c Adam Cherubini (12 October 2011). "What is an Oilstone?". Popular Woodworking magazine. Retrieved 22 February 2017.
  5. ^ McBride, E.F. and Thomson, A. 1970. The Caballos novaculite, Marathon region, Texas. Geological Society of America, Special Paper 122, 129. p.
  6. ^ Trubitt, Mary Beth. "Arkansas Novaculite: A Virtual Comparative Collection". Arkansas Archeological Survey. Archived from the original on 10 November 2021. Retrieved 12 February 2013.
  7. ^ https://danswhetstone.com/information/selecting-your-whetstone/
  • Folk, R.L., and E.F. McBride, 1976, The Caballos Novaculite revisited Part I: "origin of novaculite members . Journal of Sedimentary Petrology. 46659-669
  • Folk, R.L., and E.F. McBride, 1978, Origin of the Caballos Novaculite. in S.J. Mazzullo, ed., Tectonics and Paleozoic facies of the Marathon Geosyncline, West Texas: Permian Basin Section, Society for Sedimentary Geology, SEPM, Publication no. 78-17:101-130.
  • Frondel, C., 1962, The System of Mineralogy of J. D. and E. S. Dana, v. 3, Silica Minerals: 7th ed., John Wiley and Sons, New York, 334p.
  • King, P.B., 1937, Geology of the Marathon Region, Texas, United States Geological Survey Professional Paper 187
  • Krumbein, W.C. and Sloss, L.L., 1963, Stratigraphy and Sedimentation: 2nd ed., W. H. Freeman and Company, San Francisco, 660p.
  • Lowe, D.R., 1975, Regional Controls on Silica Sedimentation in the Ouachita System. Geological Society of America Bulletin. 86:1123-1127
  • Lowe, D.R., 1976, Nonglacial varves in lower member of Arkansas Novaculite (Devonian), Arkansas and Oklahoma. American Association of Petroleum Geologists Bulletin. 60:2103-2116.
  • Lowe, D.R., 1977, The Arkansas novaculite: some aspects of its physical sedimentation. in C.G. Stone, and others, eds., Symposium on the geology of the Ouachita Mountains. Arkansas Geological Commission Miscellaneous Publication 13:132-138.
  • Lowe, D.R., 1989, Stratigraphy, sedimentology, and depositional setting of pre-orogenic rocks of the Ouachita Mountains, Arkansas and Oklahoma, in R.D. Hatcher, Jr., W.A. Thomas, and G.W. Viele, eds., The Appalachian-Ouachita orogen in the United States. The Geology of North America. F-2:575-590, Geological Society of America, Boulder.
  • McBride, E.F., 1989, Stratigraphy and sedimentary history of Pre-Permian Paleozoic rocks of the Marathon uplift, in R.D. Hatcher, Jr., W.A. Thomas, and G.W. Viele, eds., The Appalachian-Ouachita orogen in the United States. The Geology of North America. F-2:603-620, Geological Society of America, Boulder.
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