Geoscience Reference
In-Depth Information
Buckingham, E. (1907). Studies on the movement of soil moisture,
Bureau of Soils, Bull. No. 38.
Washington, DC: US Department of Agriculture.
Burdine, N. T. (1953). Relative permeability calculations from pore-size distribution data.
Trans. Amer.
Inst. Min. Engrs.
,
198
, 71-78.
Cahill, A. T. and Parlange, M. B. (1998). On water vapor transport in field soils.
Water Resour. Res.
,
34
,
731-739.
Carman, P. C. (1937). Fluid flow through granular beds.
Trans. Inst. Chem. Engrs. Lond.
,
15
, 150-166.
(1956).
Flow of Gases Through Porous Media.
New York: Academic Press Inc.
Childs, E. C. (1942). Stability of clay soils.
Soil Sci.
,
53
, 79-92.
Childs, E. C. and Collis-George, N. (1950). The permeability of porous materials.
Proc. R. Soc.
London
,A
201
, 392-405.
Clothier, B. E. and White, I. (1981). Measurement of sorptivity and soil water diffusivity in the field.
Soil Sci. Soc. Amer. J.
,
45
, 241-245.
(1982). Water diffusivity of a field soil.
Soil Sci. Soc. Amer. J.
,
46
, 155-158.
Darcy, H. (1856).
Les fontaines publiques de la ville de Dijon
. Paris: Victor Dalmont.
Davidson, J. M., Stone, L. R., Nielsen, D. R. and LaRue, M. E. (1969). Field measurement and use of
soil-water properties.
Water Resour. Res.
,
5
, 1312-1321.
DeVries, D. A. (1958). Simultaneous transfer of heat and moisture in porous media.
Trans. Amer.
Geophys. Un.
,
39
, 909-916.
DeVries, D. A. and Philip, J. R. (1986). Soil heat flux, thermal conductivity and the null alignment
method.
Soil Sci. Soc. Amer. J.
,
50
, 12-18.
Donat, J. (1937). Das Gefuge des Bodens und dessen Kennzeichung.
Trans. Intern. Congr. Soil Sci.,
6th Congr., Paris, B
, pp. 423-439.
El-Kadi, A. I. and Brutsaert, W. (1985). Applicability of effective parameters for unsteady flow in
nonuniform aquifers.
Water Resour. Res.
,
21
, 183-198.
Everett, D. H. (1954). A general approach to hysteresis, 3.
Trans. Faraday Soc.
,
50
, 1077-1096.
(1955). A general approach to hysteresis, 4.
Trans. Faraday Soc.
,
51
, 1551-1557.
Fatt, I. and Dykstra, H. (1951). Relative permeability studies.
Trans. Amer. Inst. Min. Engrs.
,
192
,
249-255.
Feng, C. L. and Browning, G. M. (1946). Aggregate stability in relation to pore size distribution.
Soil
Sci. Soc. Amer. Proc.
,
11
, 67-73.
Forchheimer, Ph. (1930).
Hydraulik
, 3. Aufl. Leipzig & Berlin: B. G. Teubner.
Gardner, W. R. (1958). Some steady-state solutions of the unsaturated moisture flow equation with
application
to evaporation from a water table.
Soil Sci.
,
85
, 228-232.
Gardner, W. R. and Mayhugh, M. S. (1958). Solutions and tests of the diffusion equation for the
movement of water in soil.
Soil Sci. Soc. Amer. Proc.
,
22
, 197-201.
Gardner, W. R. and Miklich, F. J. (1962). Unsaturated conductivity and diffusivity measurements by a
constant flux method.
Soil Sci.
,
93
, 271-274.
Gates, J. I. and Tempelaar Lietz, W. (1950). Relative permeabilities of California cores by the
capillary-pressure method.
Drilling and Production Practice
, American Petroleum Institute,
pp. 285-298.
Graetz, L. (1880). Uber die Bewegung von Flussigkeiten in R ohren.
Z. f ur Mathematik u. Physik
,
25
,
316-334.
Haines, W. B. (1930). Studies in the physical properties of soils: 5. The hysteresis effect in capillary
properties and the modes of moisture distribution associated therewith.
J. Agr. Sci.
,
20
, 97-116.
Hoeksema, R. J. and Kitanidis, P. K. (1985). Analysis of spatial structure of properties of selected
aquifers.
Water Resour. Res.
,
21
, 563-572.
