Dark production of hydroxyl radicals by aeration of anoxic lake water

Lake circulation is an important phenomenon that ensures oxygenation of the water column. Here we report that aeration of anoxic hypolimnion water causes production of highly reactive hydroxyl radicals (OH), which are also produced photochemically in the epilimnion. Model calculations suggest that t...

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Published in	The Science of the total environment Vol. 527-528; pp. 322 - 327
Main Authors	Minella, Marco, De Laurentiis, Elisa, Maurino, Valter, Minero, Claudio, Vione, Davide
Format	Journal Article
Language	English
Published	Netherlands Elsevier B.V 15.09.2015
Subjects	Aeration Anoxic lake water Budgeting Circulation Hydroxyl radicals Lake circulation Lakes photochemical reactions Pollutants Reactive oxygen species Surface water Water circulation Hydroxyl radicals Reactive oxygen species Anoxic lake water Lake circulation
Online Access	Get full text
ISSN	0048-9697 1879-1026 1879-1026
DOI	10.1016/j.scitotenv.2015.04.123

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Abstract	Lake circulation is an important phenomenon that ensures oxygenation of the water column. Here we report that aeration of anoxic hypolimnion water causes production of highly reactive hydroxyl radicals (OH), which are also produced photochemically in the epilimnion. Model calculations suggest that the dark process of OH generation can be comparable with photochemical reactions in some lake environments, provided that the hypolimnion is a significant fraction of the whole lake volume. In these cases, lake overturn could significantly contribute to the yearly OH budget of the lake water and might cause significant degradation of some pollutants, for which the reaction with OH is an important removal process from surface waters. [Display omitted] •Hydroxyl radicals are generated in the dark by aeration of anoxic lake water.•The process could take place during lake overturn.•Dark OH generation was compared with photochemical processes.•The process could be important in deep lakes subject to summer stratification.
AbstractList	Lake circulation is an important phenomenon that ensures oxygenation of the water column. Here we report that aeration of anoxic hypolimnion water causes production of highly reactive hydroxyl radicals (·OH), which are also produced photochemically in the epilimnion. Model calculations suggest that the dark process of ·OH generation can be comparable with photochemical reactions in some lake environments, provided that the hypolimnion is a significant fraction of the whole lake volume. In these cases, lake overturn could significantly contribute to the yearly ·OH budget of the lake water and might cause significant degradation of some pollutants, for which the reaction with ·OH is an important removal process from surface waters.Lake circulation is an important phenomenon that ensures oxygenation of the water column. Here we report that aeration of anoxic hypolimnion water causes production of highly reactive hydroxyl radicals (·OH), which are also produced photochemically in the epilimnion. Model calculations suggest that the dark process of ·OH generation can be comparable with photochemical reactions in some lake environments, provided that the hypolimnion is a significant fraction of the whole lake volume. In these cases, lake overturn could significantly contribute to the yearly ·OH budget of the lake water and might cause significant degradation of some pollutants, for which the reaction with ·OH is an important removal process from surface waters. Lake circulation is an important phenomenon that ensures oxygenation of the water column. Here we report that aeration of anoxic hypolimnion water causes production of highly reactive hydroxyl radicals (·OH), which are also produced photochemically in the epilimnion. Model calculations suggest that the dark process of ·OH generation can be comparable with photochemical reactions in some lake environments, provided that the hypolimnion is a significant fraction of the whole lake volume. In these cases, lake overturn could significantly contribute to the yearly ·OH budget of the lake water and might cause significant degradation of some pollutants, for which the reaction with ·OH is an important removal process from surface waters. Lake circulation is an important phenomenon that ensures oxygenation of the water column. Here we report that aeration of anoxic hypolimnion water causes production of highly reactive hydroxyl radicals ( times OH), which are also produced photochemically in the epilimnion. Model calculations suggest that the dark process of times OH generation can be comparable with photochemical reactions in some lake environments, provided that the hypolimnion is a significant fraction of the whole lake volume. In these cases, lake overturn could significantly contribute to the yearly times OH budget of the lake water and might cause significant degradation of some pollutants, for which the reaction with times OH is an important removal process from surface waters. Lake circulation is an important phenomenon that ensures oxygenation of the water column. Here we report that aeration of anoxic hypolimnion water causes production of highly reactive hydroxyl radicals (OH), which are also produced photochemically in the epilimnion. Model calculations suggest that the dark process of OH generation can be comparable with photochemical reactions in some lake environments, provided that the hypolimnion is a significant fraction of the whole lake volume. In these cases, lake overturn could significantly contribute to the yearly OH budget of the lake water and might cause significant degradation of some pollutants, for which the reaction with OH is an important removal process from surface waters. [Display omitted] •Hydroxyl radicals are generated in the dark by aeration of anoxic lake water.•The process could take place during lake overturn.•Dark OH generation was compared with photochemical processes.•The process could be important in deep lakes subject to summer stratification. Lake circulation is an important phenomenon that ensures oxygenation of the water column. Here we report that aeration of anoxic hypolimnion water causes production of highly reactive hydroxyl radicals (OH), which are also produced photochemically in the epilimnion. Model calculations suggest that the dark process of OH generation can be comparable with photochemical reactions in some lake environments, provided that the hypolimnion is a significant fraction of the whole lake volume. In these cases, lake overturn could significantly contribute to the yearly OH budget of the lake water and might cause significant degradation of some pollutants, for which the reaction with OH is an important removal process from surface waters.
Author	Vione, Davide Minero, Claudio Maurino, Valter Minella, Marco De Laurentiis, Elisa
Author_xml	– sequence: 1 givenname: Marco surname: Minella fullname: Minella, Marco organization: Università di Torino, Dipartimento di Chimica, Via Pietro Giuria 5, 10125 Torino, Italy – sequence: 2 givenname: Elisa surname: De Laurentiis fullname: De Laurentiis, Elisa organization: Università di Torino, Dipartimento di Chimica, Via Pietro Giuria 5, 10125 Torino, Italy – sequence: 3 givenname: Valter surname: Maurino fullname: Maurino, Valter organization: Università di Torino, Dipartimento di Chimica, Via Pietro Giuria 5, 10125 Torino, Italy – sequence: 4 givenname: Claudio surname: Minero fullname: Minero, Claudio organization: Università di Torino, Dipartimento di Chimica, Via Pietro Giuria 5, 10125 Torino, Italy – sequence: 5 givenname: Davide surname: Vione fullname: Vione, Davide email: davide.vione@unito.it organization: Università di Torino, Dipartimento di Chimica, Via Pietro Giuria 5, 10125 Torino, Italy
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Keywords	Hydroxyl radicals Reactive oxygen species Anoxic lake water Lake circulation
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Snippet	Lake circulation is an important phenomenon that ensures oxygenation of the water column. Here we report that aeration of anoxic hypolimnion water causes...
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SubjectTerms	Aeration Anoxic lake water Budgeting Circulation Hydroxyl radicals Lake circulation Lakes photochemical reactions Pollutants Reactive oxygen species Surface water Water circulation
Title	Dark production of hydroxyl radicals by aeration of anoxic lake water
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