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Suggested Citation:"References." National Research Council. 2000. Investigating Groundwater Systems on Regional and National Scales. Washington, DC: The National Academies Press. doi: 10.17226/9961.
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Suggested Citation:"References." National Research Council. 2000. Investigating Groundwater Systems on Regional and National Scales. Washington, DC: The National Academies Press. doi: 10.17226/9961.
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Suggested Citation:"References." National Research Council. 2000. Investigating Groundwater Systems on Regional and National Scales. Washington, DC: The National Academies Press. doi: 10.17226/9961.
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Suggested Citation:"References." National Research Council. 2000. Investigating Groundwater Systems on Regional and National Scales. Washington, DC: The National Academies Press. doi: 10.17226/9961.
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Suggested Citation:"References." National Research Council. 2000. Investigating Groundwater Systems on Regional and National Scales. Washington, DC: The National Academies Press. doi: 10.17226/9961.
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Suggested Citation:"References." National Research Council. 2000. Investigating Groundwater Systems on Regional and National Scales. Washington, DC: The National Academies Press. doi: 10.17226/9961.
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Suggested Citation:"References." National Research Council. 2000. Investigating Groundwater Systems on Regional and National Scales. Washington, DC: The National Academies Press. doi: 10.17226/9961.
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Suggested Citation:"References." National Research Council. 2000. Investigating Groundwater Systems on Regional and National Scales. Washington, DC: The National Academies Press. doi: 10.17226/9961.
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Suggested Citation:"References." National Research Council. 2000. Investigating Groundwater Systems on Regional and National Scales. Washington, DC: The National Academies Press. doi: 10.17226/9961.
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Suggested Citation:"References." National Research Council. 2000. Investigating Groundwater Systems on Regional and National Scales. Washington, DC: The National Academies Press. doi: 10.17226/9961.
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Suggested Citation:"References." National Research Council. 2000. Investigating Groundwater Systems on Regional and National Scales. Washington, DC: The National Academies Press. doi: 10.17226/9961.
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Suggested Citation:"References." National Research Council. 2000. Investigating Groundwater Systems on Regional and National Scales. Washington, DC: The National Academies Press. doi: 10.17226/9961.
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Suggested Citation:"References." National Research Council. 2000. Investigating Groundwater Systems on Regional and National Scales. Washington, DC: The National Academies Press. doi: 10.17226/9961.
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Suggested Citation:"References." National Research Council. 2000. Investigating Groundwater Systems on Regional and National Scales. Washington, DC: The National Academies Press. doi: 10.17226/9961.
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Suggested Citation:"References." National Research Council. 2000. Investigating Groundwater Systems on Regional and National Scales. Washington, DC: The National Academies Press. doi: 10.17226/9961.
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Suggested Citation:"References." National Research Council. 2000. Investigating Groundwater Systems on Regional and National Scales. Washington, DC: The National Academies Press. doi: 10.17226/9961.
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Suggested Citation:"References." National Research Council. 2000. Investigating Groundwater Systems on Regional and National Scales. Washington, DC: The National Academies Press. doi: 10.17226/9961.
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References Allen, D. M., and F. A. Michel. 1998. Evaluation of multi-well test data in a faulted aquifer using linear and radial flow models. Ground Water 36:938-948. Alley, W. M., T. E. Reilly, and O. L. Franke. 1999. Sustainability of Ground-Water Resources. U.S. Geological Survey Circular 1186. Reston, Va.: U.S. Geological Survey. AmeTung, F., D. L. Galloway, I. W. Bell, H. A. Zebker, and R. I. Lac- zniak. 1999. Sensing the ups and downs of Las Vegas; InSAR re- veals structural control of land subsidence and aquifer-system de- formation. Geology 27:483-486. Anderson, M. P. 1983. Ground-water modeling; the emperor has no clothes. Ground Water 21:666 669. Anderson, M. P. 1989. Hydrogeologic facies models to delineate large- scaTe spatial trends in glacial and glaciofluvial sediments. GSA Bulletin 101 :501-511. Anderson, M. G., and T. P. Burt. 1980. Interpretation of recession flow. J. Hydrol. 46:89-101. Anderson, M. P., and R. J. Hunt. 1998. Model complexity: Does the emperor have too many clothes? Eos, Transactions of the American Geophysical Union 79~17~:ST 12. Bachman, L. I., B. Lindsey, I. Brakebill, and D. S. Powars. 1998. Ground-Water Discharge and Base-Flow Nitrate Loads of Nontidal Streams, and Their Relation to a Hydrogeomorphic Classification of the Chesapeake Bay Watershed, Middle Atlantic Coast. USGS Water- 116

References 117 Resources Investigations Report 98-4059. Reston, Va.: U.S. Geological Survey. Back, W., and B. B. Hanshaw. 1965. Chemical geohydrology. Pp. 49- 109 in Advances in Hydroscience, Vol. 2, V. T. Chow, ed. New York: Academic Press. Barber, L. B. 1994. Sorption of chiorobenzenes to Cape Cod aquifer sediments. Environmental Science and Technology 28: 890-897. Barnes, B. S. 1939. The structure of discharge recession curves. Trans. American Geophysical Union 20~4~:721-725. Bartolino, J. R., ed. 1997a. U.S. Geological Survey Middle Rio Grande Basin Study -Proceedings of the First Annual Workshop, Denver, Colorado, November 12-14, 1996. USGS Open-File Report 97-1 ~ 6. Denver, Colo.: U.S. Geological Survey. Bartolino, J. R. 1997b. Middle Rio Grande Basin Study. USGS Fact Sheet FS-034-97. Reston,Va.: U.S.GeologicalSurvey. Batiuk, R., P. Heasley, R. Orth, K. Moore, I. C. Stevenson, W. Denni- son, L. Staver, V. Carter, N. B. Rybicki, R. E. Hickman, S. Kollar, S. Bieber, and P. Bergstrom. 1992. Chesapeake Bay Submerged Aquatic Vegetation Habitat Requirements and Restoration Goals: A Technical Synthesis. USEPA, Chesapeake Bay Program/Technical Report Series 83/92. Washington, D.C.: U.S. Environmental Pro- tection Agency. Bay~on-Ghyben, W. I8SS. Nota in verband met de voorgenomen put- boring nabij Amsterdam (Notes on the probable results of well drilling near Amsterdam). TijUschrift van het Koninklijk Instituut van Ingenieurs' The Hague, 1 S88/9, 8-22. Belitz, K. 1999. Impacts of urbanization on groundwater quantity and quality in the Santa Ana Basin, CA. Geol. Soc. of Amer. Abstr. with Prog. 31~7~:A-156. Bencala, K. E., and R. A WaTters. 1983. Simulation of solute transport in a mountain pool-and-riffle stream: A transient storage model. Water Resources Res. ~ 9:7 ~ 8-724. Bogli, A. 1980. Karst Hydrology end physical Speleology. TransTated by J. C. Schrnid. Berlin: Springer. Bredehoeft, I. D., and G. F. Pinder. 1973. Mass transport in flowing groundwater. Water Resources Res. 9: 19~210. Bredehoeft, I. D., C. E. NeuziT, and P. C. D. Milly. 1983. Regional Flow in the Dakota Aquifer - A Study of the Role of Confining Lay- ers. USGS Water-Supply Paper 2237. Reston, Va.: U.S. Geologi- cal Survey.

118 Investigating Groundwater Systems Brinson, M. M. 1993. A Hydromorphic Classification for Wetlands. Wetlands Research Program Technical Report WRP-DE-4. Vicksbury, Miss.: U.S. Army Corps of Engineers. Butler, J. I., Jr., C. D. McE1wee, and W. Liu. 1996. Improving the quality of parameter estimates obtained by slug tests. Ground Water 34: 480-490. Campana, M. E., and R. M. Boyer, Ir. 1996. A conceptual evaluation of regional ground-water flow, southern Nevada-California, USA. En- vironmental and Engineering Geoscience II(4~:465~78. Carter, V. G., P. T. Gammon, and N. C. Bartow. 1983. Submersed Aquatic Plants of the Tidal Potomac River. USGS Bull. 1543. Reston, Va.: U.S. Geological Survey. Carter, V. G., G. Mulamoottil, B. G. Warner, and E. A. McBean. 1996. Environmental gradients, boundaries, and buffers: An overview. Pp. 9-17 in Wetlands: Environmental Gradients, Boundaries, and Buffers, G. Mulamoottil, ed. Boca Raton, Fla.: CRC Press. Chamberlin, T. C. 1885. The requisite and qualifying conditions of ar- tesian wells. USGS Fifth Annual Report, p. 131-173. Reston, Va.: U.S. Geological Survey. Chanton, I., I. Baurer, P. Glaser, D. T. Siegel, C. Kelly, S. C. Tyler, E. Romanowicz, and A. Lazarus. 1995. Radiocarbon evidence for the substrates supporting methane formation within northern Minnesota peatiands. Geochem. et Cosmochim. Acta 59:3663-3668. Chapelle, F. H. 1997. The Hidden Sea. Tucson, Ariz.: Geoscience Press. Chapelle, F. H. 1999. Bioremediation of petroleum hydrocarbon- contaminated ground water: The perspectives of history and hydrol- ogy. Ground Water37: 122-132. Clark, I., and P. Fritz. 1997. Environmental Isotopes in Hydrogeology. Boca Raton, Fla.: Lewis Publishers. Cook, P. G., T. D. Jolly, F. W. Leaney, G. R. Walker, G. L. AlIan, L. K. Fifteen, and G. B. Allison. 1994. Unsaturated zone tritium and chio- rine-36 profiles from southern Australia: Their use as tracers of soil water movement. Water Resources Res. 30:1709-1719. Correll, D. L., T. E. Jordan, and D. E. Weller. 1992. Nutrient flux in a landscape: Effects of coastal land use and terrestrial community mosaic on nutrient transport to coastal waters. Estuaries 15:431- 442. Cowardin, L. M., V. Carter, F. C. Golet, and E. T. LaRoe. 1979. Classi

References 119 fication of Wetlands and Deep Water Habitats of the United States. FWS/OBS-79/31. Washington, D.C.: Fish and Wildlife Service. Dahm, C. N., N. B. Grimm, P. Marmonier, H. M. Valett, and P. Vervier. 1998. Nutrient dynamics at the interface between surface waters and groundwaters. Freshwater Biology 40:427-451. Daniels, S.H., 2000. Sweet Rewards. The Source 3~11:71-74. Davis, S. N., and R. J. M. DeWiest. John Wiley and Sons. 1966. Hydrogeology. New York: Davis, S. N., D. O. Whittemore, and I. Fabryka-Martin. 1998. Uses of chloride/bromide ratios in studies of potable water. Ground Water 36:338-350. Dennison, W. C., R. I. Orth, K. A. Moore, I. C. Stevenson, V. Carter, S. KolIar, P. W. Bergstrom, and R. A. Batiuk. 1993. Assessing water quality with submersed aquatic vegetation: Habitat requirements as barometers of Chesapeake Bay health. BioScience 43~2~:~94. Dugan, I. T., and D. A. Cox. 1994. Water-level changes in the High Plains aquifer: Predevelopment to 1993. USGS Water-Resources Investigations Report 94-4157. Reston, Va.: U.S. Geological Sur- vey. Dugan, J. T., and I. B. Sharpe. 1994. Water-level changes in the High Plains aquifer, 1980 to 1994. USGS Fact Sheet FS-215-95. Reston Va.: U.S. Geological Survey. Duncan' D., D. T. Pederson, T. R. Shepherd, and J. D. Carr. 1991. r ~ ~ ~ Ground Water Atrazine used as a tracer of induced recharge. Monitoring Reviewl 1: 144-150. Essaid, H. I. 1990. A multilayered sharp interface model of coupled freshwater and saltwater flow in coastal systems: Model develop- ment and application. Water Resources Res. 26: 143 I-1454. Fetter, C. W. 1994. Applied Hydrogeology. 3r~ edition. New York: Macmillan. Focazio, M. J., L. N. Plummer, I. K. Bohike, E. Busenberg, L. I. Bach- man, and D. S. Powars. 1998. Preliminary Estimates of Residence Times and Apparent Ages of Ground Water in the Chesapeake Bay Watershed, and Water-QuaTity Data from a Survey of Springs. USGS Water-Resources Investigations Report 97-4225. Reston, Va.: U.S. Geological Survey. Freeze, R. A., and J. A. Cherry. 1979. Groundwater. Englewood Cliffs, N.~.: Prentice Hall. Freeze, R. A., and P. A. Witherspoon. 1967. Theoretical analysis of

120 Investigating Groundwater Systems regional groundwater flow. II: Effect of water table configuration and subsurface permeability variations. Water Resources Res. 3:623-634. Garcia, D. H. 1998. Competition between public agencies and the pri- vate sector. The Professional Geologist 35~13~: 9-10. Gibert, J., M. I. Dole-Olivier, P. Marmonier, and P. Vervier. 1990. Sur- face water/groundwater ecotones. Pp. 199-225 in Ecology and Management of Aquatic-Terrestrial Ecotones, R. J. Naiman and H. Decamps, eds. Man and the Biosphere Series, Vol. 4. Paris: UNESCO. Golder Associates. 1987. FracMan software suite and MAFTC (Matrix and Fracture Interaction Code). Redmond, Wash.: Golder Associ- ates. Guerrero, P. F. 1999. Superfund: Progress, Problems, and Future Out- Took. Testimony on March 23, 1999, before the Finance and Haz- ardous Materials Subcommittee, House Committee on Commerce (T-RCED-99-128~. Gutentag, E. D., F. J. Heimes, N. C. Krothe, R. R. Luckey, and J. B. Weeks. 1984. Geohydrology of the High Plains Aquifer in Parts of Colorado, Kansas, Nebraska, New Mexico, Oklahoma, South Da- kota, Texas, and Wyoming. USGS Professional Paper 1400-B. Reston, Va.: U.S. Geological Survey. Harr,]. 1995. ACivilAction. New York: Random House. Harte, P.T., and T. C. Winter. 1995. Simulations of flow in crystalline rock and recharge from overlying glacial deposits in a hypothetical New England setting: Ground Water 33:953-964. Harvey, R. W. 1993. Fate and transport of bacteria injected into aqui- fers. Current Opinion in Biotechnology 4:312-317. Harvey, I. W., and K. E. Bencala. 1993. The effect of streambed topog- raphy on surface-subsurface water exchange in mountain catch- ments. Water Resources Res. 29:89-98. Harvey, I. W., B. I. Wagner, and K. E. Bencala. 1996. Evaluating the reliability of the stream tracer approach to characterize stream- subsurface water exchange. Water Resources Res. 32:2441-2451. Hawley, I. W., and C. S. Haase. 1992. Hydrogeologic framework of the northern Albuquerque Basin. New Mexico Bureau of Mines and Mineral Resources Open-File Report 387. Socorro: NMBMMR. Hem, I. D. 1959. Study and Inte~pretation of the Chemical Characteris- tics of Natural Water. USGS Water Supply Paper 1473. Reston, Va.: U.S. Geological Survey.

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122 Investigating Groundwater Systems King, F. H. 1899. Principles and Conditions of the Movements of Groundwater. USGS ~ 9~ Annual Report, Part 2, pp. 59-294. Reston, Va.: U.S. Geological Survey. Knopman, D. S., and E. F. Hollyday. 1993. Variation in specific capac- ity in fractured rocks, Pennsylvania. Ground Water 3 1: 1 35-145 . Konikow, L. F., and I. D. Bredehoeft. 1978. Computer Model of Two- Dimensional Solute Transport and Dispersion in Ground Water. U.S. Geological Survey Techniques of Water-Re-sources Investiga- tions, Book7,ChapterC2. Reston,Va.: U.S.GeologicalSurvey. Kreitler, C. W. 1977. Fault control of subsidence, Houston, Texas. Ground Water 15~3~:203-214. Krueger, C. J., L. B. Barber, D. W. Metge, and I. A. Field. 1998. Fate and transport of linear alkylbenzenesulfonate in a sewage- contaminated aquifer: A comparison of natural-gradient pulsed Lacer tests. Environmental Science and Technology 32: ~ ~ 34-1142. Ku, H. F. H., and D. B. Aaronson. 1992. Rates of water movement through the floors of selected stormwater basins in Nassau County, Long Island, New York. USGS Water-Resources Investigations Re- port91-4012. Reston,Va.: U.S.GeologicalSurvey. LaBaugh, I. W., T. C. Winter, D. O. Rosenberry, P. F. Schuster, M. M. Reddy, and G. R. Aiken. 1997. Hydrological and chemical esti- mates of the water balance of a closed-basin lake in north central Minnesota. WaterResourcesRes.33:2799-2812. LaBaugh, J. W., T. C. Winter, G. A. Swanson, D. O. Rosenberry, R. D. Nelson, and N. H. Euliss, Jr. 1996. Changes in atmosphere circula- tion patterns affect mid-continent wetlands sensitive to climate. Limnology and Oceanography 41 :864-970. Leahy, P. P., and P. T. Lyttle. 1998. The re-emerging and critical role of geologic understanding in hydrogeology. Pp. 19-24 in the pro- ceedincs of the joint meeting of the XXVIIT Concress of the Inter- C, J ~ O national Assoc1ahon ot ilydrogeologlsts and the Annual meeting of the American Institute of Hydrologists, J. V. Brahana et al., eds. St. Paul, MN: American Institute of Hydrology. Leahy, P. P., and W. G. Wilber. 1991. National Water-Quality Assess- ment Program. USGS Open-File Report 91-54. Reston, Va.: U.S. Geological Survey. Leake, S. A., and D. V. Claar. 1999. Computer Programs and Proce- dures for Telescopic Mesh Refinement Using MODFLOW. USGS Open-File Report 99-238. Reston, Va.: U.S. Geological Survey.

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Groundwater is a basic resource for humans and natural ecosystems and is one of the nation's most important natural resources. Groundwater is pumped from wells to supply drinking water to about 130 million U.S. residents and is used in all 50 states. About 40 percent of the nation's public water supply and much of the water used for irrigation is provided by groundwater.

Despite the importance of groundwater as one of our most precious natural resources, an organized, effective program to provide an ongoing assessment of the nation's groundwater resources does not exist. With encouragement from the U.S. Congress, the USGS is planning for a new program of regional and national scale assessment of U.S. groundwater resources, thus helping bring new order to its various groundwater resources-related activities. The Survey's senior scientists requested advice in regard to the design of such a program. In response, the committee undertook this study in support of developing an improved program relevant to regional and national assessment of groundwater resources.

This report is a product of the Committee on USGS Water Resources Research, which provides consensus advice on scientific, research, and programmatic issues to the Water Resources Division (WRD) of the U.S. Geological Survey (USGS). The committee is one of the groups that work under the auspices of the Water Science and Technology Board of the National Research Council (NRC). The committee considers a variety of topics that are important scientifically and programmatically to the USGS and the nation, and it issues reports when appropriate.

This report concerns the work of the WRD in science and technology relevant to assessments of groundwater resources on regional and national scales. The USGS has been conducting scientific activity relevant to groundwater resources for over 100 years and, as summarized in Appendix A, today groundwater-related work occurs throughout the WRD.

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