Anderson, M. P., 2007, Introducing groundwater physics. Physics Today, volume 60, issue 5, pages 42-47.
Atkinson, John, 2000, Based on part of the GeotechniCAL reference package by Professor John Atkinson, http://environment.uwe.ac.uk/geocal/SoilMech/stresses/stresses.htm#EFFECTIVE.
Banks, D., 2015, Horatio Scott Carslaw and the origins of the well function and line source heat function. Scottish Journal of Geology, volume 51, issue 1, pages 100-104, http://dx.doi.org/10.1144/sjg2014-021.
Biot, M. A., 1941, General theory of three-dimensional consolidation. Journal of Applied Physics, volume 12, pages 155-164.
Bredehoeft, J. D., C. E. Neuzil, and P.C.D. Milly, 1983, Regional Flow in the Dakota Aquifer: A Study of the Role of Confining Layers. United States Geological Survey Water-Supply Paper 2237, 45 pages.
Carslaw, H.S., 1921, Introduction to the Mathematical Theory of the Conduction of Heat in Solids, second edition. Macmillan and Company, London, United Kingdom, 152 pages.
Carslaw, H.S., and J. C. Jaeger, 1959, Conduction of Heat in Solids, second edition. Clarendon Press, Oxford, United Kingdom.
Chamberlin, T. C., 1885, The requisite and qualifying conditions of artesian wells. United States Geological Survey Annual Report, number 5, pages 125-173.
Darton, N. H., 1896, Preliminary report on artesian waters of a portion of the Dakotas. United States Geological Survey Annual Report, number 17, part 2, pages 609-691.
Darton, N.H., 1900, United Stated Geological Survey Field photo of Woonsocket Well.
Darton, N. H., 1901, Geology and water resources of the southern half of the Black Hills and adjoining regions in South Dakota and Wyoming. United States Geological Survey Annual Report, number 21, part 4, pages 489-599.
Darton, N. H., 1909, Geology and Underground Waters of South Dakota. United States Geological Survey Water-Supply Paper 227, 156 pages.
Fabry, M., 2016, Now You Know: Why Are There Two Dakotas? Time Magazine, United States, https://time.com/4377423/dakota-north-south-history-two/.
Freeze, R. A., 1985, Historical correspondence between C. V. Theis and C. I. Lubin, Eos, volume 66, number 20, May 14, 1985, p. 442.
Heath, R. H., 1983, Basic Ground-Water Hydrology. United States Geological Survey Water-Supply Paper 2220, 86 pages.
Jacob, C. E., 1940, On the flow of water in an elastic artesian aquifer. Transactions of the American Geophysical Union, volume 21, number 2, pages 574-588.
Jacob, C. E., 1941, Notes on the elasticity of the Lloyd sand on Long Island, New York. in Transactions of the American Geophysical Union, volume 22, number 3, pages 783-787.
King, Franklin Hiram, 1892, Observations and experiments on the fluctuations in the level and rate of movement of ground-water on the Wisconsin agricultural experiment station farm and at Whitewater, Wisconsin. Bulletin of the United States Weather Bureau, volume 5, Washington, D.C. https://books.google.com/books?id=VuifAAAAMAAJ.
King, P. B., 1949, Memorial to Nelson Horatio Darton: Proceedings of the Geological Society of America. Annual Report for 1948, pages 145-170.
Meinzer, O. E. and H.A. Hard, 1925, The Artesian Water Supply of the Dakota Sandstone in North Dakota, with Special Reference to the Edgeley Quadrangle, in Contributions to the Hydrology of the United States 1923-1924. United States Geological Survey Water-Supply Paper 520, Washington, District of Columbia, United States, pages 73-95.
Meinzer, O. E., 1928, Compressibility and elasticity of artesian aquifers. Economic Geology, volume 23, number 3, pages 263-291.
Muskat, M., 1937, The Flow of Homogeneous Fluids Through Porous Media. McGraw-Hill, New York, United States, 763 pages.
Palciauskas, V. V. and P.A. Domenico, 1989, Fluid pressures in deforming porous rocks. Water Resources Research, volume 25, issue 2, pages 203-213.
Pratt, W. E. and D.W. Johnson, 1926, Local subsidence of the Goose Creek Oil Field. Journal of Geology, volume 34, pages 577-590.
Ross, J. F., 2018, The Visionary John Wesley Powell Had a Plan for Developing the West, But Nobody Listened. Smithsonian Institution, https://www.smithsonianmag.com/smithsonian-institution/visionary-john-wesley-powell-had-plan-developing-west-nobody-listened-180969182/.
Schureman, P., 1926, Tides in wells. Geographical Review, volume 16, number 3, pages 479-483.
Singha, K., 2008, An active learning exercise for introducing ground-water extraction from confined aquifers, Journal of Geoscience Education, volume 56, number 2, pages 131-135, https://people.mines.edu/ksingha/wp-content/uploads/sites/44/2018/12/singha2008.pdf.
Stegner, W., 1954, Beyond the Hundredth Meridian: John Wesley Powell and the Second Opening of the West. Houghton Mifflin, 438 pages.
Terzaghi, Charles, 1925, Principles of soil mechanics: VI – Elastic behavior of sand and clay. Engineering News Record, volume 95, pages 987-990 (reprinted in History of Progress, 2003: Selected Papers in Geotechnical Engineering, edited by W. Allen Marr American Society of Civil Engineers, pages 26-29), https://www.google.com/books/edition/_/vGCqACNvq7UC?gbpv=1.
Theis, C. V., 1935, The relation between the lowering of the piezometric surface and the rate and duration of discharge of a well using groundwater storage. American Geophysical Union Transactions, volume 16, pages 519-524.
Thompson, D. G., 1926, Ground-water problems on the barrier beaches of New Jersey. Geological Society of America Bulletin, volume 37, pages 463-474.
Titus, F.B., 1973, Memorial to Charles Edward Jacob; 1914-1970. Geological Society of America, volume 2, pages 76-78.
Wang H.F., 1987, Charles Sumner Slichter: An engineer in mathematician’s clothing, in History of Hydrology, volume 3, E.R. Landa and S. Ince, editors, pages 103-112.
Wang, H. F., 2000, An Introduction to the Linear Theory of Poroelasticity with Applications to Geomechanics and Hydrogeology. Princeton University Press, 287 pages.
Wang, H. F. and M.P. Anderson, 1982, Introduction to Groundwater Modeling: Finite Difference and Finite Element Methods. Academic Press, Appendix D3, page 222.
Woessner, William W. and Eileen P. Poeter, 2020, Hydrogeologic Properties of Earth Materials and Principles of Groundwater Flow. The Groundwater Project, Guelph, Ontario, Canada, 207 pages.