Wavelength and Temperature-Dependent Apparent Quantum Yields for Photochemical Formation of Hydrogen Peroxide in Seawater

Wavelength and temperature-dependent apparent quantum yields (AQYs) were determined for the photochemical production of hydrogen peroxide using seawater obtained from coastal and oligotrophic stations in Antarctica, the Pacific Ocean at Station ALOHA, the Gulf of Mexico, and at several sites along t...

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Main Authors: Kieber, David J., Miller, Gary W., Neale, Patrick J., Mopper, Kenneth
Format: Article in Journal/Newspaper
Language:unknown
Published: ODU Digital Commons 2014
Subjects:
Dissolved organic carbon
Natural waters
Time series station
Ultraviolet radiation
Biogeochemistry
Chemistry
Environmental Indicators and Impact Assessment
Pacific
Antarc*
Antarctica
Online Access:https://digitalcommons.odu.edu/chemistry_fac_pubs/150
https://digitalcommons.odu.edu/cgi/viewcontent.cgi?article=1153&context=chemistry_fac_pubs
id ftolddominionuni:oai:digitalcommons.odu.edu:chemistry_fac_pubs-1153
record_format openpolar
spelling ftolddominionuni:oai:digitalcommons.odu.edu:chemistry_fac_pubs-1153 2023-05-15T13:38:02+02:00 Wavelength and Temperature-Dependent Apparent Quantum Yields for Photochemical Formation of Hydrogen Peroxide in Seawater Kieber, David J. Miller, Gary W. Neale, Patrick J. Mopper, Kenneth 2014-01-01T08:00:00Z application/pdf https://digitalcommons.odu.edu/chemistry_fac_pubs/150 https://digitalcommons.odu.edu/cgi/viewcontent.cgi?article=1153&context=chemistry_fac_pubs unknown ODU Digital Commons https://digitalcommons.odu.edu/chemistry_fac_pubs/150 https://digitalcommons.odu.edu/cgi/viewcontent.cgi?article=1153&context=chemistry_fac_pubs Chemistry & Biochemistry Faculty Publications Dissolved organic carbon Natural waters Time series station Ultraviolet radiation Biogeochemistry Chemistry Environmental Indicators and Impact Assessment article 2014 ftolddominionuni 2021-03-02T18:17:10Z Wavelength and temperature-dependent apparent quantum yields (AQYs) were determined for the photochemical production of hydrogen peroxide using seawater obtained from coastal and oligotrophic stations in Antarctica, the Pacific Ocean at Station ALOHA, the Gulf of Mexico, and at several sites along the East Coast of the United States. For all samples, AQYs decreased exponentially with increasing wavelength at 25 °C, ranging from 4.6 × 10−4 to 10.4 × 10−4 at 290 nm to 0.17 × 10−4 to 0.97 × 10−4 at 400 nm. AQYs for different seawater samples were remarkably similar irrespective of expected differences in the composition and concentrations of metals and dissolved organic matter (DOM) and in prior light exposure histories; wavelength-dependent AQYs for individual seawater samples differed by less than a factor of two relative to respective mean AQYs. Temperature-dependent AQYs increased between 0 and 35 °C on average by a factor of 1.8 per 10 °C, consistent with a thermal reaction (e.g., superoxide dismutation) controlling H2O2 photochemical production rates in seawater. Taken together, these results suggest that the observed poleward decrease in H2O2photochemical production rates is mainly due to corresponding poleward decreases in irradiance and temperature and not spatial variations in the composition and concentrations of DOM or metals. Hydrogen peroxide photoproduction AQYs and production rates were not constant and not independent of the photon exposure as has been implicitly assumed in many published studies. Therefore, care should be taken when comparing and interpreting published H2O2AQY or photochemical production rate results. Modeled depth-integrated H2O2 photochemical production rates were in excellent agreement with measured rates obtained from in situ free-floating drifter experiments conducted during a Gulf of Maine cruise, with differences (ca. 10%) well within measurement and modeling uncertainties. Results from this study provide a comprehensive data set of wavelength and temperature-dependent AQYs to model and remotely sense hydrogen peroxide photochemical production rates globally. Article in Journal/Newspaper Antarc* Antarctica Old Dominion University: ODU Digital Commons Pacific
institution Open Polar
collection Old Dominion University: ODU Digital Commons
op_collection_id ftolddominionuni
language unknown
topic Dissolved organic carbon
Natural waters
Time series station
Ultraviolet radiation
Biogeochemistry
Chemistry
Environmental Indicators and Impact Assessment
spellingShingle Dissolved organic carbon
Natural waters
Time series station
Ultraviolet radiation
Biogeochemistry
Chemistry
Environmental Indicators and Impact Assessment
Kieber, David J.
Miller, Gary W.
Neale, Patrick J.
Mopper, Kenneth
Wavelength and Temperature-Dependent Apparent Quantum Yields for Photochemical Formation of Hydrogen Peroxide in Seawater
topic_facet Dissolved organic carbon
Natural waters
Time series station
Ultraviolet radiation
Biogeochemistry
Chemistry
Environmental Indicators and Impact Assessment
description Wavelength and temperature-dependent apparent quantum yields (AQYs) were determined for the photochemical production of hydrogen peroxide using seawater obtained from coastal and oligotrophic stations in Antarctica, the Pacific Ocean at Station ALOHA, the Gulf of Mexico, and at several sites along the East Coast of the United States. For all samples, AQYs decreased exponentially with increasing wavelength at 25 °C, ranging from 4.6 × 10−4 to 10.4 × 10−4 at 290 nm to 0.17 × 10−4 to 0.97 × 10−4 at 400 nm. AQYs for different seawater samples were remarkably similar irrespective of expected differences in the composition and concentrations of metals and dissolved organic matter (DOM) and in prior light exposure histories; wavelength-dependent AQYs for individual seawater samples differed by less than a factor of two relative to respective mean AQYs. Temperature-dependent AQYs increased between 0 and 35 °C on average by a factor of 1.8 per 10 °C, consistent with a thermal reaction (e.g., superoxide dismutation) controlling H2O2 photochemical production rates in seawater. Taken together, these results suggest that the observed poleward decrease in H2O2photochemical production rates is mainly due to corresponding poleward decreases in irradiance and temperature and not spatial variations in the composition and concentrations of DOM or metals. Hydrogen peroxide photoproduction AQYs and production rates were not constant and not independent of the photon exposure as has been implicitly assumed in many published studies. Therefore, care should be taken when comparing and interpreting published H2O2AQY or photochemical production rate results. Modeled depth-integrated H2O2 photochemical production rates were in excellent agreement with measured rates obtained from in situ free-floating drifter experiments conducted during a Gulf of Maine cruise, with differences (ca. 10%) well within measurement and modeling uncertainties. Results from this study provide a comprehensive data set of wavelength and temperature-dependent AQYs to model and remotely sense hydrogen peroxide photochemical production rates globally.
format Article in Journal/Newspaper
author Kieber, David J.
Miller, Gary W.
Neale, Patrick J.
Mopper, Kenneth
author_facet Kieber, David J.
Miller, Gary W.
Neale, Patrick J.
Mopper, Kenneth
author_sort Kieber, David J.
title Wavelength and Temperature-Dependent Apparent Quantum Yields for Photochemical Formation of Hydrogen Peroxide in Seawater
title_short Wavelength and Temperature-Dependent Apparent Quantum Yields for Photochemical Formation of Hydrogen Peroxide in Seawater
title_full Wavelength and Temperature-Dependent Apparent Quantum Yields for Photochemical Formation of Hydrogen Peroxide in Seawater
title_fullStr Wavelength and Temperature-Dependent Apparent Quantum Yields for Photochemical Formation of Hydrogen Peroxide in Seawater
title_full_unstemmed Wavelength and Temperature-Dependent Apparent Quantum Yields for Photochemical Formation of Hydrogen Peroxide in Seawater
title_sort wavelength and temperature-dependent apparent quantum yields for photochemical formation of hydrogen peroxide in seawater
publisher ODU Digital Commons
publishDate 2014
url https://digitalcommons.odu.edu/chemistry_fac_pubs/150
https://digitalcommons.odu.edu/cgi/viewcontent.cgi?article=1153&context=chemistry_fac_pubs
geographic Pacific
geographic_facet Pacific
genre Antarc*
Antarctica
genre_facet Antarc*
Antarctica
op_source Chemistry & Biochemistry Faculty Publications
op_relation https://digitalcommons.odu.edu/chemistry_fac_pubs/150
https://digitalcommons.odu.edu/cgi/viewcontent.cgi?article=1153&context=chemistry_fac_pubs
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