Model reactions and natural occurrence of furans from hypersaline environments

Volatile organic compounds like furan and its derivatives are important for atmospheric properties and reactions. In this work the known abiotic formation of furan from catechol under Fenton-like conditions with Fe<sup>3+</sup> sulfate was revised by the use of a...

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Main Authors: T. Krause, C. Tubbesing, K. Benzing, H. F. Schöler
Format: Article
Language:English
Published: Copernicus Publications 2014-05-01
Series:Biogeosciences
Online Access:http://www.biogeosciences.net/11/2871/2014/bg-11-2871-2014.pdf
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spelling doaj-a04950166f844cf8bdd4e6b56868fe242020-11-25T00:06:41ZengCopernicus PublicationsBiogeosciences1726-41701726-41892014-05-0111102871288210.5194/bg-11-2871-2014Model reactions and natural occurrence of furans from hypersaline environmentsT. Krause0C. Tubbesing1K. Benzing2H. F. Schöler3Institute of Earth Sciences, University of Heidelberg, Heidelberg, GermanyInstitute of Earth Sciences, University of Heidelberg, Heidelberg, GermanyInstitute of Inorganic Chemistry, University of Heidelberg, Heidelberg, GermanyInstitute of Earth Sciences, University of Heidelberg, Heidelberg, GermanyVolatile organic compounds like furan and its derivatives are important for atmospheric properties and reactions. In this work the known abiotic formation of furan from catechol under Fenton-like conditions with Fe<sup>3+</sup> sulfate was revised by the use of a bispidine Fe<sup>2+</sup> complex as a model compound for iron with well-known characteristics. While total yields were comparable to those with the Fe<sup>3+</sup> salt, the bispidine Fe<sup>2+</sup> complex is a better catalyst as the turnover numbers of the active iron species were higher. Additionally, the role of iron and pH is discussed in relation to furan formation from model compounds and in natural sediment and water samples collected from the Dead Sea and several salt lakes in Western Australia. Various alkylated furans and even traces of halogenated furans (3-chlorofuran and 3-bromofuran) were found in some Australian samples. 3-chlorofuran was found in three sediments and four water samples, whereas 3-bromofuran was detected in three water samples. Further, the emission of furans is compared to the abundance of several possible precursors such as isoprene and aromatic hydrocarbons as well as to the related thiophenes. <br><br> It is deduced that the emissions of volatile organic compounds such as furans contribute to the formation of ultra-fine particles in the vicinity of salt lakes and are important for the local climate.http://www.biogeosciences.net/11/2871/2014/bg-11-2871-2014.pdf
collection DOAJ
language English
format Article
sources DOAJ
author T. Krause
C. Tubbesing
K. Benzing
H. F. Schöler
spellingShingle T. Krause
C. Tubbesing
K. Benzing
H. F. Schöler
Model reactions and natural occurrence of furans from hypersaline environments
Biogeosciences
author_facet T. Krause
C. Tubbesing
K. Benzing
H. F. Schöler
author_sort T. Krause
title Model reactions and natural occurrence of furans from hypersaline environments
title_short Model reactions and natural occurrence of furans from hypersaline environments
title_full Model reactions and natural occurrence of furans from hypersaline environments
title_fullStr Model reactions and natural occurrence of furans from hypersaline environments
title_full_unstemmed Model reactions and natural occurrence of furans from hypersaline environments
title_sort model reactions and natural occurrence of furans from hypersaline environments
publisher Copernicus Publications
series Biogeosciences
issn 1726-4170
1726-4189
publishDate 2014-05-01
description Volatile organic compounds like furan and its derivatives are important for atmospheric properties and reactions. In this work the known abiotic formation of furan from catechol under Fenton-like conditions with Fe<sup>3+</sup> sulfate was revised by the use of a bispidine Fe<sup>2+</sup> complex as a model compound for iron with well-known characteristics. While total yields were comparable to those with the Fe<sup>3+</sup> salt, the bispidine Fe<sup>2+</sup> complex is a better catalyst as the turnover numbers of the active iron species were higher. Additionally, the role of iron and pH is discussed in relation to furan formation from model compounds and in natural sediment and water samples collected from the Dead Sea and several salt lakes in Western Australia. Various alkylated furans and even traces of halogenated furans (3-chlorofuran and 3-bromofuran) were found in some Australian samples. 3-chlorofuran was found in three sediments and four water samples, whereas 3-bromofuran was detected in three water samples. Further, the emission of furans is compared to the abundance of several possible precursors such as isoprene and aromatic hydrocarbons as well as to the related thiophenes. <br><br> It is deduced that the emissions of volatile organic compounds such as furans contribute to the formation of ultra-fine particles in the vicinity of salt lakes and are important for the local climate.
url http://www.biogeosciences.net/11/2871/2014/bg-11-2871-2014.pdf
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