[U. S. Geological Survey]

Chapter 14

Groundwater and Surface-Water Interactions in Riparian and Lake-Dominated Systems

John F. Walker and David P. Krabbenhoft

Isotope Tracers in Catchment Hydrology (1998), C. Kendall and J. J. McDonnell (Eds.)
Elsevier Science B.V., Amsterdam, pp. 467-488.


Allison, G.B., Turner, J.V. and Holmes, J.W., 1979. Estimation of groundwater inflow to small lakes. In: C. Mortimer (Eds), Application of nuclear techniques to the study of lake dynamics. Vienna, Aug. 20-Sept. 2, pp. 103-113.

Attig, J.W., 1985. Pleistocene Geology of Vilas County, Wisconsin. Wisconsin Geologic and Natural History Survey, Information Circular No. 50, 32 p.

Bullen, T.D., Krabbenhoft, D.P. and Kendall, C., 1996. Kinetic and Mineralogic Controls on the Evolution of Groundwater Chemistry and 87Sr/86Sr in a Sandy Silicate Aquifer, Northern Wisconsin. Geochem. et Cosmochim. Acta, 60: 1807-1821.

Craig, H. and Gordon, L.I., 1965. Deuterium and Oxygen-18 variations in the oceans and the marine atmosphere. In: E. Tongiorgi (Ed), Stable Isotopes in Oceanographic Studies and Paleotemperatures, Spoleto. Consiglio Nazionale delle Ricerche, Pisa, Italy, pp. 9-130.

Dinçer, T., 1968. The Use of Oxygen 18 and Deuterium Concentrations in the Water Balance of Lakes. Water Resour. Res., 4: 1289-1306.

Fontes, J.C., Boulange, B., Carmouze, J.P. and Florkowski, T., 1979a. Preliminary oxygen-18 and deuterium study of the dynamics of Lake Titicaca. In: C. Mortimer (Ed), Application of nuclear techniques to the study of lake dynamics. IAEA, Vienna, Aug. 20-Sept. 2, pp. 145-150.

Fontes, J.C., Florkowski, T., Pouchan, P. and Zuppi, G.M., 1979b. Preliminary isotopic study of Lake Asal system (Republic of Djibouti). In: C. Mortimer (Ed), Application of nuclear techniques to the study of lake dynamics. Vienna, Aug. 20-Sept. 2, pp. 163-174.

Frey, D.G., 1966. Limnology in North America. University of Wisconsin Press, Madison, 255 p.

Gat, J.R., 1971. Comment on the stable isotope method in regional groundwater investigations. Water Resour. Res., 7: 980-993.

Gat, J.R., 1995. Stable isotopes and the water balance of fresh and saltwater lakes. In: A. Lerman, D.M. Imboden and J.R. Gat (Eds), Physics and chemistry of lakes, 2nd Edition. Springer-Verlag, Berlin, 334 p.

Gilath, C. and Gonfiantini, R., 1983. Lake Dynamics. In: Guidebook on Nuclear Techniques in Hydrology, Technical Report Series 91. IAEA, Vienna, pp. 129-161.

Gonfiantini, R., 1986. Environmental isotopes in lake studies. In: P. Fritz and J.C. Fontes (Eds), Handbook of Environmental Isotope Geochemistry, 2. Elsevier Scientific, Amsterdam, Netherlands, pp. 113-167.

Hübner, H., Richter, W. and Kowski, P., 1979. Studies on relationships between surface water and surrounding groundwater at Lake Schwerin (German Democratic Republic). In: C. Mortimer (Ed), Application of nuclear techniques to the study of lake dynamics, Vienna, Aug. 20-Sept. 2, pp. 95-102. 8 Refs.

Jacobson, G., Jankowski, J. and Abell, R.S., 1991. Groundwater and surface water interaction at Lake George, New South Wales. BMR Journal of Australian Geology and Geophysics, 12: 161-189.

Katz, B.G., Lee, T.M., Plummer, L.N. and Busenberg, E., 1995. Chemical evolution of groundwater near a sinkhole lake, northern Florida; 1, Flow patterns, age of groundwater, and influence of lake water leakage. Water Resour. Res., 31: 1549-1564.

Kenoyer, G.J., 1986. Evolution of groundwater chemistry and flow in a sandy aquifer in northern Wisconsin. Ph.D. Thesis, University of Wisconsin, Madison, Wisconsin, 132 p.

Kenoyer, G.J. and Anderson, M.P., 1989. Groundwater's dynamic role in regulating acidity and chemistry in a precipitation-dominated lake. Jour. of Hydrol., 109: 287-306.

Kenoyer, G.J. and Bowser, C.J., 1992. Groundwater Chemical Evolution in a Sandy Silicate Aquifer in Northern Wisconsin, 1, Patterns and Rates of Change. Water Resour. Res., 28: 579-589.

Krabbenhoft, D.P., 1988. Hydrologic and geochemical investigations of aquifer-lake interactions at Sparkling Lake, Wisconsin. Ph. D. Thesis, University of Wisconsin, Madison, Wisconsin, 213 p.

Krabbenhoft, D.P., Anderson, M.P. and Bowser, C.J., 1990a. Estimating Groundwater Exchange With Lakes, 2, Calibration of a Three-Dimensional, Solute Transport Model to a Stable Isotope Plume. Water Resour. Res., 26: 2455-2462.

Krabbenhoft, D.P. and Babiarz, C.L., 1992. The Role of Groundwater Transport in Aquatic Mercury Cycling. Water Resour. Res., 28: 3119-3128.

Krabbenhoft, D.P., Bowser, C.J., Anderson, M.P. and Valley, J.W., 1990b. Estimating Groundwater Exchange With Lakes, 1, The Stable Isotope Mass Balance Method. Water Resour. Res., 26: 2445-2453.

Krabbenhoft, D.P., Bowser, C.J., Kendall, C. and Gat, J.R., 1994. Use of Oxygen-18 and Deuterium to Assess the Hydrology of Ground-water/Lake Systems. In: L.A. Baker (Ed), Environmental Chemistry of Lakes and Reservoirs. American Chemical Society, Washington, D.C., pp. 67-90.

Marin, L.E., 1986. Spatial and temporal patterns in the hydrogeochemistry of a bog-wetland system, Northern Highlands Lake District, Wisconsin. Master's Thesis, Univ. of Wisconsin, Madison, Wisconsin, 85 p.

Matsubaya, O., Sakai, H., Tetsuya, T., Burton, H. and Knowles, K., 1979. Antarctic saline lakes-stable isotopic ration, chemical compositions and evolution. Geochem. et Cosmochim. Acta, 43: 7-25.

Payne, B.R., 1970. Water Balance Of Lake Chala And Its Relation To Groundwater >From Tritium And Stable Isotope Data. Jour. of Hydrol., 11: 47-58.

Rose, W.J., 1993. Hydrology of Little Rock Lake in Vilas County, North-central Wisconsin. U.S. Geological Survey Water Resources Investigations Report 93-4139, 22 p.

Stauffer, R.E., 1985. Use of solute tracers released by weathering to estimate groundwater inflow to seepage lakes. Environ. Sci. Tech., 19: 405-411.

Stichler, W. and Moser, H., 1979. An example of exchange between lake and groundwater. In: C. Mortimer (Ed), Application of nuclear techniques to the study of lake dynamics. IAEA, Vienna, Aug. 20-Sept. 2, pp. 115-119.

Turner, J.V., Allison, G.B. and Holmes, J.W., 1984. The water balance of a small lake using stable isotopes and tritium. Jour. of Hydrol., 70: 199-200.

Webster, K.E., Newell, A.D., Baker, L. and Brezonik, P.L., 1990. Climatically induced rapid acidification of a softwater seepage lake. Nature, 347: 374-376.

Wentz, D.A. and Rose, W.J., 1989. Interrelationships among hydrologic-budget components of a northern Wisconsin seepage lake and implications for acid-deposition modeling. Arch. Env. Contamin. Toxicol., 18: 147-155.

Winter, T.C., 1981. Uncertainties in estimating the water balance of lakes. Water Resour. Bull., 17: 82-115.

Zimmermann, U., 1979. Determination by stable isotopes of underground inflow and outflow and evaporation of young artificial groundwater lakes. In: C. Mortimer (Ed), Application of nuclear techniques to the study of lake dynamics, IAEA, Vienna, Aug. 20-Sept. 2, pp. 87-94.

The URL of this page is: http://wwwrcamnl.wr.usgs.gov/isoig/isopubs/itch14refs.html
This page maintained by Carol Kendall, ckendall@usgs.gov
This page was last changed on November 24, 1998.
Return to the Periodic Table
Return to the IsoPubs Table of Contents