Agriculture Reference
In-Depth Information
Kuo, S., and B. L. McNeal.1984. Effect of pH and phosphate on cadmium sorption by
hydrous ferric oxide.
Soil Sci. Soc. Am. J
. 48: 1040-1044.
Kurdi, E., and H. E. Doner. 1983. Zinc and copper sorption and interaction in soils.
Soil Sci. Soc. Am. J.
47: 873--876.
Liao, L., and H. M. Selim. 2010. Reactivity of nickel in soils: Evidence of retention
kinetics.
J. Environ. Qual.
39: 1290-1297.
Liu, C., T. Chang, M. Wang, and C. Huang. 2006. Transport of cadmium, nickel, and
zinc in Taoyuan red soil using one-dimensional convective-dispersive model.
Geoderma
131: 181-189.
Liu, F., A. De Cristofaro, and A. Violante. 2001. Effect of pH, phosphate and oxalate on
the adsorption/desorption of arsenate on/from goethite.
Soil Sci
. 166: 197-208.
Manning, B. A., and S. Goldberg. 1996a. Modeling competitive adsorption of arse-
nate with phosphate and molybdate on oxide minerals.
Soil Sci. Soc. Am. J
. 60:
121-131.
Manning, B. A., and S. Goldberg. 1996b. Modeling arsenate competitive adsorption
on kaolinite, montmorillonite and illite.
Clays Clay Miner
. 44: 609-623.
Mansell, R. S., S. A. Bloom, H. M. Selim, and R. D. Rhue. 1988. Simulated transport of
multiple cations in soil using variable selectivity coefficients.
Soil Sci. Soc. Am.
J
. 52: 1533-1540.
Mansell, R. S., S. A. Bloom, B.A. Burgoa, P. Nkedi-Krzza, and J. S. Chen. 1992.
Experimental and simulated P transport in soil using a multireaction model.
Soil Sci
. 153: 185-194.
Mesquita, M. E., and J. M. Vieira e Silva. 2002. Preliminary study of pH effect in
the application of Langmuir and Freundlich isotherms to Cu-Zn competitive
adsorption.
Geoderma
106: 219-234.
Mikkonen, A., and J. Tummavuori. 1994. Retention of vanadium (V) by three Finnish
mineral soils.
Eur. J. Soil Sci
. 45: 361-368.
Murali, V., and L. A. G. Aylmore. 1983. Competitive adsorption during solute trans-
port in soils. III. A review of experimental evidence of competitive adsorption
and an evaluation of simple competition models.
Soil Sci.
136: 279-290.
Parker, J. C., and P. M. Jardine. 1986. Effect of heterogeneous adsorption behavior on
ion transport.
Water Resourc. Res
. 22: 1334-1340.
Parkhurst, D. L., and C. A. J. Appelo. 1999. User's guide to PHREEQC Version 2:
A computer program for speciation, batch reaction, one-dimensional transport
and inverse geochemical calculations. In
Water Resources Investigations
, Report
99-4259.Lakewood, CO: U.S. Geological Survey.
Papini, M. P., T. Saurini, and A. Bianchi. 2004. Modeling the competitive adsorption of
Pb, Cu, Cd and Ni onto a natural heterogeneous sorbent material (Italian “Red
Soil”).
Ind. Eng. Chem. Res
. 43: 5032-5041.
Pardo, M. T. 1999. Influence of phosphate on zinc reaction in variable charge soils.
Commun. Soil Sci. Plant Anal
. 30: 725-737.
Peryea, F. J. 1991. Phosphate-induced release of arsenic from soils contaminated with
lead arsenate.
Soil Sci. Soc. Am. J.
55: 1301-1306.
Pigna, M., G. S. R. Krishnamurti, and A. Violante. 2006. Kinetics of arsenate sorption-
desorption from metal oxides: Effect of residence time.
Soil Sci. Soc. Am. J
. 70:
2017-2027.
Puls, R. W., and H. L. Bohn. 1988. Sorption of cadmium, nickel, and zinc by kaolinite
and montmorillonite suspensions.
Soil Sci. Soc. Am. J
. 52: 1289-1292.
Search WWH ::
Custom Search