Aldenberg T, Jaworska JS. 2000. Estimation of the hazardous concentration and fraction affected for normally distributed species sensitivity distributions. Ecotoxicology and Environmental Safety 46: 1-18.
Ankley GT, Phipps GL, Leonard EN, Benoit DA, Mattson VR, Kosian PA, Cotter AM, Dierkes JR, Hansen DJ, Mahony DJ. 1991. Acid Volatile sulfide as a factor mediating cadmium and nickel bioavailability in contaminated sediments. Environmental Toxicology and Chemistry 10: 1299-1307.
Ankley GT, Di Toro DM, Hansen DJ, Berry WJ. 1996. Technical basis and proposal for deriving sediment quality criteria for metals. Environmental Toxicology and Chemistry 15(2): 2056-2066.
Besser JM, Brumbaugh WG, Ingersoll CG, Ivey CD, Kunz JL, Kemble NE, Schlekat CE, Garman ER. 2013. Chronic toxicity of nickel-spiked freshwater sediments: Variation in toxicity among eight invertebrate taxa and eight sediments. Environmental Toxicology and Chemistry 32: 2495-2506.
Brumbaugh WG, Besser JM, Ingersoll CG, May TW, Ivey CD, Schlekat CE, Rogevich-Garman E. 2013. Nickel partitioning during chronic laboratory toxicity tests with eight different spiked freshwater sediments: Toward more environmentally realistic testing conditions. Environmental Toxicology and Chemistry 32: 2482-2494.
Costello DM, Burton GA, Hammerschmidt CR, Rogevich EC, Schlekat CE. 2011. Nickel phase partitioning and toxicity in field-deployed sediments. Environmental Science and Technology 45: 5798-5805
Di Toro DM, Mahony JD, Hansen DJ, Scott KJ, Carlson AR, Ankley GT. 1992. Acid volatile sulfide predicts the acute toxicity of cadmium and nickel in sediments. Environmental Science and Technology 26: 96-101.
ECHA (European Chemicals Agency). 2014. Principles for environmental risk assessment of the sediment compartment. In: Proceedings of the Topical Scientific Workshop; 2013 7-8 May; Helsinki, Finland. Helsinki (FI): European Chemicals Bureau. ECHA-14-R-13-EN.
Schlekat CE, Garman ER, Vangheluwe ML, Burton GA. 2016. Development of a bioavailability-based risk assessment approach for nickel in freshwater sediments. Integrated Environmental Assessment and Management 12(4): 735-746.
Van Vlaardingen PL, Traas TP, Wintersen AM, Aldenberg T. 2004. ETX 2.0. A program to calculate risk limits and fraction affected, based on normal species sensitivity distributions. Report no. 601501028/2004, National Institute for Public Health and the Environment (RIVM), Bilthoven, The Netherlands.
Vandegehuchte MB, Roman YE, Nguyen LT, Janssen CR, De Schamphelaere KA. 2007. Toxicological availability of nickel to the benthic oligochaete Lumbriculus variegatus. Environment International 33: 736-742.
Vangheluwe M, Verdonck F, Heijerick D, Shtiza A, Burton A, Taulbee K, Boucard T, Mäkinen J, Gonzales E. 2008. Acid volatile sulphide survey of large river and/or lake sediments in the United Kingdom (England and Wales) Spain and Finland in 2007. Final Report. September 2008. Gent, Belgium (BE): ARCHE (formerly EURAS).
Vangheluwe MLU, Verdonck FAM, Besser JM, Brumbaugh WG, Ingersoll CG, Schlekat CE, Garman ER. 2013. Improving sediment quality guidelines for nickel: Development and application of predictive bioavailability models to assess chronic toxicity of nickel in freshwater sediments. Environmental Toxicology and Chemistry 32: 2507-2519.
Vangheluwe M, Nguyen L. 2015. Advanced research on nickel toxicity in sediments: results additional species and modelling. Final Report. Durham (NC): Nickel Producers Environmental Research Association.