Passive dosing versus solvent spiking for controlling and maintaining hydrophobic organic compound exposure in the Microtox registered assay

Microbial toxicity bioassays such as the Microtox registered test are ubiquitously applied to measure the toxicity of chemicals and environmental samples. In many ways their operation is conducive to the testing of organic chemicals. They are of short duration, use glass cuvettes and take place at r...

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Veröffentlicht in:	Chemosphere (Oxford) 2015-11, Vol.139, p.174-180
Hauptverfasser:	Smith, Kilian EC, Jeong, Yoonah, Kim, Jongwoon
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Sprache:	eng
Schlagworte:	Bioassay Dosing Exposure Microorganisms Phenanthrene Solvents Spiking Toxicity
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description	Microbial toxicity bioassays such as the Microtox registered test are ubiquitously applied to measure the toxicity of chemicals and environmental samples. In many ways their operation is conducive to the testing of organic chemicals. They are of short duration, use glass cuvettes and take place at reduced temperatures in medium lacking sorbing components. All of these are expected to reduce sorptive and volatile losses, but particularly for hydrophobic organics the role of such losses in determining the bioassay response remains unclear. This study determined the response of the Microtox registered test when using solvent spiking compared to passive dosing for introducing the model hydrophobic compounds acenaphthene, phenanthrene, fluoranthene and benzo(a)pyrene. Compared to solvent spiking, the apparent sensitivity of the Microtox registered test with passive dosing was 3.4 and 12.4 times higher for acenaphthene and phenanthrene, respectively. Furthermore, fluoranthene only gave a consistent response with passive dosing. Benzo(a)pyrene did not result in a response with either spiking or passive dosing even at aqueous solubility. Such differences in the apparent sensitivity of the Microtox registered test can be traced back to the precise definition of the dissolved exposure concentrations and the buffering of losses with passive dosing. This highlights the importance of exposure control even in simple and short-term microbial bioassays such as the Microtox registered test.
doi_str_mv	10.1016/j.chemosphere.2015.06.028
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In many ways their operation is conducive to the testing of organic chemicals. They are of short duration, use glass cuvettes and take place at reduced temperatures in medium lacking sorbing components. All of these are expected to reduce sorptive and volatile losses, but particularly for hydrophobic organics the role of such losses in determining the bioassay response remains unclear. This study determined the response of the Microtox registered test when using solvent spiking compared to passive dosing for introducing the model hydrophobic compounds acenaphthene, phenanthrene, fluoranthene and benzo(a)pyrene. Compared to solvent spiking, the apparent sensitivity of the Microtox registered test with passive dosing was 3.4 and 12.4 times higher for acenaphthene and phenanthrene, respectively. Furthermore, fluoranthene only gave a consistent response with passive dosing. Benzo(a)pyrene did not result in a response with either spiking or passive dosing even at aqueous solubility. Such differences in the apparent sensitivity of the Microtox registered test can be traced back to the precise definition of the dissolved exposure concentrations and the buffering of losses with passive dosing. 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subjects	Bioassay Dosing Exposure Microorganisms Phenanthrene Solvents Spiking Toxicity
title	Passive dosing versus solvent spiking for controlling and maintaining hydrophobic organic compound exposure in the Microtox registered assay
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