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Novaculite

Novaculite is a dense, hard, microcrystalline sedimentary rock primarily composed of cryptocrystalline quartz, often appearing as recrystallized chert with a white to grayish-black color, translucency on thin edges, and a dull to waxy luster.^[1] It exhibits a conchoidal fracture and high purity of silica exceeding 99%, making it erosion-resistant and capable of forming prominent ridges in its geological settings.^[1] The name "novaculite" derives from the Latin word novacula, meaning "razor stone," highlighting its renowned use in sharpening tools.^[1] Geologically, novaculite formed approximately 318 to 416 million years ago during the Devonian to Mississippian periods in deep ocean environments, where silica from seawater accumulated into bedded chert deposits under geosynclinal conditions.^[2] These sediments were later weakly metamorphosed by pressure during tectonic events around 300 million years ago, folding and uplifting them into the Ouachita Mountains of Arkansas and Oklahoma.^[3] The formation typically ranges from 60 to 900 feet thick, divided into massive upper and lower members separated by thinner shale beds in the middle.^[1] It outcrops along a 50-mile-wide, 200-mile-long band in the region, with notable exposures in Garland and Hot Spring Counties, Arkansas, and similar deposits known as the Caballos Novaculite in western Texas.^[4]^[5] Novaculite has been valued for its fine-grained varieties, such as the translucent "Arkansas stone" used for whetstones and oilstones to sharpen knives, razors, and other cutting tools, a practice dating back thousands of years.^[1] Native Americans in the Ouachita region quarried it extensively from mountain ridges for crafting durable, sharp-edged tools like arrowheads and axes, creating large archaeological sites and facilitating long-distance trade networks.^[2] Commercial mining began in the early 1800s near Magnet Cove, Arkansas, and continues today with quarrying operations using diamond saws and black powder, producing material not only for abrasives but also for concrete aggregates, road base, refractories, and silicon metal.^[1] Arkansas leads U.S. production of this silica stone, with demand increasing due to preferences for natural sharpening products.^[1]

Physical Properties

Composition

Novaculite is a dense, siliceous sedimentary rock primarily composed of microcrystalline quartz (SiO₂), characterized by a cryptocrystalline structure where individual quartz grains are typically 1 to 5 micrometers in size.^[1] This fine-grained texture results from the recrystallization of chalcedony during diagenesis and low-grade metamorphism, making it a distinct variety of chert rather than a coarser metamorphic quartzite.^[6] Premium grades of novaculite exhibit exceptionally high purity, with silica content exceeding 98% and reaching up to 99% in some specimens.^[6] Minor impurities significantly influence the rock's appearance and properties, though they constitute only trace amounts in high-quality material. Common impurities include iron oxides such as goethite (FeO(OH)), clay minerals, and remnants of organic matter, which impart color variations: pure novaculite is white, while iron-rich or organic inclusions produce gray to black hues.^[7] Other associated minerals, like pyrite (FeS₂) or manganese dendrites, may occur sporadically but do not alter the dominant quartz matrix.^[7] These impurities are generally minimal in commercial deposits, preserving the rock's uniformity and hardness. The physical properties of novaculite reflect its quartz-dominated composition, with a density ranging from 2.65 to 2.70 g/cm³ and a Mohs hardness of 7, comparable to pure quartz.^[6] This high silica purity and fine crystallinity contribute to its low porosity and exceptional durability, setting it apart from less refined siliceous rocks.^[1]

Texture and Appearance

Novaculite exhibits a uniform, fine-grained texture characterized by extremely fine to cryptocrystalline quartz grains that are interlocking and not visible to the naked eye, giving it an even and homogeneous structure overall.^[7]^[6] This texture often feels smooth to the touch, with a waxy or dull luster in coarser varieties transitioning to a more glassy sheen in finer grades, resembling unglazed porcelain in some forms.^[7]^[6] While generally massive and lacking distinct internal layering, certain deposits show subtle bedding planes or faint lamination, though these are indistinct and do not disrupt the rock's overall homogeneity.^[5] In terms of color and appearance, pure novaculite is typically white to light gray, appearing dense and hard with minimal porosity in its fine-grained varieties.^[6]^[5] Impurities can impart darker shades, such as blue-gray or black, resulting in an opaque bulk that contrasts with the translucency observed in thin edges or sections, where light readily passes through.^[2]^[6] This translucency is a distinctive identifying feature, particularly in lighter specimens, aiding in its differentiation from similar siliceous rocks. Novaculite breaks with a conchoidal fracture pattern akin to that of flint or obsidian, producing sharp, curved edges without evidence of cleavage.^[6]^[7] This fracture behavior, combined with its fine-grained uniformity, contributes to clean, predictable breaks that enhance its suitability for crafting and handling, while its inherent hardness further ensures durability during use.^[5]^[6]

Geological Formation

Origin

Novaculite forms as a siliceous sedimentary rock through the accumulation of microscopic silica particles in ancient deep marine environments, primarily below wave base where detrital input was minimal.^[8] These particles, typically 1-10 micrometers in size, originate primarily from volcanic sources, such as devitrified volcanic glass and ash, in seawater.^[8] Geochemical analyses, including elevated aluminum (0.35–2.0 wt%) and potassium (up to 983 ppm) levels, indicate a volcanic source, likely from a southern volcanic arc, eliminating a purely biogenic origin.^[9] This deposition occurred during the Devonian to Early Mississippian periods, creating thick layers of siliceous ooze that later lithified.^[10] During diagenesis, the initial amorphous or opaline silica undergoes recrystallization into microcrystalline quartz, accompanied by compaction under increasing burial pressures and low-grade metamorphic conditions.^[10] This process involves selective dissolution and redeposition on crystallization centers, forming dense, close-fitting quartz blocks without achieving full metamorphism, resulting in the rock's characteristic hardness and uniformity.^[8] The densification enhances the material's fine-grained texture, transitioning it from a loose sediment to a compact, homogeneous lithology.^[10] Novaculite is commonly associated with chert beds within shale-sandstone sequences, where it forms interlayered deposits reflecting episodic silica-rich sedimentation.^[10] The silica supply was primarily from volcanic sources, such as ash from nearby arcs or hydrothermal activity, which introduced dissolved silica into the marine basin.^[10] Unlike fully metamorphic siliceous rocks such as quartzite, which derive from sandstone under high-grade conditions, novaculite represents an upgraded form of chert through diagenetic burial and pressure, retaining its sedimentary origins while achieving greater purity and density via quartz dominance over chalcedony.^[10] This distinction arises from its microcrystalline structure and lack of significant clastic components, setting it apart from coarser or more impure cherts.^[11]

Age and Stratigraphy

Novaculite formations, particularly the Arkansas Novaculite, are primarily of Devonian to Early Mississippian age, spanning approximately 419 to 323 million years ago during the late Paleozoic era.^[12]^[1] These rocks were deposited in deep marine environments within the Ouachita trough basins, a subsiding depositional area along the southern margin of the North American craton.^[13] The lower division of the formation dates to the Early Devonian (Oriskany equivalent), while the middle and upper divisions are tentatively Upper Devonian to Early Mississippian, based on conodont and radiolarian biostratigraphy.^[14]^[15] In the stratigraphic column of the Ouachita Mountains, the Arkansas Novaculite Formation occupies a key position as a prominent chert unit within the pre-orogenic Paleozoic sequence. It conformably overlies the Silurian Missouri Mountain Shale, with occasional thin conglomerates at the base, and is overlain unconformably by Carboniferous units such as the Stanley Shale or the Hot Springs Sandstone.^[14]^[16] The formation exhibits a tripartite structure: massive white novaculite in the lower and upper members, separated by a middle division of thinly bedded novaculite and shale.^[1] Thickness varies regionally, reaching up to 900 feet in the southern Ouachita Mountains due to tectonic thickening from faulting, though it thins northward to about 60 feet.^[1]^[14] Related novaculite-bearing units include the Caballos Novaculite in the Marathon region of West Texas, which is stratigraphically and lithologically similar, also of Devonian to Early Mississippian age and part of the same broader depositional system.^[17] In Oklahoma, equivalent beds occur within the Ouachita fold-thrust belt, such as cherty units on Black Knob Ridge, integrated into the folded sequence of the Ouachita Mountains.^[18] These formations collectively represent a continuous silica-rich layer across the region. The novaculite was deposited in a foreland basin setting preceding the main phase of the Appalachian-Ouachita orogeny, during a period of tectonic quiescence on the continental margin before the Late Pennsylvanian to Permian uplift.^[19] Subsequent compression during the orogeny folded and faulted these strata into the east-west trending structures of the Ouachita Mountains, transforming the original cherts into dense novaculite through low-grade metamorphism.^[14]^[1]

Distribution and Occurrence

Primary Deposits

The primary deposits of novaculite are concentrated in North America, with Arkansas recognized as the leading source due to its extensive and high-quality occurrences in the Ouachita Mountains. The Arkansas Novaculite Belt stretches over 100 miles eastward from the Hot Springs region to the Oklahoma border, encompassing key areas in Garland, Hot Spring, and Montgomery counties, where the formation is prominently exposed.^[1] This belt forms part of the broader Ouachita structural trend, with the rock's resistance to erosion creating elevated ridges that expose thick beds of the material, allowing access to stratified layers up to 900 feet thick.^[1] Novaculite from these deposits varies in quality and appearance, with premium varieties including translucent types referred to as soft Arkansas stone, dense hard white grades prized for their fine grain and waxy luster, and colored variants such as the grayish-black Washita stone, which is more porous.^[1] These differences arise from the formation's upper and lower divisions, where high-purity zones exceeding 99% silica content are selectively targeted. Commercial production, which began in the early 19th century, saw intermittent mining in the late 19th century, reaching over 300 tons annually shipped from the Hot Springs area by 1875, and has continued steadily since the early 20th century, primarily for sharpening applications that underpin the material's economic importance.^[20]^[1] Mining operations focus on open-pit quarrying, a method employed since the 1880s, involving minimal use of explosives like black powder followed by extraction with diamond saws and grinding equipment to isolate suitable blocks.^[1] Notable sites include quarries in Hot Spring County near Magnet Cove and others in Montgomery County adjacent to Murfreesboro, where the uplifted and eroded bedrock provides direct access to the novaculite layers.^[1]^[21] As of 2007, at least eight companies operated in the Hot Springs vicinity, and several companies continue mining as of 2024, emphasizing the sustained commercial viability of these primary sources.^[1]^[22]

Global Occurrences

Novaculite occurrences extend beyond the primary Arkansas deposits into adjacent regions of the southern United States, where similar silica-rich formations are present but generally less economically viable for specialized uses. In the Marathon Basin of West Texas, the Caballos Formation contains novaculite as a prominent lithologic unit, consisting of massive white chert beds interbedded with siliceous shales, forming a lens-shaped deposit up to 700 feet thick. This formation, exposed in the Marathon Uplift, exhibits characteristics akin to the Arkansas novaculite, including high silica content and conchoidal fracture, though it has seen limited commercial exploitation primarily due to its remote location and variable quality for whetstone production.^[23] In eastern Oklahoma, novaculite beds form extensions of the Arkansas formation within the Ouachita uplift, cropping out in the Ouachita Mountains and contributing to local ridge formations. These deposits, part of the same Devonian to Mississippian stratigraphic sequence, are thinner and more fragmented than those in Arkansas, with interbedded shales reducing overall purity. While not a major source for high-grade sharpening material, the Oklahoma novaculite has been utilized locally for aggregates and construction purposes, reflecting its abundance in the region's Paleozoic basin.^[1] True novaculite remains rare outside North America, with no major global deposits identified, owing to its formation in specific ancient marine siliceous environments during the Devonian to Mississippian periods. Analogous siliceous rocks occur in Japan, where Paleozoic chert beds in regions like the Mino Terrane display novaculite-like textures, including fine-grained quartz with well-defined surfaces, though they differ in origin and lack the uniform density of the Ouachita type. In China, cryptocrystalline quartz identified as novaculite appears in the western Sichuan Basin, hosting stylolites and exhibiting dissolution features, but these instances are isolated and not commercially significant.^[24] The limited global distribution of novaculite stems from its dependence on unique tectonic and sedimentary conditions, such as those in the Ouachita Trough, where radiolarian and sponge spicule accumulations led to widespread siliceous deposition. In other Paleozoic basins worldwide, potential equivalents are often deeply buried, altered by metamorphism, or dispersed, posing significant exploration challenges and preventing the development of viable deposits elsewhere.^[7]

Uses and Applications

Sharpening Tools

Novaculite is renowned worldwide for its exceptional qualities as a sharpening material, particularly in the form of Arkansas oilstones and Washita stones, which are used to hone edges on knives, razors, and surgical tools. These natural whetstones offer fine grit levels equivalent to 8,000 or higher on the Japanese Industrial Standards (JIS) scale, enabling the refinement of blades to extremely keen edges without excessive material removal.^[25]^[20] Novaculite whetstones are classified into grades based on density, porosity, and texture, allowing users to select appropriate types for different sharpening stages. Softer varieties, such as Washita stones, are employed for initial coarse honing due to their porous structure and duller luster, while harder, denser varieties, such as translucent Arkansas or surgical black stones, are reserved for final finishing to achieve polished, mirror-like edges.^[1]^[26] Lubrication with oil—traditional for Arkansas stones—or water is required to suspend abrasive particles, enhance cutting efficiency, and prevent the stone surface from glazing over during use.^[26]^[27] Production of novaculite sharpening stones gained commercial prominence in the late 19th century, with Norton Abrasives acquiring the Pike Manufacturing Company in 1932 to establish quarrying and manufacturing operations in Arkansas and continuing to export them globally as a benchmark for quality abrasives.^[28]^[29]^[1] These stones provide distinct advantages in precision sharpening, delivering uniform abrasion that minimizes micro-scratches and yields a smoother edge than many synthetic alternatives, which can sometimes introduce inconsistencies or faster wear.^[30]^[31] Their durability stems from a composition of nearly pure microcrystalline quartz, which resists breakdown and maintains consistent performance over extended use.^[1]

Industrial and Construction Uses

Novaculite, prized for its high silica content exceeding 99%, serves as a refractory material in ceramics and glass production, where its ability to withstand extreme temperatures makes it suitable for furnace linings and high-heat processes.^[1] Historical applications include its use in silica brick manufacturing and as a raw material for optical glass due to its purity.^[32] In ceramics, select high-grade varieties have been incorporated into pottery formulations for their fine-grained structure.^[32] Novaculite has been employed as crushed aggregate for road bases, railroad ballast, concrete filler, and riprap, capitalizing on its durability and dense structure (specific gravity around 2.65) that aids in crushing and provides stability under load. However, its highly abrasive nature has led to significant wear on processing equipment and compatibility issues in asphalt mixes, resulting in a decline in these construction applications in recent decades. The shift away from traditional high-grade novaculite mining for precision abrasives, prompted by competition from synthetic alternatives, has been partially offset by sustained demand for lower-grade material in bulk industrial roles like refractories, though overall extraction remains focused on select high-purity deposits in Arkansas.^[1] Quarries now prioritize these alternative uses to maintain viability.^[1]

Historical and Cultural Significance

Prehistoric Utilization

Novaculite has been utilized by indigenous groups in the Ouachita Mountains region, including the Caddo and others such as the Quapaw and Fourche Maline culture, for over 13,000 years, spanning from the Paleoindian period around 11,500 B.C. to the Mississippian period ending around 1700 A.D.. These groups knapped novaculite into various tools, including arrowheads, dart points, scrapers, drills, and knife blades, leveraging its conchoidal fracture that produced predictable, sharp edges suitable for shaping.. Its fine texture further enabled precise flaking, making it ideal for intricate tool production.. Archaeological evidence from sites in the Hot Springs area, such as the Jones Mill site and 3HS28, reveals abundant novaculite artifacts, with over 90% of projectile points at Jones Mill composed of this material.. Novaculite was primarily sourced from natural outcrops and quarries in the Ouachita Mountains, particularly in Montgomery, Garland, and Polk counties, and was traded regionally, as indicated by artifacts found at distant locations like the Plum Bayou Mounds.. In Caddo culture, novaculite held significant value as a preferred material over local cherts due to its superior sharpness and durability, reflecting technological adaptations in tool-making.. Evidence from Mississippian period (A.D. 900–1700) workshops at Caddo sites like 3HS28 demonstrates organized production of bifacial tools, arrow points, and scrapers, underscoring its role in daily and ceremonial practices.. Following European contact in the 16th century, the use of novaculite by Native Americans declined sharply, with communities shifting to more accessible local cherts; this transition, combined with centuries of intensive prehistoric quarrying, contributed to the depletion of easily accessible surface sources..

Modern Mining and Economy

The commercial mining of novaculite for whetstones began in the early 1830s near Hot Springs, Arkansas, following the recognition of its superior sharpening properties, which had been utilized prehistorically by Native Americans and influenced early European settlers' interest in the material.^[20] By the late 19th century, operations expanded with the establishment of quarries in Garland and Hot Spring counties, leading to a boom in the early 1900s when production peaked and exports of finished whetstones reached Europe, including Germany, and Asia for use in tool sharpening industries.^[35] This period saw the formation of multiple companies, such as the Butterfield Quarry, which shipped large quantities of novaculite blocks for processing into premium abrasives, establishing Arkansas as a global leader in natural whetstone supply.^[36] In the modern era, novaculite extraction continues on a small scale for high-quality whetstones, primarily in Garland and Hot Spring counties, where companies like Dan's Whetstone Company, Norton Abrasives (Saint-Gobain), and Smith Abrasives quarry and process the stone into graded products based on hardness and texture for premium sharpening tools.^[37] Larger-scale operations quarry lower-grade novaculite across a broader region from Pulaski to Polk counties for use as construction aggregates, including concrete, road base, and railroad ballast, contributing to Arkansas's ranking as the top U.S. producer of silica stone for abrasives as of 2005.^[1] The industry supports local employment and remains economically vital, with several active whetstone producers including Dan's Whetstone Company and Arkansas Whetstone, and sustained demand driving constant mining since the early 20th century, though specific annual production values for novaculite are often withheld to protect proprietary data.^[38] Overall, novaculite mining bolsters Arkansas's nonfuel mineral sector, which was valued at $1.18 billion statewide in 2023, though novaculite represents a niche portion focused on high-value abrasives and durable aggregates.^[39] Environmental regulations for novaculite quarrying fall under Arkansas's non-coal mining framework, overseen by the Department of Energy and Environment's Division of Environmental Quality (DEQ), which regulates over 300 open-cut sites including stone quarries via the Quarry Operation, Reclamation, and Safe Closure Act of 1997 (Act 1166).^[40] This act mandates submission of reclamation plans prior to operations, requiring site stabilization, vegetation restoration, and safe closure to minimize erosion and water quality impacts, with routine inspections ensuring compliance.^[41] In the Ouachita National Forest, where many deposits occur, additional federal oversight by the U.S. Forest Service requires mining permits under the General Mining Law of 1872, incorporating environmental assessments for habitat protection and post-2000 sustainable practices like phased reclamation to balance extraction with ecosystem preservation.^[42] Looking ahead, the novaculite market maintains a niche for artisanal whetstones amid competition from synthetic abrasives like silicon carbide, which offer consistency but lack the unique cutting feedback of natural stones, sustaining demand among professionals and enthusiasts.^[1] Aggregate uses provide steady economic stability due to novaculite's durability in construction, with overall industry growth projected from rising global interest in high-purity natural silica for applications like glass manufacturing and advanced abrasives.^[36]

References

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Novaculite (Silica Stone) - Arkansas Geological Survey
Novaculite is a dense, hard, white to grayish-black, translucent sedimentary rock, mostly quartz, used as whetstones and oilstones.Missing: definition | Show results with:definition
[2]
Arkansas Novaculite: A Virtual Comparative Collection
### Summary of Novaculite
[3]
Hot Springs Geology - National Park Service
Oct 10, 2025 · The novaculite is well known for its use as a whetstone, or a stone used to sharpen cutting tools such as knives. The sedimentary rocks that ...Missing: characteristics properties
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ORIGIN OF THE CABALLOS NOVACULITE. Definition of novaculite. The term "novaculite" has long been used for a fine quality of whetstone or razor hone, and in ...
[6]
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Chemical Composition, Silicon dioxide (SiO2). Some specimens contain up to 99% silicon dioxide. Some specimens have a high carbonate content of up to 30%. ; Uses ...
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Aug 11, 2025 · Novaculite is a uniform, fine-grained hard rock mostly composed of extremely fine-grained to cryptocrystalline quartz. It may be white, gray, or black due to ...
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Sep 20, 2019 · The writers believe that the chert and novaculite formed from organically precipitated silica particles in the 1-10 µ size range. These ...
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The main objective of this study is to identify the source of the silica for the Arkansas. Novaculite and compare it to the chert of the coeval lower Boone ...
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Sep 1, 1976 · Breccias are formed of angular novaculite clasts in a black organic-rich siliceous sediment containing various amounts of pellets, quartz silt, ...
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Geolex — Arkansas publications - National Geologic Map Database
Aug 28, 2025 · The Arkansas stone is a typical member of the novaculite formation, in which the two stones (Arkansas novaculite and Ouachita stone) occur.
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Sep 13, 2019 · The earliest Carboniferous deposits were the Arkansas novaculite of Mississippian age. Following its deposition the Bendian deposits were laid ...
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The Arkansas novac- ulite conformably overlies the Missouri Mountain shale, but a conglomerate that is possibly of only local occurrence at the base of the ...
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AGE OF ARKANSAS. NOVACULITE. 2535. MIDDLE DIVISION OF ARKANSAS NOVACULITE. On the basis of conodonts, the upper 184 feet of the middle division of the. Arkansas ...
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Aug 28, 2025 · In Caddo Gap and DeQueen quadrangles, Arkansas and Oklahoma, the Stanley rests unconformably on Arkansas novaculite and underlies Jackfork ...
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Aug 28, 2025 · The USGS currently [ca. 1966] designates the age of the Caballos Novaculite as Devonian and Mississippian. Source: US geologic names lexicon ( ...
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Earle F. McBride - GeoScienceWorld
Common impurities in novaculite include detrital quartz and authigenic ... average composition is: quartz, 60 percent; chert, 35 percent; collophane ...
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Apr 9, 2024 · We investigate a rare example of stylolites in cryptocrystalline quartz (novaculite) from western Sichuan Basin, China.
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Dec 2, 2020 · Norton currently owns most of the known Novaculite quarries in Arkansas. The top stone - "Translucent Hard Arkansas" - is what we sell in a ...
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66-74, 87-90. Novaculite is a hard, highly siliceous, compact material of almost pure silica content. Two commercial types are identified. The Arkansas stone ...
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Tridymite is a form of c-silica formed at temperatures >870°C (OSHA 2013c). Both cristobalite and tridymite are found in volcanic rocks and glass (Mossman and ...<|separator|>
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Sep 1, 2020 · Novaculite is a sedimentary rock composed of microcrystalline quartz, it is also recognized as a re-crystallized variety of chert.
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In 2000, the estimated value1 of nonfuel mineral production for Arkansas was $506 million, based upon preliminary U.S.. Geological Survey (USGS) data.
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DEQ's Non-Coal Program staff has regulatory oversight for more than 300 sites, including roughly 260 open-cut sites and 96 quarries. The staff makes routine ...Missing: Ouachita Forest
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Apr 1, 2025 · These regulations apply to all NFS lands open to mineral entry under the US mining laws. More Information is available at: https://www.fs ...Missing: novaculite environmental<|separator|>