OVERVIEW
Alley, W.M., and R. Alley. 2022. The Water Recycling Revolution: Tapping into the Future. Lanham, Maryland: Rowman & Littlefield. ISBN 9781538160411 (hardback), 9781538160428 (e-book).
American College of Environmental Lawyers. 2022. Reuse of contaminated groundwater—Is it time to be more innovative? https://acoel.org/reuse-of-contaminated-groundwater-is-it-time-to-be-more-innovative/ (accessed July 28, 2022).
Aqueous Solutions LLC. 2022. Geochemist's Workbench. 301 North Neil Street, Suite 640, Champaign, IL. www.gwb.com.
Bachman, S., C. Hauge, R. McGlothli, T. Parker, A. Saracino, and S. Slater. 2005. California Groundwater Management: A Resource for Future Generations, 2nd ed. Groundwater Resources Association of California, Sacramento, California.
Dillon, P., W. Alley, Y. Zheng, and J. Vanderzalm (eds.). 2022. Managed aquifer recharge: Overview and governance. IAH Special Publication. https://recharge.iah.org/ (accessed July 08, 2022).
Dillon, P., P. Stuyfzand, T. Grischek, M. Lluria, R.D.G. Pyne, R.C. Jain, J. Bear, J. Schwarz, W. Wang, E. Fernandez, C. Stefan, M. Pettenati, J. van der Gun, C. Sprenger, G. Massmann, B.R. Scanlon, J. Xanke, P. Jokela, Y. Zheng, R. Rossetto, M. Shamrukh, P. Pavelic, E. Murray, A. Ross, J.P. Bonilla Valverde, A. Palma Nava, N. Ansems, K. Posavec, K. Ha, R. Martin, and M. Sapiano. 2019. Sixty years of global progress in managed aquifer recharge. Hydrogeology Journal 27: 1–30. https://doi.org/10.1007/s10040-018-1841-z
Ding, J., 2022. In face of recurring drought, cities seek security in wastewater recycling projects. Los Angeles Times. https://www.latimes.com/environment/story/2022-07-17/wastewater-recycling-provides-hedge-against-drought (accessed July 17, 2022).
International Groundwater Resources Assessment Centre (IGRAC). 2022. MAR database. https://www.un-igrac.org/areas-expertise/managed-aquifer-recharge-mar.
Reilly, T.E., K.F. Dennehy, W.M. Alley, and W.L. Cunningham. 2008. Ground-Water Availability in the United States: U.S. Geological Survey Circular 1323, 70 p. https://pubs.usgs.gov/circ/1323/
Stefan, C., and N. Ansems. 2018. Web-based global inventory of managed aquifer recharge applications. Sustainable Water Resoruces Managment 4: 153–162. https://doi.org/10.1007/s40899-017-0212-6
Topper, R., P.E. Barkmann, D.A. Bird, and M.A. Sares. 2004. Artificial Recharge of Ground Water in Colorado - A Statewide Assessment. Environmental Geology 13. Denver, CO: Colorado Geological Survey, Department of Natural Resources.
United States Army Corps of Engineers (USACE). 2020. Managed Aquifer Recharge and the U.S. Army Corps of Engineers: Water Security through Resilience. Publication 2020-WP-01. USACE Institute for Water Resources, Alexandria, VA.
U.S. Geological Survey. 2018. Groundwater decline and depletion. www.usgs.gov/special-topics/water-science-school/science/groundwater-decline-and-depletion (accessed July 22, 2022).
ECONOMICS, COST AND FINANCE
International Organization for Standardization (ISO) 14040. 2006-2007. https://www.iso.org/search.html?q=14040. Accessed: November 2021.
International Organization for Standardization (ISO) 14044. 2006-2007. https://www.iso.org/search.html?q=14044. Accessed: November 2021.
Job, C. 2021. Groundwater economics. In Production, Use and Sustainability of Groundwater, Vol. 1, 413. Boca Raton, Florida: CRC Press.
Job, C. 2023. Financing Managed Aquifer Recharge Projects. Ground Water Monitoring and Remediation. Volume 43, Issue 4, Pages 11-17. https://doi.org/10.1111/gwmr.12620
Khan, S., S. Mushtaq, M. Hanjra, and J. Schaeffer. 2008. Estimating potential costs and gains from an aquifer storage and recovery program in Australia. Agricultural Water Management 95, no. 2008: 477–488.
Maclear, B., Bishop S., and Smith D. 2021. Small systems: Put your wastewater and stormwater to use! In Opflow, International Groundwater Association, London, England, UK. Vol 47. No. 10, 10–15.
Maliva, R.G. 2014. Economics of managed aquifer recharge. Water 6, no. 5: 1257–1279.
Perrone, D., and M.M. Rohde. 2016. Benefits and economic costs of managed aquifer recharge in California. San Francisco Estuary and Watershed Science (University of California—Davis) 14, no. 2: Article. 4 https://escholarship.org/content/qt7sb7440w/qt7sb7440w.pdf (accessed July 21, 2022)
Vanderzalm, J., D. Page, P. Dillon, D. Gonzalez, and C. Petheram. 2022. Assessing the costs of managed aquifer recharge options to support agricultural development. Agricultural Water Management 23: 107437.
LAW, POLICY, REGULATION AND GUIDANCE
Arizona Department of Water Resources. 2022. Underground water storage, savings and replenishment. https://new.azwater.gov/recharge/type (accessed July 26, 2022).
American Society of Civil Engineers (ASCE). 2020. Standard guidelines for managed aquifer recharge. ASCE/EWRI 69–19. American Society of Civil Engineers, Reston, VA.
California Department of Water Resources. 2022. Flood-managed aquifer recharge (flood-MAR). https://water.ca.gov/Programs/All-Programs/Flood-MAR (accessed July 26, 2022).
Doremus, L., 2020. Regulation of managed aquifer recharge in Washington State. Presentation to the National Ground Water Association Virtual Groundwater Summit, December 8, 2020. Westerville, Ohio.
Interstate Technology Regulatory Council (ITRC). 2023. Managed Aquifer Recharge Technical Guidance Document. https://mar-1.itrcweb.org/ (Accessed April 5, 2024).
Job, C. and L. Doremus. 2021. Managed aquifer recharge—Overview of varying regulatory approaches of 3 Western states. Presentation to the National Ground Water Association Groundwater Summit, Westerville, Ohio, December 7, 2021.
Job, C. 2024. A Mid-Atlantic Managed Aquifer Recharge Regulatory Process Supports Multi-Purpose Water Reuse. Ground Water Monitoring and Remediation. https://doi.org/10.1111/gwmr.12630
Megdal, S.B., 2022. Managed aquifer recharge, MAR as a mechanism to advance water policy goals: A perspective. The Water Report. Issue #220, Envirotech Publications, Eugene, Oregon.
Musick, M. and C. Job. 2021. Stormwater—A beneficial resource or a source of contamination: Infiltrate with caution. Ground Water Protection Council publication. https://www.gwpc.org/news/m.blog/540/in-our-opinion-stormwater-a-beneficial-resource-or-a-contaminant-infiltrate-with-caution (accessed July 26, 2022).
National Ground Water Association (NGWA), Ground Water Protection Council (GWPC), American Water Works Association (AWWA), Association of Metropolitan Water Agencies (AMWA), and Rural Community Assistance Partnership (RCAP). 2022. Groundwater-protective stormwater BMPs need to be considered to avoid unintended consequences. Presentation to Environmental Protection Agency Offices of Wastewater Management & Ground Water and Drinking Water, January 25, 2022.
Natural Resource Management Ministerial Council (NRMMC). 2009. Australian guidelines for water recycling: Managing health and environmental risks (phase 2), managed aquifer recharge. National Water Quality Management Strategy Document no 24. Natural Resource Management Ministerial Council, Environment Protection, and Heritage Council National Health, and Medical Research Council.
Scott, P. 2000. Aquifer Storage and Recovery in the Columbia Basin: The Need for Legislative Action, Vol. 21. Public Land and Water Resources Law Review, University of Montanta, Missoula, Montana. https://scholarworks.umt.edu/plrlr/vol21/iss1/4/ (accessed May 16, 2016)
State of Arizona (SOA). 1994. Underground Water Storage, Savings, and Replenishment Act. Arizona Revised Statutes Title 45. Waters Sections 45-801.01, § 45-812.01, §§ 45-831.01, § 45-834.01 and 45-852.01. https://new.azwater.gov/recharge/type (accessed July 20, 2022).
State of California (SOC). n.d. Application to appropriate water—California Code, Water Code—WAT § 1260. law.onecle.com/california/water/1260.html; Executive Order B-39-17, Streamlined permitting process for diversion of high flows to underground storage. https://www.ca.gov/archive/gov39/2017/04/06/news19744/index.html; General waste discharge requirements for aquifer storage and recovery projects that inject drinking water into groundwater. https://www.waterboards.ca.gov/board_decisions/adopted_orders/water_quality/2012/wqo2012_0010_with%20signed%20mrp.pdf (accessed July 20, 2022).
State of Virginia (SOV). n.d. State Water Control Law This is Chapter 3.1 of the Code of Virginia, titled “State Water Control Law”, Title 62.1, “Waters of The State, Ports And Harbors.” vacode.org/2016/62.1/3.1/ (accessed July 21, 2022); Administrative Code Chapter 630. Private Well Regulations. https://law.lis.virginia.gov/admincode/title12/agency5/chapter630/ (accessed July 21, 2022).
Texas Water Development Board [TWDB] n.d. Aquifer Storage and Recovery. http://www.twdb.texas.gov/publications/shells/AquiferStorageRecovery.pdf?d=30427.70000000298 (accessed July 26, 2022)
U.S. Environmental Protection Agency (USEPA).. 2022a. Protecting underground sources of drinking water from underground injection (UIC). https://www.epa.gov/uic (accessed July 20, 2022).
U.S. Environmental Protection Agency (USEPA). 2022b. Assess, plan, and protect source water. https://www.epa.gov/sourcewaterprotection/assess-plan-and-protect-source-water (accessed July 21, 2022).
U.S. Environmental Protection Agency. 2022c. Clean Water Act National Pollutant Discharge Elimination System (NPDES) integrated planning—Municipality integrated plans. https://www.epa.gov/npdes/integrated-planning-municipality-integrated-plans (accessed July 21, 2022).
U.S. Environmental Protection Agency (USEPA). 2022d. Underground Injection Control (UIC) stormwater drainage wells. https://www.epa.gov/uic/stormwater-drainage-wells (accessed July 22, 2022).
U.S. Environmental Protection Agency (USEPA). 2022e. Water Reuse Action Plan. https://www.epa.gov/waterreuse/water-reuse-action-plan (accessed July 22, 2022).
U.S. Environmental Protection Agency (USEPA). 2022f. Basic information about water reuse. https://www.epa.gov/waterreuse/basic-information-about-water-reuse (accessed July 28, 2022).
U.S. Environmental Protection Agency (USEPA). 2022g. Selecting a groundwater remedy. https://www.epa.gov/superfund/selecting-groundwater-remedy (accessed July 28, 2022).
U.S. Environmental Protection Agency (USEPA). 2020. Memorandum, Subject: implementation of integrated planning in accordance with the 2019 Water Infrastructure Improvement Act (WIIA), From: Sally Gutierrez, Acting Director, Water Permits Division, TO: Water Division Directors, Regions 1-10, Dated December 3, 2020. Implementation of Integrated Planning in Accordance with the 2019 Water Infrastructure Improvement Act | National Pollutant Discharge Elimination System (NPDES) | US EPA.
Victoria Environmental Protection Agency. 2009. Guidelines for Managed Aquifer Recharge (MAR)—Health and environmental risk management. https://www.epa.vic.gov.au/-/media/epa/files/publications/1290.pdf (accessed July 20, 2022).
Washington (State) Department of Ecology (WDE). n.d. Stormwater permittee guidance & resources. https://ecology.wa.gov/Regulations-Permits/Guidance-technical-assistance/Stormwater-permittee-guidance-resources (accessed July 22, 2022).
Washington (State) Department of Ecology (WDE). n.d. Reclaimed water. Chapter 173-219 WAC. Ecology Publication no. 15-10-024. ecology.wa.gov/Water-Shorelines/Water-quality/Reclaimed-water (accessed July 22, 2022).
Washington State Legislature (WSL). n.d. Revised code of Washington. RCW 90.03.370. Reservoir permits. https://app.leg.wa.gov/RCW/default.aspx?cite=90.03.370; RCW 90.44 RCW. Regulation of public water systems. https://app.leg.wa.gov/rcw/default.aspx?cite=90.44&full=true; RCW 90.48 Chapter 90.48 RCW. Water pollution control. https://apps.leg.wa.gov/rcw/default.aspx?cite=90.48; RCW 90.46 RCW. Reclaimed water use. https://apps.leg.wa.gov/RCW/default.aspx?Cite=90.46 (accessed July 20, 2022).
Zheng, Z., A. Ross, K.G. Villholth, and P. Dillon (Eds). 2021. Managed Aquifer Recharge: A Showcase for Resilience and Sustainability. Paris, France: United Nations Educational, Scientific and Cultural Organization (UNESCO). https://unesdoc.unesco.org/ark:/48223/pf0000379962
GEOPHYSICAL
Auken, E., N. Foged, J. Larsen, K. Lassen, P. Maurya, S.M. Dath, and T.T. Eiskjær. 2018. tTEM: A towed TEM-system for detailed 3D imaging of the top 70 meters of the subsurface. Geophysics 84, no. 1: E13–E22. https://doi.org/10.1190/geo2018-0355.1
Behroozmand, A.A., and M. Halkjaer. 2021. The new 3D geophysical imaging method, tTEM supports MAR projects. Groundwater Resources Association of California Hydrovisions 30: 30–33.
Behroozmand, A.A., E. Auken, and R. Knight. 2019. Assessment of managed aquifer recharge sites using a new geophysical imaging method. Vadose Zone Journal 18: 180184. https://doi.org/10.2136/vzj2018.10.0184
Behroozmand, A.A., K. Keating, and E. Auken. 2015. A review of the principles and applications of the NMR technique for near-surface characterization. Surveys in Geophysics 36, no. 1: 27–85. https://doi.org/10.1007/s10712-014-9304-0
California Department of Water Resources (DWR). 2022. Airborne electromagnetic (AEM) surveys. https://water.ca.gov/Programs/Groundwater-Management/Data-and-Tools/AEM, https://data.cnra.ca.gov/dataset/aem-pilot-studies
Goebel, M., and R. Knight. 2021. Recharge site assessment through the integration of surface geophysics and cone penetrometer testing. Vadose Zone Journal 20: e20131. https://doi.org/10.1002/vzj2.20131
Jørgensen, F., and P.B.E. Sandersen. 2006. Buried and open tunnel valleys in Denmark-erosion beneath multiple ice sheets. Quaternary Science Reviews 25, no. 11–12: 1339–1363.
Keys, W.S. 1997. A Practical Guide to Borehole Geophysics in Environmental Applications, 1st ed. New York: Routledge. https://doi.org/10.1201/9781315136417. eBook published 2017.
Keys, W.S. 1968. Well logging in ground-water hydrology. Groundwater 6, no. 1: 10–18.
Maliva, R.G., and T.M. Missimer. 2010. Aquifer Storage and Recovery and Managed Aquifer Recharge Using Wells: Planning, Hydrogeology, Design, and Operation. Schlumberger, Texas.
Maurya, P.K., A.V. Christiansen, J. Pedersen, and E. Auken. 2020. High resolution 3D subsurface mapping using a towed transient electromagnetic system—tTEM: Case studies. Near Surface Geophysics 18: 249–259.
Pyne, R.D.G. 2005. Aquifer Storage Recovery: A Guide to Groundwater Recharge through Wells. Gainesville, Florida: ASR Systems LLC.
Schlumberger. 2006. Fundamentals of formation testing.
Schlumberger. 2004. Schlumberger wireline service Catalogue.
Temples, T.J., and M.G. Waddell. 1996. Application of petroleum geophysical well logging and sampling techniques for evaluating aquifer characteristics. Groundwater 34, no. 3: 523–531.
Thomsen, R., V.H. Søndergaard, and K.I. Sørensen. 2004. Hydrogeological mapping as a basis for establishing site-specific groundwater protection zones in Denmark. Hydrogeology 12: 550–562.
U.S. EPA, 2008. Using geophysical tools to develop the conceptual site model: Triad issue paper. https://semspub.epa.gov/work/HQ/141702.pdf
Walsh, D., P. Turner, E. Grunewald, H. Zhang, J.J. Butler, E. Reboulet, S. Knobbe, T. Christy, J.W. Lane, C.D. Johnson, T. Munday, and A. Fitzpatrick. 2013. A small-diameter NMR logging tool for groundwater investigations. Groundwater 51, no. 6: 1–13. https://doi.org/10.1111/gwat.12024
LOW IMPACT DEVELOPMENT RECHARGE
Alan Plummer and Associates (APA), Lloyd Gosselink Rochelle & Townsend PC; Nellor Environmental Associates, Inc.; M. Water and J.P. Heaney. 2010, Final Report; Stormwater Harvesting Document for the Texas Water Development Board, 220 p. http://www.twdb.texas.gov/innovativewater/reuse/projects/stormwater/doc/stormwater_final_rpt.pdf (accessed May 3, 2022).
Ando, A. W., and N.R. Netusil. 2013. A Tale of Many Cities: Using Low-Impact Development to Reduce Urban Water Pollution. Choices 28, no.3. A publication of the Agricultural & Applied Economics Association. https://www.choicesmagazine.org/UserFiles/file/cmsarticle_329.pdf (accessed May 3, 2022).
Beak, D., M. Borst, S. Acree, R. Ross, K. Forshay, R. Ford, J. Huang, C. Su, J. Brumley, A. Chau, and C. Richardson. 2020. The Influence of Stormwater Management Practices and Wastewater Infiltration on Groundwater Quality: Case Studies. Washington, DC: U.S. Environmental Protection Agency EPA/600/R-20/143. https://cfpub.epa.gov/si/si_public_record_Report.cfm?Lab=CESER&dirEntryId=350152 (Accessed May 3, 2022)
California Environmental Protection Agency (CEPA). 2016. Dry Wells and the Risk of Groundwater Contamination: An Annotated Bibliography. https://oehha.ca.gov/media/downloads/ecotoxicology/document/annotbibliodrywells2016.pdf (accessed July 20, 2021).
California State Water Resources Control Board (CSWRCB). 2012. General Waste Discharge Requirements For Aquifer Storage And Recovery Projects That Inject Drinking Water Into Groundwater. https://www.waterboards.ca.gov/board_decisions/adopted_orders/water_quality/2012/wqo2012_0010_with%20signed%20mrp.pdf (accessed May 3, 2022).
City of Rockville (Maryland). 2017. Phase 1 Green Streets Study. https://rockvillemd.gov/DocumentCenter/View/41960/Phase-1-Green-Streets-Study-Final-Report (accessed May 3, 2022).
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Dahlke, H.E., G.T. LaHue, M.R.L. Mautner, N.P. Murphy, N.K. Patterson, H. Waterhouse, F. Yang, and L. Foglia. 2018. Managed aquifer recharge as a tool to enhance sustainable groundwater Management in California: Examples from Field and modeling studies. In Advances in Chemical Pollution, Environmental Management and Protection 3. ISSN 2468-9289, 215–275. Cambridge, UK: Elsevier Inc. (Publisher). https://doi.org/10.1016/bs.apmp.2018.07.003 (Accessed May 3, 2022).
Delgadillo, B., J. E. Moran, M. E. Newcomer, E. R. Sirila-Woodburn, and P. D. Jordan. 2019. Analysis of Low-Impact Development groundwater recharge in the East Bay Plain using Stream Isotope Data Across Elevation Gradients. American Geophysical Union, Fall Meeting 2019, San Francisco, CA. https://ui.adsabs.harvard.edu/abs/2019AGUFM.H41K1846D/abstract (accessed May 3, 2022).
Eckart, K., Z. McPhee, and T. Bolisetti. 2017. Performance and implementation of low impact development – A review. Science of the Total Environment 607–608: 413–432. https://doi.org/10.1016/j.scitotenv.2017.06.254
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Gurdak, J.J., M. E. Newcomer, L. S. Sklar, and L. Nanus. 2013. Managed aquifer recharge with low impact development under a changing climate. American Geophysical Union, Fall Meeting 2013, San Francisco, CA. https://ui.adsabs.harvard.edu/abs/2013AGUFM.H11F1210G/abstract (accessed May 3, 2022).
Hall, M., and M. Clar. 2003. Using Low Impact Development (LID) Techniques to Retrofit an Existing Urban Mall: The Annapolis Mall Case Study. https://www1.villanova.edu/content/dam/villanova/engineering/vcase/sym-presentations/2003/4A1.pdf (accessed May 3, 2022).
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Job, C. 2021. Stormwater quality factors affecting aquifer recharge. Groundwater Monitoring and Remediation 41, no. 3: 22–26. https://doi.org/10.1111/gwmr.12478 (accessed May 3, 2022).
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Maine Coastal Program (MCP), State Planning Office. 2007. LID Guidance Manual for Maine Communities; Approaches for Implementation of Low Impact Development Practices at the Local Level. Newburyport, MA: Prepared by Horsley Witten Group https://www.maine.gov/dep/land/watershed/materials/lid-guidance-manual.pdf (accessed May 3, 2022).
Massachusetts Department of Environmental Protection (MDEP). 2008. Massachusetts Stormwater Handbook. https://www.mass.gov/guides/massachusetts-stormwater-handbook-and-stormwater-standards#-stormwater-handbook-volume-1- (accessed May 3, 2022).
Metropolitan Area Planning Council, Boston, Massachusetts (MAPC). n.d. Massachusetts Low Impact Development ToolKit; Factsheet 7; Infiltration Trenches and Dry Wells. http://www.mapc.org/wp-content/uploads/2017/11/LID_toolkit_factsheets_7-9.pdf (accessed May 3, 2022).
Minnesota Pollution Control Agency (MPCA). 2016a. Minnesota Stormwater Manual. Operation and maintenance of Infiltration trench. https://stormwater.pca.state.mn.us/index.php?title=Operation_and_maintenance_of_Infiltration_trench&redirect=no (accessed May 3, 2022).
Minnesota Pollution Control Agency (MPCA). 2016b. Minnesota Stormwater Manual. Operation and maintenance of bioretention. https://stormwater.pca.state.mn.us/index.php?title=Operation_and_maintenance_of_bioretention&redirect=no (accessed May 3, 2022).
Minnesota Pollution Control Agency (MPCA). 2018. Minnesota Stormwater Manual. Operation and maintenance of dry swale (grass swale). https://stormwater.pca.state.mn.us/index.php?title=Operation_and_maintenance_of_dry_swale_(grass_swale (accessed May 3, 2022).
Minnesota Pollution Control Agency (MPCA). 2021. Minnesota Stormwater Manual. Stormwater and wellhead protection. https://stormwater.pca.state.mn.us/index.php/Stormwater_and_wellhead_protection (accessed May 3, 2022).
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Rodriguez, J. 2019. Groundwater Recharge Sensitivity to Low Impact Development Design and Future Climate Change. San Francisco State University, San Francisco, California. https://www.csusb.edu/sites/default/files/JessicaRodriguezWRIFInalReport.pdf (accessed May 3, 2022)
Santa Barbara (City of), California. 2008. Low Impact Development: Focusing on Water Quality. https://www.santabarbaraca.gov/civicax/filebank/blobdload.aspx?BlobID=16750 (accessed May 3, 2022).
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Stormwater Center. n.d. Stormwater Management Fact Sheet: Infiltration Trench https://www.stormwatercenter.net/Assorted%20Fact%20Sheets/Tool6_Stormwater_Practices/Infiltration%20Practice/Infiltration%20Trench.htm (accessed May 3, 2022).
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U.S. Environmental Protection Agency (USEPA). 1987. DRASTIC: A Standardized System for Evaluating Ground Water Pollution Potential Using Hydrogeologic Settings. EPA/600/2-87/035. https://cfpub.epa.gov/si/si_public_record_Report.cfm?Lab=ORD&dirEntryID=35474 (accessed May 3, 2022).
U.S. Environmental Protection Agency (USEPA). 2010. Green Infrastructure Case Studies: Municipal Policies for Managing Stormwater with Green Infrastructure. EPA-841-F-10-004. https://nepis.epa.gov/Exe/ZyPDF.cgi/P100FTEM.PDF?Dockey=P100FTEM.PDF (accessed May 3, 2022).
U.S. Environmental Protection Agency (USEPA). 2012a. Benefits of Low Impact Development. EPA 841-N-12-003A. https://www.epa.gov/sites/production/files/2015-09/documents/bbfs1benefits.pdf (accessed May 3, 2022).
U.S. Environmental Protection Agency (USEPA). 2012b. Costs of Low Impact Development; LID Saves Money and Protects Your Community's Resources. EPA 841-N-12-003C. https://www.epa.gov/sites/default/files/2015-09/documents/bbfs3cost.pdf (accessed May 3, 2022).
U.S. Environmental Protection Agency (USEPA). 2018. The Influence of Green Infrastructure Practices on Groundwater Quality: The State of the Science. EPA/600/R-18/227, https://cfpub.epa.gov/si/si_public_record_report.cfm?Lab=NRMRL&dirEntryId=342610 (accessed May 3, 2022).
U.S. Environmental Protection Agency (USEPA). 2019. Learn about Green Streets. https://www.epa.gov/G3/learn-about-green-streets (accessed May 3, 2022).
U.S. Environmental Protection Agency (USEPA). 2020a. MEMORANDUM, SUBJECT: Implementation of Integrated Planning in Accordance with the 2019 Water Infrastructure Improvement Act (WIIA), FROM: Sally Gutierrez, Acting Director, Water Permits Division, TO: Water Division Directors, Regions 1-10, Dated December 3, 2020. https://www.epa.gov/sites/production/files/2020-01/documents/wiia_integrated_planning_implementation_memo_december_2019_508.pdf (accessed May 3, 2022).
U.S. Environmental Protection Agency (USEPA). 2020b. New Interim Strategy Will Address PFAS Through Certain EPA-Issued Wastewater Permits; Press Release of November 30, 2020. https://www.epa.gov/newsreleases/new-interim-strategy-will-address-pfas-through-certain-epa-issued-wastewater-permits (accessed May 3, 2022).
U.S. Environmental Protection Agency (USEPA). 2021a. Urban Runoff: Low Impact Development. https://www.epa.gov/nps/urban-runoff-low-impact-development (accessed May 3, 2022).
U.S. Environmental Protection Agency (USEPA). 2021b. Basic Information about Source Water Protection. https://www.epa.gov/sourcewaterprotection/basic-information-about-source-water-protection (accessed May 3, 2022).
U.S. Environmental Protection Agency (USEPA). 2021c. Enhanced Aquifer Recharge of Stormwater in the United States: State of the Science Review (Final Report). https://cfpub.epa.gov/ncea/risk/recordisplay.cfm?deid=352238 (accessed May 3, 2022).
U.S. Geological Survey (USGS). 2018. Runoff: Surface and Overland Water Runoff. https://www.usgs.gov/special-topic/water-science-school/science/runoff-surface-and-overland-water-runoff?qt-science_center_objects=0#qt-science_center_objects (accessed May 3, 2022).
U.S. Geological Survey (USGS). 2019. Chloride, Salinity, and Dissolved Solids. https://www.usgs.gov/mission-areas/water-resources/science/chloride-salinity-and-dissolved-solids?qt-science_center_objects=0#qt-science_center_objects (accessed May 3, 2022).
U.S. Green Building Council (USGBC). 2013. Reference Guide for Building Design and Construction, 183–195. Washington, DC: Rainwater Management.
University of Florida (UF). 2008. Florida Field Guide to Low Impact Development. buildgreen.ufl.edu/Fact_sheet_Bioretention_Basins_Rain_Gardens.pdf (accessed May 3, 2022).
US Natural Resources Conservation Service (NRCS). 2005. Bioswales. https://www.nrcs.usda.gov/Internet/FSE_DOCUMENTS/nrcs144p2_029251.pdf (accessed May 3, 2022).
Washington, State of (WA). 2016. Revised Code of Washington Title 90 Water Rights – Environment. https://leg.wa.gov/CodeReviser/RCWArchive/Documents/2016/Title 90 RCW.pdf (accessed May 3, 2022).
West Virginia Department of Environmental Protection; Groundwater/UIC Program (WVDEP). 2006. Stormwater Management Structure Guidance Document. https://dep.wv.gov/WWE/Programs/gw/Documents/14469_gw_Stormwater_Management_Structure_Guidance_Combined.pdf (accessed May 3, 2022).
Yu, M., J. Ji, Y. Son, E. Lee, and J. Yi. 2014. Monitoring guideline based on low impact development. WIT transactions on the built environment. Urban Water II 139: 219–229. https://www.witpress.com/Secure/elibrary/papers/UW14/UW14019FU1.pdf (accessed May 3, 2022).
Zhang, K., T.F.M. Chui, and Y. Yang. 2018. Simulating the hydrological performance of low impact development in shallow groundwater via a modified SWMM. Journal of Hydrology 566: 313–331. ISSN 0022-1694. https://doi.org/10.1016/j.jhydrol.2018.09.006 (accessed May 3, 2022).
PLANNING AND DESIGN
Bouwer, H., R.D.G. Pyne, D. St Germain, T.M. Morris, C.J. Brown, P. Dillon and M.J. Rycus. 2008. Design, Operation, and Maintenance for Sustainable Underground Storage Facilities. American Water Works Association Research Foundation. Hoboken, NJ, USA.
Colorado Water Conservation Board (CWCB). 2007. SB06-193 Underground Water Storage Study. Denver, CO: Colorado Water Conservation Board.
Fetter, C.W. 2001. Applied Hydrogeology, 4th ed. Upper Saddle River, NJ: Prentice Hall.
Fink, G.T., 2003. A comparative analysis of the United States groundwater management regimes: Testing an ideal type. Northern Arizona University PhD dissertation, Flagstaff, Arizona.
Heath, R. C. 1989. Basic Ground-Water Hydrology. U.S. Geological Survey Water-Supply Paper 2220. U.S. Geological Survey, Denver, Colorado.
Maliva, R., and T.A. Missimer. 2010. Aquifer Storage and Recovery and Managed Aquifer Recharge Using Wells: Planning, Hydrogeology, Design and Operation. Methods in Water Resources Evaluation-Series No. 2. Sugar Land, Texas: Schlumberger.
National Academy of Sciences (NAS). 2008. Prospects for managed underground storage of recoverable water. In Committee on Sustainable Underground Storage of Recoverable Water, Water Science and Technology Board, Division on Earth and Life Studies, National Research Council, 275. Washington, D.C: The National Academies Press.
National Ground Water Association (NGWA). 2014. “Best Suggested Practices for Aquifer Storage and Recovery”. BSP26. 22 pages. https://my.ngwa.org/NC__Product?id=a185000000BYugHAAT (Accessed April 5, 2024).
National Ground Water Association (NGWA). 2022. MAR terminology. https://www.ngwa.org/what-is-groundwater/groundwater-issues/managed-aquifer-recharge/mar-terminology (accessed July 28, 2022).
Oklahoma Water Resources Board (OWRB). 2010. Final Report Aquifer Recharge Pilot Project Site Evaluation. Senate Bill 1410 Aquifer Recharge Work Group, Oklahoma Comprehensive Water Plan. Oklahoma City, OK: Oklahoma Water Resources Board.
Parkhurst, D.L. and C.A.J. Appelo. 2013. Description of Input and Examples for PHREEQC Version 3 - A Computer Program for Speciation, Batch-Reaction, One-Dimensional Transport, and Inverse Geochemical Calculations. U.S. Geological Survey Techniques and Methods, Book 6, Chapter A43. U.S. Geological Survey, Reston, VA.
Pyne, R.D.G. 2005. Aquifer Storage Recovery: A Guide to Groundwater Recharge Through Wells. Gainesville, FL: ASR Press.
Waterloo Hydrogeologic. 2011. Visual Modflow 2011.1 User's Manual. Kitchener, Canada: Waterloo Hydrogeologic.
CASE STUDIES
ORANGE COUNTY, CALIFORNIA, WATER DISTRICT
California Department of Water Resources. 2017. Connecting the dots between water, energy, food and ecosystem issues for integrated water management in a changing climate. Climate Change Program, California Department of Water Resources, February 2017. https://water.ca.gov/-/media/DWR-Website/Web-Pages/Programs/All-Programs/Climate-Change-Program/Climate-Program-Activities/Files/Reports/Connecting-the-Dots-between-Water-Energy-Food-and-Ecosystems-Issues-for-Integrated-Water.pdf (accessed Nov 18, 2021).
Hutchinson, A., G. Rodriguez, G. Woodside, and M. Milczarek. 2017. Maximizing infiltration rates by removing suspended solids: results of demonstration testing of riverbed filtration in Orange County, California. Water 2017, no. 9: 119. https://doi.org/10.3390/w9020119. http://www.mdpi.com/2073-4441/9/2/119/pdf
Hutchinson, A., D. Phipps, G. Rodriguez, G. Woodside, and M. Milczarek. 2013. Surface spreading recharge facility clogging—The Orange County Water District experience. In Clogging Issues Associated with Managed Aquifer Recharge Methods, ed. R. Martin, 107–118. Australia: IAH Commission on Managing Aquifer Recharge.
Orange County Water District. 2018a. Orange County Water District Act. https://www.ocwd.com/media/6702/final-ocwd-district-act-2018.pdf (accessed Nov 18, 2021).
Orange County Water District. 2018b. 2017-18 engineer's report on the groundwater conditions, water supply and basin utilization in the Orange County Water District. https://www.ocwd.com/media/7773/2017-18-engineers-report.pdf (accessed Nov 18, 2021).
Orange County Water District. 2017. Basin 8-1 alternative (to comply with SGMA). https://www.ocwd.com/media/4918/basin-8-1-alternative-final-report-1.pdf (accessed Nov 18, 2021).
Orange County Water District. 2015. Groundwater management plan 2015 update; Fountain Valley, CA, USA. https://www.ocwd.com/learning-center/reports/ (accessed Nov 18, 2021).
Orange County Water District. 2014. A history of Orange County Water District. https://www.ocwd.com/media/1606/a-history-of-orange-county-water-district.pdf (accessed Oct 28, 2021).
United States Army Corps of Engineers. 2021. Interim Prado Dam Water Control Plan.
SOUTHERN CALIFORNIA – PRADO DAM
Cao, Q., S. Shukla, M.J. DeFlorio, F.M. Ralph, and D.P. Lettenmaier. 2021. Evaluation of the subseasonal forecast skill of floods associated with atmospheric rivers in coastal Western U.S. watersheds. Journal of Hydrometeorology 22, no. 6: 1535–1552. https://doi.org/10.1175/JHM-D-20-0219.1
Demargne, J., L. Wu, S.K. Regond, J.D. Brown, H. Lee, M. He, and J. Schaake. 2014. The science of NOAA's operational hydrologic ensemble forecast service. American Meteorological Society 95, no. 1: 79–98. https://doi.org/10.1175/BAMS-D-12-00081.1
Delaney, C., R.K. Hartman, J. Mendoza, M. Dettinger, L.D. Monache, J. Jasperse, F.M. Ralph, C. Talbot, J. Brown, D. Reynolds, and S. Evett. 2020. Forecast informed reservoir operations using ensemble streamflow predictions for a multipurpose reservoir in northern California. Water Resources Research 56: e2019WR026604. https://doi.org/10.1029/2019WR026604
Jasperse, J., F.M. Ralph, M. Anderson, L. Brekke, N. Malasavage, M.D. Dettinger, J. Forbis, J. Fuller, C. Talbot, R. Webb, and A. Haynes. 2020. Lake Mendocino Forecast Informed Reservoir Operations Final Viability Assessment. La Jolla, California: University of California San Diego. https://escholarship.org/uc/item/3b63q04n
Jasperse, J., F.M. Ralph, M. Anderson, L. Brekke, M. Dillabough, M. Dettinger, R. Hartman, C. Jones, P. Rutten, C. Talbot, R. Webb, D. Ford, A. O'Donnell, and A. DuBay. 2015. A comprehensive plan to evaluate the viability of forecast informed reservoir operations for Lake Mendocino. Sonoma County Water Agency Report. https://evogov.s3.amazonaws.com/185/media/164714.pdf
Ralph, F.M., G. Woodside, M. Anderson, K. Cleary-Rose, A. Haynes, J. Jasperse, J. Sweeten, C. Talbot, J. Tyler, and R. Vermeeren. 2021. Prado Dam Forecast Informed Reservoir Operations Preliminary Viability Assessment. La Jolla, California: UC San Diego. https://escholarship.org/uc/item/13091539
Ralph, F.M., M.D. Dettinger, J.J. Rutz, and D.E. Waliser (Editors). 2020. Atmospheric Rivers. Cham, Switzerland: Springer International Publishing. http://doi.org/10.1007/978-3-030-28906-5
Ralph, F.M., M. Dettinger, D. Lavers, I.V. Gorodetskaya, A. Martin, M. Viale, A.B. White, N. Oakley, J. Rutz, J.R. Spackman, H. Wernli, and J. Cordeira. 2017. Atmospheric rivers emerge as a global science and applications focus. Bulletin of the American Meteorological Society 98, no. 9: 1969–1973. https://doi.org/10.1175/BAMS-D-16-0262.1
United States Army Corps of Engineers (USACE), Los Angeles District. 2019. Prado Basin ecosystem restoration and water conservation study biological assessment. https://usace.contentdm.oclc.org/digital/collection/p16021coll7/id/9711/rec/1
United States Army Corps of Engineers (USACE). 2021. Interim Water Control Plan (During Construction), Prado Dam and Reservoir, Santa Ana River, Orange County, California. November 2002, updated in April 2021.
TEXAS – SAN ANTONIO WATER SYSTEM
Bureau of Economic Geology. 1983. Geologic atlas of Texas, San Antonio sheet: Scale 1:250,000. Austin, Texas: University of Texas at Austin, Bureau of Economic Geology.
CH2M Hill. 1998. Aquifer Storage and Recovery Preliminary Investigation and Feasibility Analysis: Step 1 Report, for the San Antonio Water System.
CH2M Hill. 2000. Step 2 Report, Aquifer Storage and Recovery, prepared for the San Antonio Water System.
Crow, C.L. 2012. Water-level altitudes and continuous and discrete water quality at and near an aquifer storage and recovery site, Bexar, Atascosa, and Wilson Counties, Texas, June 2004–September 2011: U.S. Geological Survey Scientific Investigations Report 2012–5260, 85 p., 7 apps.
Edwards Aquifer Authority. 1993. https://www.edwardsaquifer.org/wp-content/uploads/2020/12/RL.EAA-Act.pdf
Edwards Aquifer Recovery Implementation Program, Habitat Conservation Plan. 2020. RECON Environmental, Hicks & Co., Zara Environmental, LLC, Bio-West; Gulley, R.L. Program Manager; 422 p.
Marfice, J., G.L. Snyder, J.C. Dwyer, K.M. Nixon, and A.L. Schultz. 2001. Using Nuclear-Magnetic Resonance and Geophysical Logs to Assess Water Quality and Hydraulic Properties of Tertiary Gulf Coast Aquifers: Case Studies. In Proceedings of the 2001 American Water Works Association Annual Conference and Exhibition, Washington, DC.
Otero, C.L., and B.L. Petri. 2010. Quality of groundwater at and near an aquifer storage and recovery site, Bexar, Atascosa, and Wilson Counties, Texas, June 2004–August 2008. In U.S. Geological Survey Scientific Investigations Report 2010–5061, 34 p.
Pyne, R.D.G. 2005. Aquifer Storage and Recovery: A Guide to Groundwater Recharge through Wells, 608. Gainesville, Florida: ASR Systems LLC.
Rabel, B.C. and A.R. Dutton. 2014. Estimation of Volumetric Capacity of an Aquifer Storage and Recovery (ASR) Field Operated by San Antonio Water System, Bexar County, San Antonio Water System Contract Report, 135 p.
San Antonio Water System. 2017. Water Management Plan. https://www.saws.org/wp-content/uploads/2019/02/20171107_SAWS-2017-Water-Management-Plan.pdf
Snyder, G.L., J. Marfice, and A.L. Schultz. 2003. Significant Reduction in Aquifer-Testing Requirements Resulting from the Use of Magnetic-Resonance and Other High-Technology Borehole Geophysical Logging Techniques to Assess Aquifer Hydraulic Properties in Aquifer Storage and Recovery (ASR) Wells in the Carrizo Aquifer, South-Central Texas, National Ground Water Association Annual Meeting and Conference, Orlando, Florida.
Snyder, G.L., and A.L. Schultz. 2004. Using New Technology Logs to Evaluate Gulf Coast Aquifers: 2 Case Studies, Texas Water Conservation Association – 2004 Annual Conference, South Padre Island, Texas.
Texas Water Development Board. 2011. An Assessment of Aquifer Storage and Recovery in Texas. Report No. 0904830940.
University of Texas and Bureau of Economic Geology. 1983. Geologic atlas of Texas, San Antonio sheet: Austin, scale 1:250,000.
IDAHO – SNAKE RIVER PLAIN
Ackerman, D. J. 1991. Transmissivity of the Snake River plain aquifer at the Idaho National Engineering Laboratory, Idaho. U.S. Geological Survey Water-Resources Investigations Report. pp. 91–4058
Blew, D. 2005. Phase II Evaluation of Managed Recharge on the ESRP, Development of Recharge Facilities. Boise, Idaho: Idaho Department of Water Resources.
Cecil, L.D., J.A. Welhan, J.R. Green, S.K. Grape, and E.R. Sudicky. 2000. Use of chlorine-36 to determine regional-scale aquifer dispersivity, eastern Snake River Plain aquifer, Idaho/USA. Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms 172: 1–4.
CH2M and Henry's Fork Foundation. 2016. Eastern Snake Plain Aquifer (ESPA) Review of Comprehensive Managed Aquifer Recharge Program; Final Report. Boise, Idaho: Idaho Water Resource Board.
Clark, G.M., T.R. Maret, M.G. Rupert, M.A. Maupin, W.H. Low, and D.S. Ott. 1998. Water Quality in the Upper Snake River Basin, Idaho and Wyoming, 1992–95. U.S. Geological Survey Circular 1160.
Cosgrove, D.M., B.A. Contor, N. Rinehart, and G.S. Jonson. 2005. Snake River Plain Aquifer Model Scenario Update: Hydrologic Effects of Continued 1980–2002 Water Supply and Use Conditions Using Snake River Plain Aquifer Model Version 1.1 Base Case Scenario. Idaho Water Resources Research Institute Technical Report 05-020.
Idaho Department of Environmental Quality. 2017. Guidance for Developing a Groundwater Quality Monitoring Program for Managed Recharge Projects by Land Application. Boise, Idaho: IDEQ. https://www2.deq.idaho.gov/admin/LEIA/api/document/download/4853
Idaho Department of Water Resources (IDWR). 1999. Feasibility of Large-Scale Managed Recharge of the Eastern Snake Plain Aquifer System. Boise, Idaho: IDWR. https://idwr.idaho.gov/wp-content/uploads/sites/2/publications/1999-MISC-Managed-Recharge-Report.pdf
Idaho Water Resource Board (IWRB). 2009. Eastern Snake Plain Aquifer Comprehensive Aquifer Management Plan. Boise, Idaho: IWRB. https://idwr.idaho.gov/wp-content/uploads/sites/2/iwrb/2008/20080129-ESPA-CAMP.pdf
Johnson, J. 2021. The 2021 Groundwater Report – Groundwater Quality in the Magic Valley. Boise, Idaho: Idaho Conservation League.
Johnson, G.S. 2012. Prioritization of Aquifer Recharge Sites Based on Hydrologic Benefits. Boise, Idaho: Idaho Department of Water Resources.
Johnson, G.S., W.H. Sullivan, D.M. Cosgrove, and R.D. Schmidt. 1999. Recharge of the Snake River plain aquifer: Transitioning from incidental to managed. Journal of the American Water Resources Association 35-11: 123–131.
Kjelstrom, L.C. 1995. Streamflow gains and losses in the Snake River and ground-water budgets for the Snake River Plain, Idaho and eastern Oregon. U.S. Geological Survey Professional Paper 1408-C.
Kjelstrom, L.C. 1986. Flow characteristics of the Snake River and water budget for the Snake River Plain, Idaho and Eastern Oregon. U.S. Geological Survey Hydrologic Atlas 680: 1-2. https://doi.org/10.3133/ha680
Kuntz, M.A., H.R. Covington, and L.J. Schorr. 1992. An overview of basaltic volcanism of the eastern Snake River Plain, Idaho GSA. Memoirs 179: 227–268.
McVay, M. 2021. ESPA storage change. https://idwr.idaho.gov/wp-content/uploads/sites/2/iwrb/2021/10-21-July-Board-Meeting-Work-Session-MATERIALS.pdf
Mundorff, M. J., E.G. Crosthwaite, and C. Kilburn. 1962. Feasibility of Artificial Recharge in the Snake River Basin, Idaho. U.S. Geological Survey Water-Supply Paper 1654.
Norvitch, R. F., C. A. Thomas, and R. J. Madison. 1969. Artificial Recharge to the Snake Plain Aquifer in Idaho; an Evaluation of Potential and Effect. Idaho Department of Reclamation, Water Information Bulletin no. 12.
Ryu, J. H., B. Contor, G. Johnson, R. Allen, and J. Tracy. 2012. System dynamics to sustainable water resources management in the Eastern snake plain aquifer under water supply uncertainty. Journal of the American Water Resources Association 48–6: 1204–1220.
Santos, D. 2014. Personal Communication, September 26 Economic Input from Idaho Counties in the ESPA. Boise, Idaho: ESPA.
Skinner, K. D., and M. G. Rupert. 2012. Numerical Model Simulations of Nitrate Concentrations in Groundwater Using Various Nitrogen Input Scenarios, Mid-Snake Region, South-Central Idaho. U.S. Geological Survey Scientific Investigations Report 2012–5237.
Stewart-Maddox, N., and P. Thomas. 2020. Water Quality Trends at IWRB's Managed Recharge Locations. Boise, Idaho: Idaho Department of Water Resources.
Stewart-Maddox, N., P. Thomas, W. Parham, & W. Hipke. 2018. Restoring a world class aquifer. The Water Report Issue no. 173.
Sukow, S. 2021. Model Calibration Report Eastern Snake Plain Aquifer Model Version 2.2. https://research.idwr.idaho.gov/files/projects/espam/browse/ESPAM22_Reports/ModelCalibrationRpt/ModelCalibration22_Final.pdf
Sullivan, W. H., G. S. Johnson, J. L. Casper, and C. E. Brockway. 1999. An Assessment of the Capability of existing Canal Companies to Deliver Artificial Recharge Water to the Snake Plain aquifer in Southeast Idaho. Idaho Water Resources Research Institute Technical Completion Report.
Wood, W.W., and W.H. Low. 1986. Aqueous geochemistry and diagenesis in the eastern Snake River plain aquifer system, Idaho. Geological Society of America Bulletin 97-12: 1456–1466.
FLORIDA – KISSIMMEE RIVER SYSTEM
CH2MHill. 2004. LAKE Okeechobee aquifer storage & recovery (ASR) pilot project Hydrogeologic investigation of the Floridan aquifer system Kissimmee River site Okeechobee County, Florida. Prepared in Cooperation with the South Florida Water Management District. https://my.sfwmd.gov/dbhydroplsql/show_dbkey_info.show_citation_info?v_citation_id=373
Florida Senate Bill SB 2516, effective 2 June 2021. Water Storage North of Lake Okeechobee. https://www.flsenate.gov/Session/Bill/2021/2516
Geibel, N.M., and C.J. Brown. 2012. Hydraulic fracturing of the Floridan Aquifer from aquifer storage and recovery operations. Environmental & Engineering Geoscience 18, no. 2: 175–189. https://doi.org/10.2113/gseegeosci.18.2.175
Golder Associates. 2007. Site characterization report construction of a single zone monitor well MW0010 and groundwater sampling (Kissimmee River site) Okeechobee County, FL. Prepared in Cooperation with the Jacksonville District USACE. https://my.sfwmd.gov/dbhydroplsql/show_multimedia.display_list_for_station?p_station=EXKR-MW1
Krabbenhoft, D.P., G.R. Aiken, and M.P. Anderson. 2007. An assessment of the potential effects of aquifer storage and recovery on mercury cycling in South Florida. U.S. Geological Survey Scientific Investigations Report 2007–5240, 20 p. https://pubs.usgs.gov/sir/2007/5240/pdf/SIR_2007-5240.pdf
Lisle, J.T. 2016. Natural inactivation of Escherichia coli in anaerobic and reduced groundwater. Journal of Applied Microbiology 120, no. 6: 1739–1750. https://doi.org/10.1111/jam.13126
Maliva, R.G., D.A. Budd, E.A. Clayton, T.M. Missimer, and J.A.D. Dickson. 2011. Insights into the dolomitization process and porosity modification in sucrosic dolostones, Avon Park Formation (Middle Eocene), east-central Florida. Journal of Sedimentary Research 81, no. 3: 218–232.
Maliva, R.G., G.P. Kennedy, W.K. Martin, T.M. Missimer, E.S. Owosina, and J.A.D. Dickson. 2002. Dolomitization-induced aquifer heterogeneity: Evidence from the upper Floridan Aquifer, southwest Florida. Geological Society of America Bulletin 114, no. 4: 419–427.
Merritt, M.L. 1985. Subsurface Storage of Fresh Water in South Florida: A Digital Model Analysis of Recoverability. U.S. Geological Survey Water-Supply Paper 2261.
Miller, J.A. 1986. Hydrogeologic framework of the Floridan Aquifer System in Florida and parts of Georgia, Alabama, and South Carolina. U.S. Geological Survey Professional Paper, 1403-B, 91 p. plus plates. http://sofia.usgs.gov/publications/papers/pp1403b/index.html
Mirecki, J.E., M.W. Bennett, and M.C. López-Baláez. 2013. Arsenic control during aquifer storage recovery cycle tests in the Floridan Aquifer. Groundwater 51, no. 4: 539–549. https://doi.org/10.1111/j.1745-6584.2012.01001.x
National Research Council. 2015. Review of the Everglades Aquifer Storage and Recovery Regional Study. Washington, DC: The National Academies Press. https://doi.org/10.17226/21724
National Research Council. 2002. Regional Issues in Aquifer Storage and Recovery for Everglades Restoration: A Review of the ASR Regional Study Project Management Plan of the Comprehensive Everglades Restoration Plan. Washington, DC: The National Academies Press. https://doi.org/10.17226/10521
National Research Council. 2001. Aquifer Storage and Recovery in the Comprehensive Everglades Restoration Plan: A Critique of the Pilot Projects and Related Plans for ASR in the Lake Okeechobee and Western Hillsboro Areas. Washington, DC: The National Academies Press. https://doi.org/10.17226/10061
Randazzo, A.F. 1997. The sedimentary platform of Florida. In The Geology of Florida, ed. A.F. Randazzo, and D.S. Jones, 39–56. Gainesville, Florida: University Press of Florida.
Reese, R.S. 2014. Hydrogeologic framework and geologic structure of the Floridan aquifer system and intermediate confining unit in the Lake Okeechobee area, Florida. U.S. Geological Scientific Investigations Map 3288, 8 sheets, plus 12-p. pamphlet, https://doi.org/10.3133/sim3288 .
Reese, R.S. and E. Richardson. 2008. Synthesis of the hydrogeologic framework of the Floridan Aquifer System, and delineation of a major Avon Park Permeable Zone in central and southern Florida. U.S. Geological Survey Scientific Investigations Report 2007-5207, 60 p. plus plates and appendices. http://pubs.usgs.gov/sir/2007/5207/
Reese, R.S., and C.A. Alvarez-Zarikian. 2007. Hydrogeology and aquifer storage and recovery performance in the Upper Floridan Aquifer, Southern Florida. U.S. Geological Survey Scientific Investigations Report 2006–5239, 110 p.
Scott, T.M. 1988. The lithostratigraphy of the Hawthorn Group (Miocene) of Florida. Bulletin no. 59. Florida Geological Survey, 148 p.
U.S. Army Corps of Engineers and South Florida Water Management District. 2015. Aquifer storage and recovery regional study. Final Technical Data Report. Report dated May 2015, 269 p. https://www.saj.usace.army.mil/Missions/Environmental/Ecosystem-Restoration/Aquifer-Storage-and-Recovery-ASR-Regional-Study/
U.S. Army Corps of Engineers and South Florida Water Management District. 2013. Comprehensive Everglades restoration plan aquifer storage and recovery pilot project. Final Technical Data Report. Report dated December 2013, 370 p. https://www.sfwmd.gov/sites/default/files/documents/Main%20Report_Final_2013.pdf
USACE and SFWMD. 1999. Central and Southern Florida project comprehensive review study. Final Integrated Feasibility Report and Programmatic Environmental Impact Statement. U.S. Army Corps of Engineers and South Florida Water Management District. https://usace.contentdm.oclc.org/digital/collection/p16021coll7/id/11296/
Ward, W.C., Cunningham, K.J., Renken, R.A., Wacker, M.A., and Carlson, J.L. 2003. Sequence-stratigraphic analysis of the Regional Observation Monitoring program (ROMP) 29A test corehole and its relation to carbonate porosity and regional transmissivity in the Floridan Aquifer System, Highlands County, Florida: U.S. Geological Survey Open-File Report no. 03-201, p. 1–34. https://pubs.er.usgs.gov/publication/ofr03201
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MASSACHUSETTS – CAPE COD
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VIRGINIA – COASTAL PLAIN
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MEXICO – MEXICO CITY
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KUWAIT
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