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Haslett BS, Reid RJ, Rengel Z (2001) Zinc mobility in wheat: uptake and distribution of zinc
applied to leaves or roots. Ann Bot 87:379-386
Hassler CS, Wilkinson KJ (2003) Failure of the biotic ligand and free-ion activity models to explain
zinc bioaccumulation by
Chlorella kesslerii
. Environ Toxicol Chem 22:620-626
Hassler CS, Slaveykova VI, Wilkinson KJ (2004) Some fundamental (and often overlooked) con-
siderations underlying the free ion activity and biotic ligand models. Environ Toxicol Chem
23:283-291
Hatch DJ, Jones LHP, Burau RG (1988) The effect of pH on the uptake of cadmium by four plant
species grown in flowing solution culture. Plant Soil 105:121-126
Helal M, Baibagyshew E, Saber S (1998). Uptake of Cd and Ni by spinach,
Spinacea oleracea
(L.) from polluted soil under field conditions as affected by salt water irrigation. Agronomie
18:443-448
Hendrickson LL, Corey RB (1981) Effect of equilibrium metal concentrations on apparent
selectivity coefficients of soil complexes. Soil Sci 131:163-171
Hopper JL, Parker DR (1999) Plant availability of selenite and selenate as influenced by the
competing ions phosphate and sulfate. Plant Soil 210:199-207
Hough RL, Young SD, Crout NMJ (2003) Modelling of Cd, Cu, Ni, Pb and Zn uptake, by winter
wheat and forage maize, from a sewage disposal farm. Soil Use Manage 19:19-27
Hough R, Breward N, Young SD, Crout NMJ, Tye AM, Moir AM, Thornton I, (2004) Assessing
potential risk of heavy metal exposure from consumption of home-produced vegetables by
urban populations. Environ Health Perspect 112 (2):215-221
Hough RL, Tye AM, Crout NMJ, McGrath SP, Zhang H, Young SD (2005) Evaluating a 'Free Ion
Activity Model' applied to metal uptake by
Lolium perenne
L. grown in contaminated soils.
Plant Soil 270:1-12
Hovmand MF, Tjell JC, Mosbaek H (1983) Plant uptake of airborne cadmium. Environ Pollut
30:27-38
Hudson RJM (2005) Trace metal uptake, natural organic matter, and the free-ion model. J Phycol
41:1-4
Ingwersen J, Streck JT (2006) Modeling the environmental fate of cadmium in a large wastewater
irrigation area. J Environ Qual 35:1702-1714
Jansson G, Smolders E, Ruttens A, Römkens P, De Temmerman L, Bries J (2007) Teeltadvies voor
de landbouw in kader van het Interreg project BeNeKempen. Final Report. OVAM, Mechelen,
Belgium
Jones KC, Symon CJ, Johnston AE (1987) Long-term changes in soil and cereal grain cadmium:
studies at rothamsted experimental station. Trace Subst Environ Health 21:450-461
Kalis EJJ, Temminghoff EJM, Weng L, van Riemsdijk WH (2006) Effects of humic acid
and competing cations on metal uptake by
Lolium perenne
. Environ Toxicol Chem 25(3):
702-711
Khattak RA, Page AL, Parker DR, Bakhtan D (1991) Accumulation and interactions of arsenic,
selenium, molybdenum and phosphorus in alfalfa. J Environ Qual 20:165-168
Krauss M, Wilcke W, Kobza J, Zech W (2002) Predicting heavy metal transfer from soil to plant:
potential use of Freundlich-type functions. J Plant Nutr Soil Sci 165:3-8
Kuboi T, Noguchi A, Yazaki J (1986) Family-dependent cadmium accumulation characteristics in
higher plants. Plant Soil 92:405-415
Lorenz SE, Hamon RE, McGrath SP, Holm PE, Christensen TH (1994) Applications of fertilizer
cations affect cadmium and zinc concentrations in soil solutions and uptake by plants. Eur J
Soil Sci 45:159-165
Luo CL, Shen ZG, Li XD (2005) Enhanced phytoextraction of Cu, Pb, Zn and Cd with EDTA and
EDDS. Chemosphere 59:1-11
Maclean AJ (1974) Effects of soil properties and amendments on availability of zinc in soils. Can
J Soil Sci 54:369-378
Maier NA, McLaughlin MJ, Heap M, Butt M, Smart MK (2002a) Effect of current-season appli-
cation of calcitic lime and phosphorus fertilization on soil pH, potato growth, yield, dry matter
content, and cadmium concentration. Commun Soil Sci Plant Anal 33:2145-2165
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