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MAY 2015

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www.rockproducts.com Frac Sand Insider May 2015 | 53 Geology Basin: American Association of Petroleum Geologists Bulletin, v. 57, no. 12, p. 2404–2418. Ching, P.D., 1973, An investigation of the Cambrian Deadwood Sandstone in the central and southern Black Hills, South Dako- ta, as potential industrial silica sands: Rapid City, South Dakota School of Mines and Technology, Master's degree thesis, 181 p. Claim Post Resources Inc., 2013, Seymourville frac sand project, Manitoba, Canada—Providing premium white frac sand to the Canadian oil service industry, http://claimpostresources.com/ Seymourville_Frac_Sand_Project/fles/assets/downloads/publi- cation.pdf (04-08-14). Clayton, Lee, and Attig, J.W., 1990, Geology of Sauk County, Wis- consin: Wisconsin Geological and Natural History Survey Infor- mation Circular 67, 68 p. Cole, V.B., 1975, Subsurface Ordovician-Cambrian rocks in Kan- sas: Kansas Geological Survey, Subsurface Geology Series 2. Cottingham, J.T., 1990, Cambrian-Early Ordovician sequence stra- tigraphy and Mt. Simon Sandstone petrology in the Michigan Basin: Kalamazoo, Western Michigan University, Master's de- gree thesis, 87 p. Dake, C.L., 1921, The problem of the St. Peter Sandstone: School of Mines and Metallurgy, University of Missouri Bulletin, v. 6, no. 1, p. 225. Dapples, E.C., 1955, General lithofacies relationships of St. Peter Sandstone and Simpson Group: American Association of Petro- leum Geologists Bulletin, no. 39, p. 444–467. Davis, J.G., 2011, Generalized isochore map of St. Peter Sand- stone mineral resource in Missouri, Map: Rolla, Missouri, Mis- souri Department of Natural Resources, Division of Geology and Land Survey, Industrial Minerals Unit, scale 1:2,560,000. Dolley, T.P., 2012, Silica, 2010 Minerals Yearbook (Advance Re- lease): U.S. Geological Survey, p. 66.61–66.16. Dott, R.H., Jr., 2003, The importance of eolian abrasion in su- permature quartz sandstones and the paradox of weathering on vegetation-free landscapes: Journal of Geology, v. 111, p. 387–405. Dott, R.H., Jr., Byers, C.W., Fielder, G.W., Stenzel, S.R. and Win- free, K.E., 1986, Aeolian to Marine Transition in Cambro-Ordo- vician Cratonic Sheet Sandstones of the Northern Mississippi Valley, U.S.A., Sedimentology, v. 33, p. 345–367. Driese, S.G., 1988, Depositional history and facies architecture of a Silurian foreland basin, eastern Tennessee, in Driese, S.G., and Walker, D., eds., Depositional history of Paleozoic sequences, southern Appalachians, Society of Economic Paleontologists and Mineralogists, Midcontinent Section, 6th Annual Meeting: University of Tennessee, Department of Geological Sciences Studies in Geology, p. 62–96, 114–135. Englund, K.J., Smith, H.L., Harris, L.D., and Stephens, J.G., 1963, Geology of the Ewing quadrangle, Kentucky and Virginia, Con- tributions to economic geology, 1961: U.S. Geological Survey Bulletin 1142-B, p. B1–B23. Epley, Cole, 2014, Turns out the Loup Power District's excess sand is perfect for fracking and worth millions: Omaha World-Herald, http:// www.omaha.com/article/20140218/MONEY/140218799/ 1697 (accessed 02-18-14). Fairmount Santrol, 2014, Why choose resin-coated proppant over frac sand for moderate well conditions?, http://fairmountsantrol. com/wp-content/uploads/2014/09/Why-Choose-Resin-vs- Raw-Sand-PAS-914.pdf (accessed 10-12-14). Fuller, J.O., 1955, Source of Sharon Conglomerate of northeastern Ohio: Geological Society of America Bulletin, v. 66, no. 2, p. 159–176. Galley, J.E., 1958, Oil and geology of the Permian Basin of Texas and New Mexico, in Weeks, L.G., ed., Habitat of oil—A sym- posium: Tulsa, Oklahoma, American Association of Petroleum Geologists, p. 395-446. Geiver, Luke, 2014, Entering the frack sand industry, Bakken Mag- azine, April 22. http://www.thebakken.com/articles/602/enter- ing-the-frack-sand-industry (accessed 08-13-14). Glick, E.E., and Frezon, S.E., 1953, Lithologic character of the St. Peter Sandstone and the Everton Formation in the Buffalo River Valley, Newton County, Arkansas: U.S. Geological Survey Cir- cular 249, 39 p. Grabau, A.W., and Sherzer, W.H., 1910, The Monroe Formation of southern Michigan and adjoining regions: Michigan Geological Survey, Publication 2, Geological Series 1. Hack, J.T., 1942, Sedimentation and volcanism in the Hopi Buttes, Arizona: Geological Society of America Bulletin, v. 53, p. 335– 372. Hack, J.T., 1982, Physiographic divisions and differential uplift in the Piedmont and Blue Ridge: U.S. Geological Survey Professional Paper 1265, 49 p. Heinrich, E.W., 2001, Economic geology of the sand and sand- stone resources of Michigan: Michigan Geological Survey Divi- sion Report of Investigation 21, 31 p. Herron, S., 2006, Silica—Industrial sand and sandstone, Industrial minerals and rocks, (7th ed.): Littleton, Colorado, Society for Mining, Metallurgy, and Exploration, Inc., p. 815–832. Hickin, A.S., Ferri, Fil, Ferbey, Travis, and Smith, I.R., 2010, Prelim- inary assessment of potential hydraulic fracture sand sources and their depositional origin, northeast British Columbia: British Columbia Ministry of Energy, Mines and Petroleum Resources Geoscience Reports 2010, p. 35–91. Hirji, Zahra, 2014, Frac sand boom—South Dakota is latest state to try to cash in, http://insideclimatenews.org/news/20140626/ frac-sand-boom-south-dakota-latest-state-try-cash (accessed 06-26-14). Howe, H.J., 1959, Montoya Group stratigraphy (Ordovician) of Trans-Pecos Texas: American Association of Petroleum Geolo- gists Bulletin, v. 43, p. 2285–2332.

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