2014
DOI: 10.1002/etc.2445
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Estimation of the bioaccumulation potential of a nonchlorinated bisphenol and an ionogenic xanthene dye to Eisenia andrei in field‐collected soils, in conjunction with predictive in silico profiling

Abstract: In silico-based model predictions, originating from structural and mechanistic (e.g., transport, bioavailability, reactivity, and binding potential) profiling, were compared against laboratory-derived data to estimate the bioaccumulation potential in earthworms of 2 organic substances (1 neutral, 1 ionogenic) known to primarily partition to soil. Two compounds representative of specific classes of chemicals were evaluated: a nonchlorinated bisphenol containing an -OH group (4,4′-methylenebis[2,6-di-tert-butylp… Show more

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Cited by 4 publications
(3 citation statements)
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“…With the proposed framework for characterizing biotransformation, a forward step would be to revisit the existing bioaccumulation or biotransformation literature on well‐studied organic contaminants such as energetic compounds and polycyclic aromatic hydrocarbons as well as on chemicals of growing environmental concern . The application of the MPCF for next‐generation chemical assessment and management practices has yet to be further explored and developed.…”
Section: Resultsmentioning
confidence: 99%
“…With the proposed framework for characterizing biotransformation, a forward step would be to revisit the existing bioaccumulation or biotransformation literature on well‐studied organic contaminants such as energetic compounds and polycyclic aromatic hydrocarbons as well as on chemicals of growing environmental concern . The application of the MPCF for next‐generation chemical assessment and management practices has yet to be further explored and developed.…”
Section: Resultsmentioning
confidence: 99%
“…For plant bioaccumulation testing, soil fertility also must be known, given the important influence of nutrient availability to plant roots. The importance of soil type was demonstrated by Princz et al (2014) in an earthworm bioaccumulation study in which uptake of the test chemical in tissue of earthworms exposed in a sandy soil was significantly greater than that in earthworms exposed to the chemical in clay loam soil where organic matter and clay content were significantly higher. The choice of test soils must be considered during the experimental design phase to ensure that critical parameters such as soil pH and organic matter content are not outside the tolerance limit of the test organism.…”
Section: Bioavailability and Soil Characteristicsmentioning
confidence: 99%
“…The test is applicable to stable neutral organic chemicals, metallo‐organics, metals, and other trace elements. Recent testing with an ionogenic organic chemical proved challenging for test endpoint determination because the chemical was highly water‐soluble, had low lipophilicity, and did not depurate from the earthworm tissue during the elimination phase of the test (Princz et al ). These results suggest the need for additional research on the use of the earthworm bioaccumulation test guideline or other bioaccumulation tests when evaluating the potential bioaccumulation of ionogenic compounds.…”
Section: Invertebratesmentioning
confidence: 99%