Geoscience Reference
In-Depth Information
Muskat, M. and Meres, M. W. (1936). The flow of heterogeneous fluids through porous media.
Physics
,
7
, 346-363.
Nakano, M. and Miyazaki, T. (1979). The diffusion and nonequilibrium thermodynamic equations of
water vapor in soils under temperature gradient.
Soil Sci.
,
128
, 184-188.
Neel, L. (1942). Theorie des lois d'aimantation de Lord Rayleigh, 1.
Cah. Phys.
,
12
, 1-20.
(1943). Theorie des lois d'aimantation de Lord Rayleigh, 2.
Cah. Phys.
,
13
, 19-30.
Neuzil, C. E. (1986). Groundwater flow in low-permeability environments.
Water Resour. Res.
,
22
,
1163-1195.
Nielsen, D. R. and Biggar, J. W. (1959).
Measuring capillary conductivity
. Annual Report, Dept.
Irrigation, University of California Davis. (See also (1961).
Soil Sci.
,
92
, 192-193.)
Nielsen, D. R., Biggar, J. W. and Erh, K. T. (1973). Spatial variability of field-measured soil-water
properties.
Hilgardia
,
42
, 215-259.
Nielsen, D. R., Kirkham, D. and Perrier, E. R. (1960). Soil capillary conductivity: Comparison of
measured and calculated values.
Soil Sci. Soc. Amer. Proc.
,
24
, 157-160.
Ogata, G. and Richards, L. A. (1957). Water content changes following irrigation of bare-field soil that
is protected from evaporation.
Soil Sci. Soc. Amer. Proc.
,
21
, 355-356.
Olsen, H. W. (1966). Darcy's law in saturated kaolinite.
Water Resour. Res.
,
2
, 287-295.
Parlange, J.-Y. (1976). Capillary hysteresis and the relationship between drying and wetting curves.
Water Resour. Res.
,
12
, 224-228.
Philip, J. R. and DeVries, D. A. (1957). Moisture movement in porous materials under temperature
gradients.
Trans. Amer. Geophys. Un.
,
38
, 222-232.
Polubarinova-Kochina, P. Ya. (1952).
Theory of Ground Water Movement
(translated from the Russian
by J. M. R. DeWiest, 1962). Princeton: Princeton University Press.
Poulovassilis, A. (1962). Hystersis of pore water, an application of the concept of independent domains.
Soil Sci.
,
93
, 405-412.
Purcell, W. R. (1949). Capillary pressures - their measurement using mercury and the calculation of
permeability therefrom.
Trans. Amer. Inst. Min. Met. Engrs., Petrol. Devel. Technol.
,
186
,
39-46.
Raats, P. A. C. (1975). Transformations of fluxes and forces describing the simultaneous transport of
water and heat in unsaturated porous media.
Water Resour. Res.
,
11
, 938-942.
Reichardt, K., Nielsen, D. R. and Biggar, J. W. (1972). Scaling of horizontal infiltration into
homogeneous soils.
Soil Sci. Soc. Amer. Proc.
,
36
, 241-245.
Richards, L. A. (1928). The usefulness of capillary potential to soil moisture and plant investigators.
J.
Agric.
Res.
,
37
, 719-742.
(1931). Capillary conduction of liquids through porous mediums.
Physics
,
1
, 318-333.
Rogowski, A. S. (1972). Watershed physics: soil variability criteria.
Water Resour. Res.
,
8
,
1015-1023.
Royer, J. M. and Vachaud, G. (1975). Field determination of hysteresis in soil-water characteristics.
Soil Sci. Soc. Amer. Proc.
,
39
, 221-223.
Russell, M. B. (1941). Pore-size distribution as a measure of soil structure.
Soil Sci. Soc. Amer. Proc.
,
6
,
108-112.
Schofield, R. K. (1938). Pore-size distribution as revealed by the dependence of suction (pF) on
moisture content.
Trans. Intern. Congr. Soil Sci. 1st Congr. A
, pp. 38-45.
Scott, P. H. and Rose, W. (1953). An explanation of the Yuster effect.
J. Petrol. Technol.
,
5
, 19-20.
Snyder, V. and Miller, R. D. (1985). Tensile strength of unsaturated soils.
Soil Sci. Soc. Am. J.
,
49
,
58-65.
Swartzendruber, D. (1968). The applicability of Darcy's law.
Soil Sci. Soc. Amer. Proc.
,
32
, 12-18.
