Technical basis for establishing sediment quality criteria for nonionic organic chemicals using equilibrium partitioning

Toro, Dominic M. Di; Zarba, Christopher S.; Hansen, David J.; Berry, Walter; Swartz, Richard C.; Cowan, Christina E.; Pavlou, S.P.; Allen, Herbert E.; Thomas, Nelson A.; Paquin, Paul

doi:10.1002/etc.5620101203

Cited by 1,207 publications

(733 citation statements)

References 66 publications

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“…We used the following equilibrium partitioning theory equation [30] to calculate the concentration of triclosan in the interstitial water (C w ) of the upper 2 cm of the low-and high-triclosan-treated mesocosms.…”

Section: Comparison With Aqueous Lc50smentioning

confidence: 99%

Use of a novel sediment exposure to determine the effects of triclosan on estuarine benthic communities

Chariton

Portis

et al. 2012

Enviro Toxic and Chemistry

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Abstract-Triclosan (5-chloro-2-[2,4-dichlorophenoxy]phenol) is a relatively new, commonly used antimicrobial compound found in many personal care products. Triclosan is toxic to marine organisms at the micrograms per liter level, can photodegrade to a dioxin, can accumulate in humans, and has been found to be stable in marine sediments for over 30 years. To determine the effects of triclosan on marine benthic communities, intact sediment cores were brought into the laboratory and held under flowing seawater conditions. A 2-cm layer of triclosan-spiked sediment was applied to the surface, and after a two-week exposure the meio-and macrofaunal communities were assessed for differences in composition relative to nonspiked cores. A high triclosan treatment (180 mg/kg dry wt) affected both the meio-and the macrobenthic communities. There were no discernible differences with a low-triclosan treatment (14 mg/kg dry wt). This exposure method is effective for testing the benthic community response to sediment contaminants, but improvements should be made with regard to the amount and method of applying the overlying sediment to prevent smothering of fragile benthic organisms. Environ.

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Section: Comparison With Aqueous Lc50smentioning

confidence: 99%

Use of a novel sediment exposure to determine the effects of triclosan on estuarine benthic communities

Chariton

Portis

et al. 2012

Enviro Toxic and Chemistry

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“…The important message supported by all these studies is, however, that during a labile SOM enrichment situation, such as associated with the occurrence and sedimentation of a phytoplankton bloom, accumulation of sediment-associated contaminants increases. This phenomenon will be overlooked if methods based on equilibrium partitioning (EPT) (DiToro, Zarba, Hansen, Berry, Swartz, Cowan et al, 1991) are used to predict bioaccumulation from sediments. Enhanced contaminant bioaccumulation stimulated by enrichment with high quality SOM has in most studies been explained by various macrofaunal feeding responses, such as selective ingestion of contaminated food particles (e.g.…”

Section: Bioaccumulation Of Pyrenementioning

confidence: 99%

Effects of sediment organic matter quality on bioaccumulation, degradation, and distribution of pyrene in two macrofaunal species and their surrounding sediment

Granberg

Selck

2007

Marine Environmental Research

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“…The maximum chemical activity (a max ) of a solid HOC can be estimated from its melting temperature (T m , K) and the ambient temperature (T, K) according to Yalkowsky et al [6], assuming the entropy of melting to be 56 J mol À1 K À1 (i.e., Walden's rule) a max ¼ e 6:8Âð1À Tm T Þ (1) As seen from Equation 1, HOCs that are solid at a given ambient temperature have an a max below 1, and a max decreases with increasing melting temperature. Chemical activity (a HOC , dimensionless) can be related to the concentration (C HOC , mol L À1 ) via a compound-and medium-specific activity coefficient (g HOC , L mol À1 ) [7] a HOC ¼ C HOC Â g HOC (2) Chemical activity is an established concept in physical chemistry and the basis for the equilibrium partitioning theory that is often used to link total soil and sediment concentrations to actual concentrations in organisms [8]. More recently, various passive sampling techniques have been developed to measure chemical activity [2,9,10], and passive dosing techniques have been developed to control chemical activity in laboratory tests [11][12][13].…”

Section: Introductionmentioning

confidence: 99%

Uptake and toxicity of polycyclic aromatic hydrocarbons in terrestrial springtails—studying bioconcentration kinetics and linking toxicity to chemical activity

Schmidt

Smith

Holmstrup

et al. 2012

Enviro Toxic and Chemistry

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Abstract-Passive dosing applies a polymer loaded with test compound(s) to establish and maintain constant exposure in laboratory experiments. Passive dosing with the silicone poly(dimethylsiloxane) was used to control exposure of the terrestrial springtail Folsomia candida to six polycyclic aromatic hydrocarbons (PAHs) in bioconcentration and toxicity experiments. Folsomia candida could move freely on the PAH-loaded silicone, resulting in exposure via air and direct contact. The bioconcentration kinetics indicated efficient uptake of naphthalene, anthracene, and pyrene through air and (near) equilibrium partitioning of these PAHs to lipids and possibly the waxy layer of the springtail cuticle. Toxicities of naphthalene, phenanthrene, and pyrene were related to chemical activity, which quantifies the energetic level and drives spontaneous processes including diffusive biouptake. Chemical activity-response relationships yielded effective lethal chemical activities (La50s) well within the expected range for baseline toxicity (0.01-0.1). Effective lethal body burdens for naphthalene and pyrene exceeded the expected range of 2 to 8 mmol kg À1 fresh weight, which again indicated the waxy layer to be a sorbing phase. Finally, chemical activities were converted into equilibrium partitioning concentrations in lipids yielding effective lethal concentrations for naphthalene and phenanthrene in good correspondence with the lethal membrane burden for baseline toxicity (40-160 mmol kg À1 lipid). Passive dosing was a practical approach for tightly controlling PAH exposure, which in turn provided new experimental possibilities and findings. Environ. Toxicol. Chem. 2013;32:361-369. # 2012 SETAC

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Technical basis for establishing sediment quality criteria for nonionic organic chemicals using equilibrium partitioning

Cited by 1,207 publications

References 66 publications

Use of a novel sediment exposure to determine the effects of triclosan on estuarine benthic communities

Use of a novel sediment exposure to determine the effects of triclosan on estuarine benthic communities

Effects of sediment organic matter quality on bioaccumulation, degradation, and distribution of pyrene in two macrofaunal species and their surrounding sediment

Uptake and toxicity of polycyclic aromatic hydrocarbons in terrestrial springtails—studying bioconcentration kinetics and linking toxicity to chemical activity

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