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Nitrate-Induced Photolysis in Natural Waters: Controls on Concentrations of Hydroxyl Radical Photo-Intermediates by Natural Scavenging Agents

The importance of the principal natural scavenging agents for hydroxyl radicals (•OH) was evaluated, and a general framework was developed to predict the significance of nitrate-induced, •OH-mediated degradation of aquatic contaminants. Rate constants for •OH scavenging by dissolved organic matter (...

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Published in:	Environmental science & technology 1998-10, Vol.32 (19), p.3004-3010
Main Authors:	Brezonik, Patrick L, Fulkerson-Brekken, Jennifer
Format:	Article
Language:	English
Subjects:	ACETOCHLOR ACETOCHLORE ACETOCLOR AGUA Chemistry Earth sciences Earth, ocean, space EAU Exact sciences and technology FOTOLISIS FREE RADICALS Geochemistry Hydrology Hydrology. Hydrogeology Mineralogy NITRATE NITRATES NITRATOS PHOTOLYSE PHOTOLYSIS RADICAL LIBRE RADICALES LIBRES Silicates WATER Water geochemistry
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creator	Brezonik, Patrick L Fulkerson-Brekken, Jennifer
description	The importance of the principal natural scavenging agents for hydroxyl radicals (•OH) was evaluated, and a general framework was developed to predict the significance of nitrate-induced, •OH-mediated degradation of aquatic contaminants. Rate constants for •OH scavenging by dissolved organic matter (DOM) from five surface water sources were in a narrow range (2.3 ± 0.77 × 104 (mg of C/L)-1 s-1), which is similar to previously reported values and suggests that the importance of DOM as a •OH sink can be estimated simply from the dissolved organic carbon (DOC) concentration of a water. Scavenging of •OH by carbonate and bicarbonate is generally less important, but these ions can be the major cause of •OH scavenging in low DOC, high alkalinity waters. Use of the framework is illustrated by predicting levels of •OH and half-lives of the corn herbicide acetochlor in waters ranging from pristine to highly influenced by agricultural activities.
doi_str_mv	10.1021/es9802908
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source	American Chemical Society:Jisc Collections:American Chemical Society Read & Publish Agreement 2022-2024 (Reading list)
subjects	ACETOCHLOR ACETOCHLORE ACETOCLOR AGUA Chemistry Earth sciences Earth, ocean, space EAU Exact sciences and technology FOTOLISIS FREE RADICALS Geochemistry Hydrology Hydrology. Hydrogeology Mineralogy NITRATE NITRATES NITRATOS PHOTOLYSE PHOTOLYSIS RADICAL LIBRE RADICALES LIBRES Silicates WATER Water geochemistry
title	Nitrate-Induced Photolysis in Natural Waters: Controls on Concentrations of Hydroxyl Radical Photo-Intermediates by Natural Scavenging Agents
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