Photolysis of dimethylsulfide in the northern Adriatic Sea: Dependence on substrate concentration, irradiance and DOC concentration

Albert Brugger; Doris Slezak; Ingrid Obernosterer; Gerhard J. Herndl

doi:10.1016/S0304-4203(97)00090-X

Photolysis of dimethylsulfide in the northern Adriatic Sea: Dependence on substrate concentration, irradiance and DOC concentration

Albert Brugger
, Doris Slezak
, Ingrid Obernosterer
, Gerhard J. Herndl

Publications: Contribution to journal › Article › Peer Reviewed

Abstract

The influence of dimethylsulfide (DMS) and DOC concentrations and varying irradiance levels on the photolysis of DMS was evaluated. Laboratory experiments were conducted with 0.2 μm filtered aged seawater from the northern Adriatic Sea and artificial radiation. Photolysis of DMS followed pseudo first-order kinetics with the photolysis rate constant k directly dependent on irradiance intensity. Photolysis rates of DMS were also directly dependent on DOC concentration. In field experiments using natural solar radiation, DMS (5 nM initial conc.) was removed from freshly collected 0.2 μm filtered seawater at rates of 0.6 ± 0.1 nmol l^-1 h^-1, equivalent to k = 0.12 ± 0.02 h^-1. Based on these photolysis rates and using in situ profiles of downwelling irradiance, DMS and DOC concentrations, we calculated a water-column-integrated DMS removal rate due to photolysis of 165 ± 20 μmol m^-2 d^-1. Averaged over the entire water column, the photochemical turnover time of DMS was 3.1 ± 0.5 days. Most (88%) of the DMS was photolyzed in the top 10 m of the water column. Comparison of our data with photochemical and biological turnover rates published elsewhere indicates that photolysis may be an important sink of DMS in shallow coastal waters.

Original language	English
Pages (from-to)	321-331
Number of pages	11
Journal	Marine Chemistry
Volume	59
Issue number	3-4
DOIs	https://doi.org/10.1016/S0304-4203(97)00090-X
Publication status	Published - 1 Jan 1998
Externally published	Yes

Funding

We want to thank the staff of the Center for Marine Research at the Ruder Boskovic Institute at Rovinj (Croatia) for providing laboratory space during the field work as well as the colleagues at our department, especially I. Kolar and A. Heissenberger for DOC analyses. Special thanks go to E. Lorbeer for invaluable help in establishing the GC system and to R. Kartusch for measuring the emission spectra of the lamps used in the lab experiments. The work was stimulated by discussions with U.P. Fringeli, D. Kieber, R. Kiene, and K. Mopper. Funding support was provided by grants from the Austrian Science Foundation (Fonds zur Förderung der wissenschaftlichen Forschung, FWF project # 10023 to G.J.H.), by the Austrian Ministry of Science (East–West Cooperation), and by the Environment and Climate Program of the European Union (Microbial community response to UV-B stress in European waters, project # EV5V-CT94-0512). This work is part of the fulfilment of the requirements towards a M.S. degree at the University of Vienna for A.B.

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 14 Life Below Water

Austrian Fields of Science 2012

106021 Marine biology

Keywords

Bacterioplankton
Dimethylsulfide
Dissolved organic carbon
Northern Adriatic Sea
Photolysis
Ultraviolet radiation

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10.1016/S0304-4203(97)00090-X

Cite this

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title = "Photolysis of dimethylsulfide in the northern Adriatic Sea: Dependence on substrate concentration, irradiance and DOC concentration",

abstract = "The influence of dimethylsulfide (DMS) and DOC concentrations and varying irradiance levels on the photolysis of DMS was evaluated. Laboratory experiments were conducted with 0.2 μm filtered aged seawater from the northern Adriatic Sea and artificial radiation. Photolysis of DMS followed pseudo first-order kinetics with the photolysis rate constant k directly dependent on irradiance intensity. Photolysis rates of DMS were also directly dependent on DOC concentration. In field experiments using natural solar radiation, DMS (5 nM initial conc.) was removed from freshly collected 0.2 μm filtered seawater at rates of 0.6 ± 0.1 nmol l-1 h-1, equivalent to k = 0.12 ± 0.02 h-1. Based on these photolysis rates and using in situ profiles of downwelling irradiance, DMS and DOC concentrations, we calculated a water-column-integrated DMS removal rate due to photolysis of 165 ± 20 μmol m-2 d-1. Averaged over the entire water column, the photochemical turnover time of DMS was 3.1 ± 0.5 days. Most (88\%) of the DMS was photolyzed in the top 10 m of the water column. Comparison of our data with photochemical and biological turnover rates published elsewhere indicates that photolysis may be an important sink of DMS in shallow coastal waters.",

keywords = "Bacterioplankton, Dimethylsulfide, Dissolved organic carbon, Northern Adriatic Sea, Photolysis, Ultraviolet radiation",

author = "Albert Brugger and Doris Slezak and Ingrid Obernosterer and Herndl, \{Gerhard J.\}",

year = "1998",

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doi = "10.1016/S0304-4203(97)00090-X",

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T1 - Photolysis of dimethylsulfide in the northern Adriatic Sea

T2 - Dependence on substrate concentration, irradiance and DOC concentration

AU - Brugger, Albert

AU - Slezak, Doris

AU - Obernosterer, Ingrid

AU - Herndl, Gerhard J.

PY - 1998/1/1

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N2 - The influence of dimethylsulfide (DMS) and DOC concentrations and varying irradiance levels on the photolysis of DMS was evaluated. Laboratory experiments were conducted with 0.2 μm filtered aged seawater from the northern Adriatic Sea and artificial radiation. Photolysis of DMS followed pseudo first-order kinetics with the photolysis rate constant k directly dependent on irradiance intensity. Photolysis rates of DMS were also directly dependent on DOC concentration. In field experiments using natural solar radiation, DMS (5 nM initial conc.) was removed from freshly collected 0.2 μm filtered seawater at rates of 0.6 ± 0.1 nmol l-1 h-1, equivalent to k = 0.12 ± 0.02 h-1. Based on these photolysis rates and using in situ profiles of downwelling irradiance, DMS and DOC concentrations, we calculated a water-column-integrated DMS removal rate due to photolysis of 165 ± 20 μmol m-2 d-1. Averaged over the entire water column, the photochemical turnover time of DMS was 3.1 ± 0.5 days. Most (88%) of the DMS was photolyzed in the top 10 m of the water column. Comparison of our data with photochemical and biological turnover rates published elsewhere indicates that photolysis may be an important sink of DMS in shallow coastal waters.

AB - The influence of dimethylsulfide (DMS) and DOC concentrations and varying irradiance levels on the photolysis of DMS was evaluated. Laboratory experiments were conducted with 0.2 μm filtered aged seawater from the northern Adriatic Sea and artificial radiation. Photolysis of DMS followed pseudo first-order kinetics with the photolysis rate constant k directly dependent on irradiance intensity. Photolysis rates of DMS were also directly dependent on DOC concentration. In field experiments using natural solar radiation, DMS (5 nM initial conc.) was removed from freshly collected 0.2 μm filtered seawater at rates of 0.6 ± 0.1 nmol l-1 h-1, equivalent to k = 0.12 ± 0.02 h-1. Based on these photolysis rates and using in situ profiles of downwelling irradiance, DMS and DOC concentrations, we calculated a water-column-integrated DMS removal rate due to photolysis of 165 ± 20 μmol m-2 d-1. Averaged over the entire water column, the photochemical turnover time of DMS was 3.1 ± 0.5 days. Most (88%) of the DMS was photolyzed in the top 10 m of the water column. Comparison of our data with photochemical and biological turnover rates published elsewhere indicates that photolysis may be an important sink of DMS in shallow coastal waters.

KW - Bacterioplankton

KW - Dimethylsulfide

KW - Dissolved organic carbon

KW - Northern Adriatic Sea

KW - Photolysis

KW - Ultraviolet radiation

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DO - 10.1016/S0304-4203(97)00090-X

M3 - Article

AN - SCOPUS:0031897111

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VL - 59

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IS - 3-4

ER -

Photolysis of dimethylsulfide in the northern Adriatic Sea: Dependence on substrate concentration, irradiance and DOC concentration

Abstract

Funding

UN SDGs

Austrian Fields of Science 2012

Keywords

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