{"id":562,"date":"2022-12-11T23:39:01","date_gmt":"2022-12-11T23:39:01","guid":{"rendered":"https:\/\/books.gw-project.org\/introduction-to-karst-aquifers\/?post_type=part&p=562"},"modified":"2023-01-14T17:58:43","modified_gmt":"2023-01-14T17:58:43","slug":"references","status":"publish","type":"part","link":"https:\/\/books.gw-project.org\/introduction-to-karst-aquifers\/part\/references\/","title":{"raw":"10 References","rendered":"10 References"},"content":{"raw":"
\r\n

Acosta, R.E., R.H. Muller, C.W. Tobias, 1985, Transport processes in narrow (capillary) channels. American Institute of Chemical Engineers Journal, volume\u00a031, issue\u00a03, pages\u00a0473-482, https:\/\/doi.org\/10.1002\/aic.690310315<\/a>.<\/p>\r\n

Adams, R., and G. Parkin, 2002, Development of a surface-groundwater-pipe network model for the sustainable management of karstic groundwater. Environmental Geology, volume\u00a042, issue\u00a05, pages\u00a0513-517, https:\/\/doi.org\/10.1007\/s00254-001-0513-8<\/a>.<\/p>\r\n

Aley, T., 1997, Groundwater tracing in the epikarst in<\/em> Proceedings of the 6th Multidisciplinary Conference on Sinkholes and the Engineering and Environmental Impacts of Karst. A.A. Balkema, Rotterdam. Pp. 207 211.<\/p>\r\n

Aley, Thomas, 2001, Procedures and criteria for the analysis of fluorescein, eosine, rhodamine WT, sulforhodamine B,and pyranine dyes in water and charcoal samplers. Ozark Underground Laboratory, most recent publications accessed January 2022 is https:\/\/www.ozarkundergroundlab.com\/\/oul-documents.html<\/a>.<\/p>\r\n

Aley, T., 2002, Groundwater tracing handbook. Ozark Underground Laboratory, most recent publication accessed January 2022 is https:\/\/www.ozarkundergroundlab.com\/\/oul-documents.html<\/a>.<\/p>\r\n

Anderson, Christopher, 2021a, Photograph titled \"Rumble River and the M.O.S. Borehole Rumbling Falls Cave, Van Buren County, TN\", Professional Photographer, Darklight Imagery, Kentucky, USA.<\/p>\r\n

Anderson, Christopher, 2021b, Photograph titled \"Epitome Lake, Webster Avenue, Webster Cave Complex, Breckinridge County, KY\", Professional Photographer, Darklight Imagery, Kentucky, USA.<\/p>\r\n

Anderson, Christopher, 2021c, Photographs titled (left to right) \"P Strange Falls Hawkins River, Mammoth Cave, Edmondson County, KY\", \"First Falls In Flood Rumbling Falls Cave, Van Buren County, TN\", and \"Shaft Freeman's Pit, IN\", Professional Photographer, Darklight Imagery, Kentucky, USA.<\/p>\r\n

Anderson, Christopher, 2021d, Photographs titled (left to right) \"Stream Spring Mill Cave\", and \"River Passage Cool Spring Cave, Trigg County, KY\", Professional Photographer, Darklight Imagery, Kentucky, USA.<\/p>\r\n

Anderson, M.P., 2005, Heat as a ground water tracer. Groundwater, volume\u00a043, issue\u00a06, pages\u00a0951-968, https:\/\/doi.org\/10.1111\/j.1745-6584.2005.00052.x<\/a>.<\/p>\r\n

Anderson, M.P., W.W. Woessner, and R.J, Hunt, 2015, Applied groundwater modeling\u2014simulation of flow and advective transport. Academic Press, 630\u00a0pages.<\/p>\r\n

Arthur, J.D., J.B. Cowart, J.B. and A.A. Dabous, A.A., 2001, Florida Aquifer storage and recovery geochemical study: Year three progress report. Florida Geological Survey, Open File Report, volume\u00a083, 46\u00a0pages, http:\/\/ufdc.ufl.edu\/UF00094038\/00001<\/a>.<\/p>\r\n

Arthur, J.D., A.A. Dabous., and J.B Cowart., 2002, Mobilization of arsenic and other trace elements during aquifer storage and recovery, southwest Florida in<\/em>. In: United States Geological Survey Artificial Recharge Workshop Proceedings, editors, G.R. Aiken, and E.L. G. R., and E.L. Kuniansky, 2002, United States Geological Survey Artificial Recharge Workshop Proceedings, pages\u00a047-50, https:\/\/water.usgs.gov\/ogw\/pubs\/ofr0289\/jda_mobilization.htm<\/a>.<\/p>\r\n

Arthur, J., H. Wood, A. Baker, J. Cichon, and G. Raines, 2007, Development and implementation of a Bayesian-based aquifer vulnerability assessment in Florida. Natural Resources Research, volume\u00a016, issue\u00a02, pages\u00a093-107, https:\/\/doi.org\/10.1007\/s11053-007-9038-5<\/a>.<\/p>\r\n

Auckenthaler, A., G. Raso, and P. Huggenberger, 2002, Particle transport in a karst aquifer: Natural and artificial tracer experiments with bacteria, bacteriophages, and microspheres. Water Science and Technology, volume\u00a046, issue\u00a03, pages\u00a0131-138, https:\/\/doi.org\/10.2166\/wst.2002.0072<\/a>.<\/p>\r\n

Bakalowicz, M., 2005, Karst groundwater: A challenge for new resources. Hydrogeology Journal, volume\u00a013, issue\u00a01, pages\u00a0148-160, https:\/\/doi.org\/10.1007\/s10040-004-0402-9<\/a>.<\/p>\r\n

Bandy, A.M.., A. Fryar, K. Cook, J. Polk, K. McClanahan, and S. Macko, 2016, Mobility of Escherichia coli<\/em> compared to traditional groundwater tracers within karst terrains. Karst Waters Institute Special Publication, volume\u00a019, 13\u00a0pages.<\/p>\r\n

Barret, M.E., and R.J. Charbeneau, 1997, A parsimonious model for simulating flow in a karst aquifer. Journal of Hydrology, volume\u00a0196, pages\u00a047-65, https:\/\/doi.org\/10.1016\/S0022-1694(96)03339-2<\/a>.<\/p>\r\n

Bauer, S., 2002, Simulation of the genesis of karst aquifers in carbonate rocks. Institut und Museum f\u00fcr Geologie und Pal\u00e4ontologie der Universit\u00e4t T\u00fcbingen, volume\u00a062.<\/p>\r\n

Bauer, S., R. Liedl., and M. Sauter, 2000, Modelling of karst development considering conduit-matrix exchange flow. International Association of Hydrological Sciences Publication, pages\u00a010-15, https:\/\/iahs.info\/uploads\/dms\/16981.02-10-15-Bauer-et-al..pdf<\/a>.<\/p>\r\n

Bauer, S., R. Liedl, and M. Sauter, 2003, Modeling of karst aquifer genesis: Influence of exchange flow. Water Resources Research, volume\u00a039, number\u00a010, issue\u00a01,285\u00a0pages, https:\/\/doi.org\/10.1029\/2003WR002218<\/a>.<\/p>\r\n

Bayless, E.R., P.J. Cinotto, R.L. Ulery, C.J. Taylor, G.K. McCombs, M.H. Kim, and H.L. Nelson Jr., 2014, Surface-water and karst groundwater interactions and streamflow-response simulations of the karst-influenced upper Lost River watershed, Orange County, Indiana. United States Geological Survey, Scientific Investigations Report 2014-5028, 39\u00a0pages, https:\/\/doi.org\/10.3133\/sir20145028<\/a>.<\/p>\r\n

Bayless, E.R., C.J. Taylor, and M.S. Hopkins, 1994, Directions of ground-water flow and locations of ground-water divides in the Lost River watershed near Orleans, Indiana. United States Geological Survey, Water-Resources Investigations Report\u00a094-4195, https:\/\/doi.org\/10.3133\/wri944195<\/a>.<\/p>\r\n

Bear, J., 1979, Hydraulics of groundwater. McGraw-Hill, Incorporated, New York, USA, 567\u00a0pages.<\/p>\r\n

Behrens, H., 1986, Water tracer chemistry: A factor determining performance and analytics of tracers. Proceedings of 5th<\/sup> International Symposium on underground water tracing, Institute of Geology and Mineral Exploration, Athens, Greece, pages\u00a0121-133.<\/p>\r\n

Behrens, H., U. Beims, H. Dieter., G. Dietze, T. Eikmann, T. Grummt, H. Hanisch., H. Henseling, W. K\u00e4ss, H. Kerndorff, C. Leibundgut, U. M\u00fcller-Wegener, I. R\u00f6nnefahrt, B. Scharenberg, R. Schleyer, W. Schloz, and F. Tilkes, 2001, Toxicological and ecotoxicological assessment of water tracers. Hydrogeology Journal, volume\u00a09, issue\u00a03, pages\u00a0321-325, https:\/\/doi.org\/10.1007\/s100400100126<\/a>.<\/p>\r\n

Benischke, R., 2021, Review: Advances in the methodology and application of tracing in karst aquifers. Hydrogeology Journal, volume\u00a029, pages\u00a067-88, https:\/\/doi.org\/10.1007\/s10040-020-02278-9<\/a>.<\/p>\r\n

Bentall, R., 1964, Methods of determining permeability, transmissibility, and drawdown. United States Geological Survey, Water-Supply Paper 1536-I, https:\/\/doi.org\/10.3133\/wsp1536I<\/a>.<\/p>\r\n

Birk, S., 2002, Characterization of karst systems by simulating aquifer genesis and spring responses: Model development and application to gypsum karst. T\u00fcbinger Geowiss. Arb., Reihe C, Accessed February 2022 https:\/\/www.researchgate.net\/publication\/289547236_Characterisation_of_karst_systems_by_simulating_aquifer_genesis_and_spring_responses_Model_development_and_application_to_gypsum_karst<\/a>.<\/p>\r\n

B\u00f6hlke, J.K., and J.M. Denver, 1995, Combined use of groundwater dating, chemical, and isotopic analyses to resolve the history and fate of nitrate contamination in two agricultural watersheds, Atlantic coastal plain, Maryland. Water Resources Research, volume\u00a031, pages\u00a02319-2339, https:\/\/doi.org\/10.1029\/95WR01584<\/a>.<\/p>\r\n

Bouwer, Herman, 1978, Groundwater Hydrology. McGraw-Hill, New York, USA, 480\u00a0pages.<\/p>\r\n

Brahana, J.V., and E.F. Hollyday, 1988, Dry stream reaches in carbonate terranes: Surface indicators of ground-water reservoirs. American Water Resources Association Bulletin, volume\u00a024, issue\u00a03, pages\u00a0577-580 https:\/\/doi.org\/10.1111\/j.1752-1688.1988.tb00907.x<\/a>.<\/p>\r\n

Bunnell, Dave, 2006, Photo by Dave Bunnell showing the most common speleothems<\/a> by\u00a0Dave Bunnell<\/a>\u00a0is licensed under\u00a0CC BY-SA 2.5<\/a>.<\/p>\r\n

Butler, D.K., 1984, Microgravimetric and gravity gradient techniques for detection of subsurface cavities. Geophysics, volume\u00a049, issue\u00a07, pages\u00a01084-1096, https:\/\/doi.org\/10.1190\/1.1441723<\/a>.<\/p>\r\n

Butler, J.J., 2019, The design, performance, and analysis of slug tests. CRC Press, New York, USA, https:\/\/doi.org\/10.1201\/9780367815509<\/a>.<\/p>\r\n

Cao, M., J. Lei, Q. He, Z. Zeng, X. L\u00fc, and Y. Jiang, 2021, Rainfall-driven and hydrologically-controlled variations in cave CO2<\/sub> sources and dynamics: Evidence from monitoring soil CO2<\/sub>, stream flow and cave CO2<\/sub>. Journal of Hydrology, volume\u00a0595, article number\u00a0126060, https:\/\/doi.org\/10.1016\/j.jhydrol.2021.126060<\/a>.<\/p>\r\n

Cao, J., D. Yuan, C. Groves, F. Huang, H. Yang, and L. Qian., 2012, Carbon fluxes and sinks: The consumption of atmospheric and soil CO2<\/sub> by carbonate rock dissolution. Acta Geologica Sinica\u2014English Edition, volume\u00a086, issue\u00a04, pages\u00a0963-972, https:\/\/doi.org\/10.1111\/j.1755-6724.2012.00720.x<\/a>.<\/p>\r\n

Cao, J., X. Wu, F. Huang, B. Hu, C. Groves, H. Yang, and C.L. Zhang, 2018, Global significance of the carbon cycle in the karst dynamic system: Evidence from geological and ecological processes. China Geology, volume\u00a01, pages\u00a017-27, https:\/\/doi.org\/10.31035\/cg2018004<\/a>.<\/p>\r\n

Chen, Z., A.S. Auler, M. Bakalowicz, D. Drew, F. Griger, J. Hartmann, G. Jiang, N. Moosdorf, A. Richts, Z. Stevanovic, G. Veni, and N. Goldscheider, 2017, The world karst aquifer mapping project: Concept, mapping procedure and map of Europe. Hydrogeology Journal, volume\u00a025, issue\u00a03, pages\u00a0771-785, https:\/\/doi.org\/10.1007\/s10040-016-1519-3<\/a>.<\/p>\r\n

Choquette, P.W., and L.C. Pray, 1970, Geologic nomenclature and classification of porosity in sedimentary carbonates. American Association of Petroleum Geologists Bulletin, volume\u00a054, issue\u00a02, pages\u00a0207-250, https:\/\/doi.org\/10.1306\/5D25C98B-16C1-11D7-8645000102C1865D<\/a>.<\/p>\r\n

Clark, I.D., and P. Fritz, 1997, Environmental isotopes in hydrogeology. CRC Press, Boca Raton, Florida, USA, 328\u00a0pages, https:\/\/doi.org\/10.1201\/9781482242911<\/a>.<\/p>\r\n

Clemens, T., D. H\u00fcckinghaus, M. Sauter, R. Liedl, and G. Teutsch, 1996, A combined continuum and discrete network reactive transport model for the simulation of karst development. International Association of Hydrological Sciences Publication, volume\u00a0237, pages\u00a0309-318, https:\/\/iahs.info\/uploads\/dms\/10509.309-318-237-Clemens.pdf<\/a>.<\/p>\r\n

Cook, Peter, 2020, Introduction to Isotopes and Environmental Tracers as Indicators of Groundwater Flow<\/a>. The Groundwater Project, Guelph, Ontario, Canada.<\/p>\r\n

Cook, P.G., and A.L. Herczeg, 2000, Environmental tracers in subsurface hydrology. Kluwer Academic Publishers, Boston, USA, 529\u00a0pages, https:\/\/doi.org\/10.1007\/978-1-4615-4557-6<\/a>.<\/p>\r\n

Copeland, R., 2003, Florida spring classification system and spring glossary. Florida Geological Survey, Tallahasse, Florida, USA, Special Publication number\u00a052, 17\u00a0pages, https:\/\/www.lake.wateratlas.usf.edu\/upload\/documents\/SP_52-Fla-Springs-Classification-Glossary-2003.pdf<\/a>.<\/p>\r\n

Cowart, J.B., H.K. Williams, and J.D. Arthur, 1998, Mobilization of U isotopes by the introduction of surface waters into a carbonate aquifer. Geological Society of America Abstracts with Programs, volume\u00a030, issue\u00a07, page\u00a0A-86.<\/p>\r\n

Cressler, A., 2005, Photograph of Upper Cueva Ventana, Ventana Entrance, Municipio de Arecibo, Puerto Rico, Dawn Ryan, Overlooking the Rio Grande de Arecibo Valley. Alan Cressler, Hydrologic Technician, United States Geological Survey, Norcross, Georgia, USA.<\/p>\r\n

Cressler, A., 2006, Field photographs of Dry Spring cave in Jackson County, Alabama, USA. Alan Cressler, Hydrologic Technician, United States Geological Survey, Norcross, Georgia, USA.<\/p>\r\n

Cressler, A., 2009, Photograph of Deer Cave, West Entrance Area, Gunung Mulu National Park, Borneo, Sarawak, Malaysia. Alan Cressler, Hydrologic Technician, United States Geological Survey, Norcross, Georgia, USA.<\/p>\r\n

Cressler, A., 2010, Field photograph of Alapaha River, river sink, Jennings Bluff-Avoca Tracts, Suwannee River Water Management District Lands, Hamilton County, Florida, USA. Allan Cressler, Hydrologic Technician, United States Geological Survey, Norcross, Georgia, USA.<\/p>\r\n

Cressler, A., 2011, Field photograph of Blue Hole Spring vent, Ichetucknee Springs State Park, Suwannee County, Florida taken by Alan Cressler, November 21, 2011, Hydrologic Technician, United States Geological Survey, Norcross, Georgia, USA.<\/p>\r\n

Cressler, A., 2013, Photograph of Putai Blowholes and Pancake Rocks, stylobedding, Dolomite Point, Paparoa National Park, Buller District, West Coast, New Zealan. Alan Cressler, January 3, 2013, Hydrologic Technician, United States Geological Survey, Norcross, Georgia, USA.<\/p>\r\n

Cressler, A., 2014, Field photograph of Waterslide Cave, Stephens Gap Callahan Cave Preserve, Southeastern Cave Conservancy, Jackson County, Alabama, Mississippian age Pennington Formation. Alan Cressler, November 22, 2014, Hydrologic Technician, United States Geological Survey, Norcross, Georgia, USA.<\/p>\r\n

Cressler, A., 2016, Field photograph of Ocala Limestone, Eocene Age, Ozello Archipelago, Gulf of Mexico, Citrus County, Florida taken by Alan Cressler, March 17, 2016, Hydrologic Technician, United States Geological Survey, Norcross, Georgia, USA.<\/p>\r\n

Cunningham, K.J., 2008, Photographs a and b, Research Hydrologist, United States Geological Survey, Davee, Florida, USA.<\/p>\r\n

Cunningham, K.J., and A. Aviantara, 2001, Characterization of the karstic Biscayne Aquifer in southeastern Florida using ground-penetrating radar, digital optical borehole images and cores in<\/em> Proceedings of the 2001 United Stated Geological Survey, Karst Interest Group, Saint Petersburg, Florida, USA, February 13-16, editor, E. Kuniansky, https:\/\/web.archive.org\/web\/20170602222911\/https:\/\/water.usgs.gov\/ogw\/karst\/kigconference\/kjc_characterization.htm<\/a>.<\/p>\r\n

Cunningham, K.J., S.D. Locker, A.C. Hine, D. Burky, J.A. Barron, and L.A. Guertin, 2001, Surface-geophysical characterization of ground-water systems of the Caloosahatchee River Basin, Southern Florida. United States Geological Survey, Water-Resources Investigations Report\u00a02001-4084, https:\/\/doi.org\/10.3133\/wri014084<\/a>.<\/p>\r\n

Cunningham, K.J., R.A. Renken, M.A. Wacker, M.R. Zygnerski, E. Robinson, A.M. Shapiro, and G.L. Wingard, 2006, Application of carbonate cyclostratigraphy and borehole geophysics to delineate porosity and preferential flow in the karst limestone of the Biscayne Aquifer, SE Florida. Geological Society of America Special Papers, volume\u00a0404, pages\u00a0191-208, https:\/\/doi.org\/10.1130\/2006.2404(16)<\/a>.<\/p>\r\n

Cunningham, K.J., M.C. Sukop, H. Huang, P.F. Alvarez, H.A. Curran, R.A. Renken, and J.F. Dixon, 2009, Prominence of ichnologically influenced macroporosity in the karst Biscayne Aquifer: Stratiform \"super-K\" zones. Geological Society of America Bulletin, volume\u00a0121, numbers\u00a01-2, pages\u00a0164-180, https:\/\/doi.org\/10.1130\/B26392.1<\/a>.<\/p>\r\n

Currens, J.C., R.L. Paylor, and J.A. Ray, 2002, Mapped karst groundwater basins in the Lexington 30x60 minute quadrangle. Kentucky Geological Survey Map and Chart 35, Series XII, https:\/\/doi.org\/10.13023\/kgs.mc35.12<\/a>.<\/p>\r\n

Dauda, M., and G.A. Habib, 2015, Graphical Techniques of Presentation of Hydro-Chemical Data. Journal of Environment and Earth Science, volume\u00a05, issue\u00a04, pages\u00a065-75, https:\/\/core.ac.uk\/download\/pdf\/234664092.pdf<\/a>.<\/p>\r\n

Davis, J.H., 1996, Hydrogeologic investigation and simulation of ground-water flow in the Upper Floridan aquifer of north-central Florida and delineation of contributing areas for selected City of Tallahassee, Florida, water-supply wells. United States Geological Survey, Water-Resources Investigations Report 95-4296, https:\/\/doi.org\/10.3133\/wri954296<\/a>.<\/p>\r\n

Davis, J.H., and B.G. Katz, 2007, Hydrogeologic investigation, water chemistry analysis, and model delineation of contributing areas for city of Tallahassee public-supply wells, Tallahassee, Florida. United States Geological Survey, Scientific Investigations Report\u00a02007-5070, https:\/\/pubs.usgs.gov\/sir\/2007\/5070\/<\/a>.<\/p>\r\n

Davis, J.H., B.G. Katz, and D.W. Griffin, 2010, Nitrate-N Movement in groundwater from the land application of treated municipal wastewater and other sources in the Wakulla Springs Springshed, Leon and Wakulla Counties, Florida, 1966-2018. United States Geological Survey, Scientific Investigations Report\u00a02010-5099, https:\/\/pubs.usgs.gov\/sir\/2010\/5099\/<\/a>.<\/p>\r\n

Day-Lewis, F.D., J.M. Harris, and S.M. Gorelick, 2002, Time\u2010lapse inversion of crosswell radar data. Geophysics, volume\u00a067, pages\u00a01740-1752, https:\/\/doi.org\/10.1190\/1.1527075<\/a>.<\/p>\r\n

De Rooij, R., and W. Graham, 2017, Generation of complex karstic conduit networks with a hydrochemical model. Water Resources Research, volume\u00a053, number\u00a08, pages\u00a06993-7011, https:\/\/doi.org\/10.1002\/2017WR020768<\/a>.<\/p>\r\n

Deutsch, W.J., 1997, Groundwater Geochemistry Fundamentals and Applications to Contamination. CRC Press, Lewis Publishers, Boca Raton, Florida, USA, 221\u00a0pages, https:\/\/doi.org\/10.1201\/9781003069942<\/a>.<\/p>\r\n

Doerfliger, N., P.Y. Jeannin, and F. Zwahlen, 1999, Water vulnerability assessment in karst environments: A new method of defining protection areas using a multi-attribute approach and GIS tools (EPIK method). Environmental Geology, volume\u00a039, number\u00a02, pages\u00a0165-176, https:\/\/doi.org\/10.1007\/s002540050446<\/a>.<\/p>\r\n

Domenico, P.A., and F.W. Schwartz, 1990, Physical and chemical hydrogeology. John Wiley and Sons, New York, USA, 824\u00a0pages.<\/p>\r\n

Dooge, J.C.I., 1973, Linear theory of hydrologic systems. United States Department of Agriculture, Agricultural Research Service, Technical Bulletin number\u00a01468, 327\u00a0pages, https:\/\/higherlogicdownload.s3.amazonaws.com\/AGU\/31ea296c-2c70-4dad-92ef-c4681bc6a288\/UploadedImages\/Dooge_LinearTheoryHydrology.pdf<\/a>.<\/p>\r\n

Dreiss, S.J., 1982, Linear kernels for karst aquifers. Water Resources Research, volume\u00a018, number\u00a04, pages\u00a0865-876, https:\/\/doi.org\/10.1029\/WR018i004p00865<\/a>.<\/p>\r\n

Drever, J.I., 1988, The Geochemistry of Natural Waters, 2nd<\/sup> edition. Prentice Hall, Englewood Cliffs, New Jersey, USA, 437\u00a0pages.<\/p>\r\n

Driscoll, F.G., 1986, Groundwater and wells, 2nd<\/sup> edition. Johnson Division, Saint Paul, Minnesota, USA, 1089\u00a0pages.<\/p>\r\n

Ewers, R.O., 2006, Karst aquifers and the role of assumptions and authority in science. Geological Society of America Special Papers, volume\u00a0404, pages\u00a0235-242, https:\/\/doi.org\/10.1130\/2006.2404(19)<\/a>.<\/p>\r\n

Feist, S.K., J.C. Maclachlan, E.G. Reinhardt, and H.S. Skelding, 2020, Anthropogenic events captured within sediment in Hidden River Cave, Kentucky. Quaternary Science Advances, volume\u00a01, article number\u00a0100001, https:\/\/doi.org\/10.1016\/j.qsa.2020.100001<\/a>.<\/p>\r\n

Ferris, J.G., D.B. Knowles, R.H. Brown, and R.W. Stallman, 1962, Theory of aquifer tests. United States Geological Survey, Water-Supply Paper\u00a01536-E, 174\u00a0pages.<\/p>\r\n

Field, M.S., 1993, Karst hydrology and chemical contamination. Journal of Environmental Systems, volume\u00a022, number\u00a01, pages\u00a01-26, http:\/\/triggered.stanford.clockss.org\/ServeContent?url=http%3A%2F%2Fbaywood.stanford.clockss.org%2FBWES%2FBAWOOD_BWES_22_1%2FX7MVC93E66GKBFH7.pdf<\/a>.<\/p>\r\n

Field, M.S., 2002, The QTRACER2 program for tracer-breakthrough curve analysis for tracer tests in karstic aquifers and other hydrologic systems. United States Environmental Protection Agency, Office of Research and Development, National Center for Environmental Assessment, Washington Office, Washington, DC, USA, EPA\/600\/R-02\/001, https:\/\/cfpub.epa.gov\/ncea\/risk\/recordisplay.cfm?deid=54930<\/a>.<\/p>\r\n

Field, M.S., 2003, A review of some tracer-test design equations for tracer-mass estimation and sample-collection frequency. Environmental Geology, volume\u00a043, number\u00a08, pages\u00a0867-881, https:\/\/doi.org\/10.1007\/s00254-002-0708-7<\/a>.<\/p>\r\n

Field, M.S., 2004, Forecasting versus predicting solute transport in solution conduits for estimating drinking-water risks. Acta Carsologica, volume\u00a033, number\u00a02, 116\u00a0pages, https:\/\/doi.org\/10.3986\/ac.v33i2.295<\/a>.<\/p>\r\n

Field, M.S., and S.G. Nash, 1997, Risk assessment methodology for karst aquifers (1): Estimating karst conduit-flow parameters. Environmental Monitoring and Assessment, volume\u00a047, pages\u00a01-21, https:\/\/doi.org\/10.1023\/A:1005753919403<\/a>.<\/p>\r\n

Fitterman, D.V., and M. Deszcz-Pan, 1998, Helicopter EM mapping of saltwater intrusion in Everglades National Park, Florida. Exploration Geophysics, volume\u00a029, pages\u00a0240-243, https:\/\/doi.org\/10.1071\/EG998240<\/a>.<\/p>\r\n

Florea, L.L, and H.L. Vacher, 2006, Springflow hydrographs: Eogenetic vs. telogenetic kars. Groundwater, volume\u00a044, number\u00a03, pages\u00a0352-361, https:\/\/doi.org\/10.1111\/j.1745-6584.2005.00158.x<\/a>.<\/p>\r\n

Folk, R., 1981, Petrology of sedimentary rocks. Hemphill Publishing Company, 2nd<\/sup> edition, Austin, Texas, USA, 182\u00a0pages, http:\/\/hdl.handle.net\/2152\/22930<\/a>.<\/p>\r\n

Fong, D.W., D.C. Culver, G. Veni, and S.A. Engel, 2013, Carbon and Boundaries in Karst. Abstracts of the conference held January 7-13, 2013, Carlsbad, New Mexico, USA. Karst Waters Institute Special Publication\u00a017, Karst Waters Institute, Leesburg, Virginia, 54\u00a0pages, https:\/\/karstwaters.org\/wp-content\/uploads\/2015\/04\/SP17_CarbonBoundaries.pdf<\/a>.<\/p>\r\n

Ford, D., and P. Williams, 2007, Karst Hydrogeology and Geomorphology. Wiley, 576\u00a0pages, https:\/\/doi.org\/10.1002\/9781118684986<\/a>.<\/p>\r\n

Ford, T.D., and C.H.D. Cullingford (editors), 1976, The Science of Speleology. Academic Press, London, New York, 594 pages.<\/p>\r\n

Freeze, A.R., and J.A. Cherry, 1979, Groundwater. The Groundwater Project, Guelph, Ontario, Canada, http:\/\/gw-project.org\/books\/groundwater\/<\/a>.<\/p>\r\n

Fu, S., Q. Fang, A. Li, Z. Li, J. Han, X. Dang, and W. Han, 2020, Accurate characterization of full pore size distribution of tight sandstones by low-temperature nitrogen gas adsorption and high-pressure mercury intrusion combination method. Energy Science & Engineering, volume\u00a09, pages\u00a080-100, https:\/\/doi.org\/10.1002\/ese3.817<\/a>.<\/p>\r\n

Gallegos, J.J., B.X. Hu, and H. Davis, 2013, Simulating flow in karst aquifers at laboratory and sub-regional scales using MODFLOW-CFP. Hydrogeology Journal, volume\u00a021, pages\u00a01749-1760, https:\/\/doi.org\/10.1007\/s10040-013-1046-4<\/a>.<\/p>\r\n

Garcia, C.A., T.R. Jackson, K.J. Halford, D.S. Sweetkind, N.A. Damar, J.M. Fenelon, and S.R. Reiner, 2017, Hydraulic characterization of volcanic rocks in Pahute Mesa using an Integrated Analysis of 16 multiple-well aquifer tests, Nevada National Security Site, 2009-14. United States Geological Survey, Scientific Investigations Report\u00a02016-5151, https:\/\/doi.org\/10.3133\/sir20165151<\/a>.<\/p>\r\n

Gary, M.O., D.F. Rucker, B.D. Smith, D.V. Smith, and K. Befus, 2013, Geophysical investigations of the Edwards-Trinity Aquifer system at multiple scales: Interpreting airborne and direct-current resistivity in karst. National Cave and Karst Research Institute Symposium 2, Proceedings of the 13th<\/sup> Sinkhole Conference, May 6-10, 2013, Carlsbad, New Mexico, USA, pages\u00a0195-206, https:\/\/digitalcommons.usf.edu\/cgi\/viewcontent.cgi?article=1127&context=sinkhole_2013<\/a>.<\/p>\r\n

Glover, P.W.J., and E. Walker, 2009, Grain-size to effective pore-size transformation derived from electrokinetic theory. Geophysics, volume\u00a074, number\u00a01, pages\u00a0E17-E29, doi.org\/10.1190\/1.3033217<\/a>.<\/p>\r\n

Goldscheider, N. and D. Drew, 2007, Methods in Karst Hydrogeology. International Association of Hydrogeologists: International Contributions to Hydrology 26, 1st<\/sup> edition, CRC Press, https:\/\/doi.org\/10.1201\/9781482266023<\/a>.<\/p>\r\n

Goldscheider, N., J. Meiman, M. Pronk, and C. Smart, 2008, Tracer tests in karst hydrogeology and speleology. International Journal of Speleology, volume\u00a037, number\u00a01, pages\u00a027-40, https:\/\/doi.org\/10.5038\/1827-806X.37.1.3<\/a>.<\/p>\r\n

G\u00f6ppert N., and N. Goldscheider, 2008, Solute and colloid transport in karst conduits under low and high flow conditions. Groundwater, volume\u00a046, number\u00a01, pages\u00a061-68, https:\/\/doi.org\/10.1111\/j.1745-6584.2007.00373.x<\/a>.<\/p>\r\n

Gouzie, D.R., K.L. Mickus, and M.V. Mayle, 2014, Challenges to a karst dye-tracing investigation in an urban brownfields area, Springfield, Missouri in<\/em> United States Geological Survey Karst Interest Group Proceedings, Carlsbad, New Mexico, USA, April 29-May 2, 2014, editors, E.L. Kuniansky and Spangler. United States Geological Survey, Scientific Investigations Report\u00a02014-5035, pages\u00a045-54, https:\/\/pubs.usgs.gov\/sir\/2014\/5035\/sir2014-5035.pdf<\/a>.<\/p>\r\n

Green, R.T., S.L. Painter, A. Sun, and S.R.H. Worthington, 2006, Groundwater contamination in karst terranes. Water, Air, and Soil Pollution: Focus, volume\u00a06, pages\u00a0157-170, https:\/\/doi.org\/10.1007\/s11267-005-9004-3<\/a>.<\/p>\r\n

Groves, C., 2007, Hydrologic methods in<\/em> Methods in Karst Hydrogeology, International Association of Hydrologists: Contributions to Hydrology, editors, N. Goldscheider and Drew, CRC Press, pages\u00a045-64, https:\/\/doi.org\/10.1201\/9781482266023<\/a>.<\/p>\r\n

Grubbs, J.W., and C.A. Crandall, 2007, Exchanges of water between the Upper Floridan aquifer and the Lower Suwannee and Lower Santa Fe Rivers, Florida. United States Geological Survey, Professional Paper\u00a01656-C, https:\/\/pubs.usgs.gov\/pp\/pp1656c\/<\/a>.<\/p>\r\n

Gunn, J., 1986, A conceptual model for conduit flow dominated karst aquifers in<\/em> Karst water resources, Proceedings of the International Symposium, Ankara, Turkey, July 1985, editors, G. Gunay and Johnson. International Association of Hydrological Sciences Publication, volume\u00a0161, pages\u00a0587-596, http:\/\/pascal-francis.inist.fr\/vibad\/index.php?action=getRecordDetail&idt=8335030<\/a>.<\/p>\r\n

Haeni, F.P., L. Halleux, C.D. Johnson, and J.W. Lane Jr., 2002, Detection and mapping of fractures and cavities using borehole radar. Fractured Rock Association, pages\u00a013-15, https:\/\/water.usgs.gov\/ogw\/bgas\/publications\/FracRock02_haeni\/FracRock02_haeni.pdf<\/a>.<\/p>\r\n

Hak, J., I. Hunyadi, I. Csigea, G. G\u00e9czy, L. L\u00e9n\u00e1rt, and A.V\u00e1rhegyi, 1997, Radon transport phenomena studied in karst caves-international experiences on radon levels and exposures. Radiation Measurements, volume\u00a028, issues\u00a01-6, pages\u00a0675-684, https:\/\/doi.org\/10.1016\/S1350-4487(97)00163-7<\/a>.<\/p>\r\n

Halford, K.J., and E.L. Kuniansky, 2002, Spreadsheets for the analysis of pumping-aquifer test and slug test data. United States Geological Survey, Open-File Report\u00a002-197, http:\/\/pubs.usgs.gov\/of\/2002\/ofr02197\/<\/a>.<\/p>\r\n

Halford, K.J., and D. Yobbi, 2005, Numerical simulation of aquifer tests, west-central Florida. United States Geological Survey, Scientific Investigations Report\u00a02005-5201,\u00a0https:\/\/doi.org\/10.3133\/sir20055201<\/a>.<\/p>\r\n

Halford, K.J., and D. Yobbi, 2006, Estimating hydraulic properties using a moving-model approach and multiple aquifer tests. Groundwater, volume\u00a044, issue\u00a02, pages\u00a0284-291, https:\/\/doi.org\/10.1111\/j.1745-6584.2005.00109.x<\/a>.<\/p>\r\n

Halihan, T., R.E. Mace, and J.M. Sharp Jr., 1999, Interpreting flow using permeability at multiple scales in<\/em> Karst Modeling, Special Publication\u00a05, Karst Waters Institute, https:\/\/www.researchgate.net\/publication\/275832646_INTERPRETING_FLOW_United\u00a0StatesING_PERMEABILITY_AT_MULTIPLE_SCALES\/link\/5547e85d0cf26a7bf4da9a86\/download<\/a>.<\/p>\r\n

Halihan, T., J.M. Sharp Jr., and R.E. Mace, 2000, Flow in the San Antonio segment of the Edwards Aquifer: Matrix, fractures, or conduits? in<\/em> Groundwater flow and contaminant transport in carbonate aquifers, editors, I.D. Sasowsky and Wicks, pages\u00a0129-146, A.A. Balkema, Rotterdam, Netherlands, https:\/\/www.researchgate.net\/publication\/275832559_Flow_in_the_San_Antonio_segment_of_the_Edwards_aquifer_matrix_fractures_or_conduits<\/a>.<\/p>\r\n

Hall, P., and J. Chen, 1996, Water well and aquifer test analysis. Water Resources Publication, https:\/\/www.wrpllc.com\/books\/wwat.html<\/a>.<\/p>\r\n

Harbaugh, A.W., 2005, MODFLOW-2005, the United States Geological Survey modular ground-water model. United States Geological Survey Techniques and Methods\u00a06-A16, https:\/\/wwwbrr.cr.usgs.gov\/hill_tiedeman_book\/documentation\/MODFLOW-MODPATH-ModelViewer\/MF2005-tma6a16.pdf<\/a>.<\/p>\r\n

Hartmann, A., N. Goldscheider, T. Wagener, J. Lange, and M. Weiler, 2014, Karst water resources in a changing world: Review of hydrological modeling approaches. American Geophysical Union Reviews of Geophysics, volume\u00a052, issue\u00a03, pages\u00a0218-242, https:\/\/doi.org\/10.1002\/2013RG000443<\/a>.<\/p>\r\n

Harvey, R.W., 1997, Microorganisms as tracers in groundwater injection and recovery experiments: A review. Federation of European Microbiological Societies Microbiology Reviews, volume\u00a020, issues\u00a03-4, pages\u00a0461-472, https:\/\/doi.org\/10.1111\/j.1574-6976.1997.tb00330.x<\/a>.<\/p>\r\n

<\/a>Harvey, R.W., D.W. Metge, A.M. Shapiro, R.A. Renken, C.L. Osborn, J.N., Ryan, K.J. Cunningham, and L. Landkamer, 2008, Pathogen and chemical transport in the karst limestone of the Biscayne Aquifer: 3. Use of microspheres to estimate the transport potential of Cryptosporidium parvum<\/em> oocysts. Water Resources Research, volume\u00a044, issue\u00a08, 12\u00a0pages, https:\/\/doi.org\/10.1029\/2007WR006060<\/a>.<\/p>\r\n

Haugh, C.J., 2006, Hydrogeology and simulation of ground-water flow at Arnold Air Force Base, Coffee and Franklin Counties, Tennessee, 2002. Unites States Geological Survey, Scientific Investigations Report\u00a02006-5157, https:\/\/pubs.usgs.gov\/sir\/2006\/5157\/<\/a>.<\/p>\r\n

Hem, J.D., 1985, Study and interpretation of the chemical characteristics of natural water, 3rd<\/sup> edition. United States Geological Survey, Water Supply Paper\u00a02254, https:\/\/pubs.usgs.gov\/wsp\/wsp2254\/<\/a>.<\/p>\r\n

Henderson, R.D., F.D. Day-Lewis, E. Abarca, C.F. Harvey, H.N. Karam, L. Liu, and J.W. Lane, 2010, Marine electrical resistivity imaging of submarine groundwater discharge: Sensitivity analysis and application in Waquoit Bay, Massachusetts, USA. Hydrogeology Journal, volume\u00a018, pages\u00a0173-185, https:\/\/doi.org\/10.1007\/s10040-009-0498-z<\/a>.<\/p>\r\n

Hess, A.E., 1986, Identifying hydraulically conductive fractures with a slow-velocity borehole flowmeter. Canadian Geotechnical Journal, volume\u00a023, issue\u00a01, pages\u00a069-78, https:\/\/doi.org\/10.1139\/t86-008<\/a>.<\/p>\r\n

Hill, M.E., M.T. Stewart, and A. Martin, 2010, Evaluation of the MODFLOW-2005 Conduit Flow Process. Ground Water, volume\u00a048, pages\u00a0549-559, https:\/\/doi.org\/10.1111\/j.1745-6584.2009.00673.x<\/a>.<\/p>\r\n

Hillier, F.S., and G.J. Lieberman, 1967, Introduction to operations research. Holden-Day Series in Industrial Engineering and Management Science, San Francisco, 639\u00a0pages.<\/p>\r\n

Hortness, J.E., and D.G. Driscoll, 1998, Streamflow losses in the Black Hills of western South Dakota. United States Geological Survey, Water Resources Investigations Report\u00a098-4116, https:\/\/pubs.usgs.gov\/wri\/wri984116\/<\/a>.<\/p>\r\n

Hsieh, P.A., 2001, Topodrive and particleflow\u2014Two computer models for simulation and visualization of ground-water flow and transport of fluid particles in two dimensions. United States Geological Survey, Open-File Report\u00a02001-286, https:\/\/doi.org\/10.3133\/ofr01286<\/a>.<\/p>\r\n

Hu, C., Y. Hao, T.C.J. Yeh, B. Pang, and Z. Wu, 2007, Simulation of spring flows from a karst aquifer with an artificial neural network. Hydrological Processes, volume\u00a022, issue\u00a05, pages\u00a0596-604, https:\/\/doi.org\/10.1002\/hyp.6625<\/a>.<\/p>\r\n

Hunt, B.B., B.A Smith, S. Campbell, J. Beery, N. Hauwert, and D. Johns, 2005, Dye tracing recharge features under high-flow conditions, Onion Creek, Barton Springs Segment of the Edwards Aquifer, Hays County, Texas. Austin Geological Society Bulletin, volume\u00a01, pages\u00a070-86, https:\/\/digital.lib.usf.edu\/content\/SF\/S0\/05\/17\/70\/00001\/K26-01321-Dye_AGS_Report_2005.pdf<\/a>.<\/p>\r\n

Istok, J., and K. Dawson, 1991, Aquifer testing: Design and analysis of pumping and slug tests. Lewis Publishers, 280\u00a0pages, https:\/\/www.taylorfrancis.com\/books\/mono\/10.1201\/9781498710756\/aquifer-testing-jonathan-istok-karen-dawson<\/a>.<\/p>\r\n

Johnson, C.D., 2008, Field photograph of Michael Wacker setting up borehole tool on a well near Miami, Florida. Carol D. Johnson, Hydrologist, United States Geological Survey, Branch of Geophysics, Storrs, Connecticut, USA.<\/p>\r\n

Jones, S.A., 1998, Data from United States Air Force Plant 4, Fort Worth, Texas, provided by Sonya Jones, Hydrologist, United States Geological Survey, Austin, Texas.<\/p>\r\n

Jumikis, A.R., 1962, Soil Mechanics: Van Nostrand Reinhold Incorporated, 824\u00a0pages, http:\/\/hdl.handle.net\/2027\/uc1.b4532048<\/a>.<\/p>\r\n

Jurgens, B.C., J.K. B\u00f6hlke, and S.M. Eberts, 2012, TracerLPM (Version 1): An Excel\u00ae workbook for interpreting groundwater age distributions from environmental tracer data. United States Geological Survey, Techniques and Methods Report\u00a04-F3, 60\u00a0pages, https:\/\/pubs.usgs.gov\/tm\/4-f3\/<\/a>.<\/p>\r\n

Kasenow, M., 1997, Introduction to Aquifer Analysis. Water Resources Publication, Limited Liability Company, 413\u00a0pages.<\/p>\r\n

Kastning, E.H., 1977, Faults as positive and negative influences on groundwater flow and conduit enlargement in<\/em> Hydrologic problems in karst regions, editors, R.R. Dilamarter and S.C. Csallany, Bowling Green, Kentucky, Western Kentucky University, USA, pages\u00a0193-201, http:\/\/pascal-francis.inist.fr\/vibad\/index.php?action=getRecordDetail&idt=PASCALGEODEBRGM7820204438<\/a>.<\/p>\r\n

Katz, B.G., 2004, Sources of nitrate contamination and age of water in large karstic springs of Florida, Environmental Geology, volume\u00a046, pages 689-706, https:\/\/doi.org\/10.1007\/s00254-004-1061-9<\/a>.<\/p>\r\n

Kendall, C., and J.J. McDonnell, 1998, Isotope Tracers in Catchment Hydrology. Elsevier Science B.V., Amsterdam, 839\u00a0pages, https:\/\/wwwrcamnl.wr.usgs.gov\/isoig\/isopubs\/itchinfo.html<\/a>.<\/p>\r\n

Khang, P., 1985, The development of karst landscapes in Vietnam. Acta Geologica Polenica, volume\u00a035, numbers\u00a03-4, pages\u00a0305-319, https:\/\/geojournals.pgi.gov.pl\/agp\/article\/view\/9412<\/a>.<\/p>\r\n

Kidd, R.E., C.J. Taylor, and V.E. Stricklin, 2001, Use of ground-water tracers to evaluate the hydraulic connection between Key Cave and the proposed industrial site near Florence, Alabama, 2000 and 2001. United States Geological Survey, Water-Resources Investigations Report\u00a02001-4228, https:\/\/doi.org\/10.3133\/wri014228<\/a>.<\/p>\r\n

Kindinger, J. L., J.B. Davis, and J.G. Flocks, 1999, Geology and evolution of lakes in North-Central Florida. Environmental Geology, volume\u00a038, issue\u00a04, pages\u00a0301-321, https:\/\/doi.org\/10.1007\/s002540050428<\/a>.<\/p>\r\n

Kindinger, J. L., J.B. Davis, and J.G. Flocks, 2000, Subsurface characterization of selected water bodies in the St. Johns River Water Management District, Northeast Florida. United States Geological Survey, Open-File Report\u00a02000-180, https:\/\/doi.org\/10.3133\/ofr00180<\/a>, https:\/\/web.archive.org\/web\/20170624084406\/https:\/\/water.usgs.gov\/ogw\/karst\/kigconference\/jlk_subsurface.htm<\/a>.<\/p>\r\n

Kindinger, J. L., J.B. Davis, and J.G. Flocks, 2001, Subsurface characterization of selected water bodies in the St. Johns River Water Management District, northeastern Florida in<\/em> United States Geological Survey, Karst Interest Group: Proceedings, St. Petersburg, Florida, February 13-16, 2001, editor, E.L. Kuniansky, United States Geological Survey, Water-Resources Investigations Report\u00a001-4011, pages\u00a0124-127, https:\/\/www.researchgate.net\/publication\/240633478_Subsurface_Characterization_of_Selected_Water_Bodies_in_the_St_Johns_River_Water_Management_District_Northeast_Florida<\/a>.<\/p>\r\n

Kinnaman, S., 2002, Slug test results from 1998-2001. Written communication by Kinnaman, Hydrologist. United States Geological Survey, Orlando, Florida, USA.<\/p>\r\n

Kiraly, L., 1998, Modelling karst aquifers by the combined discrete channel and continuum approach. Bulletin d\u2019Hydrogeologie, volume\u00a016, pages\u00a077-98, https:\/\/doc.rero.ch\/record\/260628\/files\/Kiraly_L._-_Modelling_karst_aquifers_by_the_combined_UNINE_B.H._16_1998.pdf<\/a>.<\/p>\r\n

Kiraly, L., 2003, Karstification and groundwater flow. Speleogenesis and Evolution of Karst Aquifers 1, issue 3, pages 155-192, http:\/\/doc.rero.ch\/record\/260704\/files\/Kiraly_L._-_Karstification_and_Groundwater_SPELEOGENESIS_S.E.K.A._1_2003.pdf<\/a>.<\/p>\r\n

Kish, G.R., C.E. Stringer, M.T. Stewart, M.C. Rains, and A.E. Torres, 2010, A geochemical mass-balance method for base-flow separation, Upper Hillsborough River Watershed, West-Central Florida, volumes\u00a02003-2005 and 2009. United States Geological Survey, Scientific Investigations Report\u00a02010-5092, https:\/\/pubs.usgs.gov\/sir\/2010\/5092\/pdf\/sir2010-5092.pdf<\/a>.<\/p>\r\n

Klepper, M.R. and D.G. Wyant, 1957, Notes on the geology of uranium. United States Geological Survey Bulletin\u00a01046-F, https:\/\/pubs.usgs.gov\/bul\/1046f\/report.pdf<\/a>.<\/p>\r\n

Klimchouk, A., 2015, The karst paradigm: Changes, trends and perspectives. Acta Carsologica, volume\u00a044, issue\u00a03, pages\u00a0289-313, https:\/\/doi.org\/10.3986\/ac.v44i3.2996<\/a>.<\/p>\r\n

Knochenmus, L.A. and J.L. Robinson, 1996, Descriptions of anisotropy and heterogeneity and their effect on ground-water flow and areas of contribution to public supply wells in a karst carbonate aquifer system. United States Geological Survey, Water-Supply Paper\u00a02475, https:\/\/doi.org\/10.3133\/wsp2475<\/a>.<\/p>\r\n

Knochenmus, L.A. and D.A. Yobbi, 2001, Hydrology of the coastal springs ground-water basin and adjacent parts of Pasco, Hernando, and Citrus Counties Florida. United States Geological Survey, Water-Resources Investigations Report\u00a02001-4230, https:\/\/doi.org\/10.3133\/wri014230<\/a>.<\/p>\r\n

Konzuk, J.S., and B.H. Kueper, 2004, Evaluation of cubic law-based models describing single-phase flow through a rough-walled fracture. Water Resources Research, volume\u00a040, issue\u00a02, https:\/\/doi.org\/10.1029\/2003WR002356<\/a>.<\/p>\r\n

Kozar, M.D., K.J. McCoy, D.J. Weary, M.S. Field, H.A. Pierce, W.B. Schill, and J.A. Young, 2007, Hydrogeology and water quality of the Leetown Area, West Virginia. United States Geological Survey, Open-File Report\u00a02007-1358, https:\/\/doi.org\/10.3133\/ofr20071358<\/a>.<\/p>\r\n

Kraemer, P.A., F. Anselmetti, and R. Curry, 2001, Geophysical characterization of pre-Holocene limestone bedrock underlying the Biscayne National Park reef in<\/em> United States Geological Survey, Karst Interest Group: Proceedings, St. Petersburg, Florida, February 13-16, 2001, editor, E.L. Kuniansky. United States Geological Survey, Water Resources Investigations Report 01-4011, pages\u00a0128-133, https:\/\/boris.unibe.ch\/86797\/<\/a>.<\/p>\r\n

Kraemer, T.F., and D.P. Genereux, 1998, Applications of Uranium- and Thorium-Series Radionuclides in Catchment Hydrology Studies in<\/em> Isotope Tracers in Catchment Hydrology, editors, C. Kendall and J.J. McDonnell, Elsevier, Amsterdam, Netherlands, pages\u00a0679-722, https:\/\/doi.org\/10.1016\/B978-0-444-81546-0.50027-6<\/a>.<\/p>\r\n

Kresic, N., 2007, Hydrogeology and Groundwater Modeling, 2nd<\/sup> edition, CRC Press, Boca Raton, Florida, USA, 808\u00a0pages, https:\/\/doi.org\/10.1201\/9781420004991<\/a>.<\/p>\r\n

Kruseman, G.P., and N.A. de Ridder, 1994, Analysis and evaluation of pumping test data. International Institute for Land Reclamation and Improvement, The Netherlands,\u00a0372\u00a0pages,\u00a0https:\/\/www.hydrology.nl\/images\/docs\/dutch\/key\/Kruseman_and_De_Ridder_2000.pdf<\/a>.<\/p>\r\n

Kuniansky, E.L., 2002, Field trip photograph of unnamed West Virginia spring taken by Eve Kuniansky, August 22, 2002, Southeast Region Groundwater Specialist, United States Geological Survey, Norcross, Georgia, USA.<\/p>\r\n

Kuniansky, E.L., 2006, Vacation photograph of forest karst towers from Li River, China near Guilin taken by Eve Kuniansky, November, 2006, taken by Eve Kuniansky, Southeast Region Groundwater Specialist, United States Geological Survey, Norcross, Georgia, USA.<\/p>\r\n

Kuniansky, E.L., 2008a, Vacation photograph on a trip to caves and karst of Slovenia and Croatia of tufa lakes at Plitvice Lakes World Heritage karst site, Croatia taken by Eve Kuniansky, Southeast Region Groundwater Specialist, United States Geological Survey, Norcross, Georgia, USA.<\/p>\r\n

Kuniansky, E.L., 2008b, Field trip photograph at Mammoth Cave National Park, Kentucky taken by Eve Kuniansky, Southeast Region Groundwater Specialist, United States Geological Survey, Norcross, Georgia, USA.<\/p>\r\n

Kuniansky, E.L., 2012, Vacation photograph on trip to caves and karst of Laos and Vietnam taken from a boat on the South China Sea, Vietnam by Eve Kuniansky, Southeast Region Groundwater Specialist, United States Geological Survey, Norcross, Georgia, USA.<\/p>\r\n

Kuniansky, E.L., 2014a, Field trip photograph of Sinkhole lakes near Carlsbad, New Mexico taken by Eve Kuniansky, Southeast Region Groundwater Specialist, United States Geological Survey, Norcross, Georgia, USA.<\/p>\r\n

Kuniansky, E.L., 2014b, Taking the mystery out of mathematical model applications to karst aquifersA primer in<\/em> United States Geological Survey, Karst Interest Group: Proceedings, Carlsbad, New Mexico, April 29-May 2, 2014, editors, E.L. Kuniansky and L.E. Spangler. United States Geological Survey, Scientific Investigations Report\u00a02014-5035, pages\u00a069-81, https:\/\/pubs.usgs.gov\/sir\/2014\/5035\/sir2014-5035.pdf<\/a>.<\/p>\r\n

Kuniansky, E.L., 2016a, Simulating groundwater flow in karst aquifers with distributed parameter modelsComparison of porous-equivalent media and hybrid flow approaches. United States Geological Survey, Scientific Investigations Report\u00a02016-5116, https:\/\/doi.org\/10.3133\/sir20165116<\/a>.<\/p>\r\n

Kuniansky, E.L., 2016b, MODFLOW and MODFLOW Conduit Flow Process data sets for simulation experiments of the Woodville Karst Plain, near Tallahassee, Florida with three different approaches and different stress periods. United States Geological Survey data release, https:\/\/doi.org\/10.5066\/F7PK0D87<\/a>.<\/p>\r\n

Kuniansky, E.L., 2017, Field photograph of Van Brahana setting tracer test bugs in a spring at the Savoy Experimental Watershed, Savoy, Arkansas. Eve Kuniansky, Southeast Region Groundwater Specialist, United States Geological Survey, Norcross, Georgia, USA.<\/p>\r\n

Kuniansky, E.L., 2020, Satellite view of Wakulla Springs, Florida, United States, public domain image clipped from Google maps by Eve Kuniansky, Emeritus Scientist, United States Geological Survey, Norcross, Georgia, USA.<\/p>\r\n

Kuniansky, E.L., and J.C. Bellino, 2012, Tabulated transmissivity and storage properties of the Floridan aquifer system in Florida and parts of Georgia, South Carolina, and Alabama. United States Geological Survey Data Series 669, https:\/\/pubs.usgs.gov\/ds\/669\/<\/a>.<\/p>\r\n

Kuniansky, E.L., J.M. Blackstock, D.M. Wagner, and J.V. Brahana, 2019, Interpretation of dye tracing data collected in<\/em> Advanced Groundwater Field Techniques in Karst Terrains Course, Savoy, Arkansas, November 13-December 2, 2017, at the Savoy Experimental Watershed. United States Geological Survey, Scientific Investigations Report\u00a02019-5016, https:\/\/doi.org\/10.3133\/sir20195016<\/a>.<\/p>\r\n

Kuniansky, E.L., L. Fahlquist, and A.F. Ardis, 2001, Travel times along selected flow paths of the Edwards Aquifer, central Texas in<\/em> United States Geological Survey, Karst Interest Group: Proceedings, St. Petersburg, Florida, February 13-16, 2001, editor, E.L. Kuniansky. United States Geological Survey, Water-Resources Investigations Report\u00a02001-4011, pages\u00a069-77, https:\/\/web.archive.org\/web\/20170624084249\/https:\/\/water.usgs.gov\/ogw\/karst\/kigconference\/elk_traveltimes.htm<\/a>.<\/p>\r\n

Kuniansky, E.L., J.J. Gallegos, and J.H. Davis, 2011, Comparison of three model approaches for spring simulation, Woodville Karst Plain, Florida. United States Geological Survey, Karst Interest Group: Proceedings, St. Petersburg, Florida, February 13-16, 2001. United States Geological Survey, Water-Resources Investigations Report\u00a02011-5031, pages\u00a0169-170, https:\/\/pubs.usgs.gov\/sir\/2011\/5031\/pdf\/sir20115031.pdf#page=177<\/a>.<\/p>\r\n

Kuniansky, E.L., K.J. Halford, and W.B. Shoemaker, 2008, Permeameter data verify new turbulence process for MODFLOW. Ground Water, volume\u00a046, number\u00a05, pages\u00a0768-771, https:\/\/doi.org\/10.1111\/j.1745-6584.2008.00458.x<\/a>.<\/p>\r\n

Kuniansky, E.L., and S.T. Hamrick, 1998, Hydrogeology and simulation of ground-water flow in the Paluxy aquifer, in the vicinity of landfills one and three at United States Air Force Plant 4, Fort Worth, Texas. United States Geological Survey, Water Resources Investigations Report\u00a098-4023, 34\u00a0pages, http:\/\/pubs.usgs.gov\/wri\/wri98-4023\/<\/a>.<\/p>\r\n

Kuniansky, E.L., and K.Q. Holligan, 1994, Simulations of flow in the Edwards-Trinity aquifer system and contiguous hydraulically units, west-central Texas. United States Geological Survey, Water-Resources Investigations Report\u00a093-4093, doi.org\/10.3133\/wri93403<\/a>.<\/p>\r\n

Kuniansky, E.L., D.J. Weary, and J.E. Kaufmann, 2016, The current status of mapping karst areas and availability of public sinkhole-risk resources in karst terrains of the United States. Hydrogeology Journal, volume\u00a024, pages\u00a0613-624, doi.org\/10.1007\/s10040-015-1333-3<\/a>.<\/p>\r\n

Kurylyk, B.L., D.J. Irvine, S.K. Carey, M.A. Briggs, D.D. Werkema, and M. Bonham, 2017, Heat as a groundwater tracer in shallow and deep heterogeneous media: Analytical solution, spreadsheet tool, and field applications. Hydrological Processes, volume\u00a031, number\u00a014, pages\u00a02648-2661, https:\/\/doi.org\/10.1002\/hyp.11216<\/a>.<\/p>\r\n

Kvgunten, 2017, Hydrochemical facies in the Piper diagram, licensed under CC BY-SA 4.0<\/a>, https:\/\/commons.wikimedia.org\/wiki\/File:Hydrochemical_facies_in_the_Piper_diagram.jpg<\/a>.<\/p>\r\n

Lage, J.L., and B.V. Antohe, 2000, Darcy\u2019s experiments and the deviation to nonlinear flow regime. American Society of Mechanical Engineers, Journal of Fluids Engineering, volume\u00a0122, pages\u00a0619-625, https:\/\/doi.org\/10.1115\/1.1287722<\/a>.<\/p>\r\n

Lang, U., 1995, Simulation of regional flow and transport processes in karst aquifers using the double continuum approach: Stuttgart, Germany, method development and parameter study. Doctor of Philosophy dissertation, Institute for Hydraulic Engineering, University of Stuttgart (in German).<\/p>\r\n

Lee, J., 1982, Well Testing. Society of Petroleum Engineers of AIME, New York, USA, 159\u00a0pages.<\/p>\r\n

Lei, Q., J.P. Latham, and C.F. Tsang, 2017, The use of discrete fracture networks for modelling coupled geomechanical and hydrological behaviour of fractured rocks. Computers and Geotechnics, volume\u00a085, pages\u00a0151-176, dx.doi.org\/10.1016\/j.compgeo.2016.12.024<\/a>.<\/p>\r\n

Liedl, R., M. Sauter, D. H\u00fcckinghaus, T. Clemens, and G. Teutsch, 2003, Simulation of the development of karst aquifers using a coupled continuum pipe flow model. Water Resources Research, volume\u00a039, issue\u00a03, https:\/\/doi.org\/10.1029\/2001WR001206<\/a>.<\/p>\r\n

Lindgren, R.J., A.R. Dutton, S.D. Hovorka, S.R.H. Worthington, and S. Painter, 2004, Conceptualization and simulation of the Edwards Aquifer, San Antonio region, Texas. United States Geological Survey, Scientific Investigations Report\u00a02004-5277, https:\/\/pubs.usgs.gov\/sir\/2004\/5277\/<\/a>.<\/p>\r\n

Lindgren, R.J., C.J. Taylor, and N.A. Houston, 2009, Description and evaluation of numerical groundwater flow models for the Edwards Aquifer, south-central Texas. United States Geological Survey, Scientific Investigations Report\u00a02009-5183, https:\/\/pubs.usgs.gov\/sir\/2009\/5183\/<\/a>.<\/p>\r\n

Lohman, S.W., 1979, Ground-Water Hydraulics. United States Geological Survey. Professional Paper\u00a0708, 70\u00a0pages, https:\/\/doi.org\/10.3133\/pp708<\/a>.<\/p>\r\n

Long, A.J., M.J. Ohms, and J.D.R.G. McKaskey, 2012, Groundwater flow, quality (2007-10), and mixing in the Wind Cave National Park area, South Dakota. United States Geological Survey, Scientific Investigations Report\u00a02011-5235, https:\/\/doi.org\/10.3133\/sir20115235<\/a>.<\/p>\r\n

Long, A.J., and L.D. Putnam, 2002, Evaluating travel times and transient mixing in a karst aquifer using time-series analysis of stable isotope data in<\/em> United States Geological Survey, Karst Interest Group: Proceedings, Shepherdstown, West Virginia, August 20-22, 2002, editor, E.L. Kuniansky. United States Geological Survey, Water-Resources Investigations Report 02-4174, pages\u00a066-73, https:\/\/doi.org\/10.3133\/wri024174<\/a>, https:\/\/web.archive.org\/web\/20170611102903\/https:\/\/water.usgs.gov\/ogw\/karst\/kig2002\/ajl_travel.html<\/a>.<\/p>\r\n

Long, A.J., and Putnam, L.D., 2007, Characterization of ground-water flow and water quality for the Madison and Minnelusa aquifers in Northern Lawrence County, South Dakota. United States Geological Survey, Scientific Investigations Report\u00a02007-5001, https:\/\/pubs.usgs.gov\/sir\/2007\/5001\/<\/a>.<\/p>\r\n

Mahler B.J., P.C. Bennett, and M. Zimmerman, 1998, Lanthanide-labeled clay: A new method for tracing sediment transport in karst. Ground Water, volume\u00a036, issue\u00a05, pages\u00a0835-843, doi.org\/10.1111\/j.1745-6584.1998.tb02202.x<\/a>.<\/p>\r\n

Mahler, B.J., L. Lynch, and P.C. Bennett, 1999, Mobile sediment in an urbanizing karst aquifer: Implications for contaminant transport. Environmental Geology, volume\u00a039, issue\u00a01, pages\u00a025-38, https:\/\/link.springer.com\/content\/pdf\/10.1007\/s002540050434.pdf<\/a>.<\/p>\r\n

Mahler, B.J., J-C. Personn\u00e9, F.L. Lynch, and P.C. Van Metre, 2007, Sediment and sediment-associated contaminant transport through karst in<\/em> Studies of Cave Sediments, editors, I.D. Sasowsky and J. Mylroie, pages\u00a023-46, Springer, Boston, Massachusetts, USA, https:\/\/doi.org\/10.1007\/978-1-4419-9118-8_2<\/a>.<\/p>\r\n

Mahler B.J., J.C. Personn\u00e9, G.F. Lods, and C. Drogue, 2000, Transport of free and particulate-associated bacteria in karst. Journal of Hydrology, volume\u00a0238, issues\u00a03-4, pages\u00a0179-193, https:\/\/doi.org\/10.1016\/S0022-1694(00)00324-3<\/a>.<\/p>\r\n

Maloszewski, P., 2000, Lumped-parameter models as a tool for determining the hydrological parameters of some groundwater systems based on isotope data. International Association of Hydrological Sciences Publication, number\u00a0262, pages\u00a0271-276, https:\/\/www.cabdirect.org\/cabdirect\/abstract\/20013046080<\/a>.<\/p>\r\n

Mangin, A., 1975, Contribution to the hydrodynamic study of karst aquifers, 3rd<\/sup> part, Constitution and functioning of karst aquifers. Annals of Speleology, volume\u00a030, issue\u00a01, pages\u00a022-124, (in French) https:\/\/hal.archives-ouvertes.fr\/tel-01575806<\/a>.<\/p>\r\n

Mathey, S.B., 1989, National Water Information System user's manual, Volume\u00a02, Chapter\u00a04, Ground-water site inventory system. United States Geological Survey, Open-File Report\u00a089-587, https:\/\/doi.org\/10.3133\/ofr89587<\/a>.<\/p>\r\n

McCann, M.R., and N.C. Krothe, 1992, Development of a monitoring program at a Superfund site in a karst terrain near Bloomington, Indiana. Proceedings of the Third Conference on Hydrogeology, Ecology, Monitoring, and Management of Ground Water in Karst Terranes, pages\u00a0349-372, https:\/\/nepis.epa.gov\/Exe\/ZyPDF.cgi\/9100NMJR.PDF?Dockey=9100NMJR.PDF<\/a>.<\/p>\r\n

McClure, M.W., and R.N. Horne, 2013, Discrete fracture network modeling of hydraulic stimulation-coupling flow and geomechanics. Springer, New York, USA, 90\u00a0pages, https:\/\/doi.org\/10.1007\/978-3-319-00383-2<\/a>.<\/p>\r\n

Merritt, M.L., 2004, Estimating hydraulic properties of the Floridan aquifer system by analysis of earth-tide, ocean-tide, and barometric effects, Collier and Hendry Counties, Florida. United States Geological Survey, Water-Resources Investigations Report\u00a003-4267, https:\/\/doi.org\/10.3133\/wri034267<\/a>.<\/p>\r\n

Metcalf & Eddy, Incorporated, University of Florida, and Water Resources Engineers, Incorporated, 1971, Storm Water Management Model Volume I\u2014Final Report. United States Environmental Protection Agency, EPA 11024DOC07\/71, 353\u00a0pages, https:\/\/nepis.epa.gov\/EPA\/html\/DLwait.htm?url=\/Exe\/ZyPDF.cgi\/9101OI3P.PDF?Dockey=9101OI3P.PDF<\/a>.<\/p>\r\n

Milanovic, P.T., 1981, Karst hydrogeology. Water Resources Publications, 434\u00a0pages.<\/p>\r\n

Miller, J.A., 1999, Ground water atlas of the United States: Introduction and national summary. United States Geological Survey, Hydrologic Atlas 730-A, https:\/\/doi.org\/10.3133\/ha730A<\/a>.<\/p>\r\n

Mohrlok, U., 1996, Parameter identification in double continuum models using karst aquifers as an example. T\u00fcbingen, Germany, Series C. Institute and Museum for Geology and Paleontology of the University of T\u00fcbingen, T\u00fcbingen Geoscientific Work, volume\u00a031, (in German) https:\/\/ub01.uni-tuebingen.de\/xmlui\/handle\/10900\/48864<\/a>.<\/p>\r\n

Moore, G.W., and G. Nicholas, 1964, Speleology, The Study of Caves. Heath, Boston, 120 pages.<\/p>\r\n

Moore, C.H., and W.J. Wade, 2013, Chapter 4\u2014The nature and classification of carbonate porosity, Developments in Sedimentology, volume\u00a067, pages\u00a051-65, https:\/\/doi.org\/10.1016\/B978-0-444-53831-4.00004-5<\/a>.<\/p>\r\n

Morris, B., 2017, Field photograph of the outcrop of the middle portion of the Glen Rose limestone in Canyon Gorge, Texas, USA taken May 18, 2017 by Bob Morris, Hydrologist, United States Geological Survey, San Antonio, Texas, USA.<\/p>\r\n

Morris, D.A., and A.I. Johnson 1967, Summary of hydrologic and physical properties of rock and soil material as analyzed by the Hydrologic Laboratory of the U.S Geological Survey 1948-60. United States Geological Survey, Water-Supply Paper 1839-D, https:\/\/doi.org\/10.3133\/wsp1839D<\/a>.<\/p>\r\n

Mull, D.S., 1993a, Use of dye tracing to determine the direction of ground-water flow from a Superfund waste-disposal site in karst terrane, near Auburn, Kentucky. United States Geological Survey, Water-Resources Investigations Report\u00a092-4195, https:\/\/doi.org\/10.3133\/wri924195<\/a>.<\/p>\r\n

Mull, D.S., 1993b, Use of dye tracing to determine the direction of ground-water flow in karst terrane at the Kentucky State University Research Farm near Frankfort, Kentucky. United States Geological Survey, Water-Resources Investigations Report\u00a093-4063, https:\/\/doi.org\/10.3133\/wri934063<\/a>.<\/p>\r\n

Mull, D.S., T.D. Liebermann, J.L. Smoot, and L.H. Woosley, 1988a, Application of dye-tracing techniques for determining solute-transport characteristics of ground water in karst terranes. United States Environmental Protection Agency, EPA 904\/6-88-001, https:\/\/nepis.epa.gov\/Exe\/ZyPDF.cgi\/20013J3F.PDF?Dockey=20013J3F.PDF<\/a>.<\/p>\r\n

Mull, D.S., Smoot, J.L., and Liebermann, T.D., 1988b, Dye tracing techniques used to determine ground-water flow in a carbonate aquifer system near Elizabethtown, Kentucky. United States Geological Survey, Water-Resources Investigations Report\u00a087-4174, https:\/\/pubs.usgs.gov\/wri\/1987\/4174\/report.pdf<\/a>.<\/p>\r\n

National Research Council, 2000, Seeing into the Earth: Noninvasive Characterization of the Shallow Subsurface for Environmental and Engineering Applications. The National Academies Press, Washington, DC, USA, https:\/\/doi.org\/10.17226\/5786<\/a>.<\/p>\r\n

Neuman, S.P., and G. de Marsily, 1976, Identification of linear systems response by parametric programming. Water Resources Research, volume\u00a012, number\u00a02, pages\u00a0253-262, https:\/\/doi.org\/10.1029\/WR012i002p00253<\/a>.<\/p>\r\n

Neuzil, C.E., 1994, How permeable are clays and shales? Water Resources Research, volume\u00a030, number\u00a02, pages\u00a0145-150, https:\/\/doi.org\/10.1029\/WR012i002p00253<\/a>.<\/p>\r\n

Nicholl, M.J., H. Rajaram, R.J. Glass, and R. Detwiler, 1999, Saturated flow in a single fracture: Evaluation of the Reynolds equation in measured aperture fields. Water Resources Research, volume\u00a035, issue\u00a011, pages\u00a03361-3373, https:\/\/doi.org\/10.1029\/1999WR900241<\/a>.<\/p>\r\n

Nimmo, J.R., 2013, Porosity and Pore Size Distribution. Reference Module in Earth Systems and Environmental Sciences, Elsevier, ISBN 9780124095489, https:\/\/doi.org\/10.1016\/B978-0-12-409548-9.05265-9<\/a>.<\/p>\r\n

Paillet, F.L., 1998, Flow modeling and permeability estimation using borehole flow logs in heterogeneous fractured formations. Water Resources Research, volume\u00a034, number\u00a05, pages\u00a0997-1010, https:\/\/doi.org\/10.1029\/98WR00268<\/a>.<\/p>\r\n

Paillet, F.L., 2000, A field technique for estimating aquifer parameters using flow log data. Groundwater, volume\u00a038, number\u00a04, pages\u00a0510-521, https:\/\/doi.org\/10.1111\/j.1745-6584.2000.tb00243.x<\/a>.<\/p>\r\n

Paillet, F.L., 2001, Borehole geophysical applications in karst hydrogeology in<\/em> United States Geological Survey, Karst Interest Group: Proceedings, St. Petersburg, Florida, USA, February 13-16, 2001, editor, E.L. Kuniansky. United States Geological Survey, Water-Resources Investigations Report\u00a001-4011, pages\u00a0116-123, https:\/\/web.archive.org\/web\/20170624084347\/https:\/\/water.usgs.gov\/ogw\/karst\/kigconference\/flp_borehole.htm<\/a>.<\/p>\r\n

Paillet, F.L., C. Barton, S. Luthi, F. Rambow, J.R. Zemanck, 1990, Borehole imaging and its application in well logging-an overview in<\/em> Borehole Imaging. Society of Professional Well Log Analysts, Incorporated, volume\u00a06001, pages\u00a03-23.<\/p>\r\n

Paillet, F.L. and R.E. Crowder, 1996, A generalized approach for the interpretation of geophysical well logs in ground water studies\u2014Theory and application. Groundwater, volume\u00a034, number\u00a05, pages\u00a0883-898, https:\/\/doi.org\/10.1111\/j.1745-6584.1996.tb02083.x<\/a>.<\/p>\r\n

Paillet, F.L., A.E. Hess, and J.H. Williams, 1998, Design, operation, and data analysis for a wireline packer system in open boreholes, with field-test results from Belvidere, Illinois. United States Geological Survey, Open-File Report\u00a098-413, https:\/\/doi.org\/10.3133\/ofr98413<\/a>.<\/p>\r\n

Painter, S.L., A. Sun, and R.T. Green, 2007, Enhanced Characterization and Representation of Flow through Karst Aquifers\u2014Phase II. Revision 1. Geosciences and Engineering Division, Southwest Research Institute, San Antonio, Texas, USA, https:\/\/www.edwardsaquifer.org\/science_docs\/enhanced-characterization-and-representation-of-flow-through-karst-aquifers-phase-ii-revision-1\/<\/a>.<\/p>\r\n

Palmer, A.N., 1991, Origin and morphology of limestone caves. Geological Society of America Bulletin, volume\u00a0103, pages\u00a01-21, https:\/\/doi.org\/10.1130\/0016-7606(1991)103%3c0001:OAMOLC%3e2.3.CO;2<\/a>.<\/p>\r\n

Palmer, A.N., 1999, Patterns of dissolution porosity in carbonate rocks in Palmer. The Karst Waters Institute Special Publication, volume\u00a05, pages\u00a071-78, https:\/\/www.researchgate.net\/publication\/26448037_Patterns_of_dissolutional_porosity_in_carbonate_rocks<\/a>.<\/p>\r\n

Pavlicek, D.J., 1996, Karst hydrogeology and hydrochemistry of the Cave Springs Basin Near Chattanooga, Tennessee. United States Geological Survey, Water-Resources Investigations Report\u00a096-4248, https:\/\/pubs.usgs.gov\/wri\/wri96-4248\/#pdf<\/a>.<\/p>\r\n

Peano G., B. Vigna, E. Villavecchia, and G. Agnesod, 2011, Radon exchange dynamics in a karst system investigated by radon continuous measurements in water: First results. Radiation Protection Dosimetry, volume\u00a045, issues\u00a02-3, pages\u00a0173-177, https:\/\/doi.org\/10.1093\/rpd\/ncr053<\/a>.<\/p>\r\n

Perne, M., M. Covington, and F. Gabrov\u0161ek, 2014, Evolution of karst conduit networks in transition from pressurized flow to free-surface flow. Hydrology and Earth System Sciences, volume\u00a018, pages\u00a04617-4633, https:\/\/doi.org\/10.5194\/hess-18-4617-2014<\/a>.<\/p>\r\n

Peterson, E.W. and C.M. Wicks, 2006, Assessing the importance of conduit geometry and physical parameters in karst systems using the storm water management model (SWMM). Journal of Hydrology, volume\u00a0329, issues\u00a01-2, pages\u00a0294-305, https:\/\/doi.org\/10.1016\/j.jhydrol.2006.02.017<\/a>.<\/p>\r\n

Piper, A.M., 1944, A graphic procedure in the geochemical interpretation of water analysis. Transactions American Geophysical Union, volume\u00a025, pages\u00a0914-923, https:\/\/doi.org\/10.1029\/TR025i006p00914<\/a>.<\/p>\r\n

Poeter, E., Y. Fan, J. Cherry, W. Wood, D. Mackay, 2020, Groundwater in our water cycle \u2013 getting to know Earth\u2019s most important fresh water source. The Groundwater Project, Guelph, Ontario, Canada. https:\/\/doi.org\/10.21083\/978-1-7770541-1-3<\/a>.<\/p>\r\n

Porter, A.J., J.S. Webber, J.W. Witt, and J.D. Jastram, 2020, Spatial and temporal patterns in streamflow, water chemistry, and aquatic macroinvertebrates of selected streams in Fairfax County, Virginia, 2007-18. United States Geological Survey, Scientific Investigations Report\u00a02020-5061, https:\/\/doi.org\/10.3133\/sir20205061<\/a>.<\/p>\r\n

Prudic, D.E., 1991, Estimates of hydraulic conductivity from aquifer-test data and specific-capacity data, Gulf Coast Regional Aquifer Systems, south-central United States. United States Geological Survey, Water-Resources Investigations Report\u00a090-4121, https:\/\/pubs.usgs.gov\/wri\/1990\/4121\/report.pdf<\/a>.<\/p>\r\n

Quinlan, J.F., and R.O. Ewers, 1989, Subsurface drainage in the Mammoth Cave area in<\/em> Karst Hydrology, editors, W.B. White and E.L. White, Springer, Boston, Massachusetts, USA, https:\/\/doi.org\/10.1007\/978-1-4615-7317-3_3<\/a>.Quinlan, J.F., J.A Ray, and G.M. Schindel, 1995, Intrinsic limitations of standard criteria and methods for delineation of groundwater-source protection areas (springhead and wellhead protection areas) in carbonate terranes\u2014Critical review, technically-sound resolution of limitations, and case study in a Kentucky karst in<\/em> Karst Geohazards Engineering and Environmental Problems in Karst Terrane, editors, B.F. Beck and F.M. Pearson. A.A. Balkema, Rotterdam, Netherlands, pages\u00a0165-176, https:\/\/www.routledge.com\/Karst-Geohazards-Engineering-and-Environmental-Problems-in-Karst-Terrane\/Beck\/p\/book\/9789054105350<\/a>.<\/p>\r\n

Quinn, P.M., J.A Cherry, and B.L. Parker, 2011b, Quantification of non-Darcian flow observed during packer testing in fractured sedimentary rock. Water Resources Research, volume\u00a047, issue\u00a09, https:\/\/doi.org\/10.1029\/2010WR009681<\/a>.<\/p>\r\n

Quinn, P.M., B.L. Parker, and J.A. Cherry, 2011a, Using constant head step tests to determine hydraulic apertures in fractured rock. Journal of Contaminant Hydrology, volume 126, pages 85-99, https:\/\/doi.org\/10.1016\/j.jconhyd.2011.07.002<\/a>.<\/p>\r\n

Ray, J., 1999, A model of karst drainage basin evolution, interior low plateaus, United States in<\/em> Karst modeling, editors, A.N. Palmer, M.V. Palmer, and L.D. Sasowsky. Karst Waters Institute Special Publication, volume\u00a05, https:\/\/karstwaters.org\/publications\/sp5-karst-modeling\/<\/a>.<\/p>\r\n

Ray, J.A., 2001, Spatial interpretation of karst drainage basins in<\/em> Geotechnical and Environmental Applications of Karst Geology and Hydrology, pages\u00a0235-244, https:\/\/www.routledge.com\/Geotechnical-and-Environmental-Applications-of-Karst-Geology-and-Hydrology\/Beck-Herring\/p\/book\/9789058091901<\/a>.<\/p>\r\n

Ray, J.A., 2012, Sinking streams and losing streams in<\/em> Encyclopedia of Caves, 2nd<\/sup> edition, editors, D.C. Culver and W.B. White. Academic Press, Burlington, Massachusetts, USA, pages\u00a0707-712, https:\/\/doi.org\/10.1016\/B978-0-12-383832-2.00104-3<\/a>.<\/p>\r\n

Reese, R.S. and K.J. Cunningham, 2000, Hydrogeology of the Gray Limestone Aquifer in southern Florida. United States Geological Survey, Water-Resources Investigations Report\u00a099-4213, https:\/\/doi.org\/10.3133\/wri994213<\/a>.<\/p>\r\n

Reilly, T.E., and A.W. Harbaugh, 1993, Simulation of cylindrical flow to a well using the U.S. Geological Survey Modular Finite-Difference Ground-Water Flow Model. Ground Water volume 31, issue 3, pages 489-494.<\/p>\r\n

Reilly, T.E. and A.W. Harbaugh, 2004, Guidelines for evaluating ground-water flow models. United States Geological Survey, Scientific Investigations Report\u00a02004-5038, https:\/\/doi.org\/10.3133\/sir20045038<\/a>.<\/p>\r\n

Reimann, T., S. Birk, C. Rehrl, and W.B. Shoemaker, 2011a, Modifications to the Conduit Flow Process Mode 2 for MODFLOW-2005. Groundwater, volume\u00a050, issue\u00a01, pages\u00a0144-148, https:\/\/doi.org\/10.1111\/j.1745-6584.2011.00805.x<\/a>.<\/p>\r\n

Reimann, T., T. Geyer, W.B. Shoemaker, R. Liedl, and M. Sauter, 2011b, Effects of dynamically variable saturation and matrix-conduit coupling of flow in karst aquifers Water Resources Research volume 47, issue 11, https:\/\/doi.org\/10.1029\/2011WR010446<\/a>.<\/p>\r\n

Reimann, T., R. Liedl, M. Giese, T. Geyer, J.C. Mar\u00e9chal, N. D\u00f6rfliger, S. Bauer, and S. Birk, 2013, Addition and enhancement of flow and transport processes to the MODFLOW-2005 conduit flow process. National Ground Water Association Summit\u2014The national and international conference on groundwater, https:\/\/pdfs.semanticscholar.org\/7d0e\/4292819e24d8e0661900d48213e94c124aee.pdf<\/a>.<\/p>\r\n

Ren\u00e9, M., 2017, Nature, sources, resources, and production of Thorium, Chapter 9 in<\/em> Descriptive Inorganic Chemistry Researches of Metal Compounds, editor, T. Akitsu, IntechOpen, London, United Kingdom, pages\u00a0201-212, https:\/\/doi.org\/10.5772\/intechopen.68304<\/a>.<\/p>\r\n

Renken, R.A., K.J Cunningham, M.R. Zygnerski, M.A. Wacker, A.M. Shapiro, R.W. Harvey, D.W. Metge, C.L. Osborn, and J.N. Ryan, 2005, Assessing the vulnerability of a municipal wellfield to contamination in a karst aquifer. Environmental and Engineering Geoscience, volume\u00a011, issue\u00a04, pages\u00a0319-331, https:\/\/doi.org\/10.2113\/11.4.319<\/a>.<\/p>\r\n

Revil, A., K. Koch, and K. Holliger, 2012, Is it the grain size or the characteristic pore size that controls the induced polarization relaxation time of clean sands and sandstones? Water Resources Research, volume\u00a048, issue\u00a05, doi.org\/10.1029\/2011WR011561<\/a>.<\/p>\r\n

Reynolds, O., 1883, An experimental investigation of the circumstances which determine whether the motion of water shall be direct or sinous, and of the law of resistances in parallel channels. Philosophical Transactions of the Royal Society of London, volume\u00a0174, https:\/\/doi.org\/10.1098\/rstl.1883.0029<\/a>.<\/p>\r\n

Robinson, J.L., 1995, Hydrogeology and results of tracer tests at the old Tampa well field in Hillsborough County, with implications for wellhead-protection strategies in west-central Florida. United States Geological Survey, Water-Resources Investigations Report\u00a093-4171, https:\/\/doi.org\/10.3133\/wri934171<\/a>.<\/p>\r\n

Rose, P.R., 1972, Edwards Group, surface and subsurface, central Texas. The University of Texas, Bureau of Economic Geology Report of Investigations, volume\u00a0RI-74, 198\u00a0pages, https:\/\/www.beg.utexas.edu\/publications\/edwards-group-surface-and-subsurface-central-texas<\/a>.<\/p>\r\n

Rupert F., and S. Spencer, 2004, Florida\u2019s sinkholes. Poster number\u00a011, Florida Geological Survey, Tallahassee, Florida, USA.<\/p>\r\n

Saller, S.P., M.J. Ronayne, and A.J. Long, 2013, Comparison of a karst groundwater model with and without discrete conduit flow. Hydrogeology Journal, volume\u00a021, number\u00a07, pages\u00a01555-1566, https:\/\/doi.org\/10.1007\/s10040-013-1036-6<\/a>.<\/p>\r\n

Sauter, M., 1993, Double porosity models in karstified limestone aquifers: Field validation and data provision in <\/em>Hydrogeological Processes in Karst Terranes (Proceedings of the Antalya Symposium and Field Seminar, October 1990). International Association of Hydrological Publication, volume\u00a0207, pages\u00a0261-279, https:\/\/iahs.info\/uploads\/dms\/8917.261-279-207-Sauter.pdf<\/a>.<\/p>\r\n

Scanlon, B.R., R.E. Mace, M.E. Barrett, B. Smith, 2003, Can we simulate regional groundwater flow in a karst system using equivalent porous media models? Case study, Barton Springs Edwards Aquifer, United States of America. Journal of Hydrology, volume\u00a0276, pages\u00a0137-158, https:\/\/doi.org\/10.1016\/S0022-1694(03)00064-7<\/a>.<\/p>\r\n

Schneebeli, G., 1955, Experiments on the limit of validity of Darcy's law and the occurrence of turbulence in a filtration flow (in French). La Houille Blanche (The White Coal), volume\u00a010, pages\u00a0141-149, https:\/\/www.shf-lhb.org\/articles\/lhb\/pdf\/1955\/04\/lhb1955030.pdf<\/a>.<\/p>\r\n

Schulman, A.E., D.C. McKinney, and P.W.M. John, 1995, Stochastic recharge model for Edwards Aquifer in central Texas. Journal of Water Resources Planning and Management, volume\u00a0121, number\u00a06, pages\u00a0479-489, https:\/\/ascelibrary.org\/doi\/abs\/10.1061\/(ASCE)0733-9496(1995)121:6(479)<\/a>.<\/p>\r\n

Scoffin, T.P., 1987, An introduction to carbonate sediments and rocks. Chapman and Hall, New York, USA, 274\u00a0pages, https:\/\/www.osti.gov\/biblio\/6755454<\/a>.<\/p>\r\n

Sep\u00falveda, N., and E.L. Kuniansky, 2009, Effects of model layer simplification using composite hydraulic properties. Hydrogeological Journal, volume\u00a018, pages\u00a0405-416, https:\/\/doi.org\/10.1007\/s10040-009-0505-4<\/a>.<\/p>\r\n

Sherman, L.K., 1932, Streamflow from rainfall by the unit-graph method. Engineering News Record, volume\u00a0108, pages\u00a0501-505, https:\/\/www.scirp.org\/(S(i43dyn45teexjx455qlt3d2q))\/reference\/ReferencesPapers.aspx?ReferenceID=786190<\/a>.<\/p>\r\n

Shoemaker, W.B., E.L. Kuniansky, S. Birk, S. Bauer, and E.D. Swain, 2008, Documentation of a conduit flow process (CFP) for MODFLOW-2005. United States Geological Survey, Techniques and Methods, Book\u00a06, Chapter\u00a0A24, Reston, Virginia, USA, https:\/\/pubs.usgs.gov\/tm\/tm6a24\/pdf\/tm6-A24.pdf<\/a>.<\/p>\r\n

Sloto, R.A., and M.Y. Crouse, 1996, HYSEP: A computer program for streamflow hydrograph separatin and analysis. United States Geological Survey, Water Resources Investigations Report 96-4040. Washington, D.C., USA. United States Geological Survey, https:\/\/doi.org\/10.3133\/wri964040<\/a>.<\/p>\r\n

Smith, B.D., M.J. Cain, A.K. Clark, D.W. Moore, J.R. Faith, and P.L. Hill, 2005, Helicopter Electromagnetic and Magnetic Survey Data and Maps, Northern Bexar County, Texas. United States Geological Survey, Open-File Report\u00a005-1158, https:\/\/pubs.usgs.gov\/of\/2005\/1158\/downloads\/REPORTS\/ofr_05_1158.pdf<\/a>.<\/p>\r\n

Smith, B.D., D.V. Smith, P.L. Hill, and V.F. Labson, 2003, Helicopter Electromagnetic and Magnetic Survey Data and Maps, Seco Creek Area, Medina and Uvalde Counties, Texas. United States Geological, Survey Open-File Report\u00a003-226, https:\/\/pubs.usgs.gov\/of\/2003\/ofr-03-226\/OFR-03-226-508.pdf<\/a>.<\/p>\r\n

Spangler, L.E., 2012, Hydrogeology of the Mammoth Spring groundwater basin and vicinity, Markagunt Plateau, Garfield, Iron, and Kane Counties, Utah. United States Geological Survey, Scientific Investigations Report\u00a02012-5199, https:\/\/doi.org\/10.3133\/sir20125199<\/a>.<\/p>\r\n

Spangler, L.E., and D.D. Susong, 2006, Use of dye tracing to determine ground-water movement to Mammoth Crystal Springs, Sylvan Pass area, Yellowstone National Park, Wyoming. United States Geological Survey, Scientific Investigations Report\u00a02006-5126, https:\/\/doi.org\/10.3133\/sir20065126<\/a>.<\/p>\r\n

Stallman, R.W., 1971, Aquifer-test design, observation, and data analysis. United States Geological Survey, Techniques of Water-Resources Investigations\u00a003-B1, https:\/\/doi.org\/10.3133\/twri03B1<\/a>.<\/p>\r\n

Stanton, G.P., and T.P. Schraeder, 2001, Surface geophysical investigation of a chemical waste landfill in northwestern Arkansas in<\/em> United States Geological Survey, Karst Interest Group: Proceedings, St. Petersburg, Florida, February 13 16, 2001, editor, E.L. Kuniansky. United States Geological Survey, Water Resources Investigations Report\u00a001-4011, https:\/\/web.archive.org\/web\/20170624084342\/https:\/\/water.usgs.gov\/ogw\/karst\/kigconference\/gps_surfacegeophysical.htm<\/a>.<\/p>\r\n

Stanton, J.S., D.W. Anning, C.J. Brown, R.B. Moore, V.L. McGuire, S.L. Qi, A.C. Harris, K.F. Dennehy, P.B. McMahon, J.R. Degnan, and J.K. B\u00f6hlke, 2017, Brackish groundwater in the United States. United States Geological Survey, Professional Paper\u00a01833, 185\u00a0pages, https:\/\/doi.org\/10.3133\/pp1833<\/a>.<\/p>\r\n

Steeples, D.W., and R.D. Miller, 1987, Direct detection of shallow subsurface voids using high resolution seismic-reflection techniques in<\/em> Karst Hydrogeology: Engineering and Environmental Applications, editors, B.F. Beck and W.L. Wilson, A.A. Balkema, Rotterdam, Netherlands, pages\u00a0179-183.<\/p>\r\n

Stevanovi\u0107, Z., 2015, Karst Aquifers\u2014Characterization and Engineering. Springer International Publishing, Switzerland, 692\u00a0pages, https:\/\/doi.org\/10.1007\/978-3-319-12850-4<\/a>.<\/p>\r\n

Stevanovi\u0107, Z., 2018, Global distribution and use of water from karst aquifers in<\/em> Advances in Karst Research: Theory, Fieldwork and Applications, editors, M. Parise, F. Gabrovsek, G. Kaufmann, and N. Ravbar. Geological Society, London, Special Publications, volume\u00a0466, number\u00a01, pages\u00a0217-236, https:\/\/doi.org\/10.1144\/SP466.17<\/a>.<\/p>\r\n

Stewart, M., J. Cimino, and M. Ross, 2007, Calibration of base flow separation methods with streamflow conductivity. Groundwater, volumes\u00a045, number\u00a01, pages\u00a017-27, https:\/\/doi.org\/10.1111\/j.1745-6584.2006.00263.x<\/a>.<\/p>\r\n

Stiff Jr., H.A., 1951, The interpretation of chemical water analysis by means of patterns. Journal of Petroleum Technology, volume\u00a03, issue\u00a010, page\u00a015, https:\/\/doi.org\/10.2118\/951376-G<\/a>.<\/p>\r\n

Steater, Scott, 2009, Threat Down Below: Polluted Caves Endanger Water Supplies, Wildlife, Scientific American, accessed January 2022 at, www.scientificamerican.com\/article\/pollution-caves-water-wildlife-trout\/.<\/p>\r\n

Sukop, M.C., H. Huang, P.F. Alvarez, E.A. Variano, and K.J. Cunningham, 2013, Evaluation of permeability and non-Darcy flow in vuggy macroporous limestone aquifer samples with lattice Boltzmann methods. Water Resources Research, volume\u00a049, issue\u00a01, pages\u00a0216-230, https:\/\/doi.org\/10.1029\/2011WR011788<\/a>.<\/p>\r\n

Suwanee River Water Management District, 2008, Field photograph, Live Oak, Florida, United States.<\/p>\r\n

Swain, E.D., and E.J. Wexler, 1996, A coupled surface-water and groundwater flow model (Modbranch) for simulation of stream-aquifer interaction. United States Geological Survey, Techniques of Water-Resources Investigations\u00a006-A6, https:\/\/doi.org\/10.3133\/twri06A6<\/a>.<\/p>\r\n

Taborsi, D., and M. Kazmer, 2013, Erosional and depositional textures and structures in Coastal Karst Landscapes in<\/em> Coastal Karst Landforms, editors, M. Lace and J. Mylroie. Coastal Research Library, volume\u00a05, Springer, Dordrecht, Netherlands, pages\u00a015-58, https:\/\/doi.org\/10.1007\/978-94-007-5016-6_2<\/a>.<\/p>\r\n

Takahashi, Y., M.J. Rabins, and D.M. Auslander, 1972, Control and Dynamic Systems. Addison-Wesley Publishing Company, 800\u00a0pages, https:\/\/doi.org\/10.1002\/aic.690170102<\/a>.<\/p>\r\n

Taylor, C.J., 1997, Delineation of ground-water basins and recharge areas for municipal water-supply springs in a karst aquifer system in the Elizabethtown area, northern Kentucky. United States Geological Survey, Water-Resources Investigations Report\u00a096-4254, https:\/\/doi.org\/10.3133\/wri964254<\/a>.<\/p>\r\n

Taylor, C.J., 2021a, Field photographs of karst overflow springs, Groundwater Hydrologist and Water Resources Section Head, Kentucky Geological Survey, University of Kentucky, Lexington, Kentucky, United States.<\/p>\r\n

Taylor, C.J., 2021b, Photographs depicting rock core, fractured limestone outcrop, and karst spring, Groundwater Hydrologist and Water Resources Section Head, Kentucky Geological Survey, University of Kentucky, Lexington, Kentucky, United States.<\/p>\r\n

Taylor, C.J., 2021c, Field photographs of well borehole in karstic limestone aquifer, Elizabethtown, Kentucky, Groundwater Hydrologist and Water Resources Section Head, Kentucky Geological Survey, University of Kentucky, Lexington, Kentucky, United States.<\/p>\r\n

Taylor, C.J., 2021d, Field photograph of rock outcropping showing karst features, Groundwater Hydrologist and Water Resources Section Head, Kentucky Geological Survey, University of Kentucky, Lexington, Kentucky, United States.<\/p>\r\n

Taylor, C.J., 2021e, Field photographs of fluorescent dye injections, Groundwater Hydrologist and Water Resources Section Head, Kentucky Geological Survey, University of Kentucky, Lexington, Kentucky, United States.<\/p>\r\n

Taylor, C.J., and E.A. Greene, 2008, Hydrogeologic characterization and methods used in the investigation of karst hydrology in<\/em> Field techniques for estimating water fluxes between surface water and ground water, editors, D.O. Rosenberry and J.W. LaBaugh. United States Geological Survey, pages\u00a071-114, https:\/\/pubs.usgs.gov\/tm\/04d02\/pdf\/TM4-D2-chap3.pdf<\/a>.<\/p>\r\n

Taylor, C.J., and Doctor, D. 2017, Karst in<\/em> Handbook of Applied Hydrology, editor, V.P. Singh, Second Edition, McGraw-Hill, pages\u00a089-1 to 89-14.<\/p>\r\n

Taylor, C.J., and G.K. McCombs, 1998, Recharge-area delineation and hydrology, McCraken Springs, Fort Knox Military Reservation, Meade County, Kentucky. United States Geological Survey, Water-Resources Investigations Report\u00a098-4196, over size map sheet, http:\/\/pubs.er.usgs.gov\/publication\/wri984196<\/a>.<\/p>\r\n

Taylor, C.J., and H.L. Nelson Jr., 2008, A compilation of provisional karst geospatial data for the Interior Low Plateaus physiographic region, central United States. United States Geological Survey, Data Series\u00a0339, https:\/\/pubs.usgs.gov\/ds\/339\/<\/a>.<\/p>\r\n

Teutsch, G., 1993, An extended double-porosity concept as a practical modeling approach for a karstified terraine in<\/em> Hydrogeological processes in karst terraines: Proceedings of the Antalya Symposium and Field Seminar, editors, J. Gultekin and W. Back. International Association of Hydrological Sciences, volume 207, pages\u00a0281-292, http:\/\/www.speleogenesis.info\/directory\/karstbase\/publication.php?id=8077<\/a>.<\/p>\r\n

Teutsch, G., and M. Sauter, 1991, Groundwater modeling in karst terranes-Scale effects, data acquisition, and field validation. Third Conference on Hydrogeology, Monitoring, and Management of Groundwater in Karst Terranes, Nashville, Tennessee, USA, pages\u00a017-35, https:\/\/nepis.epa.gov\/Exe\/ZyPDF.cgi\/9100NMJR.PDF?Dockey=9100NMJR.PDF<\/a>.<\/p>\r\n

Teutsch, G., and M. Sauter, 1998, Distributed parameter modelling approaches in karst hydrological investigations. Bulletin d\u2019Hydrogeologie, volume\u00a016, pages\u00a099-110, http:\/\/pascal-francis.inist.fr\/vibad\/index.php?action=getRecordDetail&idt=6220844<\/a>.<\/p>\r\n

Theis, C.V., 1935, The relation between the lowering of the piezometric surface and the rate and duration of discharge of a well using ground water storage. Transaction of American Geophysical Union, volume\u00a016, issue\u00a02, pages\u00a0519-524, https:\/\/doi.org\/10.1029\/TR016i002p00519<\/a>.<\/p>\r\n

Thrailkill, J., 1968, Chemical and hydrologic factors in the excavation of limestone caves. Geological Society of America Bulletin, volume\u00a079, pages\u00a019-46, https:\/\/doi.org\/10.1130\/0016-7606(1968)79%5b19:CAHFIT%5d2.0.CO;2<\/a>.<\/p>\r\n

Toomey, R.S., H.H. Hobbs, and R.A. Olson, 2017, An orientation to Mammoth Cave and this volume in<\/em> Mammoth Cave, editors, H. Hobbs III, R. Olson, E. Winkler, and D. Culver. Cave and Karst Systems of the World, Springer, Cham, https:\/\/doi.org\/10.1007\/978-3-319-53718-4_1<\/a>.<\/p>\r\n

Toth, J., 1963, A theoretical analysis of groundwater flow in small drainage basins. Journal of Geophysical Research, volume\u00a068, issue\u00a016, pages\u00a04795-4812, https:\/\/doi.org\/10.1029\/JZ068i016p04795<\/a>.<\/p>\r\n

Trcek, B., 2007, How can the epikarst zone influence the karst aquifer behavior? Environmental Geology, volume\u00a051, pages\u00a0761-765, https:\/\/doi.org\/10.1007\/s00254-006-0387-x<\/a>.<\/p>\r\n

Trichakis, I.C., I.K. Nikolos, and G.P. Karatzas, 2009, Artificial neural network (ANN) based modeling for karstic groundwater level simulation. Water Resources Management, volume\u00a025, issue\u00a04, pages\u00a01143-1152, https:\/\/doi.org\/10.1007\/s11269-010-9628-6<\/a>.<\/p>\r\n

Tucci, P., 2011, Field Trip photograph of a spring that flows out of base of cliff and forms a creek that flows into the Buffalo River, Arkansas taken in April 28, 2011. Retired Central Region Groundwater Specialist, United States Geological Survey, Denver, Colorado, United States.<\/p>\r\n

USEPA, 1991, United States Environmental Protection Agency, Secondary drinking water standards, EPA 570\/9-91-019FS, https:\/\/www.epa.gov\/sdwa\/secondary-drinking-water-standards-guidance-nuisance-chemicals<\/a>.<\/p>\r\n

USEPA, 2002, United States Environmental Protection Agency, A lexicon of cave and karst terminology with special reference to environmental karst hydrology. Office of Research and Development, National Center for Environmental Assessment, Washington Office, Washington, DC, USA, https:\/\/cfpub.epa.gov\/ncea\/risk\/era\/recordisplay.cfm?deid=54964<\/a>.<\/p>\r\n

USEPA, 2009, United States Environmental Protection Agency, National primary drinking water regulations, https:\/\/www.epa.gov\/ground-water-and-drinking-water\/national-primary-drinking-water-regulations<\/a>.<\/p>\r\n

USEPA, 2021, United States Environmental Protection Agency, National primary drinking water standards, https:\/\/www.federalregister.gov\/documents\/2001\/01\/22\/01-1668\/national-primary-drinking-water-regulations-arsenic-and-clarifications-to-compliance-and-new-source<\/a>.<\/p>\r\n

USGS Website, 2021, Geology and Ecology of National Parks, Mammoth Cave National Park, United States Geological Survey, https:\/\/www.usgs.gov\/science-support\/osqi\/yes\/national-parks\/mammoth-cave-national-park<\/a>.<\/p>\r\n

Vacher, H.L., and J.E. Mylroie, 2002, Eogenetic karst from the perspective of an equivalent porous medium. Carbonates and Evaporites, volume\u00a017, number\u00a02, pages\u00a0182-196, https:\/\/doi.org\/10.1007\/BF03176484<\/a>.<\/p>\r\n

Vennard, J.K., and R.L. Street, 1975, Elementary fluid mechanics. John Wiley, New York, USA, 740\u00a0pages.<\/p>\r\n

Vesper, D.J., C.M. Loop, and W.B. White, 2001, Contaminant transport in karst aquifers. Theoretical and Applied Karstology, issues\u00a013-14, pages\u00a0101-111, http:\/\/www.speleogenesis.info\/journal\/publication.php?id=4490<\/a>.<\/p>\r\n

Wacker, M.A., K.J. Cunningham, and J.H. Williams, 2014, Geologic and hydrogeologic frameworks of the Biscayne Aquifer in central Miami-Dade County, Florida. United States Geological Survey, Scientific Investigations Report\u00a02014-5138, http:\/\/dx.doi.org\/10.3133\/sir20145138<\/a>.<\/p>\r\n

Waltham, T., F.G. Bell, and M. Culshaw, 2005, Sinkholes and subsidence. Karst and cavernous rocks in engineering and construction Book Series, Springer-Praxis Books in Geophysical Sciences, Springer, Heidelberg, Germany, 384\u00a0pages, https:\/\/doi.org\/10.1007\/b138363<\/a>.<\/p>\r\n

Wanakule, N., 1988, Regression analysis of the San Marcos Spring flows and water levels of the index well in San Antonio. Southwest Texas University, Edwards Aquifer Research and Data Center, 34\u00a0pages.<\/p>\r\n

Wanakule, N., and R. Anaya, 1993, A lumped parameter model for the Edwards Aquifer. Texas A&M University, Texas Water Resources Institute, Technical Report number\u00a0163, 84\u00a0pages, https:\/\/hdl.handle.net\/1969.1\/6172<\/a>.<\/p>\r\n

Water Science School, 2021, How groundwater occurs. United States Geological Survey, Aquifers and Groundwater, accessed January 2022 at https:\/\/www.usgs.gov\/special-topic\/water-science-school\/science\/aquifers-and-groundwater?qt-science_center_objects=0#qt-science_center_objects<\/a>.<\/p>\r\n

Watkins Jr., D.W., and D.C. McKinney, 1999, Screening water supply options for the Edwards Aquifer region in central Texas. Journal of Water Resources Planning and Management, volume\u00a0125, issue\u00a01, pages\u00a014-24, accessed January 2022 at https:\/\/ascelibrary.org\/doi\/10.1061\/%28ASCE%290733-9496%281999%29125%3A1%2814%29<\/a>.<\/p>\r\n

White, W.B., 1988, Geomorphology and hydrology of karst terrains, Oxford University Press, Oxford, United Kingdom and New York, USA, 464\u00a0pages.<\/p>\r\n

White, W.B., 1993, Analysis of karst aquifers in<\/em> Regional ground-water quality, editor, W.M. Alley. Van Nostrand Reinhold, New York, USA, pages\u00a0471-489.<\/p>\r\n

White, W.B., 1999, Conceptual models for karstic aquifers in<\/em> Karst modeling, editors, A.N. Palmer, M.V. Palmer, and I.D. Sasowsky. Karst Waters Institute, Special Publication volume\u00a05, pages\u00a011-16, https:\/\/apps.dtic.mil\/sti\/pdfs\/ADA369937.pdf#page=19<\/a>.<\/p>\r\n

White, W.B., 2016, Groundwater Flow in Karst Aquifers in<\/em> The Handbook of Groundwater Engineering, Third Edition, 25 November 2016, pages\u00a0563-595, https:\/\/www.routledge.com\/The-Handbook-of-Groundwater-Engineering\/Cushman-Tartakovsky\/p\/book\/9781498703048<\/a>.<\/p>\r\n

White, W.B., 2019, Hydrogeology of Karst aquifers in<\/em> Encyclopedia of Caves, Third Edition, Chapter 64, editors, W.B. White, D.C. Culver, and T. Pipan. Academic Press, pages\u00a0537-545, https:\/\/doi.org\/10.1016\/B9780128141243.000649<\/a>.<\/p>\r\n

White, W.B., and E.L. White, 1989, Karst hydrology: Concepts from the Mammoth Cave area. Van Nostrand Reinhold, New York, USA, 346\u00a0pages, https:\/\/link.springer.com\/book\/10.1007\/978-1-4615-7317-3<\/a>.<\/p>\r\n

White, W.B., J.S. Herman, E.K. Herman, and M. Rutigliano, 2018, Karst Groundwater Contamination and Public Health: Beyond Case Studies. Advances in Karst Science Series, Springer International Publishing, 347pages, https:\/\/www.springer.com\/gp\/book\/9783319510699<\/a>.<\/p>\r\n

Wicks, C.M., and J.A. Hoke, 2000, Prediction of the quality and quantity of Maramec spring water. Groundwater, volume\u00a038, issue 2, pages\u00a0218-225, https:\/\/doi.org\/10.1111\/j.1745-6584.2000.tb00333.x<\/a>.<\/p>\r\n

Williams, H., J.B. Cowart, and J.D. Arthur, 2002, Florida Aquifer Storage and Recovery (ASR) Geochemical Project: Year One and Two Progress Report. Florida Geological Survey, volume\u00a0100, 131\u00a0pages.<\/p>\r\n

Williams, L.J., and E.L. Kuniansky, 2016, Revised hydrogeologic framework of the Floridan aquifer system in Florida and parts of Georgia, Alabama, and South Carolina. United States Geological Survey, Professional Paper\u00a01807, https:\/\/pubs.usgs.gov\/pp\/1807\/<\/a>.<\/p>\r\n

Winter, T.C., J.W. Harvey, O.L. Franke, and W.M. Alley, 1998, Ground water and surface water: A single resource. United States Geological Survey, Circular 1139, 87\u00a0pages, https:\/\/pubs.usgs.gov\/circ\/circ1139\/<\/a><\/p>\r\n

Wolfe, W.J., C.J. Haugh, A. Webbers, and T.H. Diehl, 1997, Preliminary conceptual models of the occurrence, fate, and transport of chlorinated solvents in the karst regions of Tennessee. United States Geological Survey, Water-Resources Investigations Report\u00a097-4097, https:\/\/pubs.usgs.gov\/wri\/wri974097\/new4097.pdf<\/a>.<\/p>\r\n

Wolff, R.G., 1982, Physical properties of rocks\u2014Porosity, permeability, distribution coefficients, and dispersivity. United States Geological Survey, Open-File Report\u00a082-166, https:\/\/doi.org\/10.3133\/ofr82166<\/a>.<\/p>\r\n

Wong, C.I., B.J. Mahler, M. Musgrove, J.L. Banner, 2012, Changes in sources and storage in a karst aquifer during a transition from drought to wet conditions. Journal of Hydrology, volume\u00a0468-469, pages\u00a0159-172, https:\/\/doi.org\/10.1016\/j.jhydrol.2012.08.030<\/a>.<\/p>\r\n

Wood, W.W., 1985, Origin of caves and other solution openings in the unsaturated (vadose) zone of carbonate rocks, a model for CO2<\/sub> generation. Geology, volume\u00a013, issue\u00a011, pages\u00a0822-824, https:\/\/doi.org\/10.1130\/0091-7613(1985)13<822:OOCAOS>2.0.CO;2<\/a>.<\/p>\r\n

Wood, W.W., and J. Cherry, 2021, Written personal communication of a draft illustration for a book titled \"Introduction to Groundwater Geochemistry\" which is in preparation for The Groundwater Project, Guelph, Ontario, Canada.<\/p>\r\n

Wood, W.W., and M.J. Petraitis, 1984, Origin and distribution of carbon dioxide in the unsaturated zone of the Southern High Plains of Texas. Water Resources Research, volume\u00a020, issue\u00a09, pages\u00a01193-1208, doi.org\/10.1029\/WR020i009p01193<\/a>.<\/p>\r\n

Worthington, S.R.H., 1991, Karst hydrology of the Canadian Rocky Mountains: Hamilton, Ontario, Canada. McMaster University, unpublished Doctor of Philosophy dissertation, 380\u00a0pages, http:\/\/hdl.handle.net\/11375\/8329<\/a>.<\/p>\r\n

Worthington, S.R.H., 2005, Evolution of caves in response to base-level lowering. Cave and Karst Science, volume\u00a032, issue\u00a01, pages\u00a02-12, https:\/\/www.researchgate.net\/publication\/282947188_Evolution_of_caves_in_response_to_base-level_lowering<\/a>.<\/p>\r\n

Worthington, S.R.H., G.J. Davies, and D.C. Ford, 2000, Matrix, fracture and channel components of storage and flow in a Paleozoic limestone aquifer in<\/em> Groundwater flow and contaminant transport in carbonate aquifers, editors, I.D. Sasowsky and C.M. Wicks, Rotterdam, Netherlands, A.A. Balkema, pages\u00a0113-128, http:\/\/pascal-francis.inist.fr\/vibad\/index.php?action=getRecordDetail&idt=6190929<\/a>.<\/p>\r\n

Worthington, S.R.H., P.Y. Jeannin, E.C. Alexander Jr., G.J. Davies, and G.M. Schindel, 2017, Contrasting definitions for the term \u2018karst aquifer\u2019. Hydrogeology Journal, volume\u00a025, pages\u00a01237-1240, https:\/\/doi.org\/10.1007\/s10040-017-1628-7<\/a>.<\/p>\r\n

Worthington, S.R.H., and C.C. Smart, 2003, Empirical determination of tracer mass for sink to spring tests in karst in<\/em> Sinkholes and the engineering and environmental impacts on karst, editor, B.F. Beck. American Society of Civil Engineers, Geotechnical Special Publication number\u00a0122, pages\u00a0287-295, doi.org\/10.1061\/40698(2003)26<\/a>.<\/p>\r\n

Worthington, S.R.H., C.C. Smart, and W.W. Ruland, 2002, Assessment of groundwater velocities to the municipal wells at Walkerton. Ground and Water: Theory to Practice, pages\u00a01081-1086, https:\/\/www.researchgate.net\/publication\/282947211<\/a>.<\/p>\r\n

Zhang, B., and D.N. Lerner, 2000, Modeling of ground water flow to adits. Groundwater, volume\u00a038, issue\u00a01, pages\u00a099-105, https:\/\/doi.org\/10.1111\/j.1745-6584.2000.tb00206.x<\/a>.<\/p>\r\n

Zhou, W., 2007, Drainage and flooding in karst terranes. Environmental Geology, volume\u00a051, pages\u00a0963-973, https:\/\/doi.org\/10.1007\/s00254-006-0365-3<\/a>.<\/p>\r\n

Zimmerman, R.W., A. Al-Yaarubi, C.C. Pain, and C.A. Grattoni, 2004, Non-linear regimes of fluid flow in rock fractures. International Journal of Rock Mechanics and Mining Sciences, volume\u00a041, supplement\u00a01, pages\u00a0163-169, https:\/\/doi.org\/10.1016\/j.ijrmms.2004.03.036<\/a>.<\/p>\r\n\r\n<\/div>","rendered":"

\n

Acosta, R.E., R.H. Muller, C.W. Tobias, 1985, Transport processes in narrow (capillary) channels. American Institute of Chemical Engineers Journal, volume\u00a031, issue\u00a03, pages\u00a0473-482, https:\/\/doi.org\/10.1002\/aic.690310315<\/a>.<\/p>\n

Adams, R., and G. Parkin, 2002, Development of a surface-groundwater-pipe network model for the sustainable management of karstic groundwater. Environmental Geology, volume\u00a042, issue\u00a05, pages\u00a0513-517, https:\/\/doi.org\/10.1007\/s00254-001-0513-8<\/a>.<\/p>\n

Aley, T., 1997, Groundwater tracing in the epikarst in<\/em> Proceedings of the 6th Multidisciplinary Conference on Sinkholes and the Engineering and Environmental Impacts of Karst. A.A. Balkema, Rotterdam. Pp. 207 211.<\/p>\n

Aley, Thomas, 2001, Procedures and criteria for the analysis of fluorescein, eosine, rhodamine WT, sulforhodamine B,and pyranine dyes in water and charcoal samplers. Ozark Underground Laboratory, most recent publications accessed January 2022 is https:\/\/www.ozarkundergroundlab.com\/\/oul-documents.html<\/a>.<\/p>\n

Aley, T., 2002, Groundwater tracing handbook. Ozark Underground Laboratory, most recent publication accessed January 2022 is https:\/\/www.ozarkundergroundlab.com\/\/oul-documents.html<\/a>.<\/p>\n

Anderson, Christopher, 2021a, Photograph titled “Rumble River and the M.O.S. Borehole Rumbling Falls Cave, Van Buren County, TN”, Professional Photographer, Darklight Imagery, Kentucky, USA.<\/p>\n

Anderson, Christopher, 2021b, Photograph titled “Epitome Lake, Webster Avenue, Webster Cave Complex, Breckinridge County, KY”, Professional Photographer, Darklight Imagery, Kentucky, USA.<\/p>\n

Anderson, Christopher, 2021c, Photographs titled (left to right) “P Strange Falls Hawkins River, Mammoth Cave, Edmondson County, KY”, “First Falls In Flood Rumbling Falls Cave, Van Buren County, TN”, and “Shaft Freeman’s Pit, IN”, Professional Photographer, Darklight Imagery, Kentucky, USA.<\/p>\n

Anderson, Christopher, 2021d, Photographs titled (left to right) “Stream Spring Mill Cave”, and “River Passage Cool Spring Cave, Trigg County, KY”, Professional Photographer, Darklight Imagery, Kentucky, USA.<\/p>\n

Anderson, M.P., 2005, Heat as a ground water tracer. Groundwater, volume\u00a043, issue\u00a06, pages\u00a0951-968, https:\/\/doi.org\/10.1111\/j.1745-6584.2005.00052.x<\/a>.<\/p>\n

Anderson, M.P., W.W. Woessner, and R.J, Hunt, 2015, Applied groundwater modeling\u2014simulation of flow and advective transport. Academic Press, 630\u00a0pages.<\/p>\n

Arthur, J.D., J.B. Cowart, J.B. and A.A. Dabous, A.A., 2001, Florida Aquifer storage and recovery geochemical study: Year three progress report. Florida Geological Survey, Open File Report, volume\u00a083, 46\u00a0pages, http:\/\/ufdc.ufl.edu\/UF00094038\/00001<\/a>.<\/p>\n

Arthur, J.D., A.A. Dabous., and J.B Cowart., 2002, Mobilization of arsenic and other trace elements during aquifer storage and recovery, southwest Florida in<\/em>. In: United States Geological Survey Artificial Recharge Workshop Proceedings, editors, G.R. Aiken, and E.L. G. R., and E.L. Kuniansky, 2002, United States Geological Survey Artificial Recharge Workshop Proceedings, pages\u00a047-50, https:\/\/water.usgs.gov\/ogw\/pubs\/ofr0289\/jda_mobilization.htm<\/a>.<\/p>\n

Arthur, J., H. Wood, A. Baker, J. Cichon, and G. Raines, 2007, Development and implementation of a Bayesian-based aquifer vulnerability assessment in Florida. Natural Resources Research, volume\u00a016, issue\u00a02, pages\u00a093-107, https:\/\/doi.org\/10.1007\/s11053-007-9038-5<\/a>.<\/p>\n

Auckenthaler, A., G. Raso, and P. Huggenberger, 2002, Particle transport in a karst aquifer: Natural and artificial tracer experiments with bacteria, bacteriophages, and microspheres. Water Science and Technology, volume\u00a046, issue\u00a03, pages\u00a0131-138, https:\/\/doi.org\/10.2166\/wst.2002.0072<\/a>.<\/p>\n

Bakalowicz, M., 2005, Karst groundwater: A challenge for new resources. Hydrogeology Journal, volume\u00a013, issue\u00a01, pages\u00a0148-160, https:\/\/doi.org\/10.1007\/s10040-004-0402-9<\/a>.<\/p>\n

Bandy, A.M.., A. Fryar, K. Cook, J. Polk, K. McClanahan, and S. Macko, 2016, Mobility of Escherichia coli<\/em> compared to traditional groundwater tracers within karst terrains. Karst Waters Institute Special Publication, volume\u00a019, 13\u00a0pages.<\/p>\n

Barret, M.E., and R.J. Charbeneau, 1997, A parsimonious model for simulating flow in a karst aquifer. Journal of Hydrology, volume\u00a0196, pages\u00a047-65, https:\/\/doi.org\/10.1016\/S0022-1694(96)03339-2<\/a>.<\/p>\n

Bauer, S., 2002, Simulation of the genesis of karst aquifers in carbonate rocks. Institut und Museum f\u00fcr Geologie und Pal\u00e4ontologie der Universit\u00e4t T\u00fcbingen, volume\u00a062.<\/p>\n

Bauer, S., R. Liedl., and M. Sauter, 2000, Modelling of karst development considering conduit-matrix exchange flow. International Association of Hydrological Sciences Publication, pages\u00a010-15, https:\/\/iahs.info\/uploads\/dms\/16981.02-10-15-Bauer-et-al..pdf<\/a>.<\/p>\n

Bauer, S., R. Liedl, and M. Sauter, 2003, Modeling of karst aquifer genesis: Influence of exchange flow. Water Resources Research, volume\u00a039, number\u00a010, issue\u00a01,285\u00a0pages, https:\/\/doi.org\/10.1029\/2003WR002218<\/a>.<\/p>\n

Bayless, E.R., P.J. Cinotto, R.L. Ulery, C.J. Taylor, G.K. McCombs, M.H. Kim, and H.L. Nelson Jr., 2014, Surface-water and karst groundwater interactions and streamflow-response simulations of the karst-influenced upper Lost River watershed, Orange County, Indiana. United States Geological Survey, Scientific Investigations Report 2014-5028, 39\u00a0pages, https:\/\/doi.org\/10.3133\/sir20145028<\/a>.<\/p>\n

Bayless, E.R., C.J. Taylor, and M.S. Hopkins, 1994, Directions of ground-water flow and locations of ground-water divides in the Lost River watershed near Orleans, Indiana. United States Geological Survey, Water-Resources Investigations Report\u00a094-4195, https:\/\/doi.org\/10.3133\/wri944195<\/a>.<\/p>\n

Bear, J., 1979, Hydraulics of groundwater. McGraw-Hill, Incorporated, New York, USA, 567\u00a0pages.<\/p>\n

Behrens, H., 1986, Water tracer chemistry: A factor determining performance and analytics of tracers. Proceedings of 5th<\/sup> International Symposium on underground water tracing, Institute of Geology and Mineral Exploration, Athens, Greece, pages\u00a0121-133.<\/p>\n

Behrens, H., U. Beims, H. Dieter., G. Dietze, T. Eikmann, T. Grummt, H. Hanisch., H. Henseling, W. K\u00e4ss, H. Kerndorff, C. Leibundgut, U. M\u00fcller-Wegener, I. R\u00f6nnefahrt, B. Scharenberg, R. Schleyer, W. Schloz, and F. Tilkes, 2001, Toxicological and ecotoxicological assessment of water tracers. Hydrogeology Journal, volume\u00a09, issue\u00a03, pages\u00a0321-325, https:\/\/doi.org\/10.1007\/s100400100126<\/a>.<\/p>\n

Benischke, R., 2021, Review: Advances in the methodology and application of tracing in karst aquifers. Hydrogeology Journal, volume\u00a029, pages\u00a067-88, https:\/\/doi.org\/10.1007\/s10040-020-02278-9<\/a>.<\/p>\n

Bentall, R., 1964, Methods of determining permeability, transmissibility, and drawdown. United States Geological Survey, Water-Supply Paper 1536-I, https:\/\/doi.org\/10.3133\/wsp1536I<\/a>.<\/p>\n

Birk, S., 2002, Characterization of karst systems by simulating aquifer genesis and spring responses: Model development and application to gypsum karst. T\u00fcbinger Geowiss. Arb., Reihe C, Accessed February 2022 https:\/\/www.researchgate.net\/publication\/289547236_Characterisation_of_karst_systems_by_simulating_aquifer_genesis_and_spring_responses_Model_development_and_application_to_gypsum_karst<\/a>.<\/p>\n

B\u00f6hlke, J.K., and J.M. Denver, 1995, Combined use of groundwater dating, chemical, and isotopic analyses to resolve the history and fate of nitrate contamination in two agricultural watersheds, Atlantic coastal plain, Maryland. Water Resources Research, volume\u00a031, pages\u00a02319-2339, https:\/\/doi.org\/10.1029\/95WR01584<\/a>.<\/p>\n

Bouwer, Herman, 1978, Groundwater Hydrology. McGraw-Hill, New York, USA, 480\u00a0pages.<\/p>\n

Brahana, J.V., and E.F. Hollyday, 1988, Dry stream reaches in carbonate terranes: Surface indicators of ground-water reservoirs. American Water Resources Association Bulletin, volume\u00a024, issue\u00a03, pages\u00a0577-580 https:\/\/doi.org\/10.1111\/j.1752-1688.1988.tb00907.x<\/a>.<\/p>\n

Bunnell, Dave, 2006, Photo by Dave Bunnell showing the most common speleothems<\/a> by\u00a0Dave Bunnell<\/a>\u00a0is licensed under\u00a0CC BY-SA 2.5<\/a>.<\/p>\n

Butler, D.K., 1984, Microgravimetric and gravity gradient techniques for detection of subsurface cavities. Geophysics, volume\u00a049, issue\u00a07, pages\u00a01084-1096, https:\/\/doi.org\/10.1190\/1.1441723<\/a>.<\/p>\n

Butler, J.J., 2019, The design, performance, and analysis of slug tests. CRC Press, New York, USA, https:\/\/doi.org\/10.1201\/9780367815509<\/a>.<\/p>\n

Cao, M., J. Lei, Q. He, Z. Zeng, X. L\u00fc, and Y. Jiang, 2021, Rainfall-driven and hydrologically-controlled variations in cave CO2<\/sub> sources and dynamics: Evidence from monitoring soil CO2<\/sub>, stream flow and cave CO2<\/sub>. Journal of Hydrology, volume\u00a0595, article number\u00a0126060, https:\/\/doi.org\/10.1016\/j.jhydrol.2021.126060<\/a>.<\/p>\n

Cao, J., D. Yuan, C. Groves, F. Huang, H. Yang, and L. Qian., 2012, Carbon fluxes and sinks: The consumption of atmospheric and soil CO2<\/sub> by carbonate rock dissolution. Acta Geologica Sinica\u2014English Edition, volume\u00a086, issue\u00a04, pages\u00a0963-972, https:\/\/doi.org\/10.1111\/j.1755-6724.2012.00720.x<\/a>.<\/p>\n

Cao, J., X. Wu, F. Huang, B. Hu, C. Groves, H. Yang, and C.L. Zhang, 2018, Global significance of the carbon cycle in the karst dynamic system: Evidence from geological and ecological processes. China Geology, volume\u00a01, pages\u00a017-27, https:\/\/doi.org\/10.31035\/cg2018004<\/a>.<\/p>\n

Chen, Z., A.S. Auler, M. Bakalowicz, D. Drew, F. Griger, J. Hartmann, G. Jiang, N. Moosdorf, A. Richts, Z. Stevanovic, G. Veni, and N. Goldscheider, 2017, The world karst aquifer mapping project: Concept, mapping procedure and map of Europe. Hydrogeology Journal, volume\u00a025, issue\u00a03, pages\u00a0771-785, https:\/\/doi.org\/10.1007\/s10040-016-1519-3<\/a>.<\/p>\n

Choquette, P.W., and L.C. Pray, 1970, Geologic nomenclature and classification of porosity in sedimentary carbonates. American Association of Petroleum Geologists Bulletin, volume\u00a054, issue\u00a02, pages\u00a0207-250, https:\/\/doi.org\/10.1306\/5D25C98B-16C1-11D7-8645000102C1865D<\/a>.<\/p>\n

Clark, I.D., and P. Fritz, 1997, Environmental isotopes in hydrogeology. CRC Press, Boca Raton, Florida, USA, 328\u00a0pages, https:\/\/doi.org\/10.1201\/9781482242911<\/a>.<\/p>\n

Clemens, T., D. H\u00fcckinghaus, M. Sauter, R. Liedl, and G. Teutsch, 1996, A combined continuum and discrete network reactive transport model for the simulation of karst development. International Association of Hydrological Sciences Publication, volume\u00a0237, pages\u00a0309-318, https:\/\/iahs.info\/uploads\/dms\/10509.309-318-237-Clemens.pdf<\/a>.<\/p>\n

Cook, Peter, 2020, Introduction to Isotopes and Environmental Tracers as Indicators of Groundwater Flow<\/a>. The Groundwater Project, Guelph, Ontario, Canada.<\/p>\n

Cook, P.G., and A.L. Herczeg, 2000, Environmental tracers in subsurface hydrology. Kluwer Academic Publishers, Boston, USA, 529\u00a0pages, https:\/\/doi.org\/10.1007\/978-1-4615-4557-6<\/a>.<\/p>\n

Copeland, R., 2003, Florida spring classification system and spring glossary. Florida Geological Survey, Tallahasse, Florida, USA, Special Publication number\u00a052, 17\u00a0pages, https:\/\/www.lake.wateratlas.usf.edu\/upload\/documents\/SP_52-Fla-Springs-Classification-Glossary-2003.pdf<\/a>.<\/p>\n

Cowart, J.B., H.K. Williams, and J.D. Arthur, 1998, Mobilization of U isotopes by the introduction of surface waters into a carbonate aquifer. Geological Society of America Abstracts with Programs, volume\u00a030, issue\u00a07, page\u00a0A-86.<\/p>\n

Cressler, A., 2005, Photograph of Upper Cueva Ventana, Ventana Entrance, Municipio de Arecibo, Puerto Rico, Dawn Ryan, Overlooking the Rio Grande de Arecibo Valley. Alan Cressler, Hydrologic Technician, United States Geological Survey, Norcross, Georgia, USA.<\/p>\n

Cressler, A., 2006, Field photographs of Dry Spring cave in Jackson County, Alabama, USA. Alan Cressler, Hydrologic Technician, United States Geological Survey, Norcross, Georgia, USA.<\/p>\n

Cressler, A., 2009, Photograph of Deer Cave, West Entrance Area, Gunung Mulu National Park, Borneo, Sarawak, Malaysia. Alan Cressler, Hydrologic Technician, United States Geological Survey, Norcross, Georgia, USA.<\/p>\n

Cressler, A., 2010, Field photograph of Alapaha River, river sink, Jennings Bluff-Avoca Tracts, Suwannee River Water Management District Lands, Hamilton County, Florida, USA. Allan Cressler, Hydrologic Technician, United States Geological Survey, Norcross, Georgia, USA.<\/p>\n

Cressler, A., 2011, Field photograph of Blue Hole Spring vent, Ichetucknee Springs State Park, Suwannee County, Florida taken by Alan Cressler, November 21, 2011, Hydrologic Technician, United States Geological Survey, Norcross, Georgia, USA.<\/p>\n

Cressler, A., 2013, Photograph of Putai Blowholes and Pancake Rocks, stylobedding, Dolomite Point, Paparoa National Park, Buller District, West Coast, New Zealan. Alan Cressler, January 3, 2013, Hydrologic Technician, United States Geological Survey, Norcross, Georgia, USA.<\/p>\n

Cressler, A., 2014, Field photograph of Waterslide Cave, Stephens Gap Callahan Cave Preserve, Southeastern Cave Conservancy, Jackson County, Alabama, Mississippian age Pennington Formation. Alan Cressler, November 22, 2014, Hydrologic Technician, United States Geological Survey, Norcross, Georgia, USA.<\/p>\n

Cressler, A., 2016, Field photograph of Ocala Limestone, Eocene Age, Ozello Archipelago, Gulf of Mexico, Citrus County, Florida taken by Alan Cressler, March 17, 2016, Hydrologic Technician, United States Geological Survey, Norcross, Georgia, USA.<\/p>\n

Cunningham, K.J., 2008, Photographs a and b, Research Hydrologist, United States Geological Survey, Davee, Florida, USA.<\/p>\n

Cunningham, K.J., and A. Aviantara, 2001, Characterization of the karstic Biscayne Aquifer in southeastern Florida using ground-penetrating radar, digital optical borehole images and cores in<\/em> Proceedings of the 2001 United Stated Geological Survey, Karst Interest Group, Saint Petersburg, Florida, USA, February 13-16, editor, E. Kuniansky, https:\/\/web.archive.org\/web\/20170602222911\/https:\/\/water.usgs.gov\/ogw\/karst\/kigconference\/kjc_characterization.htm<\/a>.<\/p>\n

Cunningham, K.J., S.D. Locker, A.C. Hine, D. Burky, J.A. Barron, and L.A. Guertin, 2001, Surface-geophysical characterization of ground-water systems of the Caloosahatchee River Basin, Southern Florida. United States Geological Survey, Water-Resources Investigations Report\u00a02001-4084, https:\/\/doi.org\/10.3133\/wri014084<\/a>.<\/p>\n

Cunningham, K.J., R.A. Renken, M.A. Wacker, M.R. Zygnerski, E. Robinson, A.M. Shapiro, and G.L. Wingard, 2006, Application of carbonate cyclostratigraphy and borehole geophysics to delineate porosity and preferential flow in the karst limestone of the Biscayne Aquifer, SE Florida. Geological Society of America Special Papers, volume\u00a0404, pages\u00a0191-208, https:\/\/doi.org\/10.1130\/2006.2404(16)<\/a>.<\/p>\n

Cunningham, K.J., M.C. Sukop, H. Huang, P.F. Alvarez, H.A. Curran, R.A. Renken, and J.F. Dixon, 2009, Prominence of ichnologically influenced macroporosity in the karst Biscayne Aquifer: Stratiform “super-K” zones. Geological Society of America Bulletin, volume\u00a0121, numbers\u00a01-2, pages\u00a0164-180, https:\/\/doi.org\/10.1130\/B26392.1<\/a>.<\/p>\n

Currens, J.C., R.L. Paylor, and J.A. Ray, 2002, Mapped karst groundwater basins in the Lexington 30×60 minute quadrangle. Kentucky Geological Survey Map and Chart 35, Series XII, https:\/\/doi.org\/10.13023\/kgs.mc35.12<\/a>.<\/p>\n

Dauda, M., and G.A. Habib, 2015, Graphical Techniques of Presentation of Hydro-Chemical Data. Journal of Environment and Earth Science, volume\u00a05, issue\u00a04, pages\u00a065-75, https:\/\/core.ac.uk\/download\/pdf\/234664092.pdf<\/a>.<\/p>\n

Davis, J.H., 1996, Hydrogeologic investigation and simulation of ground-water flow in the Upper Floridan aquifer of north-central Florida and delineation of contributing areas for selected City of Tallahassee, Florida, water-supply wells. United States Geological Survey, Water-Resources Investigations Report 95-4296, https:\/\/doi.org\/10.3133\/wri954296<\/a>.<\/p>\n

Davis, J.H., and B.G. Katz, 2007, Hydrogeologic investigation, water chemistry analysis, and model delineation of contributing areas for city of Tallahassee public-supply wells, Tallahassee, Florida. United States Geological Survey, Scientific Investigations Report\u00a02007-5070, https:\/\/pubs.usgs.gov\/sir\/2007\/5070\/<\/a>.<\/p>\n

Davis, J.H., B.G. Katz, and D.W. Griffin, 2010, Nitrate-N Movement in groundwater from the land application of treated municipal wastewater and other sources in the Wakulla Springs Springshed, Leon and Wakulla Counties, Florida, 1966-2018. United States Geological Survey, Scientific Investigations Report\u00a02010-5099, https:\/\/pubs.usgs.gov\/sir\/2010\/5099\/<\/a>.<\/p>\n

Day-Lewis, F.D., J.M. Harris, and S.M. Gorelick, 2002, Time\u2010lapse inversion of crosswell radar data. Geophysics, volume\u00a067, pages\u00a01740-1752, https:\/\/doi.org\/10.1190\/1.1527075<\/a>.<\/p>\n

De Rooij, R., and W. Graham, 2017, Generation of complex karstic conduit networks with a hydrochemical model. Water Resources Research, volume\u00a053, number\u00a08, pages\u00a06993-7011, https:\/\/doi.org\/10.1002\/2017WR020768<\/a>.<\/p>\n

Deutsch, W.J., 1997, Groundwater Geochemistry Fundamentals and Applications to Contamination. CRC Press, Lewis Publishers, Boca Raton, Florida, USA, 221\u00a0pages, https:\/\/doi.org\/10.1201\/9781003069942<\/a>.<\/p>\n

Doerfliger, N., P.Y. Jeannin, and F. Zwahlen, 1999, Water vulnerability assessment in karst environments: A new method of defining protection areas using a multi-attribute approach and GIS tools (EPIK method). Environmental Geology, volume\u00a039, number\u00a02, pages\u00a0165-176, https:\/\/doi.org\/10.1007\/s002540050446<\/a>.<\/p>\n

Domenico, P.A., and F.W. Schwartz, 1990, Physical and chemical hydrogeology. John Wiley and Sons, New York, USA, 824\u00a0pages.<\/p>\n

Dooge, J.C.I., 1973, Linear theory of hydrologic systems. United States Department of Agriculture, Agricultural Research Service, Technical Bulletin number\u00a01468, 327\u00a0pages, https:\/\/higherlogicdownload.s3.amazonaws.com\/AGU\/31ea296c-2c70-4dad-92ef-c4681bc6a288\/UploadedImages\/Dooge_LinearTheoryHydrology.pdf<\/a>.<\/p>\n

Dreiss, S.J., 1982, Linear kernels for karst aquifers. Water Resources Research, volume\u00a018, number\u00a04, pages\u00a0865-876, https:\/\/doi.org\/10.1029\/WR018i004p00865<\/a>.<\/p>\n

Drever, J.I., 1988, The Geochemistry of Natural Waters, 2nd<\/sup> edition. Prentice Hall, Englewood Cliffs, New Jersey, USA, 437\u00a0pages.<\/p>\n

Driscoll, F.G., 1986, Groundwater and wells, 2nd<\/sup> edition. Johnson Division, Saint Paul, Minnesota, USA, 1089\u00a0pages.<\/p>\n

Ewers, R.O., 2006, Karst aquifers and the role of assumptions and authority in science. Geological Society of America Special Papers, volume\u00a0404, pages\u00a0235-242, https:\/\/doi.org\/10.1130\/2006.2404(19)<\/a>.<\/p>\n

Feist, S.K., J.C. Maclachlan, E.G. Reinhardt, and H.S. Skelding, 2020, Anthropogenic events captured within sediment in Hidden River Cave, Kentucky. Quaternary Science Advances, volume\u00a01, article number\u00a0100001, https:\/\/doi.org\/10.1016\/j.qsa.2020.100001<\/a>.<\/p>\n

Ferris, J.G., D.B. Knowles, R.H. Brown, and R.W. Stallman, 1962, Theory of aquifer tests. United States Geological Survey, Water-Supply Paper\u00a01536-E, 174\u00a0pages.<\/p>\n

Field, M.S., 1993, Karst hydrology and chemical contamination. Journal of Environmental Systems, volume\u00a022, number\u00a01, pages\u00a01-26, http:\/\/triggered.stanford.clockss.org\/ServeContent?url=http%3A%2F%2Fbaywood.stanford.clockss.org%2FBWES%2FBAWOOD_BWES_22_1%2FX7MVC93E66GKBFH7.pdf<\/a>.<\/p>\n

Field, M.S., 2002, The QTRACER2 program for tracer-breakthrough curve analysis for tracer tests in karstic aquifers and other hydrologic systems. United States Environmental Protection Agency, Office of Research and Development, National Center for Environmental Assessment, Washington Office, Washington, DC, USA, EPA\/600\/R-02\/001, https:\/\/cfpub.epa.gov\/ncea\/risk\/recordisplay.cfm?deid=54930<\/a>.<\/p>\n

Field, M.S., 2003, A review of some tracer-test design equations for tracer-mass estimation and sample-collection frequency. Environmental Geology, volume\u00a043, number\u00a08, pages\u00a0867-881, https:\/\/doi.org\/10.1007\/s00254-002-0708-7<\/a>.<\/p>\n

Field, M.S., 2004, Forecasting versus predicting solute transport in solution conduits for estimating drinking-water risks. Acta Carsologica, volume\u00a033, number\u00a02, 116\u00a0pages, https:\/\/doi.org\/10.3986\/ac.v33i2.295<\/a>.<\/p>\n

Field, M.S., and S.G. Nash, 1997, Risk assessment methodology for karst aquifers (1): Estimating karst conduit-flow parameters. Environmental Monitoring and Assessment, volume\u00a047, pages\u00a01-21, https:\/\/doi.org\/10.1023\/A:1005753919403<\/a>.<\/p>\n

Fitterman, D.V., and M. Deszcz-Pan, 1998, Helicopter EM mapping of saltwater intrusion in Everglades National Park, Florida. Exploration Geophysics, volume\u00a029, pages\u00a0240-243, https:\/\/doi.org\/10.1071\/EG998240<\/a>.<\/p>\n

Florea, L.L, and H.L. Vacher, 2006, Springflow hydrographs: Eogenetic vs. telogenetic kars. Groundwater, volume\u00a044, number\u00a03, pages\u00a0352-361, https:\/\/doi.org\/10.1111\/j.1745-6584.2005.00158.x<\/a>.<\/p>\n

Folk, R., 1981, Petrology of sedimentary rocks. Hemphill Publishing Company, 2nd<\/sup> edition, Austin, Texas, USA, 182\u00a0pages, http:\/\/hdl.handle.net\/2152\/22930<\/a>.<\/p>\n

Fong, D.W., D.C. Culver, G. Veni, and S.A. Engel, 2013, Carbon and Boundaries in Karst. Abstracts of the conference held January 7-13, 2013, Carlsbad, New Mexico, USA. Karst Waters Institute Special Publication\u00a017, Karst Waters Institute, Leesburg, Virginia, 54\u00a0pages, https:\/\/karstwaters.org\/wp-content\/uploads\/2015\/04\/SP17_CarbonBoundaries.pdf<\/a>.<\/p>\n

Ford, D., and P. Williams, 2007, Karst Hydrogeology and Geomorphology. Wiley, 576\u00a0pages, https:\/\/doi.org\/10.1002\/9781118684986<\/a>.<\/p>\n

Ford, T.D., and C.H.D. Cullingford (editors), 1976, The Science of Speleology. Academic Press, London, New York, 594 pages.<\/p>\n

Freeze, A.R., and J.A. Cherry, 1979, Groundwater. The Groundwater Project, Guelph, Ontario, Canada, http:\/\/gw-project.org\/books\/groundwater\/<\/a>.<\/p>\n

Fu, S., Q. Fang, A. Li, Z. Li, J. Han, X. Dang, and W. Han, 2020, Accurate characterization of full pore size distribution of tight sandstones by low-temperature nitrogen gas adsorption and high-pressure mercury intrusion combination method. Energy Science & Engineering, volume\u00a09, pages\u00a080-100, https:\/\/doi.org\/10.1002\/ese3.817<\/a>.<\/p>\n

Gallegos, J.J., B.X. Hu, and H. Davis, 2013, Simulating flow in karst aquifers at laboratory and sub-regional scales using MODFLOW-CFP. Hydrogeology Journal, volume\u00a021, pages\u00a01749-1760, https:\/\/doi.org\/10.1007\/s10040-013-1046-4<\/a>.<\/p>\n

Garcia, C.A., T.R. Jackson, K.J. Halford, D.S. Sweetkind, N.A. Damar, J.M. Fenelon, and S.R. Reiner, 2017, Hydraulic characterization of volcanic rocks in Pahute Mesa using an Integrated Analysis of 16 multiple-well aquifer tests, Nevada National Security Site, 2009-14. United States Geological Survey, Scientific Investigations Report\u00a02016-5151, https:\/\/doi.org\/10.3133\/sir20165151<\/a>.<\/p>\n

Gary, M.O., D.F. Rucker, B.D. Smith, D.V. Smith, and K. Befus, 2013, Geophysical investigations of the Edwards-Trinity Aquifer system at multiple scales: Interpreting airborne and direct-current resistivity in karst. National Cave and Karst Research Institute Symposium 2, Proceedings of the 13th<\/sup> Sinkhole Conference, May 6-10, 2013, Carlsbad, New Mexico, USA, pages\u00a0195-206, https:\/\/digitalcommons.usf.edu\/cgi\/viewcontent.cgi?article=1127&context=sinkhole_2013<\/a>.<\/p>\n

Glover, P.W.J., and E. Walker, 2009, Grain-size to effective pore-size transformation derived from electrokinetic theory. Geophysics, volume\u00a074, number\u00a01, pages\u00a0E17-E29, doi.org\/10.1190\/1.3033217<\/a>.<\/p>\n

Goldscheider, N. and D. Drew, 2007, Methods in Karst Hydrogeology. International Association of Hydrogeologists: International Contributions to Hydrology 26, 1st<\/sup> edition, CRC Press, https:\/\/doi.org\/10.1201\/9781482266023<\/a>.<\/p>\n

Goldscheider, N., J. Meiman, M. Pronk, and C. Smart, 2008, Tracer tests in karst hydrogeology and speleology. International Journal of Speleology, volume\u00a037, number\u00a01, pages\u00a027-40, https:\/\/doi.org\/10.5038\/1827-806X.37.1.3<\/a>.<\/p>\n

G\u00f6ppert N., and N. Goldscheider, 2008, Solute and colloid transport in karst conduits under low and high flow conditions. Groundwater, volume\u00a046, number\u00a01, pages\u00a061-68, https:\/\/doi.org\/10.1111\/j.1745-6584.2007.00373.x<\/a>.<\/p>\n

Gouzie, D.R., K.L. Mickus, and M.V. Mayle, 2014, Challenges to a karst dye-tracing investigation in an urban brownfields area, Springfield, Missouri in<\/em> United States Geological Survey Karst Interest Group Proceedings, Carlsbad, New Mexico, USA, April 29-May 2, 2014, editors, E.L. Kuniansky and Spangler. United States Geological Survey, Scientific Investigations Report\u00a02014-5035, pages\u00a045-54, https:\/\/pubs.usgs.gov\/sir\/2014\/5035\/sir2014-5035.pdf<\/a>.<\/p>\n

Green, R.T., S.L. Painter, A. Sun, and S.R.H. Worthington, 2006, Groundwater contamination in karst terranes. Water, Air, and Soil Pollution: Focus, volume\u00a06, pages\u00a0157-170, https:\/\/doi.org\/10.1007\/s11267-005-9004-3<\/a>.<\/p>\n

Groves, C., 2007, Hydrologic methods in<\/em> Methods in Karst Hydrogeology, International Association of Hydrologists: Contributions to Hydrology, editors, N. Goldscheider and Drew, CRC Press, pages\u00a045-64, https:\/\/doi.org\/10.1201\/9781482266023<\/a>.<\/p>\n

Grubbs, J.W., and C.A. Crandall, 2007, Exchanges of water between the Upper Floridan aquifer and the Lower Suwannee and Lower Santa Fe Rivers, Florida. United States Geological Survey, Professional Paper\u00a01656-C, https:\/\/pubs.usgs.gov\/pp\/pp1656c\/<\/a>.<\/p>\n

Gunn, J., 1986, A conceptual model for conduit flow dominated karst aquifers in<\/em> Karst water resources, Proceedings of the International Symposium, Ankara, Turkey, July 1985, editors, G. Gunay and Johnson. International Association of Hydrological Sciences Publication, volume\u00a0161, pages\u00a0587-596, http:\/\/pascal-francis.inist.fr\/vibad\/index.php?action=getRecordDetail&idt=8335030<\/a>.<\/p>\n

Haeni, F.P., L. Halleux, C.D. Johnson, and J.W. Lane Jr., 2002, Detection and mapping of fractures and cavities using borehole radar. Fractured Rock Association, pages\u00a013-15, https:\/\/water.usgs.gov\/ogw\/bgas\/publications\/FracRock02_haeni\/FracRock02_haeni.pdf<\/a>.<\/p>\n

Hak, J., I. Hunyadi, I. Csigea, G. G\u00e9czy, L. L\u00e9n\u00e1rt, and A.V\u00e1rhegyi, 1997, Radon transport phenomena studied in karst caves-international experiences on radon levels and exposures. Radiation Measurements, volume\u00a028, issues\u00a01-6, pages\u00a0675-684, https:\/\/doi.org\/10.1016\/S1350-4487(97)00163-7<\/a>.<\/p>\n

Halford, K.J., and E.L. Kuniansky, 2002, Spreadsheets for the analysis of pumping-aquifer test and slug test data. United States Geological Survey, Open-File Report\u00a002-197, http:\/\/pubs.usgs.gov\/of\/2002\/ofr02197\/<\/a>.<\/p>\n

Halford, K.J., and D. Yobbi, 2005, Numerical simulation of aquifer tests, west-central Florida. United States Geological Survey, Scientific Investigations Report\u00a02005-5201,\u00a0https:\/\/doi.org\/10.3133\/sir20055201<\/a>.<\/p>\n

Halford, K.J., and D. Yobbi, 2006, Estimating hydraulic properties using a moving-model approach and multiple aquifer tests. Groundwater, volume\u00a044, issue\u00a02, pages\u00a0284-291, https:\/\/doi.org\/10.1111\/j.1745-6584.2005.00109.x<\/a>.<\/p>\n

Halihan, T., R.E. Mace, and J.M. Sharp Jr., 1999, Interpreting flow using permeability at multiple scales in<\/em> Karst Modeling, Special Publication\u00a05, Karst Waters Institute, https:\/\/www.researchgate.net\/publication\/275832646_INTERPRETING_FLOW_United\u00a0StatesING_PERMEABILITY_AT_MULTIPLE_SCALES\/link\/5547e85d0cf26a7bf4da9a86\/download<\/a>.<\/p>\n

Halihan, T., J.M. Sharp Jr., and R.E. Mace, 2000, Flow in the San Antonio segment of the Edwards Aquifer: Matrix, fractures, or conduits? in<\/em> Groundwater flow and contaminant transport in carbonate aquifers, editors, I.D. Sasowsky and Wicks, pages\u00a0129-146, A.A. Balkema, Rotterdam, Netherlands, https:\/\/www.researchgate.net\/publication\/275832559_Flow_in_the_San_Antonio_segment_of_the_Edwards_aquifer_matrix_fractures_or_conduits<\/a>.<\/p>\n

Hall, P., and J. Chen, 1996, Water well and aquifer test analysis. Water Resources Publication, https:\/\/www.wrpllc.com\/books\/wwat.html<\/a>.<\/p>\n

Harbaugh, A.W., 2005, MODFLOW-2005, the United States Geological Survey modular ground-water model. United States Geological Survey Techniques and Methods\u00a06-A16, https:\/\/wwwbrr.cr.usgs.gov\/hill_tiedeman_book\/documentation\/MODFLOW-MODPATH-ModelViewer\/MF2005-tma6a16.pdf<\/a>.<\/p>\n

Hartmann, A., N. Goldscheider, T. Wagener, J. Lange, and M. Weiler, 2014, Karst water resources in a changing world: Review of hydrological modeling approaches. American Geophysical Union Reviews of Geophysics, volume\u00a052, issue\u00a03, pages\u00a0218-242, https:\/\/doi.org\/10.1002\/2013RG000443<\/a>.<\/p>\n

Harvey, R.W., 1997, Microorganisms as tracers in groundwater injection and recovery experiments: A review. Federation of European Microbiological Societies Microbiology Reviews, volume\u00a020, issues\u00a03-4, pages\u00a0461-472, https:\/\/doi.org\/10.1111\/j.1574-6976.1997.tb00330.x<\/a>.<\/p>\n

<\/a>Harvey, R.W., D.W. Metge, A.M. Shapiro, R.A. Renken, C.L. Osborn, J.N., Ryan, K.J. Cunningham, and L. Landkamer, 2008, Pathogen and chemical transport in the karst limestone of the Biscayne Aquifer: 3. Use of microspheres to estimate the transport potential of Cryptosporidium parvum<\/em> oocysts. Water Resources Research, volume\u00a044, issue\u00a08, 12\u00a0pages, https:\/\/doi.org\/10.1029\/2007WR006060<\/a>.<\/p>\n

Haugh, C.J., 2006, Hydrogeology and simulation of ground-water flow at Arnold Air Force Base, Coffee and Franklin Counties, Tennessee, 2002. Unites States Geological Survey, Scientific Investigations Report\u00a02006-5157, https:\/\/pubs.usgs.gov\/sir\/2006\/5157\/<\/a>.<\/p>\n

Hem, J.D., 1985, Study and interpretation of the chemical characteristics of natural water, 3rd<\/sup> edition. United States Geological Survey, Water Supply Paper\u00a02254, https:\/\/pubs.usgs.gov\/wsp\/wsp2254\/<\/a>.<\/p>\n

Henderson, R.D., F.D. Day-Lewis, E. Abarca, C.F. Harvey, H.N. Karam, L. Liu, and J.W. Lane, 2010, Marine electrical resistivity imaging of submarine groundwater discharge: Sensitivity analysis and application in Waquoit Bay, Massachusetts, USA. Hydrogeology Journal, volume\u00a018, pages\u00a0173-185, https:\/\/doi.org\/10.1007\/s10040-009-0498-z<\/a>.<\/p>\n

Hess, A.E., 1986, Identifying hydraulically conductive fractures with a slow-velocity borehole flowmeter. Canadian Geotechnical Journal, volume\u00a023, issue\u00a01, pages\u00a069-78, https:\/\/doi.org\/10.1139\/t86-008<\/a>.<\/p>\n

Hill, M.E., M.T. Stewart, and A. Martin, 2010, Evaluation of the MODFLOW-2005 Conduit Flow Process. Ground Water, volume\u00a048, pages\u00a0549-559, https:\/\/doi.org\/10.1111\/j.1745-6584.2009.00673.x<\/a>.<\/p>\n

Hillier, F.S., and G.J. Lieberman, 1967, Introduction to operations research. Holden-Day Series in Industrial Engineering and Management Science, San Francisco, 639\u00a0pages.<\/p>\n

Hortness, J.E., and D.G. Driscoll, 1998, Streamflow losses in the Black Hills of western South Dakota. United States Geological Survey, Water Resources Investigations Report\u00a098-4116, https:\/\/pubs.usgs.gov\/wri\/wri984116\/<\/a>.<\/p>\n

Hsieh, P.A., 2001, Topodrive and particleflow\u2014Two computer models for simulation and visualization of ground-water flow and transport of fluid particles in two dimensions. United States Geological Survey, Open-File Report\u00a02001-286, https:\/\/doi.org\/10.3133\/ofr01286<\/a>.<\/p>\n

Hu, C., Y. Hao, T.C.J. Yeh, B. Pang, and Z. Wu, 2007, Simulation of spring flows from a karst aquifer with an artificial neural network. Hydrological Processes, volume\u00a022, issue\u00a05, pages\u00a0596-604, https:\/\/doi.org\/10.1002\/hyp.6625<\/a>.<\/p>\n

Hunt, B.B., B.A Smith, S. Campbell, J. Beery, N. Hauwert, and D. Johns, 2005, Dye tracing recharge features under high-flow conditions, Onion Creek, Barton Springs Segment of the Edwards Aquifer, Hays County, Texas. Austin Geological Society Bulletin, volume\u00a01, pages\u00a070-86, https:\/\/digital.lib.usf.edu\/content\/SF\/S0\/05\/17\/70\/00001\/K26-01321-Dye_AGS_Report_2005.pdf<\/a>.<\/p>\n

Istok, J., and K. Dawson, 1991, Aquifer testing: Design and analysis of pumping and slug tests. Lewis Publishers, 280\u00a0pages, https:\/\/www.taylorfrancis.com\/books\/mono\/10.1201\/9781498710756\/aquifer-testing-jonathan-istok-karen-dawson<\/a>.<\/p>\n

Johnson, C.D., 2008, Field photograph of Michael Wacker setting up borehole tool on a well near Miami, Florida. Carol D. Johnson, Hydrologist, United States Geological Survey, Branch of Geophysics, Storrs, Connecticut, USA.<\/p>\n

Jones, S.A., 1998, Data from United States Air Force Plant 4, Fort Worth, Texas, provided by Sonya Jones, Hydrologist, United States Geological Survey, Austin, Texas.<\/p>\n

Jumikis, A.R., 1962, Soil Mechanics: Van Nostrand Reinhold Incorporated, 824\u00a0pages, http:\/\/hdl.handle.net\/2027\/uc1.b4532048<\/a>.<\/p>\n

Jurgens, B.C., J.K. B\u00f6hlke, and S.M. Eberts, 2012, TracerLPM (Version 1): An Excel\u00ae workbook for interpreting groundwater age distributions from environmental tracer data. United States Geological Survey, Techniques and Methods Report\u00a04-F3, 60\u00a0pages, https:\/\/pubs.usgs.gov\/tm\/4-f3\/<\/a>.<\/p>\n

Kasenow, M., 1997, Introduction to Aquifer Analysis. Water Resources Publication, Limited Liability Company, 413\u00a0pages.<\/p>\n

Kastning, E.H., 1977, Faults as positive and negative influences on groundwater flow and conduit enlargement in<\/em> Hydrologic problems in karst regions, editors, R.R. Dilamarter and S.C. Csallany, Bowling Green, Kentucky, Western Kentucky University, USA, pages\u00a0193-201, http:\/\/pascal-francis.inist.fr\/vibad\/index.php?action=getRecordDetail&idt=PASCALGEODEBRGM7820204438<\/a>.<\/p>\n

Katz, B.G., 2004, Sources of nitrate contamination and age of water in large karstic springs of Florida, Environmental Geology, volume\u00a046, pages 689-706, https:\/\/doi.org\/10.1007\/s00254-004-1061-9<\/a>.<\/p>\n

Kendall, C., and J.J. McDonnell, 1998, Isotope Tracers in Catchment Hydrology. Elsevier Science B.V., Amsterdam, 839\u00a0pages, https:\/\/wwwrcamnl.wr.usgs.gov\/isoig\/isopubs\/itchinfo.html<\/a>.<\/p>\n

Khang, P., 1985, The development of karst landscapes in Vietnam. Acta Geologica Polenica, volume\u00a035, numbers\u00a03-4, pages\u00a0305-319, https:\/\/geojournals.pgi.gov.pl\/agp\/article\/view\/9412<\/a>.<\/p>\n

Kidd, R.E., C.J. Taylor, and V.E. Stricklin, 2001, Use of ground-water tracers to evaluate the hydraulic connection between Key Cave and the proposed industrial site near Florence, Alabama, 2000 and 2001. United States Geological Survey, Water-Resources Investigations Report\u00a02001-4228, https:\/\/doi.org\/10.3133\/wri014228<\/a>.<\/p>\n

Kindinger, J. L., J.B. Davis, and J.G. Flocks, 1999, Geology and evolution of lakes in North-Central Florida. Environmental Geology, volume\u00a038, issue\u00a04, pages\u00a0301-321, https:\/\/doi.org\/10.1007\/s002540050428<\/a>.<\/p>\n

Kindinger, J. L., J.B. Davis, and J.G. Flocks, 2000, Subsurface characterization of selected water bodies in the St. Johns River Water Management District, Northeast Florida. United States Geological Survey, Open-File Report\u00a02000-180, https:\/\/doi.org\/10.3133\/ofr00180<\/a>, https:\/\/web.archive.org\/web\/20170624084406\/https:\/\/water.usgs.gov\/ogw\/karst\/kigconference\/jlk_subsurface.htm<\/a>.<\/p>\n

Kindinger, J. L., J.B. Davis, and J.G. Flocks, 2001, Subsurface characterization of selected water bodies in the St. Johns River Water Management District, northeastern Florida in<\/em> United States Geological Survey, Karst Interest Group: Proceedings, St. Petersburg, Florida, February 13-16, 2001, editor, E.L. Kuniansky, United States Geological Survey, Water-Resources Investigations Report\u00a001-4011, pages\u00a0124-127, https:\/\/www.researchgate.net\/publication\/240633478_Subsurface_Characterization_of_Selected_Water_Bodies_in_the_St_Johns_River_Water_Management_District_Northeast_Florida<\/a>.<\/p>\n

Kinnaman, S., 2002, Slug test results from 1998-2001. Written communication by Kinnaman, Hydrologist. United States Geological Survey, Orlando, Florida, USA.<\/p>\n

Kiraly, L., 1998, Modelling karst aquifers by the combined discrete channel and continuum approach. Bulletin d\u2019Hydrogeologie, volume\u00a016, pages\u00a077-98, https:\/\/doc.rero.ch\/record\/260628\/files\/Kiraly_L._-_Modelling_karst_aquifers_by_the_combined_UNINE_B.H._16_1998.pdf<\/a>.<\/p>\n

Kiraly, L., 2003, Karstification and groundwater flow. Speleogenesis and Evolution of Karst Aquifers 1, issue 3, pages 155-192, http:\/\/doc.rero.ch\/record\/260704\/files\/Kiraly_L._-_Karstification_and_Groundwater_SPELEOGENESIS_S.E.K.A._1_2003.pdf<\/a>.<\/p>\n

Kish, G.R., C.E. Stringer, M.T. Stewart, M.C. Rains, and A.E. Torres, 2010, A geochemical mass-balance method for base-flow separation, Upper Hillsborough River Watershed, West-Central Florida, volumes\u00a02003-2005 and 2009. United States Geological Survey, Scientific Investigations Report\u00a02010-5092, https:\/\/pubs.usgs.gov\/sir\/2010\/5092\/pdf\/sir2010-5092.pdf<\/a>.<\/p>\n

Klepper, M.R. and D.G. Wyant, 1957, Notes on the geology of uranium. United States Geological Survey Bulletin\u00a01046-F, https:\/\/pubs.usgs.gov\/bul\/1046f\/report.pdf<\/a>.<\/p>\n

Klimchouk, A., 2015, The karst paradigm: Changes, trends and perspectives. Acta Carsologica, volume\u00a044, issue\u00a03, pages\u00a0289-313, https:\/\/doi.org\/10.3986\/ac.v44i3.2996<\/a>.<\/p>\n

Knochenmus, L.A. and J.L. Robinson, 1996, Descriptions of anisotropy and heterogeneity and their effect on ground-water flow and areas of contribution to public supply wells in a karst carbonate aquifer system. United States Geological Survey, Water-Supply Paper\u00a02475, https:\/\/doi.org\/10.3133\/wsp2475<\/a>.<\/p>\n

Knochenmus, L.A. and D.A. Yobbi, 2001, Hydrology of the coastal springs ground-water basin and adjacent parts of Pasco, Hernando, and Citrus Counties Florida. United States Geological Survey, Water-Resources Investigations Report\u00a02001-4230, https:\/\/doi.org\/10.3133\/wri014230<\/a>.<\/p>\n

Konzuk, J.S., and B.H. Kueper, 2004, Evaluation of cubic law-based models describing single-phase flow through a rough-walled fracture. Water Resources Research, volume\u00a040, issue\u00a02, https:\/\/doi.org\/10.1029\/2003WR002356<\/a>.<\/p>\n

Kozar, M.D., K.J. McCoy, D.J. Weary, M.S. Field, H.A. Pierce, W.B. Schill, and J.A. Young, 2007, Hydrogeology and water quality of the Leetown Area, West Virginia. United States Geological Survey, Open-File Report\u00a02007-1358, https:\/\/doi.org\/10.3133\/ofr20071358<\/a>.<\/p>\n

Kraemer, P.A., F. Anselmetti, and R. Curry, 2001, Geophysical characterization of pre-Holocene limestone bedrock underlying the Biscayne National Park reef in<\/em> United States Geological Survey, Karst Interest Group: Proceedings, St. Petersburg, Florida, February 13-16, 2001, editor, E.L. Kuniansky. United States Geological Survey, Water Resources Investigations Report 01-4011, pages\u00a0128-133, https:\/\/boris.unibe.ch\/86797\/<\/a>.<\/p>\n

Kraemer, T.F., and D.P. Genereux, 1998, Applications of Uranium- and Thorium-Series Radionuclides in Catchment Hydrology Studies in<\/em> Isotope Tracers in Catchment Hydrology, editors, C. Kendall and J.J. McDonnell, Elsevier, Amsterdam, Netherlands, pages\u00a0679-722, https:\/\/doi.org\/10.1016\/B978-0-444-81546-0.50027-6<\/a>.<\/p>\n

Kresic, N., 2007, Hydrogeology and Groundwater Modeling, 2nd<\/sup> edition, CRC Press, Boca Raton, Florida, USA, 808\u00a0pages, https:\/\/doi.org\/10.1201\/9781420004991<\/a>.<\/p>\n

Kruseman, G.P., and N.A. de Ridder, 1994, Analysis and evaluation of pumping test data. International Institute for Land Reclamation and Improvement, The Netherlands,\u00a0372\u00a0pages,\u00a0https:\/\/www.hydrology.nl\/images\/docs\/dutch\/key\/Kruseman_and_De_Ridder_2000.pdf<\/a>.<\/p>\n

Kuniansky, E.L., 2002, Field trip photograph of unnamed West Virginia spring taken by Eve Kuniansky, August 22, 2002, Southeast Region Groundwater Specialist, United States Geological Survey, Norcross, Georgia, USA.<\/p>\n

Kuniansky, E.L., 2006, Vacation photograph of forest karst towers from Li River, China near Guilin taken by Eve Kuniansky, November, 2006, taken by Eve Kuniansky, Southeast Region Groundwater Specialist, United States Geological Survey, Norcross, Georgia, USA.<\/p>\n

Kuniansky, E.L., 2008a, Vacation photograph on a trip to caves and karst of Slovenia and Croatia of tufa lakes at Plitvice Lakes World Heritage karst site, Croatia taken by Eve Kuniansky, Southeast Region Groundwater Specialist, United States Geological Survey, Norcross, Georgia, USA.<\/p>\n

Kuniansky, E.L., 2008b, Field trip photograph at Mammoth Cave National Park, Kentucky taken by Eve Kuniansky, Southeast Region Groundwater Specialist, United States Geological Survey, Norcross, Georgia, USA.<\/p>\n

Kuniansky, E.L., 2012, Vacation photograph on trip to caves and karst of Laos and Vietnam taken from a boat on the South China Sea, Vietnam by Eve Kuniansky, Southeast Region Groundwater Specialist, United States Geological Survey, Norcross, Georgia, USA.<\/p>\n

Kuniansky, E.L., 2014a, Field trip photograph of Sinkhole lakes near Carlsbad, New Mexico taken by Eve Kuniansky, Southeast Region Groundwater Specialist, United States Geological Survey, Norcross, Georgia, USA.<\/p>\n

Kuniansky, E.L., 2014b, Taking the mystery out of mathematical model applications to karst aquifersA primer in<\/em> United States Geological Survey, Karst Interest Group: Proceedings, Carlsbad, New Mexico, April 29-May 2, 2014, editors, E.L. Kuniansky and L.E. Spangler. United States Geological Survey, Scientific Investigations Report\u00a02014-5035, pages\u00a069-81, https:\/\/pubs.usgs.gov\/sir\/2014\/5035\/sir2014-5035.pdf<\/a>.<\/p>\n

Kuniansky, E.L., 2016a, Simulating groundwater flow in karst aquifers with distributed parameter modelsComparison of porous-equivalent media and hybrid flow approaches. United States Geological Survey, Scientific Investigations Report\u00a02016-5116, https:\/\/doi.org\/10.3133\/sir20165116<\/a>.<\/p>\n

Kuniansky, E.L., 2016b, MODFLOW and MODFLOW Conduit Flow Process data sets for simulation experiments of the Woodville Karst Plain, near Tallahassee, Florida with three different approaches and different stress periods. United States Geological Survey data release, https:\/\/doi.org\/10.5066\/F7PK0D87<\/a>.<\/p>\n

Kuniansky, E.L., 2017, Field photograph of Van Brahana setting tracer test bugs in a spring at the Savoy Experimental Watershed, Savoy, Arkansas. Eve Kuniansky, Southeast Region Groundwater Specialist, United States Geological Survey, Norcross, Georgia, USA.<\/p>\n

Kuniansky, E.L., 2020, Satellite view of Wakulla Springs, Florida, United States, public domain image clipped from Google maps by Eve Kuniansky, Emeritus Scientist, United States Geological Survey, Norcross, Georgia, USA.<\/p>\n

Kuniansky, E.L., and J.C. Bellino, 2012, Tabulated transmissivity and storage properties of the Floridan aquifer system in Florida and parts of Georgia, South Carolina, and Alabama. United States Geological Survey Data Series 669, https:\/\/pubs.usgs.gov\/ds\/669\/<\/a>.<\/p>\n

Kuniansky, E.L., J.M. Blackstock, D.M. Wagner, and J.V. Brahana, 2019, Interpretation of dye tracing data collected in<\/em> Advanced Groundwater Field Techniques in Karst Terrains Course, Savoy, Arkansas, November 13-December 2, 2017, at the Savoy Experimental Watershed. United States Geological Survey, Scientific Investigations Report\u00a02019-5016, https:\/\/doi.org\/10.3133\/sir20195016<\/a>.<\/p>\n

Kuniansky, E.L., L. Fahlquist, and A.F. Ardis, 2001, Travel times along selected flow paths of the Edwards Aquifer, central Texas in<\/em> United States Geological Survey, Karst Interest Group: Proceedings, St. Petersburg, Florida, February 13-16, 2001, editor, E.L. Kuniansky. United States Geological Survey, Water-Resources Investigations Report\u00a02001-4011, pages\u00a069-77, https:\/\/web.archive.org\/web\/20170624084249\/https:\/\/water.usgs.gov\/ogw\/karst\/kigconference\/elk_traveltimes.htm<\/a>.<\/p>\n

Kuniansky, E.L., J.J. Gallegos, and J.H. Davis, 2011, Comparison of three model approaches for spring simulation, Woodville Karst Plain, Florida. United States Geological Survey, Karst Interest Group: Proceedings, St. Petersburg, Florida, February 13-16, 2001. United States Geological Survey, Water-Resources Investigations Report\u00a02011-5031, pages\u00a0169-170, https:\/\/pubs.usgs.gov\/sir\/2011\/5031\/pdf\/sir20115031.pdf#page=177<\/a>.<\/p>\n

Kuniansky, E.L., K.J. Halford, and W.B. Shoemaker, 2008, Permeameter data verify new turbulence process for MODFLOW. Ground Water, volume\u00a046, number\u00a05, pages\u00a0768-771, https:\/\/doi.org\/10.1111\/j.1745-6584.2008.00458.x<\/a>.<\/p>\n

Kuniansky, E.L., and S.T. Hamrick, 1998, Hydrogeology and simulation of ground-water flow in the Paluxy aquifer, in the vicinity of landfills one and three at United States Air Force Plant 4, Fort Worth, Texas. United States Geological Survey, Water Resources Investigations Report\u00a098-4023, 34\u00a0pages, http:\/\/pubs.usgs.gov\/wri\/wri98-4023\/<\/a>.<\/p>\n

Kuniansky, E.L., and K.Q. Holligan, 1994, Simulations of flow in the Edwards-Trinity aquifer system and contiguous hydraulically units, west-central Texas. United States Geological Survey, Water-Resources Investigations Report\u00a093-4093, doi.org\/10.3133\/wri93403<\/a>.<\/p>\n

Kuniansky, E.L., D.J. Weary, and J.E. Kaufmann, 2016, The current status of mapping karst areas and availability of public sinkhole-risk resources in karst terrains of the United States. Hydrogeology Journal, volume\u00a024, pages\u00a0613-624, doi.org\/10.1007\/s10040-015-1333-3<\/a>.<\/p>\n

Kurylyk, B.L., D.J. Irvine, S.K. Carey, M.A. Briggs, D.D. Werkema, and M. Bonham, 2017, Heat as a groundwater tracer in shallow and deep heterogeneous media: Analytical solution, spreadsheet tool, and field applications. Hydrological Processes, volume\u00a031, number\u00a014, pages\u00a02648-2661, https:\/\/doi.org\/10.1002\/hyp.11216<\/a>.<\/p>\n

Kvgunten, 2017, Hydrochemical facies in the Piper diagram, licensed under CC BY-SA 4.0<\/a>, https:\/\/commons.wikimedia.org\/wiki\/File:Hydrochemical_facies_in_the_Piper_diagram.jpg<\/a>.<\/p>\n

Lage, J.L., and B.V. Antohe, 2000, Darcy\u2019s experiments and the deviation to nonlinear flow regime. American Society of Mechanical Engineers, Journal of Fluids Engineering, volume\u00a0122, pages\u00a0619-625, https:\/\/doi.org\/10.1115\/1.1287722<\/a>.<\/p>\n

Lang, U., 1995, Simulation of regional flow and transport processes in karst aquifers using the double continuum approach: Stuttgart, Germany, method development and parameter study. Doctor of Philosophy dissertation, Institute for Hydraulic Engineering, University of Stuttgart (in German).<\/p>\n

Lee, J., 1982, Well Testing. Society of Petroleum Engineers of AIME, New York, USA, 159\u00a0pages.<\/p>\n

Lei, Q., J.P. Latham, and C.F. Tsang, 2017, The use of discrete fracture networks for modelling coupled geomechanical and hydrological behaviour of fractured rocks. Computers and Geotechnics, volume\u00a085, pages\u00a0151-176, dx.doi.org\/10.1016\/j.compgeo.2016.12.024<\/a>.<\/p>\n

Liedl, R., M. Sauter, D. H\u00fcckinghaus, T. Clemens, and G. Teutsch, 2003, Simulation of the development of karst aquifers using a coupled continuum pipe flow model. Water Resources Research, volume\u00a039, issue\u00a03, https:\/\/doi.org\/10.1029\/2001WR001206<\/a>.<\/p>\n

Lindgren, R.J., A.R. Dutton, S.D. Hovorka, S.R.H. Worthington, and S. Painter, 2004, Conceptualization and simulation of the Edwards Aquifer, San Antonio region, Texas. United States Geological Survey, Scientific Investigations Report\u00a02004-5277, https:\/\/pubs.usgs.gov\/sir\/2004\/5277\/<\/a>.<\/p>\n

Lindgren, R.J., C.J. Taylor, and N.A. Houston, 2009, Description and evaluation of numerical groundwater flow models for the Edwards Aquifer, south-central Texas. United States Geological Survey, Scientific Investigations Report\u00a02009-5183, https:\/\/pubs.usgs.gov\/sir\/2009\/5183\/<\/a>.<\/p>\n

Lohman, S.W., 1979, Ground-Water Hydraulics. United States Geological Survey. Professional Paper\u00a0708, 70\u00a0pages, https:\/\/doi.org\/10.3133\/pp708<\/a>.<\/p>\n

Long, A.J., M.J. Ohms, and J.D.R.G. McKaskey, 2012, Groundwater flow, quality (2007-10), and mixing in the Wind Cave National Park area, South Dakota. United States Geological Survey, Scientific Investigations Report\u00a02011-5235, https:\/\/doi.org\/10.3133\/sir20115235<\/a>.<\/p>\n

Long, A.J., and L.D. Putnam, 2002, Evaluating travel times and transient mixing in a karst aquifer using time-series analysis of stable isotope data in<\/em> United States Geological Survey, Karst Interest Group: Proceedings, Shepherdstown, West Virginia, August 20-22, 2002, editor, E.L. Kuniansky. United States Geological Survey, Water-Resources Investigations Report 02-4174, pages\u00a066-73, https:\/\/doi.org\/10.3133\/wri024174<\/a>, https:\/\/web.archive.org\/web\/20170611102903\/https:\/\/water.usgs.gov\/ogw\/karst\/kig2002\/ajl_travel.html<\/a>.<\/p>\n

Long, A.J., and Putnam, L.D., 2007, Characterization of ground-water flow and water quality for the Madison and Minnelusa aquifers in Northern Lawrence County, South Dakota. United States Geological Survey, Scientific Investigations Report\u00a02007-5001, https:\/\/pubs.usgs.gov\/sir\/2007\/5001\/<\/a>.<\/p>\n

Mahler B.J., P.C. Bennett, and M. Zimmerman, 1998, Lanthanide-labeled clay: A new method for tracing sediment transport in karst. Ground Water, volume\u00a036, issue\u00a05, pages\u00a0835-843, doi.org\/10.1111\/j.1745-6584.1998.tb02202.x<\/a>.<\/p>\n

Mahler, B.J., L. Lynch, and P.C. Bennett, 1999, Mobile sediment in an urbanizing karst aquifer: Implications for contaminant transport. Environmental Geology, volume\u00a039, issue\u00a01, pages\u00a025-38, https:\/\/link.springer.com\/content\/pdf\/10.1007\/s002540050434.pdf<\/a>.<\/p>\n

Mahler, B.J., J-C. Personn\u00e9, F.L. Lynch, and P.C. Van Metre, 2007, Sediment and sediment-associated contaminant transport through karst in<\/em> Studies of Cave Sediments, editors, I.D. Sasowsky and J. Mylroie, pages\u00a023-46, Springer, Boston, Massachusetts, USA, https:\/\/doi.org\/10.1007\/978-1-4419-9118-8_2<\/a>.<\/p>\n

Mahler B.J., J.C. Personn\u00e9, G.F. Lods, and C. Drogue, 2000, Transport of free and particulate-associated bacteria in karst. Journal of Hydrology, volume\u00a0238, issues\u00a03-4, pages\u00a0179-193, https:\/\/doi.org\/10.1016\/S0022-1694(00)00324-3<\/a>.<\/p>\n

Maloszewski, P., 2000, Lumped-parameter models as a tool for determining the hydrological parameters of some groundwater systems based on isotope data. International Association of Hydrological Sciences Publication, number\u00a0262, pages\u00a0271-276, https:\/\/www.cabdirect.org\/cabdirect\/abstract\/20013046080<\/a>.<\/p>\n

Mangin, A., 1975, Contribution to the hydrodynamic study of karst aquifers, 3rd<\/sup> part, Constitution and functioning of karst aquifers. Annals of Speleology, volume\u00a030, issue\u00a01, pages\u00a022-124, (in French) https:\/\/hal.archives-ouvertes.fr\/tel-01575806<\/a>.<\/p>\n

Mathey, S.B., 1989, National Water Information System user’s manual, Volume\u00a02, Chapter\u00a04, Ground-water site inventory system. United States Geological Survey, Open-File Report\u00a089-587, https:\/\/doi.org\/10.3133\/ofr89587<\/a>.<\/p>\n

McCann, M.R., and N.C. Krothe, 1992, Development of a monitoring program at a Superfund site in a karst terrain near Bloomington, Indiana. Proceedings of the Third Conference on Hydrogeology, Ecology, Monitoring, and Management of Ground Water in Karst Terranes, pages\u00a0349-372, https:\/\/nepis.epa.gov\/Exe\/ZyPDF.cgi\/9100NMJR.PDF?Dockey=9100NMJR.PDF<\/a>.<\/p>\n

McClure, M.W., and R.N. Horne, 2013, Discrete fracture network modeling of hydraulic stimulation-coupling flow and geomechanics. Springer, New York, USA, 90\u00a0pages, https:\/\/doi.org\/10.1007\/978-3-319-00383-2<\/a>.<\/p>\n

Merritt, M.L., 2004, Estimating hydraulic properties of the Floridan aquifer system by analysis of earth-tide, ocean-tide, and barometric effects, Collier and Hendry Counties, Florida. United States Geological Survey, Water-Resources Investigations Report\u00a003-4267, https:\/\/doi.org\/10.3133\/wri034267<\/a>.<\/p>\n

Metcalf & Eddy, Incorporated, University of Florida, and Water Resources Engineers, Incorporated, 1971, Storm Water Management Model Volume I\u2014Final Report. United States Environmental Protection Agency, EPA 11024DOC07\/71, 353\u00a0pages, https:\/\/nepis.epa.gov\/EPA\/html\/DLwait.htm?url=\/Exe\/ZyPDF.cgi\/9101OI3P.PDF?Dockey=9101OI3P.PDF<\/a>.<\/p>\n

Milanovic, P.T., 1981, Karst hydrogeology. Water Resources Publications, 434\u00a0pages.<\/p>\n

Miller, J.A., 1999, Ground water atlas of the United States: Introduction and national summary. United States Geological Survey, Hydrologic Atlas 730-A, https:\/\/doi.org\/10.3133\/ha730A<\/a>.<\/p>\n

Mohrlok, U., 1996, Parameter identification in double continuum models using karst aquifers as an example. T\u00fcbingen, Germany, Series C. Institute and Museum for Geology and Paleontology of the University of T\u00fcbingen, T\u00fcbingen Geoscientific Work, volume\u00a031, (in German) https:\/\/ub01.uni-tuebingen.de\/xmlui\/handle\/10900\/48864<\/a>.<\/p>\n

Moore, G.W., and G. Nicholas, 1964, Speleology, The Study of Caves. Heath, Boston, 120 pages.<\/p>\n

Moore, C.H., and W.J. Wade, 2013, Chapter 4\u2014The nature and classification of carbonate porosity, Developments in Sedimentology, volume\u00a067, pages\u00a051-65, https:\/\/doi.org\/10.1016\/B978-0-444-53831-4.00004-5<\/a>.<\/p>\n

Morris, B., 2017, Field photograph of the outcrop of the middle portion of the Glen Rose limestone in Canyon Gorge, Texas, USA taken May 18, 2017 by Bob Morris, Hydrologist, United States Geological Survey, San Antonio, Texas, USA.<\/p>\n

Morris, D.A., and A.I. Johnson 1967, Summary of hydrologic and physical properties of rock and soil material as analyzed by the Hydrologic Laboratory of the U.S Geological Survey 1948-60. United States Geological Survey, Water-Supply Paper 1839-D, https:\/\/doi.org\/10.3133\/wsp1839D<\/a>.<\/p>\n

Mull, D.S., 1993a, Use of dye tracing to determine the direction of ground-water flow from a Superfund waste-disposal site in karst terrane, near Auburn, Kentucky. United States Geological Survey, Water-Resources Investigations Report\u00a092-4195, https:\/\/doi.org\/10.3133\/wri924195<\/a>.<\/p>\n

Mull, D.S., 1993b, Use of dye tracing to determine the direction of ground-water flow in karst terrane at the Kentucky State University Research Farm near Frankfort, Kentucky. United States Geological Survey, Water-Resources Investigations Report\u00a093-4063, https:\/\/doi.org\/10.3133\/wri934063<\/a>.<\/p>\n

Mull, D.S., T.D. Liebermann, J.L. Smoot, and L.H. Woosley, 1988a, Application of dye-tracing techniques for determining solute-transport characteristics of ground water in karst terranes. United States Environmental Protection Agency, EPA 904\/6-88-001, https:\/\/nepis.epa.gov\/Exe\/ZyPDF.cgi\/20013J3F.PDF?Dockey=20013J3F.PDF<\/a>.<\/p>\n

Mull, D.S., Smoot, J.L., and Liebermann, T.D., 1988b, Dye tracing techniques used to determine ground-water flow in a carbonate aquifer system near Elizabethtown, Kentucky. United States Geological Survey, Water-Resources Investigations Report\u00a087-4174, https:\/\/pubs.usgs.gov\/wri\/1987\/4174\/report.pdf<\/a>.<\/p>\n

National Research Council, 2000, Seeing into the Earth: Noninvasive Characterization of the Shallow Subsurface for Environmental and Engineering Applications. The National Academies Press, Washington, DC, USA, https:\/\/doi.org\/10.17226\/5786<\/a>.<\/p>\n

Neuman, S.P., and G. de Marsily, 1976, Identification of linear systems response by parametric programming. Water Resources Research, volume\u00a012, number\u00a02, pages\u00a0253-262, https:\/\/doi.org\/10.1029\/WR012i002p00253<\/a>.<\/p>\n

Neuzil, C.E., 1994, How permeable are clays and shales? Water Resources Research, volume\u00a030, number\u00a02, pages\u00a0145-150, https:\/\/doi.org\/10.1029\/WR012i002p00253<\/a>.<\/p>\n

Nicholl, M.J., H. Rajaram, R.J. Glass, and R. Detwiler, 1999, Saturated flow in a single fracture: Evaluation of the Reynolds equation in measured aperture fields. Water Resources Research, volume\u00a035, issue\u00a011, pages\u00a03361-3373, https:\/\/doi.org\/10.1029\/1999WR900241<\/a>.<\/p>\n

Nimmo, J.R., 2013, Porosity and Pore Size Distribution. Reference Module in Earth Systems and Environmental Sciences, Elsevier, ISBN 9780124095489, https:\/\/doi.org\/10.1016\/B978-0-12-409548-9.05265-9<\/a>.<\/p>\n

Paillet, F.L., 1998, Flow modeling and permeability estimation using borehole flow logs in heterogeneous fractured formations. Water Resources Research, volume\u00a034, number\u00a05, pages\u00a0997-1010, https:\/\/doi.org\/10.1029\/98WR00268<\/a>.<\/p>\n

Paillet, F.L., 2000, A field technique for estimating aquifer parameters using flow log data. Groundwater, volume\u00a038, number\u00a04, pages\u00a0510-521, https:\/\/doi.org\/10.1111\/j.1745-6584.2000.tb00243.x<\/a>.<\/p>\n

Paillet, F.L., 2001, Borehole geophysical applications in karst hydrogeology in<\/em> United States Geological Survey, Karst Interest Group: Proceedings, St. Petersburg, Florida, USA, February 13-16, 2001, editor, E.L. Kuniansky. United States Geological Survey, Water-Resources Investigations Report\u00a001-4011, pages\u00a0116-123, https:\/\/web.archive.org\/web\/20170624084347\/https:\/\/water.usgs.gov\/ogw\/karst\/kigconference\/flp_borehole.htm<\/a>.<\/p>\n

Paillet, F.L., C. Barton, S. Luthi, F. Rambow, J.R. Zemanck, 1990, Borehole imaging and its application in well logging-an overview in<\/em> Borehole Imaging. Society of Professional Well Log Analysts, Incorporated, volume\u00a06001, pages\u00a03-23.<\/p>\n

Paillet, F.L. and R.E. Crowder, 1996, A generalized approach for the interpretation of geophysical well logs in ground water studies\u2014Theory and application. Groundwater, volume\u00a034, number\u00a05, pages\u00a0883-898, https:\/\/doi.org\/10.1111\/j.1745-6584.1996.tb02083.x<\/a>.<\/p>\n

Paillet, F.L., A.E. Hess, and J.H. Williams, 1998, Design, operation, and data analysis for a wireline packer system in open boreholes, with field-test results from Belvidere, Illinois. United States Geological Survey, Open-File Report\u00a098-413, https:\/\/doi.org\/10.3133\/ofr98413<\/a>.<\/p>\n

Painter, S.L., A. Sun, and R.T. Green, 2007, Enhanced Characterization and Representation of Flow through Karst Aquifers\u2014Phase II. Revision 1. Geosciences and Engineering Division, Southwest Research Institute, San Antonio, Texas, USA, https:\/\/www.edwardsaquifer.org\/science_docs\/enhanced-characterization-and-representation-of-flow-through-karst-aquifers-phase-ii-revision-1\/<\/a>.<\/p>\n

Palmer, A.N., 1991, Origin and morphology of limestone caves. Geological Society of America Bulletin, volume\u00a0103, pages\u00a01-21, https:\/\/doi.org\/10.1130\/0016-7606(1991)103%3c0001:OAMOLC%3e2.3.CO;2<\/a>.<\/p>\n

Palmer, A.N., 1999, Patterns of dissolution porosity in carbonate rocks in Palmer. The Karst Waters Institute Special Publication, volume\u00a05, pages\u00a071-78, https:\/\/www.researchgate.net\/publication\/26448037_Patterns_of_dissolutional_porosity_in_carbonate_rocks<\/a>.<\/p>\n

Pavlicek, D.J., 1996, Karst hydrogeology and hydrochemistry of the Cave Springs Basin Near Chattanooga, Tennessee. United States Geological Survey, Water-Resources Investigations Report\u00a096-4248, https:\/\/pubs.usgs.gov\/wri\/wri96-4248\/#pdf<\/a>.<\/p>\n

Peano G., B. Vigna, E. Villavecchia, and G. Agnesod, 2011, Radon exchange dynamics in a karst system investigated by radon continuous measurements in water: First results. Radiation Protection Dosimetry, volume\u00a045, issues\u00a02-3, pages\u00a0173-177, https:\/\/doi.org\/10.1093\/rpd\/ncr053<\/a>.<\/p>\n

Perne, M., M. Covington, and F. Gabrov\u0161ek, 2014, Evolution of karst conduit networks in transition from pressurized flow to free-surface flow. Hydrology and Earth System Sciences, volume\u00a018, pages\u00a04617-4633, https:\/\/doi.org\/10.5194\/hess-18-4617-2014<\/a>.<\/p>\n

Peterson, E.W. and C.M. Wicks, 2006, Assessing the importance of conduit geometry and physical parameters in karst systems using the storm water management model (SWMM). Journal of Hydrology, volume\u00a0329, issues\u00a01-2, pages\u00a0294-305, https:\/\/doi.org\/10.1016\/j.jhydrol.2006.02.017<\/a>.<\/p>\n

Piper, A.M., 1944, A graphic procedure in the geochemical interpretation of water analysis. Transactions American Geophysical Union, volume\u00a025, pages\u00a0914-923, https:\/\/doi.org\/10.1029\/TR025i006p00914<\/a>.<\/p>\n

Poeter, E., Y. Fan, J. Cherry, W. Wood, D. Mackay, 2020, Groundwater in our water cycle \u2013 getting to know Earth\u2019s most important fresh water source. The Groundwater Project, Guelph, Ontario, Canada. https:\/\/doi.org\/10.21083\/978-1-7770541-1-3<\/a>.<\/p>\n

Porter, A.J., J.S. Webber, J.W. Witt, and J.D. Jastram, 2020, Spatial and temporal patterns in streamflow, water chemistry, and aquatic macroinvertebrates of selected streams in Fairfax County, Virginia, 2007-18. United States Geological Survey, Scientific Investigations Report\u00a02020-5061, https:\/\/doi.org\/10.3133\/sir20205061<\/a>.<\/p>\n

Prudic, D.E., 1991, Estimates of hydraulic conductivity from aquifer-test data and specific-capacity data, Gulf Coast Regional Aquifer Systems, south-central United States. United States Geological Survey, Water-Resources Investigations Report\u00a090-4121, https:\/\/pubs.usgs.gov\/wri\/1990\/4121\/report.pdf<\/a>.<\/p>\n

Quinlan, J.F., and R.O. Ewers, 1989, Subsurface drainage in the Mammoth Cave area in<\/em> Karst Hydrology, editors, W.B. White and E.L. White, Springer, Boston, Massachusetts, USA, https:\/\/doi.org\/10.1007\/978-1-4615-7317-3_3<\/a>.Quinlan, J.F., J.A Ray, and G.M. Schindel, 1995, Intrinsic limitations of standard criteria and methods for delineation of groundwater-source protection areas (springhead and wellhead protection areas) in carbonate terranes\u2014Critical review, technically-sound resolution of limitations, and case study in a Kentucky karst in<\/em> Karst Geohazards Engineering and Environmental Problems in Karst Terrane, editors, B.F. Beck and F.M. Pearson. A.A. Balkema, Rotterdam, Netherlands, pages\u00a0165-176, https:\/\/www.routledge.com\/Karst-Geohazards-Engineering-and-Environmental-Problems-in-Karst-Terrane\/Beck\/p\/book\/9789054105350<\/a>.<\/p>\n

Quinn, P.M., J.A Cherry, and B.L. Parker, 2011b, Quantification of non-Darcian flow observed during packer testing in fractured sedimentary rock. Water Resources Research, volume\u00a047, issue\u00a09, https:\/\/doi.org\/10.1029\/2010WR009681<\/a>.<\/p>\n

Quinn, P.M., B.L. Parker, and J.A. Cherry, 2011a, Using constant head step tests to determine hydraulic apertures in fractured rock. Journal of Contaminant Hydrology, volume 126, pages 85-99, https:\/\/doi.org\/10.1016\/j.jconhyd.2011.07.002<\/a>.<\/p>\n

Ray, J., 1999, A model of karst drainage basin evolution, interior low plateaus, United States in<\/em> Karst modeling, editors, A.N. Palmer, M.V. Palmer, and L.D. Sasowsky. Karst Waters Institute Special Publication, volume\u00a05, https:\/\/karstwaters.org\/publications\/sp5-karst-modeling\/<\/a>.<\/p>\n

Ray, J.A., 2001, Spatial interpretation of karst drainage basins in<\/em> Geotechnical and Environmental Applications of Karst Geology and Hydrology, pages\u00a0235-244, https:\/\/www.routledge.com\/Geotechnical-and-Environmental-Applications-of-Karst-Geology-and-Hydrology\/Beck-Herring\/p\/book\/9789058091901<\/a>.<\/p>\n

Ray, J.A., 2012, Sinking streams and losing streams in<\/em> Encyclopedia of Caves, 2nd<\/sup> edition, editors, D.C. Culver and W.B. White. Academic Press, Burlington, Massachusetts, USA, pages\u00a0707-712, https:\/\/doi.org\/10.1016\/B978-0-12-383832-2.00104-3<\/a>.<\/p>\n

Reese, R.S. and K.J. Cunningham, 2000, Hydrogeology of the Gray Limestone Aquifer in southern Florida. United States Geological Survey, Water-Resources Investigations Report\u00a099-4213, https:\/\/doi.org\/10.3133\/wri994213<\/a>.<\/p>\n

Reilly, T.E., and A.W. Harbaugh, 1993, Simulation of cylindrical flow to a well using the U.S. Geological Survey Modular Finite-Difference Ground-Water Flow Model. Ground Water volume 31, issue 3, pages 489-494.<\/p>\n

Reilly, T.E. and A.W. Harbaugh, 2004, Guidelines for evaluating ground-water flow models. United States Geological Survey, Scientific Investigations Report\u00a02004-5038, https:\/\/doi.org\/10.3133\/sir20045038<\/a>.<\/p>\n

Reimann, T., S. Birk, C. Rehrl, and W.B. Shoemaker, 2011a, Modifications to the Conduit Flow Process Mode 2 for MODFLOW-2005. Groundwater, volume\u00a050, issue\u00a01, pages\u00a0144-148, https:\/\/doi.org\/10.1111\/j.1745-6584.2011.00805.x<\/a>.<\/p>\n

Reimann, T., T. Geyer, W.B. Shoemaker, R. Liedl, and M. Sauter, 2011b, Effects of dynamically variable saturation and matrix-conduit coupling of flow in karst aquifers Water Resources Research volume 47, issue 11, https:\/\/doi.org\/10.1029\/2011WR010446<\/a>.<\/p>\n

Reimann, T., R. Liedl, M. Giese, T. Geyer, J.C. Mar\u00e9chal, N. D\u00f6rfliger, S. Bauer, and S. Birk, 2013, Addition and enhancement of flow and transport processes to the MODFLOW-2005 conduit flow process. National Ground Water Association Summit\u2014The national and international conference on groundwater, https:\/\/pdfs.semanticscholar.org\/7d0e\/4292819e24d8e0661900d48213e94c124aee.pdf<\/a>.<\/p>\n

Ren\u00e9, M., 2017, Nature, sources, resources, and production of Thorium, Chapter 9 in<\/em> Descriptive Inorganic Chemistry Researches of Metal Compounds, editor, T. Akitsu, IntechOpen, London, United Kingdom, pages\u00a0201-212, https:\/\/doi.org\/10.5772\/intechopen.68304<\/a>.<\/p>\n

Renken, R.A., K.J Cunningham, M.R. Zygnerski, M.A. Wacker, A.M. Shapiro, R.W. Harvey, D.W. Metge, C.L. Osborn, and J.N. Ryan, 2005, Assessing the vulnerability of a municipal wellfield to contamination in a karst aquifer. Environmental and Engineering Geoscience, volume\u00a011, issue\u00a04, pages\u00a0319-331, https:\/\/doi.org\/10.2113\/11.4.319<\/a>.<\/p>\n

Revil, A., K. Koch, and K. Holliger, 2012, Is it the grain size or the characteristic pore size that controls the induced polarization relaxation time of clean sands and sandstones? Water Resources Research, volume\u00a048, issue\u00a05, doi.org\/10.1029\/2011WR011561<\/a>.<\/p>\n

Reynolds, O., 1883, An experimental investigation of the circumstances which determine whether the motion of water shall be direct or sinous, and of the law of resistances in parallel channels. Philosophical Transactions of the Royal Society of London, volume\u00a0174, https:\/\/doi.org\/10.1098\/rstl.1883.0029<\/a>.<\/p>\n

Robinson, J.L., 1995, Hydrogeology and results of tracer tests at the old Tampa well field in Hillsborough County, with implications for wellhead-protection strategies in west-central Florida. United States Geological Survey, Water-Resources Investigations Report\u00a093-4171, https:\/\/doi.org\/10.3133\/wri934171<\/a>.<\/p>\n

Rose, P.R., 1972, Edwards Group, surface and subsurface, central Texas. The University of Texas, Bureau of Economic Geology Report of Investigations, volume\u00a0RI-74, 198\u00a0pages, https:\/\/www.beg.utexas.edu\/publications\/edwards-group-surface-and-subsurface-central-texas<\/a>.<\/p>\n

Rupert F., and S. Spencer, 2004, Florida\u2019s sinkholes. Poster number\u00a011, Florida Geological Survey, Tallahassee, Florida, USA.<\/p>\n

Saller, S.P., M.J. Ronayne, and A.J. Long, 2013, Comparison of a karst groundwater model with and without discrete conduit flow. Hydrogeology Journal, volume\u00a021, number\u00a07, pages\u00a01555-1566, https:\/\/doi.org\/10.1007\/s10040-013-1036-6<\/a>.<\/p>\n

Sauter, M., 1993, Double porosity models in karstified limestone aquifers: Field validation and data provision in <\/em>Hydrogeological Processes in Karst Terranes (Proceedings of the Antalya Symposium and Field Seminar, October 1990). International Association of Hydrological Publication, volume\u00a0207, pages\u00a0261-279, https:\/\/iahs.info\/uploads\/dms\/8917.261-279-207-Sauter.pdf<\/a>.<\/p>\n

Scanlon, B.R., R.E. Mace, M.E. Barrett, B. Smith, 2003, Can we simulate regional groundwater flow in a karst system using equivalent porous media models? Case study, Barton Springs Edwards Aquifer, United States of America. Journal of Hydrology, volume\u00a0276, pages\u00a0137-158, https:\/\/doi.org\/10.1016\/S0022-1694(03)00064-7<\/a>.<\/p>\n

Schneebeli, G., 1955, Experiments on the limit of validity of Darcy’s law and the occurrence of turbulence in a filtration flow (in French). La Houille Blanche (The White Coal), volume\u00a010, pages\u00a0141-149, https:\/\/www.shf-lhb.org\/articles\/lhb\/pdf\/1955\/04\/lhb1955030.pdf<\/a>.<\/p>\n

Schulman, A.E., D.C. McKinney, and P.W.M. John, 1995, Stochastic recharge model for Edwards Aquifer in central Texas. Journal of Water Resources Planning and Management, volume\u00a0121, number\u00a06, pages\u00a0479-489, https:\/\/ascelibrary.org\/doi\/abs\/10.1061\/(ASCE)0733-9496(1995)121:6(479)<\/a>.<\/p>\n

Scoffin, T.P., 1987, An introduction to carbonate sediments and rocks. Chapman and Hall, New York, USA, 274\u00a0pages, https:\/\/www.osti.gov\/biblio\/6755454<\/a>.<\/p>\n

Sep\u00falveda, N., and E.L. Kuniansky, 2009, Effects of model layer simplification using composite hydraulic properties. Hydrogeological Journal, volume\u00a018, pages\u00a0405-416, https:\/\/doi.org\/10.1007\/s10040-009-0505-4<\/a>.<\/p>\n

Sherman, L.K., 1932, Streamflow from rainfall by the unit-graph method. Engineering News Record, volume\u00a0108, pages\u00a0501-505, https:\/\/www.scirp.org\/(S(i43dyn45teexjx455qlt3d2q))\/reference\/ReferencesPapers.aspx?ReferenceID=786190<\/a>.<\/p>\n

Shoemaker, W.B., E.L. Kuniansky, S. Birk, S. Bauer, and E.D. Swain, 2008, Documentation of a conduit flow process (CFP) for MODFLOW-2005. United States Geological Survey, Techniques and Methods, Book\u00a06, Chapter\u00a0A24, Reston, Virginia, USA, https:\/\/pubs.usgs.gov\/tm\/tm6a24\/pdf\/tm6-A24.pdf<\/a>.<\/p>\n

Sloto, R.A., and M.Y. Crouse, 1996, HYSEP: A computer program for streamflow hydrograph separatin and analysis. United States Geological Survey, Water Resources Investigations Report 96-4040. Washington, D.C., USA. United States Geological Survey, https:\/\/doi.org\/10.3133\/wri964040<\/a>.<\/p>\n

Smith, B.D., M.J. Cain, A.K. Clark, D.W. Moore, J.R. Faith, and P.L. Hill, 2005, Helicopter Electromagnetic and Magnetic Survey Data and Maps, Northern Bexar County, Texas. United States Geological Survey, Open-File Report\u00a005-1158, https:\/\/pubs.usgs.gov\/of\/2005\/1158\/downloads\/REPORTS\/ofr_05_1158.pdf<\/a>.<\/p>\n

Smith, B.D., D.V. Smith, P.L. Hill, and V.F. Labson, 2003, Helicopter Electromagnetic and Magnetic Survey Data and Maps, Seco Creek Area, Medina and Uvalde Counties, Texas. United States Geological, Survey Open-File Report\u00a003-226, https:\/\/pubs.usgs.gov\/of\/2003\/ofr-03-226\/OFR-03-226-508.pdf<\/a>.<\/p>\n

Spangler, L.E., 2012, Hydrogeology of the Mammoth Spring groundwater basin and vicinity, Markagunt Plateau, Garfield, Iron, and Kane Counties, Utah. United States Geological Survey, Scientific Investigations Report\u00a02012-5199, https:\/\/doi.org\/10.3133\/sir20125199<\/a>.<\/p>\n

Spangler, L.E., and D.D. Susong, 2006, Use of dye tracing to determine ground-water movement to Mammoth Crystal Springs, Sylvan Pass area, Yellowstone National Park, Wyoming. United States Geological Survey, Scientific Investigations Report\u00a02006-5126, https:\/\/doi.org\/10.3133\/sir20065126<\/a>.<\/p>\n

Stallman, R.W., 1971, Aquifer-test design, observation, and data analysis. United States Geological Survey, Techniques of Water-Resources Investigations\u00a003-B1, https:\/\/doi.org\/10.3133\/twri03B1<\/a>.<\/p>\n

Stanton, G.P., and T.P. Schraeder, 2001, Surface geophysical investigation of a chemical waste landfill in northwestern Arkansas in<\/em> United States Geological Survey, Karst Interest Group: Proceedings, St. Petersburg, Florida, February 13 16, 2001, editor, E.L. Kuniansky. United States Geological Survey, Water Resources Investigations Report\u00a001-4011, https:\/\/web.archive.org\/web\/20170624084342\/https:\/\/water.usgs.gov\/ogw\/karst\/kigconference\/gps_surfacegeophysical.htm<\/a>.<\/p>\n

Stanton, J.S., D.W. Anning, C.J. Brown, R.B. Moore, V.L. McGuire, S.L. Qi, A.C. Harris, K.F. Dennehy, P.B. McMahon, J.R. Degnan, and J.K. B\u00f6hlke, 2017, Brackish groundwater in the United States. United States Geological Survey, Professional Paper\u00a01833, 185\u00a0pages, https:\/\/doi.org\/10.3133\/pp1833<\/a>.<\/p>\n

Steeples, D.W., and R.D. Miller, 1987, Direct detection of shallow subsurface voids using high resolution seismic-reflection techniques in<\/em> Karst Hydrogeology: Engineering and Environmental Applications, editors, B.F. Beck and W.L. Wilson, A.A. Balkema, Rotterdam, Netherlands, pages\u00a0179-183.<\/p>\n

Stevanovi\u0107, Z., 2015, Karst Aquifers\u2014Characterization and Engineering. Springer International Publishing, Switzerland, 692\u00a0pages, https:\/\/doi.org\/10.1007\/978-3-319-12850-4<\/a>.<\/p>\n

Stevanovi\u0107, Z., 2018, Global distribution and use of water from karst aquifers in<\/em> Advances in Karst Research: Theory, Fieldwork and Applications, editors, M. Parise, F. Gabrovsek, G. Kaufmann, and N. Ravbar. Geological Society, London, Special Publications, volume\u00a0466, number\u00a01, pages\u00a0217-236, https:\/\/doi.org\/10.1144\/SP466.17<\/a>.<\/p>\n

Stewart, M., J. Cimino, and M. Ross, 2007, Calibration of base flow separation methods with streamflow conductivity. Groundwater, volumes\u00a045, number\u00a01, pages\u00a017-27, https:\/\/doi.org\/10.1111\/j.1745-6584.2006.00263.x<\/a>.<\/p>\n

Stiff Jr., H.A., 1951, The interpretation of chemical water analysis by means of patterns. Journal of Petroleum Technology, volume\u00a03, issue\u00a010, page\u00a015, https:\/\/doi.org\/10.2118\/951376-G<\/a>.<\/p>\n

Steater, Scott, 2009, Threat Down Below: Polluted Caves Endanger Water Supplies, Wildlife, Scientific American, accessed January 2022 at, www.scientificamerican.com\/article\/pollution-caves-water-wildlife-trout\/.<\/p>\n

Sukop, M.C., H. Huang, P.F. Alvarez, E.A. Variano, and K.J. Cunningham, 2013, Evaluation of permeability and non-Darcy flow in vuggy macroporous limestone aquifer samples with lattice Boltzmann methods. Water Resources Research, volume\u00a049, issue\u00a01, pages\u00a0216-230, https:\/\/doi.org\/10.1029\/2011WR011788<\/a>.<\/p>\n

Suwanee River Water Management District, 2008, Field photograph, Live Oak, Florida, United States.<\/p>\n

Swain, E.D., and E.J. Wexler, 1996, A coupled surface-water and groundwater flow model (Modbranch) for simulation of stream-aquifer interaction. United States Geological Survey, Techniques of Water-Resources Investigations\u00a006-A6, https:\/\/doi.org\/10.3133\/twri06A6<\/a>.<\/p>\n

Taborsi, D., and M. Kazmer, 2013, Erosional and depositional textures and structures in Coastal Karst Landscapes in<\/em> Coastal Karst Landforms, editors, M. Lace and J. Mylroie. Coastal Research Library, volume\u00a05, Springer, Dordrecht, Netherlands, pages\u00a015-58, https:\/\/doi.org\/10.1007\/978-94-007-5016-6_2<\/a>.<\/p>\n

Takahashi, Y., M.J. Rabins, and D.M. Auslander, 1972, Control and Dynamic Systems. Addison-Wesley Publishing Company, 800\u00a0pages, https:\/\/doi.org\/10.1002\/aic.690170102<\/a>.<\/p>\n

Taylor, C.J., 1997, Delineation of ground-water basins and recharge areas for municipal water-supply springs in a karst aquifer system in the Elizabethtown area, northern Kentucky. United States Geological Survey, Water-Resources Investigations Report\u00a096-4254, https:\/\/doi.org\/10.3133\/wri964254<\/a>.<\/p>\n

Taylor, C.J., 2021a, Field photographs of karst overflow springs, Groundwater Hydrologist and Water Resources Section Head, Kentucky Geological Survey, University of Kentucky, Lexington, Kentucky, United States.<\/p>\n

Taylor, C.J., 2021b, Photographs depicting rock core, fractured limestone outcrop, and karst spring, Groundwater Hydrologist and Water Resources Section Head, Kentucky Geological Survey, University of Kentucky, Lexington, Kentucky, United States.<\/p>\n

Taylor, C.J., 2021c, Field photographs of well borehole in karstic limestone aquifer, Elizabethtown, Kentucky, Groundwater Hydrologist and Water Resources Section Head, Kentucky Geological Survey, University of Kentucky, Lexington, Kentucky, United States.<\/p>\n

Taylor, C.J., 2021d, Field photograph of rock outcropping showing karst features, Groundwater Hydrologist and Water Resources Section Head, Kentucky Geological Survey, University of Kentucky, Lexington, Kentucky, United States.<\/p>\n

Taylor, C.J., 2021e, Field photographs of fluorescent dye injections, Groundwater Hydrologist and Water Resources Section Head, Kentucky Geological Survey, University of Kentucky, Lexington, Kentucky, United States.<\/p>\n

Taylor, C.J., and E.A. Greene, 2008, Hydrogeologic characterization and methods used in the investigation of karst hydrology in<\/em> Field techniques for estimating water fluxes between surface water and ground water, editors, D.O. Rosenberry and J.W. LaBaugh. United States Geological Survey, pages\u00a071-114, https:\/\/pubs.usgs.gov\/tm\/04d02\/pdf\/TM4-D2-chap3.pdf<\/a>.<\/p>\n

Taylor, C.J., and Doctor, D. 2017, Karst in<\/em> Handbook of Applied Hydrology, editor, V.P. Singh, Second Edition, McGraw-Hill, pages\u00a089-1 to 89-14.<\/p>\n

Taylor, C.J., and G.K. McCombs, 1998, Recharge-area delineation and hydrology, McCraken Springs, Fort Knox Military Reservation, Meade County, Kentucky. United States Geological Survey, Water-Resources Investigations Report\u00a098-4196, over size map sheet, http:\/\/pubs.er.usgs.gov\/publication\/wri984196<\/a>.<\/p>\n

Taylor, C.J., and H.L. Nelson Jr., 2008, A compilation of provisional karst geospatial data for the Interior Low Plateaus physiographic region, central United States. United States Geological Survey, Data Series\u00a0339, https:\/\/pubs.usgs.gov\/ds\/339\/<\/a>.<\/p>\n

Teutsch, G., 1993, An extended double-porosity concept as a practical modeling approach for a karstified terraine in<\/em> Hydrogeological processes in karst terraines: Proceedings of the Antalya Symposium and Field Seminar, editors, J. Gultekin and W. Back. International Association of Hydrological Sciences, volume 207, pages\u00a0281-292, http:\/\/www.speleogenesis.info\/directory\/karstbase\/publication.php?id=8077<\/a>.<\/p>\n

Teutsch, G., and M. Sauter, 1991, Groundwater modeling in karst terranes-Scale effects, data acquisition, and field validation. Third Conference on Hydrogeology, Monitoring, and Management of Groundwater in Karst Terranes, Nashville, Tennessee, USA, pages\u00a017-35, https:\/\/nepis.epa.gov\/Exe\/ZyPDF.cgi\/9100NMJR.PDF?Dockey=9100NMJR.PDF<\/a>.<\/p>\n

Teutsch, G., and M. Sauter, 1998, Distributed parameter modelling approaches in karst hydrological investigations. Bulletin d\u2019Hydrogeologie, volume\u00a016, pages\u00a099-110, http:\/\/pascal-francis.inist.fr\/vibad\/index.php?action=getRecordDetail&idt=6220844<\/a>.<\/p>\n

Theis, C.V., 1935, The relation between the lowering of the piezometric surface and the rate and duration of discharge of a well using ground water storage. Transaction of American Geophysical Union, volume\u00a016, issue\u00a02, pages\u00a0519-524, https:\/\/doi.org\/10.1029\/TR016i002p00519<\/a>.<\/p>\n

Thrailkill, J., 1968, Chemical and hydrologic factors in the excavation of limestone caves. Geological Society of America Bulletin, volume\u00a079, pages\u00a019-46, https:\/\/doi.org\/10.1130\/0016-7606(1968)79%5b19:CAHFIT%5d2.0.CO;2<\/a>.<\/p>\n

Toomey, R.S., H.H. Hobbs, and R.A. Olson, 2017, An orientation to Mammoth Cave and this volume in<\/em> Mammoth Cave, editors, H. Hobbs III, R. Olson, E. Winkler, and D. Culver. Cave and Karst Systems of the World, Springer, Cham, https:\/\/doi.org\/10.1007\/978-3-319-53718-4_1<\/a>.<\/p>\n

Toth, J., 1963, A theoretical analysis of groundwater flow in small drainage basins. Journal of Geophysical Research, volume\u00a068, issue\u00a016, pages\u00a04795-4812, https:\/\/doi.org\/10.1029\/JZ068i016p04795<\/a>.<\/p>\n

Trcek, B., 2007, How can the epikarst zone influence the karst aquifer behavior? Environmental Geology, volume\u00a051, pages\u00a0761-765, https:\/\/doi.org\/10.1007\/s00254-006-0387-x<\/a>.<\/p>\n

Trichakis, I.C., I.K. Nikolos, and G.P. Karatzas, 2009, Artificial neural network (ANN) based modeling for karstic groundwater level simulation. Water Resources Management, volume\u00a025, issue\u00a04, pages\u00a01143-1152, https:\/\/doi.org\/10.1007\/s11269-010-9628-6<\/a>.<\/p>\n

Tucci, P., 2011, Field Trip photograph of a spring that flows out of base of cliff and forms a creek that flows into the Buffalo River, Arkansas taken in April 28, 2011. Retired Central Region Groundwater Specialist, United States Geological Survey, Denver, Colorado, United States.<\/p>\n

USEPA, 1991, United States Environmental Protection Agency, Secondary drinking water standards, EPA 570\/9-91-019FS, https:\/\/www.epa.gov\/sdwa\/secondary-drinking-water-standards-guidance-nuisance-chemicals<\/a>.<\/p>\n

USEPA, 2002, United States Environmental Protection Agency, A lexicon of cave and karst terminology with special reference to environmental karst hydrology. Office of Research and Development, National Center for Environmental Assessment, Washington Office, Washington, DC, USA, https:\/\/cfpub.epa.gov\/ncea\/risk\/era\/recordisplay.cfm?deid=54964<\/a>.<\/p>\n

USEPA, 2009, United States Environmental Protection Agency, National primary drinking water regulations, https:\/\/www.epa.gov\/ground-water-and-drinking-water\/national-primary-drinking-water-regulations<\/a>.<\/p>\n

USEPA, 2021, United States Environmental Protection Agency, National primary drinking water standards, https:\/\/www.federalregister.gov\/documents\/2001\/01\/22\/01-1668\/national-primary-drinking-water-regulations-arsenic-and-clarifications-to-compliance-and-new-source<\/a>.<\/p>\n

USGS Website, 2021, Geology and Ecology of National Parks, Mammoth Cave National Park, United States Geological Survey, https:\/\/www.usgs.gov\/science-support\/osqi\/yes\/national-parks\/mammoth-cave-national-park<\/a>.<\/p>\n

Vacher, H.L., and J.E. Mylroie, 2002, Eogenetic karst from the perspective of an equivalent porous medium. Carbonates and Evaporites, volume\u00a017, number\u00a02, pages\u00a0182-196, https:\/\/doi.org\/10.1007\/BF03176484<\/a>.<\/p>\n

Vennard, J.K., and R.L. Street, 1975, Elementary fluid mechanics. John Wiley, New York, USA, 740\u00a0pages.<\/p>\n

Vesper, D.J., C.M. Loop, and W.B. White, 2001, Contaminant transport in karst aquifers. Theoretical and Applied Karstology, issues\u00a013-14, pages\u00a0101-111, http:\/\/www.speleogenesis.info\/journal\/publication.php?id=4490<\/a>.<\/p>\n

Wacker, M.A., K.J. Cunningham, and J.H. Williams, 2014, Geologic and hydrogeologic frameworks of the Biscayne Aquifer in central Miami-Dade County, Florida. United States Geological Survey, Scientific Investigations Report\u00a02014-5138, http:\/\/dx.doi.org\/10.3133\/sir20145138<\/a>.<\/p>\n

Waltham, T., F.G. Bell, and M. Culshaw, 2005, Sinkholes and subsidence. Karst and cavernous rocks in engineering and construction Book Series, Springer-Praxis Books in Geophysical Sciences, Springer, Heidelberg, Germany, 384\u00a0pages, https:\/\/doi.org\/10.1007\/b138363<\/a>.<\/p>\n

Wanakule, N., 1988, Regression analysis of the San Marcos Spring flows and water levels of the index well in San Antonio. Southwest Texas University, Edwards Aquifer Research and Data Center, 34\u00a0pages.<\/p>\n

Wanakule, N., and R. Anaya, 1993, A lumped parameter model for the Edwards Aquifer. Texas A&M University, Texas Water Resources Institute, Technical Report number\u00a0163, 84\u00a0pages, https:\/\/hdl.handle.net\/1969.1\/6172<\/a>.<\/p>\n

Water Science School, 2021, How groundwater occurs. United States Geological Survey, Aquifers and Groundwater, accessed January 2022 at https:\/\/www.usgs.gov\/special-topic\/water-science-school\/science\/aquifers-and-groundwater?qt-science_center_objects=0#qt-science_center_objects<\/a>.<\/p>\n

Watkins Jr., D.W., and D.C. McKinney, 1999, Screening water supply options for the Edwards Aquifer region in central Texas. Journal of Water Resources Planning and Management, volume\u00a0125, issue\u00a01, pages\u00a014-24, accessed January 2022 at https:\/\/ascelibrary.org\/doi\/10.1061\/%28ASCE%290733-9496%281999%29125%3A1%2814%29<\/a>.<\/p>\n

White, W.B., 1988, Geomorphology and hydrology of karst terrains, Oxford University Press, Oxford, United Kingdom and New York, USA, 464\u00a0pages.<\/p>\n

White, W.B., 1993, Analysis of karst aquifers in<\/em> Regional ground-water quality, editor, W.M. Alley. Van Nostrand Reinhold, New York, USA, pages\u00a0471-489.<\/p>\n

White, W.B., 1999, Conceptual models for karstic aquifers in<\/em> Karst modeling, editors, A.N. Palmer, M.V. Palmer, and I.D. Sasowsky. Karst Waters Institute, Special Publication volume\u00a05, pages\u00a011-16, https:\/\/apps.dtic.mil\/sti\/pdfs\/ADA369937.pdf#page=19<\/a>.<\/p>\n

White, W.B., 2016, Groundwater Flow in Karst Aquifers in<\/em> The Handbook of Groundwater Engineering, Third Edition, 25 November 2016, pages\u00a0563-595, https:\/\/www.routledge.com\/The-Handbook-of-Groundwater-Engineering\/Cushman-Tartakovsky\/p\/book\/9781498703048<\/a>.<\/p>\n

White, W.B., 2019, Hydrogeology of Karst aquifers in<\/em> Encyclopedia of Caves, Third Edition, Chapter 64, editors, W.B. White, D.C. Culver, and T. Pipan. Academic Press, pages\u00a0537-545, https:\/\/doi.org\/10.1016\/B9780128141243.000649<\/a>.<\/p>\n

White, W.B., and E.L. White, 1989, Karst hydrology: Concepts from the Mammoth Cave area. Van Nostrand Reinhold, New York, USA, 346\u00a0pages, https:\/\/link.springer.com\/book\/10.1007\/978-1-4615-7317-3<\/a>.<\/p>\n

White, W.B., J.S. Herman, E.K. Herman, and M. Rutigliano, 2018, Karst Groundwater Contamination and Public Health: Beyond Case Studies. Advances in Karst Science Series, Springer International Publishing, 347pages, https:\/\/www.springer.com\/gp\/book\/9783319510699<\/a>.<\/p>\n

Wicks, C.M., and J.A. Hoke, 2000, Prediction of the quality and quantity of Maramec spring water. Groundwater, volume\u00a038, issue 2, pages\u00a0218-225, https:\/\/doi.org\/10.1111\/j.1745-6584.2000.tb00333.x<\/a>.<\/p>\n

Williams, H., J.B. Cowart, and J.D. Arthur, 2002, Florida Aquifer Storage and Recovery (ASR) Geochemical Project: Year One and Two Progress Report. Florida Geological Survey, volume\u00a0100, 131\u00a0pages.<\/p>\n

Williams, L.J., and E.L. Kuniansky, 2016, Revised hydrogeologic framework of the Floridan aquifer system in Florida and parts of Georgia, Alabama, and South Carolina. United States Geological Survey, Professional Paper\u00a01807, https:\/\/pubs.usgs.gov\/pp\/1807\/<\/a>.<\/p>\n

Winter, T.C., J.W. Harvey, O.L. Franke, and W.M. Alley, 1998, Ground water and surface water: A single resource. United States Geological Survey, Circular 1139, 87\u00a0pages, https:\/\/pubs.usgs.gov\/circ\/circ1139\/<\/a><\/p>\n

Wolfe, W.J., C.J. Haugh, A. Webbers, and T.H. Diehl, 1997, Preliminary conceptual models of the occurrence, fate, and transport of chlorinated solvents in the karst regions of Tennessee. United States Geological Survey, Water-Resources Investigations Report\u00a097-4097, https:\/\/pubs.usgs.gov\/wri\/wri974097\/new4097.pdf<\/a>.<\/p>\n

Wolff, R.G., 1982, Physical properties of rocks\u2014Porosity, permeability, distribution coefficients, and dispersivity. United States Geological Survey, Open-File Report\u00a082-166, https:\/\/doi.org\/10.3133\/ofr82166<\/a>.<\/p>\n

Wong, C.I., B.J. Mahler, M. Musgrove, J.L. Banner, 2012, Changes in sources and storage in a karst aquifer during a transition from drought to wet conditions. Journal of Hydrology, volume\u00a0468-469, pages\u00a0159-172, https:\/\/doi.org\/10.1016\/j.jhydrol.2012.08.030<\/a>.<\/p>\n

Wood, W.W., 1985, Origin of caves and other solution openings in the unsaturated (vadose) zone of carbonate rocks, a model for CO2<\/sub> generation. Geology, volume\u00a013, issue\u00a011, pages\u00a0822-824, https:\/\/doi.org\/10.1130\/0091-7613(1985)13<822:OOCAOS>2.0.CO;2<\/a>.<\/p>\n

Wood, W.W., and J. Cherry, 2021, Written personal communication of a draft illustration for a book titled “Introduction to Groundwater Geochemistry” which is in preparation for The Groundwater Project, Guelph, Ontario, Canada.<\/p>\n

Wood, W.W., and M.J. Petraitis, 1984, Origin and distribution of carbon dioxide in the unsaturated zone of the Southern High Plains of Texas. Water Resources Research, volume\u00a020, issue\u00a09, pages\u00a01193-1208, doi.org\/10.1029\/WR020i009p01193<\/a>.<\/p>\n

Worthington, S.R.H., 1991, Karst hydrology of the Canadian Rocky Mountains: Hamilton, Ontario, Canada. McMaster University, unpublished Doctor of Philosophy dissertation, 380\u00a0pages, http:\/\/hdl.handle.net\/11375\/8329<\/a>.<\/p>\n

Worthington, S.R.H., 2005, Evolution of caves in response to base-level lowering. Cave and Karst Science, volume\u00a032, issue\u00a01, pages\u00a02-12, https:\/\/www.researchgate.net\/publication\/282947188_Evolution_of_caves_in_response_to_base-level_lowering<\/a>.<\/p>\n

Worthington, S.R.H., G.J. Davies, and D.C. Ford, 2000, Matrix, fracture and channel components of storage and flow in a Paleozoic limestone aquifer in<\/em> Groundwater flow and contaminant transport in carbonate aquifers, editors, I.D. Sasowsky and C.M. Wicks, Rotterdam, Netherlands, A.A. Balkema, pages\u00a0113-128, http:\/\/pascal-francis.inist.fr\/vibad\/index.php?action=getRecordDetail&idt=6190929<\/a>.<\/p>\n

Worthington, S.R.H., P.Y. Jeannin, E.C. Alexander Jr., G.J. Davies, and G.M. Schindel, 2017, Contrasting definitions for the term \u2018karst aquifer\u2019. Hydrogeology Journal, volume\u00a025, pages\u00a01237-1240, https:\/\/doi.org\/10.1007\/s10040-017-1628-7<\/a>.<\/p>\n

Worthington, S.R.H., and C.C. Smart, 2003, Empirical determination of tracer mass for sink to spring tests in karst in<\/em> Sinkholes and the engineering and environmental impacts on karst, editor, B.F. Beck. American Society of Civil Engineers, Geotechnical Special Publication number\u00a0122, pages\u00a0287-295, doi.org\/10.1061\/40698(2003)26<\/a>.<\/p>\n

Worthington, S.R.H., C.C. Smart, and W.W. Ruland, 2002, Assessment of groundwater velocities to the municipal wells at Walkerton. Ground and Water: Theory to Practice, pages\u00a01081-1086, https:\/\/www.researchgate.net\/publication\/282947211<\/a>.<\/p>\n

Zhang, B., and D.N. Lerner, 2000, Modeling of ground water flow to adits. Groundwater, volume\u00a038, issue\u00a01, pages\u00a099-105, https:\/\/doi.org\/10.1111\/j.1745-6584.2000.tb00206.x<\/a>.<\/p>\n

Zhou, W., 2007, Drainage and flooding in karst terranes. Environmental Geology, volume\u00a051, pages\u00a0963-973, https:\/\/doi.org\/10.1007\/s00254-006-0365-3<\/a>.<\/p>\n

Zimmerman, R.W., A. Al-Yaarubi, C.C. Pain, and C.A. Grattoni, 2004, Non-linear regimes of fluid flow in rock fractures. International Journal of Rock Mechanics and Mining Sciences, volume\u00a041, supplement\u00a01, pages\u00a0163-169, https:\/\/doi.org\/10.1016\/j.ijrmms.2004.03.036<\/a>.<\/p>\n<\/div>\n","protected":false},"parent":0,"menu_order":10,"template":"","meta":{"pb_part_invisible":false,"pb_part_invisible_string":""},"contributor":[],"license":[],"class_list":["post-562","part","type-part","status-publish","hentry"],"_links":{"self":[{"href":"https:\/\/books.gw-project.org\/introduction-to-karst-aquifers\/wp-json\/pressbooks\/v2\/parts\/562","targetHints":{"allow":["GET"]}}],"collection":[{"href":"https:\/\/books.gw-project.org\/introduction-to-karst-aquifers\/wp-json\/pressbooks\/v2\/parts"}],"about":[{"href":"https:\/\/books.gw-project.org\/introduction-to-karst-aquifers\/wp-json\/wp\/v2\/types\/part"}],"version-history":[{"count":6,"href":"https:\/\/books.gw-project.org\/introduction-to-karst-aquifers\/wp-json\/pressbooks\/v2\/parts\/562\/revisions"}],"predecessor-version":[{"id":863,"href":"https:\/\/books.gw-project.org\/introduction-to-karst-aquifers\/wp-json\/pressbooks\/v2\/parts\/562\/revisions\/863"}],"wp:attachment":[{"href":"https:\/\/books.gw-project.org\/introduction-to-karst-aquifers\/wp-json\/wp\/v2\/media?parent=562"}],"wp:term":[{"taxonomy":"contributor","embeddable":true,"href":"https:\/\/books.gw-project.org\/introduction-to-karst-aquifers\/wp-json\/wp\/v2\/contributor?post=562"},{"taxonomy":"license","embeddable":true,"href":"https:\/\/books.gw-project.org\/introduction-to-karst-aquifers\/wp-json\/wp\/v2\/license?post=562"}],"curies":[{"name":"wp","href":"https:\/\/api.w.org\/{rel}","templated":true}]}}