Geoscience Reference
In-Depth Information
Gillham RW (1984) The effect of the capillary fringe on water-table response. J Hydrol
67:307-324
Lenormand R (1990) Liquids in porous media. J Phys 2:SA79-SA88
Margolin G, Berkowitz B, Scher H (1998) Structure, flow, and generalized conductivity scaling
in fracture networks. Water Resour Res 34:2103-2121
Mixon FO (1984) Saturated and capillary fringe ground-water behavior near an excavation.
Ground Water 26:148-155
Mualem Y (1976) Hysteretical models for prediction of the hydraulic conductivity of unsaturated
porous media. Water Resour Res 12:1248-1254
Nielsen P, Perrochet P (2000) Watertable dynamics under capillary fringes: experiments and
modelling. Adv Water Resour 23:503-515
Nwankwor GI, Gillham RW, van der Kamp G, Akindunni FF (1992) Unsaturated and saturated
flow in response to pumping of an unconfined aquifer—field evidence of delayed drainage.
Ground Water 30:690-700
Richards LA (1931) Capillary conduction of liquids through porous mediums. Physics 1:318-333
Ronen D, Scher H, Blunt M (1997) On the structure and flow processes in the capillary fringe of
phreatic aquifers. Transp Porous Media 28:159-180
Rosenberry DO, Winter TC (1997) Dynamics of water-table fluctuations in an upland between
two prairie-pothole wetlands in North Dakota. J Hydrol 191:266-289
Silliman SE, Berkowitz B, Simunek J, van Genuchten MT (2002) Fluid flow and chemical
migration within the capillary fringe. Ground Water 40:76-84
van Genuchten MT (1980) A closed-form equation for predicting the hydraulic conductivity of
unsaturated soils. Soil Sci Soc Am J 44:892-898
Vizika O, Payatakes AC (1989) Parametric experimental-study of forced imbibition in porous
media. Physicochem Hydro 11:187-204
Zhang H, Barry DA, Hocking GC (1999) Analysis of continuous and pulsed pumping of a
phreatic aquifer. Adv Water Resour 22:623-632
