Environmental Engineering Reference
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References
Adams SN, Honeysett JL (1964) Some effects of soil waterlogging on the cobalt and copper status
of pasture plants grown in pots. Austr J Agric Res 15:357-367
Alexander PD, Alloway BJ, Dourado AM (2006) Genotypic variations in the accumulation of Cd,
Cu, Pb and Zn exhibited by six commonly grown vegetables. Environ Pollut 144:736-745
Alloway BJ, Jackson AP, Morgan H (1990) The accumulation of cadmium by vegetables grown on
soils contaminated from a variety of sources. Sci Total Environ 91:223-236
Anderson PR, Christensen TH (1988) Distribution coefficients of Cd, Co, Ni, and Zn in soils. J
Soil Sci 39:15-22
Antunes PMC Hale BA (2006) The effect of metal diffusion and supply limitations on conditional
stability constants determined for durum wheat roots. Plant Soil 284:229-241
Antunes PMC, Berkelaar EJ, Boyle D, Hale BA, Hendershot W, Voigt A (2006) The biotic ligand
model for plants and metals: technical challenges for field application. Environ Toxicol Chem
25(3):875-882
Adams ML, Zhao FJ, McGrath SP, Nicholson FA Chambers BJ (2004) Predicting cadmium
concentrations in wheat and barley grain using soil properties. J Environ Qual 33:532-541
Adhikari T, Rattan RK (2000) Modelling zinc uptake by rice crop using a Barber-Cushman
approach. Plant Soil 227:235-242
Barber SA (1995) Soil nutrient bioavailability. A mechanistic approach. Wiley, New-York, 414 pp
Bartlett RJ, James BR (1988) Mobility and bioavailability of chromium in soils. In: Nriagu
JO, Nieboer E (eds) Chromium in the natural and human environments. Wiley Interscience,
New York, pp 267-304
Bechtel Jacobs Company LLC (1998) Empirical models for the uptake of inorganic chemicals from
soil by plants. Bechtel Jacobs Company LLC, Oak Ridge. TN. BJC/OR-133
Bowell RJ (1994) Sorption of arsenic by iron-oxides and oxyhydroxides in soils. Appl Geochem
9:279-286
Brand E, Otte PF, Lijzen JPA (2007) CSOIL 2000: an exposure model for human risk assessment of
soil contamination: A model description RIVM report 711701054, Bilthoven, The Netherlands
Buchter B, Davidoff B, Amacher MC, Hinz C, Iskandar IK, Selim HM (1989) Correlation of
Freundlich
Kd
and
n
retention parameters with soils and elements. Soil Sci 148:370-379
Brown SL, Chaney RL, Angle JS, Ryan JA (1998) The phytoavailability of cadmium to lettuce in
long-term biosolids-amended soils. J Environ Qual 27:1071-1078
Brus DJ, Jansen MJW (2004) Uncertainty and sensitivity analysis of spatial predictions of heavy
metals in wheat. J Environ Qual 33(3):882-890
Brus DJ, de Gruijter JJ, Romkens PFAM (2005) Probabilistic quality standards for heavy metals
in soil derived from quality standards in crops. Geoderma 128(3-4):301-311
Brus DJ, de Gruijter JJ, Walvoort DJJ, de Vries F, Bronswijk JJB, Romkens PFAM, de Vries W
(2002) Mapping the probability of exceeding critical thresholds for cadmium concentrations in
soils in the Netherlands. J Environ Qual 31(6):1875-1884
Cao X, Ma LQ (2004) Effects of compost and phosphate on plant arsenic accumulation from soils
near pressure-treated wood. Environ Pollut 132:435-442
Cappon CJ (1981) Mercury and selenium content and chemical form in vegetable crops grown on
sludge-amended soil. Archiv Environ Contamin Toxicol 10:673-689
Cary EE, Allaway WH, Olson OE (1977) Control of chromium concentrations in food plants.1.
Absorption and translocation of chromium by plants. J Agric Food Chem 25:300-304
Chaney RL (1973) Crop and food chain effects of toxic elements in sludges and efflu-
ents. Proceedings of the joint conference on “recycling municipal sludges and effluents on
land.” National Association of State Universities and Land-Grant Colleges, Washington, DC,
pp 129-141
Chaney RL (1980) Health risks associated with toxic metals in municipal sludge. In: Bitton G,
Damro BL, Davidson GT, Davidson JME (eds) Sludge - health risks of land application. Ann
Arbor Sci, MI, USA, pp 59-83
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