2020
DOI: 10.1021/acs.est.0c04017
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Understanding the Dependence of Micropollutant Biotransformation Rates on Short-Term Temperature Shifts

Abstract: Temperature is a key factor that influences chemical biotransformation potential and rates, on which exposure and fate models rely to predict the environmental (micro)pollutant fate. Arrhenius-based models are currently implemented in environmental exposure assessment to adapt biotransformation rates to actual temperatures, assuming validity in the 0-30 °C range. However, evidence on how temperature shifts affect the physicochemical and microbial features in biological systems is scarce, questioning the validi… Show more

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Cited by 21 publications
(21 citation statements)
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“…To address the question of the underlying changes in environmental conditions that result in non-photochemical diurnal attenuation, the environmental parameters river water temperature and pH with a diurnal pattern during the field study were considered (Figure A). Temperature dependency of k att can be predicted based on the Arrhenius equation (for details, see Supporting Information Section S6) . For bisoprolol, diurnal attenuation could be explained to a large extent by the temperature dependency of k att (Figure C), whereas for the other TrOCs including metoprolol (Figure B and Supporting Information Figure S8), additional processes are most likely relevant.…”
Section: Resultssupporting
confidence: 82%
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“…To address the question of the underlying changes in environmental conditions that result in non-photochemical diurnal attenuation, the environmental parameters river water temperature and pH with a diurnal pattern during the field study were considered (Figure A). Temperature dependency of k att can be predicted based on the Arrhenius equation (for details, see Supporting Information Section S6) . For bisoprolol, diurnal attenuation could be explained to a large extent by the temperature dependency of k att (Figure C), whereas for the other TrOCs including metoprolol (Figure B and Supporting Information Figure S8), additional processes are most likely relevant.…”
Section: Resultssupporting
confidence: 82%
“…Second, the diurnal pattern could be caused by other reactive processes besides photochemistry such as biotransformation. Biotransformation could also cause a diurnal pattern, for instance, by differences in the temperature and water chemistry, for example, pH or a light-dependent metabolic activity …”
Section: Resultsmentioning
confidence: 99%
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“…Emerging sets of consistent information about both biotransformation kinetics and reactions across large numbers of diverse chemicals, now accessible through HRMS/MS analysis, allow us to study patterns of contaminant biotransformation as a function of environmental and operational conditions and across different microbial communities. Kinetic analysis of biotransformation experiments with differently conditioned activated sludge and riverine biofilm communities revealed characteristic trends for groups of substances undergoing similar types of initial transformation reactions, suggesting that shared enzymes or enzyme systems that are conjointly regulated catalyze biotransformation reactions within such groups. In a number of recent studies exploring the influence of environmental or operational conditions on contaminant biotransformation across large sets of literature-retrieved data, global models embracing all compounds were therefore compared to class-specific models for groups of contaminants hypothesized to undergo similar initial biotransformation reactions.…”
Section: Emerging Insights From Application Of Novel Methodsmentioning
confidence: 99%