Development of a bioavailability‐based risk assessment approach for nickel in freshwater sediments
Schlekat, Christian E; Garman, Emily R; Vangheluwe, Marnix LU; Burton, G Allen
2016-10
Citation
Schlekat, Christian E; Garman, Emily R; Vangheluwe, Marnix LU; Burton, G Allen (2016). "Development of a bioavailability‐based risk assessment approach for nickel in freshwater sediments." Integrated Environmental Assessment and Management 12(4): 735-746.
Abstract
To assess nickel (Ni) toxicity and behavior in freshwater sediments, a large‐scale laboratory and field sediment testing program was conducted. The program used an integrative testing strategy to generate scientifically based threshold values for Ni in sediments and to develop integrated equilibrium partitioning‐based bioavailability models for assessing risks of Ni to benthic ecosystems. The sediment testing program was a multi‐institutional collaboration that involved extensive laboratory testing, field validation of laboratory findings, characterization of Ni behavior in natural and laboratory conditions, and examination of solid phase Ni speciation in sediments. The laboratory testing initiative was conducted in 3 phases to satisfy the following objectives: 1) evaluate various methods for spiking sediments with Ni to optimize the relevance of sediment Ni exposures; 2) generate reliable ecotoxicity data by conducting standardized chronic ecotoxicity tests using 9 benthic species in sediments with low and high Ni binding capacity; and, 3) examine sediment bioavailability relationships by conducting chronic ecotoxicity testing in sediments that showed broad ranges of acid volatile sulfides, organic C, and Fe. A subset of 6 Ni‐spiked sediments was deployed in the field to examine benthic colonization and community effects. The sediment testing program yielded a broad, high quality data set that was used to develop a Species Sensitivity Distribution for benthic organisms in various sediment types, a reasonable worst case predicted no‐effect concentration for Ni in sediment (PNECsediment), and predictive models for bioavailability and toxicity of Ni in freshwater sediments. A bioavailability‐based approach was developed using the ecotoxicity data and bioavailability models generated through the research program. The tiered approach can be used to fulfill the outstanding obligations under the European Union (EU) Existing Substances Risk Assessment, EU Registration, Evaluation, Authorisation, and Regulation of Chemicals (REACH), and other global regulatory initiatives. Integr Environ Assess Manag 2016;12:735–746. © 2015 SETACKey PointsA comprehensive, representative sediment toxicity database is available to support risk assessment of Ni in freshwater sediments.Sediment Ni ecotoxicity data were gathered from studies that used spiking approaches that resulted in Ni‐enriched sediments resembling naturally contaminated sediments, thus increasing their relevance.Bioavailability of Ni in sediments, which is controlled by acid volatile sulfides (AVS), varies among different species, with actively bioturbating species showing a lower slope in the relationship between decreasing toxicity with increasing AVS.A bioavailability‐based, tiered approach is presented, where the first tier involves comparison of ambient total Ni concentrations with a RWC threshold value of 136 mg Ni/kg. Site‐specific AVS can be used to calculate a site‐specific threshold if ambient Ni is greater than 136 mg Ni/kg.Publisher
Wiley Periodicals, Inc.
ISSN
1551-3777 1551-3793
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