Your search keyword '"Vione D."' showing total 2 results

1. Modelled phototransformation kinetics of the antibiotic sulfadiazine in organic matter-rich lakes.

Author

Vione D and Koehler B

Subjects

Kinetics, Lakes chemistry, Photochemical Processes, Sweden, Anti-Bacterial Agents chemistry, Models, Chemical, Sulfadiazine chemistry, Water Pollutants, Chemical chemistry

Abstract

Xenobiotic compounds are commonly detected in inland waters. Sunlight-induced photochemical reactions contribute to xenobiotic degradation, but the role of different photoreactions on large geographic scales remains poorly understood. Here, we used a combination of photochemical modelling and large-scale field data from 1020 lakes across Sweden to elucidate the photodegradation kinetics of the commonly used antibiotic sulfadiazine (SDZ) in organic matter-rich lakes. SDZ occurs in two forms, namely acidic HSDZ (pK a  = 6.5) and basic/deprotonated SDZ - . Both species are oxidised fast by the photogenerated triplet states of natural organic matter ( 3 NOM*). However, they also undergo efficient back reactions because the partially oxidised HSDZ (and SDZ - to a larger extent) can be reduced back to the initial compounds by the phenolic moieties contained in NOM. Typical lakes in Sweden are rich in NOM and have low pH, with the consequence that SDZ photochemistry would be dominated by HSDZ. Our simulation results showed that SDZ photodegradation kinetics in Swedish lakes would become significantly slower with increasing water depth and pH, while it depended little on latitude, which affects irradiance, or on organic matter content. As a consequence, SDZ would be particularly persistent in lakewater in some densely populated areas with relatively deep and high-pH lakes such as, most notably, the Stockholm region. Here the surface waters could be more heavily contaminated by pharmaceuticals compared to the scarcely populated regions in the centre-north of the country, where lakewater could otherwise promote an efficient photodegradation of SDZ., (Copyright © 2018 Elsevier B.V. All rights reserved.)

Published

2018

2. Simulation of photoreactive transients and of photochemical transformation of organic pollutants in sunlit boreal lakes across 14 degrees of latitude: A photochemical mapping of Sweden.

Author

Koehler B, Barsotti F, Minella M, Landelius T, Minero C, Tranvik LJ, and Vione D

Subjects

Carbonates, Eutrophication, Hydroxyl Radical chemistry, Kinetics, Photochemical Processes, Singlet Oxygen, Sunlight, Sweden, Lakes, Models, Chemical, Organic Chemicals chemistry, Photolysis, Water Pollutants, Chemical chemistry

Abstract

Lake water constituents, such as chromophoric dissolved organic matter (CDOM) and nitrate, absorb sunlight which induces an array of photochemical reactions. Although these reactions are a substantial driver of pollutant degradation in lakes they are insufficiently understood, in particular on large scales. Here, we provide for the first time comprehensive photochemical maps covering a large geographic region. Using photochemical kinetics modeling for 1048 lakes across Sweden we simulated the steady-state concentrations of four photoreactive transient species, which are continuously produced and consumed in sunlit lake waters. We then simulated the transient-induced photochemical transformation of organic pollutants, to gain insight into the relevance of the different photoreaction pathways. We found that boreal lakes were often unfavorable environments for photoreactions mediated by hydroxyl radicals (OH) and carbonate radical anions (CO 3 - ), while photoreactions mediated by CDOM triplet states ( 3 CDOM*) and, to a lesser extent, singlet oxygen ( 1 ) were the most prevalent. These conditions promote the photodegradation of phenols, which are used as plastic, medical drug and herbicide precursors. When CDOM concentrations increase, as is currently commonly the case in boreal areas such as Sweden, 2 ) were the most prevalent. These conditions promote the photodegradation of phenols, which are used as plastic, medical drug and herbicide precursors. When CDOM concentrations increase, as is currently commonly the case in boreal areas such as Sweden, 3 CDOM* will also increase, promoting its importance in photochemical pathways even more., (Copyright © 2017 Elsevier Ltd. All rights reserved.)

Published

2018