Agriculture Reference
In-Depth Information
Gerke, H. H., and M. Th. van Genuchten. 1993. Evaluation of a first-order water trans-
port term for variably saturated dual-porosity flow models.
Water Resour. Res
.
29: 1225-1238.
Han, F. X., W. L. Kingery, H. M. Selim, and P. D. Gerard. 2000. Accumulation of heavy
metals in a long term poultry waste amended soil.
Soil Sci.
165: 260-268.
Hamlen, C. J., and R. G. Kachanoski. 1992. Field solute transport across a soil horizon
boundary.
Soil Sci. Soc. Am. J.
56: 1716-1720.
Hu, Q., and M. L. Brusseau. 1995. The effect of solute size on transport in structured
porous media.
Water Resour. Res
. 31: 1637-1646.
Jarvis, N. J., L. Bergstrom, and P. E. Dik. 1991. Modeling water and solute transport in
macroporous soil. II. Chloride breakthrough under non-steady flow.
J. Soil Sci
.
42: 71-81.
Jarvis, N. J., K. G., Villholth and B. Ule´n 1999. Modelling particles mobilization and
leaching in macroporous soil.
Eur. J. Soil Sci
. 50: 621-632.
Jaynes, D. B., R. S. Bowman, and R. C. Rice. 1988. Transport of a conservative tracer in
a field under continuous flood irrigation.
Soil Sci. Soc. Am. J
. 52: 618-624.
Jaynes, D. B., S. D. Logsdon, and R. Horton. 1995. Field method for measuring mobile-
immobile water content and solute transfer rate coefficient.
Soil. Sci. Soc. Am. J
.
59: 352-356.
Jury, W. A., and H. Flühler. 1992. Transport of chemicals through soil: Mechanisms,
models, and field applications.
Adv. Agron
. 47: 141-201.
Koch, S., and H. Flühler. 1993. Non-reactive transport with micropore diffusion
in aggregated porous media determined by a flow interruption technique.
J.
Contam. Hydrol
. 14: 39-54.
Li, Y. and M. Ghodrati. 1994. Preferential transport of nitrate through soil columns con-
taining root channels.
Soil Sci. Soc.Am. J.
58: 653-659.
Luxmoore, R. J. 1981. Micro-, meso-, and microporosity of soil.
Soil Sci. Soc. Am. J
. 45: 671.
Ma, L., and H. M. Selim. 1995. Transport of nonreactive solutes in soils: A two-flow
domain approach.
Soil Sci.
159: 224-234.
Ma, L. and H. M. Selim. 1997. Evaluation of nonequilibrium models for predicting
atrazine transport in soils.
Soil Sci. Soc. Am. J.
1299-1307.
Murali, V., and A.G. Aylmore. 1980. No-flow equilibrium and adsorption dynamics
during ionic transport in soils.
Nature (London)
283: 467-469.
Nkedi-Kizza, P., J. M. Biggar, H. M. Selim, M. Th. van Genuchten, P. J. Wierenga, J. M.
Davidson, and D. R. Nielsen. 1983. Modeling tritium and chloride 36 transport
through aggregated oxisols.
Water Resour. Res
. 20: 691-700.
Nkedi-Kizza, P., J. M. Biggar, H. M. Selim, M. Th. van Genuchten, P. J. Wierenga,
J. M. Davidson, and D. R. Nielsen. 1984. On the equivalence of two conceptual
models for describing ion exchange during transport through an aggregated
soil.
Water Resour. Res
. 20: 1123-1130.
Nkedi-Kizza, P., P. S. C. Rao, R. E. Jessup, and J. M. Davidson. 1982. Ion exchange and
diffusive mass transfer during miscible displacement through an aggregated
Oxisol.
Soil Sci. Soc. Am. J
. 46: 471-476.
Othmer, H., B. Diekkruger, and M. Kutilek. 1991. Bimodal porosity and unsaturated
hydraulic conductivity.
Soil Sci
. 152: 139-150.
Parker, J. C., and M. Th. van Genuchten. 1984. Determining transport parameters
from laboratory and field tracer experiments.
Virginia Agric. Exp. Stn. Bull
. 84-3.
Parker, J. C., and A. J. Valocchi. 1986. Constraints on the validity of equilibrium and first-
order kinetic transport model in structured soils.
Water Resour. Res
. 22: 399-407.
Search WWH ::
Custom Search