Hydroxyl (OH) radical production rates in snowpacks from photolysis of hydrogen peroxide (H2O2) and nitrate (NO3-)

Atmospheric chemistry directly above snowpacks is strongly influenced by ultraviolet (UV) radiation initiated emissions of chemicals from the snowpack. The emission of gases from the snowpack to the atmosphere is in part due to chemical reactions between hydroxyl radical, OH (produced from photolysi...

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Bibliographic Details
Main Authors: France, JL, King, Martin, Lee-Taylor, J
Format: Article in Journal/Newspaper
Language:English
Published: 2007
Subjects:
No3
Ice
Online Access:https://repository.royalholloway.ac.uk/items/35efaa20-2b51-1404-5a20-003dc0336f58/1/
Description
Summary:Atmospheric chemistry directly above snowpacks is strongly influenced by ultraviolet (UV) radiation initiated emissions of chemicals from the snowpack. The emission of gases from the snowpack to the atmosphere is in part due to chemical reactions between hydroxyl radical, OH (produced from photolysis of hydrogen peroxide (H2O2) or nitrate (NO3-) and impurities in the snowpack. The work presented here is a radiative-transfer modelling study to calculate the depth-integrated production rates of hydroxyl radical from the photolysis of hydrogen peroxide and nitrate anion in snow for four different snowpacks and for solar zenith angles 30 degrees-90 degrees. This work also demonstrates the importance of hydrogen peroxide photolysis to produce hydroxyl radical relative to nitrate photolysis with (a) different snowpacks, (b) different ozone column depths, and (c) snowpack depths. The importance of hydrogen peroxide photolysis over nitrate photolysis for hydroxyl radical production increases with increasing depth in snowpack, column ozone depth, and solar zenith angle. With a solar zenith angle of 60 degrees the production of hydroxyl radical from hydrogen peroxide photolysis accounts for 91-99% of all hydroxyl radical production from hydrogen peroxide and nitrate photolysis. (C) 2007 Elsevier Ltd. All rights reserved.