Document ID: chunk:federal_register_of_legislation:F2013C00288:reg:12:p16
Version: federal_register_of_legislation:F2013C00288
Segment Type: reg
Provision Reference: reg 12 (pt 16/20)
Character Range: 1826446–1829548

'Long-term persistence of BHC, DDT and chlordane in sandy loam soil', Canadian Journal of Soil Science, vol. 51, pp. 379383.
Stewart, J & Smith, ES 1922, 'Some relations of arsenic to plant growth: Part 1', Soil Science, vol. 14, pp 111118.
Stott, DE, Dick, WA & Tabatabai, MA1985, 'Inhibition of pyrophosphatase activity in soils by trace elements', Soil Science, vol. 139, pp.112117.
Suedel, BC, Boraczek, JA, Peddicord, RK, Clifford, PA & Dillon, TM 1994, 'Trophic transfer and biomagnification potential of contaminants in aquatic ecosystems', Reviews of Environmental Contamination and Toxicology, vol. 136, pp. 22–89.
Svendsen, C & Weeks, JM 1997a, 'Relevance and applicability of a simple earthworm biomarker of copper exposure: I. Links to ecological effects in a laboratory study with Eisenia andrei', Ecotoxicology and Environmental Safety, vol. 36, pp. 72–79.
Svendsen, C & Weeks, JM 1997b, Relevance and applicability of a simple earthworm biomarker of copper exposure: 2. Validation and applicability under field conditions in a mesocosm experiment with Lumbricus rubellus', Ecotoxicology and Environmental Safety, vol. 36, pp. 80–88.
Svenson, A 1986, 'Effects of copper, zinc, and cadmium ions on the production of phosphate from phytic acid by the phytase system in spruce forest soil', Plant and Soil, vol. 94, pp. 227234.
Sverdrup, LE, Nielsen, T & Henning-Krogh, P 2002, 'Soil ecotoxicity of polycyclic aromatic hydrocarbons in relation to soil sorption, lipophilicity, and water solubility', Environmental Science andTechnology, vol. 36, pp. 24292435.
Swann, RL, McCall, PJ &Laskowski, DA 1981, Estimation of soil sorption constants of organic chemicals by high-performance liquid chromatography, ASTM special technical publication no. 737, pp. 4348.
Sykes, RL, Corning, DR & Early, NJ 1981, The effect of soil-chromium III on the growth and chromium absorption of vascular plants, Jalca, vol. 76, pp. 102–125.
Tabatabai, MA 1977, 'Effects of trace elements on urease activity in soils', Soil Biology and Biochemistry, vol. 9, pp. 913.
Torres, KC & Johnson, ML 2001, Bioaccumulation of metals in plants, arthropods, and mice at a seasonal wetland, Environmental Toxicology and Chemistry, vol. 20, no. 11, pp. 2617–2626.
University of Ghent/Euras 2005, 'Bioavailability and ageing of nickel in soils: invertebrate toxicity testing', NiPERA research project cited in LDA 2008, European union voluntary risk assessment report: lead metal, lead oxide, lead tetroxide and lead stabiliser compounds, Lead Development Association, available online at
http://echa.europa.eu/chem_data/transit_measures/vrar_en.asp.
University of Leuven 2004, ICA/ECI research project on 'the development of a predictive model of bioavailbility and toxicity of copper in soils', cited in EC 2008a.
University of Leuven 2005, NiPERA research project on 'the development of a predictive model of bioavailability and toxicity of nickel in soils: microbial toxicity', cited in LDA 2008.
US EPA 1982, Aquatic fate process data for organic priority pollutants, EPA/440/481/014, Office of Water Regulations and