References

1

Ackerer, Ph., M. Esteves, and R. Kohane, Modelling interactions between groundwater and surface water. A case study, in Computational Methods in Subsurface Hydrology, Proc. 8th Int. Conf. Comp. Methods Water Resour., Springer-Verlag, Berlin, pp. 69-75, 1990.

2

Adamowski, K. and W. Feluch, Application of nonparametric regression to groundwater level prediction, Can. J. Civil Eng. , 18 (4), 600-606, 1991.

3

Almendinger, J.E., Groundwater control of closed-basin lake levels under steady-state conditions, J. Hydrol. 112, 293-318, 1990.

4

Alpers, C.N., and D.O. Whittemore, Hydrogeochemistry and stable isotopes of ground and surface waters from two adjacent closed basins, Atacama Desert, Northern Chile, Appl. Geochem., 5(5/6), 719-734, 1990.

5

Anderson, M.P. and C.J. Bowser, The role of groundwater in delaying lake acidification, Water Resour. Res., 22(7), 1101-1108, 1986.

6

Anderson, M.P. and J.A. Munter, Seasonal reversals of groundwater flow around lakes and the relevance to stagnation points and lake budgets, Water Resour. Res., 17, 1139-1150, 1981.

7

Arndt, J.L. and J.L. Richardson, Temporal variations in the salinity of shallow groundwater from the periphery of some North dakota wetlands, J. Hydrol., 141(1-4), 75-105, 1993.

8

Belanger, T.V. and R.B. Walker, Groundwater seepage in the Indian River Lagoon, Florida, in Proc. Internat. Symp. Tropical Hydrology and Caribbean Water Resour. edited by J. Krishna et. al., pp. 367-375, 1990.

9

Belanger, T.V. and M.E. Montgomery, Seepage meter errors, Limnol. Oceanogr., 37(8), 1787-1795, 1992.

10

Bencala, K.E., J.H. Duff, J.W. Harvey, A.P. Jackman, and F.J. Triska, Modelling within the stream-catchment continuum, Modelling Change in Environmental Systems, edited by A.J. Jakeman et al., pp. 163-187, 1993.

11

Bencala, K.E., V.C. Kennedy, G.W. Zellweger, A.P. Jackman, and R.J. Avanzino, Interactions of solutes and streambed sediment, 1. An experimental analysis of cation and anion transport in a mountain stream, Water Resour. Res., 20, 1797-1803, 1984.

12

Bevans, H.E., Estimating stream-aquifer interactions in coal areas of eastern Kansas by using streamflow records, U.S. Geol. Surv. Water-Supply Pap. 2290, pp. 51-64,1986.

13

Bourg, A.C.M. and Bertin, C., Seasonal and spatial trends in manganese solubility in an alluvial aquifer, Environ. Sci. Technol., 28, 868-876, 1994.

14

Bourg, A.C.M., D. Darmendrail, and J. Ricour, Geochemical filtration of riverbank and migration of heavy metals between the Deule River and the Ansereuilles alluvion-chalk aquifer, Geoderma, 44(2-3), 229-244, 1989.

15

Boussinesq, J., Essa sur latheories des eaux courantes, Mem. presentes par divers savants a l'Academic des Sciences de l'Institut National de France, 23(1), 1877.

16

Brahana, J.V. and E.F. Hollyday, Dry stream reaches in carbonate terranes: surface indicators of groundwater reservoirs, Water Resour. Bull., 24(3), 577-580, 1988.

17

Chapman, T.G., Comment on evaluation of automated techniques for base flow and recession analysis by R.J. Nathan and T.A. McMahon, Water Resour. Res., 27(7), 1783-1784, 1991.

18

Cherkauer, D.S. and D.C. Nader, Distribution of groundwater seepage to large surface water bodies: The effect of hydraulic heterogeneities, J. Hydrol., 109(1-2), 151-165, 1989.

19

Cherkauer, D.S. and J.P. Zager, Groundwater interaction with a kettle-hole lake: Relation of observations to digital simulations, J. Hydrol., 109(1-2, 167-184, 1989.

20

Cooley, R.L., Some new procedures for numerical solution of variably saturated flow problems, Water Resour. Res., 19(5), 1271-1285, 1983.

21

Creuze des Chatelliers, M. and D. Poinsart, Caracteristiques des aquiferes alluviaux et diversite faunistique du sous-ecoulement du Rhone, Hydrogeologie, 3, 201-215, 1991.

22

Crowe, A.S., The application of a coupled water-balance-salinity model to evaluate the sensitivity of a lake dominated by groundwater to climatic variability, J. Hydrol, 141(1-4), 33-73, 1993.

23

Crowe, A.S. and F.W. Schwartz, Simulation of lake-watershed systems: 1. Description and sensitivity analysis of the model, J. Hydrol., 52, 71-105, 1981.

24

Cruickshank, F.B., R.M. Francis, and D.E. Jardine, A study of groundwater/surface water interaction in the Winter River, Prince Edward Island, using seepage meters and minipiezometers, in Internat. Groundwater Symp. on Hydrogeol. of Cold and Terperate Climates and Hydrogeol. of Mineralized Zones, edited by C.L. Lin, Int. Assoc. of Hydrogeol. Canada, pp. 29-40, 1988.

25

Dahm, C.N., D.L. Carr, and R.L. Coleman, Anaerobic carbon cycling in stream ecosystems, Verh. Internat. Verein. Limnol., 24, 1600-1604, 1991.

26

Danielopol, D.L., The distribution of the fauna in the interstitial habitats of riverine sediments of the Danube and the Piesting (Austria), Int. J. Speleol., 8, 23-51, 1976.

27

Danielopol, D.L., Groundwater fauna associated with riverine aquifer, J. No. Am. Benthol. Soc., 8(1), 18-35, 1989.

28

Danskin, W.R. and S.M. Gorelick, Policy evaluation tool: Management of a multiaquifer system using controlled stream recharge, Water Resour. Res., 21(11), 1731-1747, 1985.

29

Darmendrail, D., Processus biogeochimiques susceptibles d'etre impliques dans l'effet filtre des berges lors de l'alimentation des nappes par les cours d'eau, Hydrogeologie, 3, 187-195, 1988.

30

Digerfeldt, G., J.E. Almendinger, and S. Bjorck, Reconstruction of past lake levels and their relation to groundwater hydrology in the Parkers Prairie Sandplain, west-central Minnesota, Palaeo, 94(1-4), 99-118, 1992.

31

Dincer, T., The use of oxygen-18 and deuterium concentrations in the water balance of lakes, Water Resour. Res., 4(6), 1289-1306, 1968.

32

Doss, P.K., The nature of a dynamic water table in a system of non-tidal, freshwater coastal wetlands, J. Hydrol., 141(1-4), 107-126, 1993.

33

Duffy, C.J. and Do-Hun Lee, Base flow response from nonpoint source contamination: simulated spatial variability in source, structure, and initial condition, Water Resour. Res., 28(3), 905-914, 1992.

34

Eberts, S.M. and E.S. Bair, Simulated effects of quarry dewatering near a municipal well field: Groundwater, 28(1), 37-47, 1990.

35

Ellins, K.K., A. Roman-Mas, and R. Lee, Using Radon-222 to examine groundwater/surface discharge interaction in the Rio Grande de Manati, Puerto Rico, J. Hydrol., 115(1-4), 319-341, 1990.

36

Ford, T.E. and R.J. Naiman, Groundwater-surface water relationships in boreal forest watersheds: Dissolved organic carbon and inorganic nutrient dynamics, Can. J. Fish. Aquat. Sci., 46, 41-49, 1989.

37

Glover, R.E., Groundwater movement, U.S. Bur. Reclam. Eng. Mon. 31, 76 p., 1964.

38

Gorelick, S.M., editor, Conjunctive water use: understanding and managing surface water-groundwater interactions, Int. Assoc. Hydrol. Sci. Publ. 156, 547 p., 1986.

39

Guyonnet, D.A., Numerical modeling of effects of small-scale sedimentary variations on groundwater discharge into lakes, Limnol. Oceanogr., 36(4), 787-796, 1991.

40

Hadzisehovic, M., M. Zupancic, N. Miljevic, D. Palogoric, and M. Komatina, Study of groundwaters using the environmental tritium and hydrochemical data in the Belgrade Region, Env. Geol. and Water Resour., 15(1), 13-29, 1990.

41

Hakenkamp, C.C., Valett, H.M., and Boulton, A.J., Perspectives on the hyporheic zone: integrating hydrology and biology. Concluding Remarks, Jour. No. Amer. Benthol. Soc., 12(1), 94-99, 1993.

42

Hall, F.R., Base-flow recessions---a review, Water Resour. Res., 4(5), 973-983, 1968.

43

Harvey, J.W. and K.E. Bencala, The effect of streambed topography on surface-subsurface water exchange in mountain catchments, Water Resour. Res., 29(1), 89-98, 1993.

44

Hasfurther, V., S. Boelman, and J. Wetstein, Surface water/groundwater interaction studies, Proc. Natl. Conf. Irrig. and Drain., Amer. Soc. Civil Eng., pp. 438-444, 1991.

45

Heij, G.J., River-groundwater relationships in the lower parts of The Netherlands, J. Hydrol., 108(1-4), 35-62, 1989.

46

Hemond, H.F. and J.L. Fifield, Subsurface flow in salt marsh peat: A model and field study, Limnol. Oceanogr., 27(1), 126-136, 1982.

47

Hendricks, S.P. and D.S. White, Physicochemical patterns within a hyporheic zone of a northern Michigan river, with comments on surface water patterns, Can. J. Fish. Aquat. Sci., 48(9), 1645-1654, 1991.

48

Herczeg, A.L., C.J. Barnes, P.G. Macumber, and J.M. Olley, A stable isotope investigation of groundwater-surface water interactions at lake Tyrrell, Victoria, Australia, Chem. Geol., 96(1-2), 19-32, 1992.

49

Hunt, B., An approximation for the bank storage effect, Water Resour. Res., 26(11), 2769-2775, 1990.

50

Hurr, R.T., Ground-water hydrology of the Mormon Island Crane Meadows Wildlife Area near Grand Island, Hall County, Nebraska, U.S. Geol. Surv. Prof. Pap. 1277-H, 12 p., 1983

51

Husman, S., editor, First International Symposium on Groundwater Ecology, Int. J. Speleol., 8(1-2), 228 p., 1976.

52

Institute of Hydrology, Low flow studies, Inst. Hydrol., UK, Rept. No. 3, pp. 12-19, 1980.

53

Jakeman, A.J., C.R. Dietrich, and G.A. Thomas, Solute transport in a stream-aquifer system: 2. Application of model identification to the River Murray, Water Resour. Res., 25(10), 2177-2185, 1989.

54

Jorgensen, D.G., D.C. Signor, and J.L. Imes, Accounting for intracell flow in models with emphasis on water table recharge and stream-aquifer interaction, Water Resour. Res., 25(4), 669-676, 1989.

55

Kenoyer, G.J. and M.P. Anderson, Groundwater's dynamic role in regulating acidity and chemistry in a precipitation-dominated lake, J. Hydrol., 109(3-4), 287-306, 1989.

56

Kling, G.W., The physicochemisrty of some dune ponds on the Outer Banks, North Carolina, Hydrobiologia, 134, 3-10, 1986.

57

Krabbenhoft, D.P., M.P. Anderson, and C.J. Bowser, Estimating groundwater exchange with lakes: 2. Calibration of a three-dimensional, solute transport model to a stable isotope plume, Water Resour. Res., 26(10), 2455-2462, 1990.

58

Krabbenhoft, D.P., C.J. Bowser, C. Kendall, and J.R. Gat, Use of oxygen-18 and deuterium to assess the hydrology of groundwater-lake systems, in Env. Chem. of Lakes and Reservoirs, edited by L.A. Baker, Amer. Chem. Soc. Adv. in Chem Ser. No. 237, pp. 67-90, 1994.

59

LaBaugh, J.W., Relation of hydrogeologic setting to chemical characteristics of selected lakes and wetlands within a climatic gradient in the north-central United States, Verh. Int. Verein. Limnol., 23(1), 131-137, 1988.

60

Lafont, M., A. Durbec, and C. Ille, Oligochaete worms as biological describers of the interactions between surface and groundwaters: A first synthesis, Regul. Rivers: Resour. Mgmt., 7(1), 65-73, 1992.

61

Lapham, W.W., Use of temperature profiles beneath streams to determine rates of vertical groundwater flow and vertical hydraulic conductivity, U.S. Geol. Surv. Water-Supply Pap. 2337, 35 pp., 1989.

62

Laszlo, F., Z. Homonnay, and M. Zimonyi, Impacts of river training on the quality of bank-filtered waters, Water Sci. and Techn., 22(5), 167-172, 1990.

63

Lee, R.W. and E.F. Hollyday, Use of radon measurements in Carters Creek, Maury County, Tennessee, to determine location and magnitude of groundwater seepage, U.S. Geol. Surv. Bull. 1971, pp. 237-242, 1991.

64

Lee, D.R. and H.B.N. Hynes, Identification of groundwater discharge zones in a reach of Hillman Creek in southern Ontario, Water Poll. Res. Canada, 13, 121-133, 1978.

65

Lee, T.M. and A. Swancar, The influence of evaporation, groundwater, and uncertainty in the hydrologic budget of Lake Lucerne, a seepage lake in Polk County, Florida, U.S. Geol. Surv. Open-File Rept. 93-26, 1994.

66

Lee, D.R., A device for measuring seepage flux in lakes and estuaries, Limnol. Oceanogr. 22, 155-163, 1977.

67

Lefkoff, L.J. and S.M. Gorelick, Benefits of an irrigation water rental market in a saline stream-aquifer system, Water Resour. Res., 26(7), 1371-1381, 1990.

68

69

McCarthy, K.A., W.D. McFarland,J.M. Wilkinson, and L.D. White, The dynamic relationship between groundwater and the Columbia river using deuterium and oxgen-18 as tracers, J. Hydrol., 135(1-4), 1-12, 1992.

70

McDonald, M.G. and A.W. Harbaugh, A modular three-dimensional finite-difference ground-water flow model, U.S. Geol. Surv. Techn. Water-Resour. Inv., Book 6, Chapt. A1, 1988.

71

Meyboom, P., Groundwater studies in the Assiniboine River drainage basin. Part II: Hydrologic characteristics of phreatophytic vegetation in south-central Saskatchewan, Geol. Surv. Can. Bull. 139, 64 pp., 1967.

72

Mills, J.G. and M.A. Zwarich, Transient groundwater flow surrounding a recharge slough in a till plain, Can. J. Soil Sci., 66, 121-134, 1986.

73

Mitchell-Bruker, S.M., Modeling steady state groundwater and surface water interactions, PhD Thesis, Indiana Univ., 94 pp., 1993.

74

Modica, E., Hydraulic relationships between shallow groundwater subsystems discharging to surface water bodies and underlying regional systems (New Jersey), PhD Thesis, City Univ. of New York, 223 pp., 1993.

75

Morel-Seytoux, H.J., Value and role of conjunctive use of surface and groundwaters in river basin management, Proc. Intern. Symp. on water for the future, edited by Wunderlich, W.O. and Egbert, J., Balkema, Rotterdam, pp. 515-524, 1987.

76

Mueller, F.A. and Male, J.W., A management model for specification of groundwater withdrawal permits, Water Resour. Res., 29(5), 1359-1368, 1993.

77

Nathan, R.J. and T.A. McMahon, Evaluation of automated techniques for base flow and recession analysis, Water Resour. Res., 26(7), 1465-1473, 1990.

78

Nevils, F.M. and M.E. Meadows, A model of the surface water-groundwater interaction on a barrier island, in Proc. Symp. on Coastal Water Resour., edited by W.L. Lyke and T.J. Hoban, Techn. Publ. Ser., Am. Water Resour. Assoc., pp. 435-436, 1988.

79

Niestle, A. and G. Reusing, An approach for drought risk assessment based on hydrologic records of the River Nile in connection with a groundwater flow model, Berliner Geowiss. Abh., Reihe A, 120(2), 1041-1072, 1990.

80

Parriaux, A. and G.F. Nicoud, Hydrological behaviour of glacial deposits in mountainous areas, Int. Assoc. Hydrol. Sci. Publ. 190, pp. 291-312, 1990.

81

Patton, T.H. and J.G. Klein, Sinkhole formation and its effect on Peace River (Florida) hydrology, in Proc. 3rd Conf. Eng. and Env. Impacts of Sinkholes and Karst, edited by B.F. Beck, Balkema, pp. 25-31, 1989.

82

Payne, B.R., The status of isotope hydrology today, J. Hydrol., 100(1-3),207-237, 1988.

83

Peters, N.E. and P.S. Murdock, Hydrogeologic comparison of an acidic-lake basin with a neutral-lake basin in the west-central Adirondack Mountains, New York, Water, Air, and Soil Poll., 26, 387-402, 1985.

84

Phillips, P.J. and R.J. Shedlock, Hydrology and chemistry of groundwater and seasonal ponds in the Atlantic coastal plain in Delaware, USA, J. Hydrol., 141(1-4), 157-178, 1993.

85

Prince, K.R., T.E. Reilly, and O.L. Franke, Analysis of the shallow groundwater flow system near Connetquot Brook, Long Island, New York, J. Hydrol., 107(1-4), 223-250, 1989.

86

Prudic, D.E., Documentation of a computer program to simulate stream-aquifer relations using a modular, finite-difference, groundwater flow model, U.S. Geol. Surv. Open-File Rept. 88-729, 113 pp., 1989.

87

Rastogi, A.K., Computation of average seasonal groundwater flows in phreatic aquifer-river systems, J. Hydrol., 123(3-4), 355-365, 1991.

88

Rawlins, B.K. and B.E. Kelbe, Case study on the hydrological response of a shallow coastal aquifer to afforestation, Int. Assoc. Hydrol. Sci. Publ. 202, pp. 357-366, 1991.

89

Reay, W.G., D. Gallagher, and G.M. Simmons, Jr., Sediment-water column nutrient exchanges in southern Chesapeake Bay nearshore environments, Virginia Poly. Inst. and State Univ. Water Resour. Res. Ctr. Bull. 0(181) 218 pp., 1993.

90

Rorabaugh, M.I., Estimating changes in bank storage and groundwater contribution to streamflow, Int. Assoc. Sci. Hydrol. Publ. 63, pp. 432-441, 1964.

91

Ruddy, B.C. and R.S. Williams, Hydrologic relations between streamflow and subalpine wetlands in Grand County, Colorado, U.S. Geol. Surv. Water-Resour. Inv. Rept. 90-4129, 53 pp., 1991.

92

Rushton, K.R., B.J. Connorton, and L.M. Tomlinson, Estimation of the groundwater resources of the Berkshire Downs supported by mathematical modelling, Quart. J. Eng. Geol., 22(4), 329-341, 1989.

93

Rutledge, A.T., Methods of using streamflow records for estimating total and effective recharge in the Appalachian Valley and Ridge, Piedmont, and Blue Ridge physiographic provinces, Am. Water Resour. Assoc. Mon. Ser. No. 17, pp. 59-73, 1992.

94

Schafran, G.C. and C.T. Driscoll, Flow path-composition relationships for groundwater entering an acidic lake, Water Resour. Res., 29(1), 145-154, 1993.

95

Schafran, G.C. and R.V. Ika, Neutralization of acidic groundwater inputs and control of metal mobility by a near-shore Adirondack lake sediment, Water, Air, and Soil Poll., 60(1-2), 149-180, 1991.

96

Schenk, J., E. Poeter, and C. Kraeger-Rovey, Improved code for simulating surface and groundwater interactions with MODFLOW, in Proc. Conf. Groundwater Eng. and Mgmt., Colo. Water Resour. Res. Inst., pp. 141-150, 1990.

97

Seiler, K.P., Groundwater balance and flow pattern in overdeepened sections of valleys in the Bavarian Alps, Int. Assoc. Hydrol. Sci. Publ. 190, pp. 329-337, 1990.

98

Shaukat, N., M. Heidari, and T. Maddock, Evaluation of surface water-groundwater interaction coefficients in water-resources planning model, in Proc. Symp. Eng. Hydrol., Am. Soc. Civil Eng., New York, pp. 264-269, 1987.

99

Shaw, R.D. and E.E. Prepas, Groundwater-lake interactions: 1. Accuracy of seepage meter estimates of lake seepage, J. Hydrol., 119(1-4), 105-120, 1990.

100

Shaw, R.D., Shaw, J.F.H., Fricker, H., and Prepas, E.E., An integrated approach to quantify groundwater transport of phosphorus to Narrow Lake, Alberta, Limnol. Oceanogr. 35(4), 870-886, 1990.

101

Shedlock, R.J., D.A. Wilcox, T.A. Thompson, and D.A. Cohen, Interactions between groundwater and wetlands, southern shore of Lake Michigan, USA, J. Hydrol., 141(1-4), 127-155, 1993.

102

Siegel, D.I., 1983, Groundwater and the evolution of patterned mires, Glacial Lake Agassiz Peatlands, northern Minnesota, J. Ecol., 71, 913-921, 1983.

103

Silar, J., Surface water and groundwater interactions in mountainous areas, Int. Assoc. Hydrol. Sci. Publ. No.190, pp. 21-28, 1990.

104

Silliman, S.E. and D.F. Booth, Analysis of time-series measurements of sediment temperature for identification of gaining vs. losing portions of Juday Creek, Indiana, J. Hydrol., 146(1-4), 131-148, 1993.

105

Sophocleous, M.A., Stream-floodwave propagation through the Great Bend alluvial aquifer, Kansas: Field measurements and numerical simulations, J. Hydrol., 124(3-4), 207-228, 1991.

106

Sorek, S., E.M. Adar, and A.S. Issar, Modeling of flow pattern in a shallow aquifer affected by reservoirs: II. Method of estimating flow parameters using environmental tracers, Transp. Porous Media, 8(1), 21-35, 1992.

107

Spalding, C.P. and R. Khaleel, An evaluation of analytical solutions to estimate drawdowns and stream depletions by wells, Water Resour. Res., 27(4), 597-609, 1991.

108

Squillace, P.J., E.M. Thurman, and E.T. Furlong, Groundwater as a nonpoint source of atrazine and deethylatrazine in a river during base flow conditions, Water Resour. Res., 29(6), 1719-1729, 1993.

109

Stauffer, R.E., Use of solute tracers released by weathering to estimate groundwater inflow to lakes, Env. Sci. Techn. 19(5), 405-411, 1985.

110

Strack, O.D.L., Groundwater mechanics, Prentice Hall, Englewood Cliffs, New Jersey, 732 pp., 1989.

111

Stuyfzand, P.J., Hydrology and water quality aspects of Rhine bank groundwater in The Netherlands, J. Hydrol., 106(3-4), 1989.

112

Swain, E.D. and E.J. Wexler, Coupled surface-water and groundwater flow model for simulation of stream-aquifer interaction, U.S. Geol. Surv. Open-File Rept. 92-138, 162 pp., 1992.

113

Thurman, E.M., D.A. Goolsby, and M.T. Meyer, A reconnaissance study of herbicides and their metabolites in surface water of the midwestern United States using immunoassay and gas chroatography/mass spectrometry, Env. Sci. Techn. 26(12), 2440-2447, 1992.

114

Townley, L.R., A.D. Barr, and S.P. Nield, FlowThru: An interactive program for calculating groundwater flow regimes near shallow surface water bodies, CSIRO (Australia) Div. Water Resour.Techn. Memo. 92/1, 27 pp., 1992.

115

Tracy, J.C. and M.A. Marino, Seepage into variably saturated porous media, J. Irrig. Drain. Div. Am. Soc Civil Eng., 113(2), 198-212, 1987.

116

Triska, F.J., J.H. Duff, and R.J. Avanzino, Influence of exchange flow between the channel and hyporheic zone on nitrate production in a small mountain stream, Can. J. Fish. Aquat. Sci., 47(11), 2099-2111, 1990.

117

USEPA, Proceedings of the 1st International Conference on Groundwater Ecology, 1992.

118

Valiela, I., J.M. Teal, S. Volkman, D. Shafer, and E.J. Carpenter, Nutrient and particlate fluxes in a salt marsh ecosystem: Tidal exchanges and inputs by precipitation and groundwater, Limnol. Oceanogr. 23(4), 798-812, 1978.

119

Vanek, V., Riparian zone as a source of phosphorus for a groundwater-dominated lake, Water Res. 25(4), 409-418, 1991.

120

Vervier, P., M. Dobson, and G. Pinay, Role of interaction zones between surface and groundwaters in DOC transport and processing: Considerations for river restoration, Freshwater Biol., 29(2), 275-284, 1993.

121

Vervier, P. and J. Gibert, Dynamics of surface water/groundwater ecotones in a karstic aquifer, Freshwater Biol., 26(2), 241-250, 1991.

122

Vervier, P., J. Gibert, P. Marmonier, and M.J. Dole-Olivier, Perspective on the permeability of the surface freshwater-groundwater ecotone, J. No. Amer. Benth. Soc., 11(1), 93-102, 1992.

123

Vogel, R.M. and Kroll, C.N., Regional geohydrologic-geomorphic relationships for the estimation of low-flow statistics, Water Resour. Res., 28 (9), 2451-2458, 1992.

124

Wahl, K.L. and T.L. Wahl, Effects of regional groundwater level declines on streamflow in the Oklahoma panhandle, in Proc. Symp. Water-Use Data for Water Resour. Mgmt., Amer. Water Resour. Assoc., pp. 239-249, 1988.

125

Wallace, R.B., Y. Darama, and M.D. Annable, Stream depletion by cyclic pumping of wells, Water Resour. Res., 26(6), 1263-1270, 1990.

126

Williams, M., R. Kattelman, and J. Melack, Groundwater contributions to the hydrochemistry of an alpine basin, Int. Assoc. Hydrol. Sci. Publ. No. 193, pp. 741-748, 1990.

127

Winter, T.C., Numerical simulation analysis of the interaction of lakes and groundwater, U.S. Geol. Surv. Prof. Pap. 1001, 45 pp., 1976.

128

Winter, T.C., Numerical simulation of steady state three-dimensional groundwater flow near lakes, Water Resour. Res., 14(2), 245-254, 1978.

129

Winter, T.C., The interaction of lakes with variably saturated porous media, Water Resour. Res., 19(5), 1203-1218, 1983.

130

Winter, T.C., J.W. LaBaugh, and D.O. Rosenberry, Design and use of a hydraulic potentiomanometer for direct measurement of differences in hydraulic head between groundwater and surface water, Limnol. Oceanogr, 33(5), 1209-1214, 1988.

131

Wolf, R.J. and J.O. Helgesen, Ground- and surface-water interaction between the Kansas River and associated alluvial aquifer, northeastern Kansas, U.S. Geol. Surv. Water-Resour. Inv. Rept. 92-4137, 59 pp., 1993.

132

Yoneda, M., Y. Inoue, and N. Takine, Location of groundwater seepage points into a river by measurement of Radon-222 concentration in water using activcated charcoal passive collectors, J. Hydrol., 124(3-4), 307-316, 1991.

133

Zhang, W.Z., Transient groundwater flow in an aquifer-aquitard system in response to water level changes in rivers or canals, J. Hydrol., 133(3-4), 233-257, 1992.