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Smolders E, McLaughlin MJ. 1996a. Effect of Cl and Cd uptake by Swiss chard in nutrient
solution. Plant Soil 179:57-64
Smolders E, McLaughlin MJ (1996b) Chloride increases cadmium uptake in Swiss Chard in a
resin-buffered nutrient solution. Soil Sci Soc Am J 60:1443-1447
Smolders E, Brans K, Foldi A, Merckx R (1999) Cadmium fixation in soils measured by isotopic
dilution. Soil Sci Soc Am J 63:78-85
Sobotik M, Ivanov VB, Obroucheva NV, Seregin IV, Martin ML, Antipova OV, Bergmann H (1998)
Barrier role of root system in lead-exposed plants. J Appl Bot 72:144-147
Sparrow LA, Salardini AA, Johnstone J (1994) Field studies of cadmium in potatoes (
Solanum
tuberosum
L.). III. Response of cv. Russet Burbank to sources of banded potassium. Austr J
Agric Res 45:243-249
Sposito E (1989) The chemistry of soils. Oxford University Press, New York, NY
Sposito G (1981) The operational definition of the zero point of charge in soils. Soil Sci Soc Am J
45:292-297
Sterckeman T, Perriguey J, Caƫl M, Schwartz C, Morel JL (2004) Applying a mechanistic model
to cadmium uptake by
Zea mays
and
Thlaspi caerulescens
: consequences for the assessment of
the soil quantity and capacity factors. Plant Soil 262(1-2):289-302
Tandy S, Schulin R, Nowack B (2006a) Uptake of metals during chelant-assisted phytoextrac-
tion with EDDS related to the solubilized metal concentration. Environ Sci Technol 40:
2753-2758
Tandy S, Schulin R, Nowack B (2006b) The influence of EDDS on the uptake of heavy metals in
hydroponically grown sunflowers. Chemosphere 62:1454-1463
Thakali S, Allen H, Di Toro DM, Ponizovsky AA, Rooney CR, Zhao FJ, McGrath SP (2006) A
terrestrial biotic ligand model. 1 Development and application to Cu and Ni toxicities to barley
root elongation in soils. Environ Sci Technol 40:7085-7093
Thomas GM, Harrison HC (1989) Inheritance of cadmium concentration in lettuce. J Am Hortic
Sci 114:121-125
Tiller KG, de Vries MPC, Spouncer LR, Smith L, Zarcinas B (1976) Environmental pollution of
the Port Pirie region, 3. Metal contamination of home gardens in the city and their vegetable
produce. 15. CSIRO Division of Soils Divisional Report, p 15
Tiller KG, Oliver DP, McLaughlin MJ, Merry RH, Naidu R (1997) Managing cadmium contamina-
tion of agricultural land. In: Iskandar IK, Adriano DC (eds) Remediation of soils contaminated
with metals. Science Reviews, Northwood, pp 225-255
Tjell JC, Hovmand MF, Mosbaek H (1979) Atmospheric lead pollution of grass grown in a
background area in Denmark. Nature 280:425-426
Traulsen BD, Schonhard G (1987) Amelioration of an old-copper-contaminated area model-
experiment - area amelioration. Landwirtschaftliche Forschung 40:364-370
Tyler LD, McBride MB (1982) Influence of Ca, pH and humic acid on Cd uptake. Plant Soil
64:259-262
Vatamaniuk OK, Mari S, Lu YP, Rea PA (1999) AtPCS1, a pytochelatin synthase from
Arabidopsis: isolation and in vitro reconstitution. Proc Natl Acad Sci USA 96:7110-7115
Verloo M, Willaert G (1988) De Accumulatie van cadmium door planten in relatie tot de
fysicochemische eigenschappen van de grond. Cadmium, Voorkimen, Impaket en Sanering,
Symposiu, Genk
Vogeli-Lange R, Wagner GJ (1990) Subcellular Localization of cadmium and cadmium-binding
peptides in tobacco leaves. Plant Physiol 92:1086-1093
Voutsa D, Grimanis A, Samara C (1996) Trace elements in vegetables grown in an industrial area
in relation to soil and air particulate matter. Environ Pollut 94:325-335
de Vries W, Romkens PFAM, Schutze G (2007) Critical soil concentrations of cadmium, lead,
and mercury in view of health effects on humans and animals. Rev Environ Contamin Toxicol
191:91-130
de Vries W, Romkens PFAM, Bonten LTC (2008) Spatially explicit integrated risk assessment of
present soil concentrations of cadmium, lead, copper and zinc in the Netherlands. Water Air
Soil Pollut 191(1-4):199-215
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