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Chemosphere


Title:Biodegradation testing of chemicals with high Henry's constants - Separating mass and effective concentration reveals higher rate constants
Author(s):Birch H; Andersen HR; Comber M; Mayer P;
Address:"Technical University of Denmark, Department of Environmental Engineering, Bygningstorvet, Building 115, 2800 Kgs. Lyngby, Denmark. Electronic address: hbir@env.dtu.dk. Technical University of Denmark, Department of Environmental Engineering, Bygningstorvet, Building 115, 2800 Kgs. Lyngby, Denmark. Electronic address: hran@env.dtu.dk. Mike Comber Consulting, Bridford, Exeter, UK. Electronic address: mike.comber42@btinternet.com. Technical University of Denmark, Department of Environmental Engineering, Bygningstorvet, Building 115, 2800 Kgs. Lyngby, Denmark. Electronic address: philm@env.dtu.dk"
Journal Title:Chemosphere
Year:2017
Volume:20170203
Issue:
Page Number:716 - 721
DOI: 10.1016/j.chemosphere.2017.02.003
ISSN/ISBN:1879-1298 (Electronic) 0045-6535 (Linking)
Abstract:"During simulation-type biodegradation tests, volatile chemicals will continuously partition between water phase and headspace. This study addressed how (1) this partitioning affects test results and (2) can be accounted for by combining equilibrium partition and dynamic biodegradation models. An aqueous mixture of 9 (semi)volatile chemicals was first generated using passive dosing and then diluted with environmental surface water producing concentrations in the ng/L to mug/L range. After incubation for 2 h to 4 weeks, automated Headspace Solid Phase Microextraction (HS-SPME) was applied directly on the test systems to measure substrate depletion by biodegradation relatively to abiotic controls. HS-SPME was also applied to determine air to water partitioning ratios. Biodegradation rate constants relating to the chemical in the water phase, k(water), were generally a factor 1 to 11 times higher than biodegradation rate constants relating to the total mass of chemical in the test system, k(system), with one exceptional factor of 72 times for a long chain alkane. True water phase degradation rate constants were found (i) more appropriate for risk assessment than test system rate constants, (ii) to facilitate extrapolation to other air-water systems and (iii) to be better defined input parameters for aquatic exposure and fate models"
Keywords:"Biodegradation, Environmental Kinetics Molecular Weight *Solid Phase Microextraction Volatile Organic Compounds/chemistry/*isolation & purification/*metabolism Water/chemistry Biodegradation test Headspace Hydrocarbon Rate constant Volatile chemicals;"
Notes:"MedlineBirch, Heidi Andersen, Henrik R Comber, Mike Mayer, Philipp eng England 2017/02/17 Chemosphere. 2017 May; 174:716-721. doi: 10.1016/j.chemosphere.2017.02.003. Epub 2017 Feb 3"

 
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