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Environmental control of dimethylsulfoxide (DMSO) cycling under ocean acidification (2016)

Zindler-Schlundt, Cathleen ; Lutterbeck, Hannah ; Endres, Sonja ; [et al.]

CSIRO

In: Environmental Chemistry, 13 (2). pp. 330-339.

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Publication Date: 2019-02-01

Description: Ongoing ocean acidification (OA), caused by continuous anthropogenic CO2 emissions, seems to decrease the concentrations of dimethylsulfide (DMS) and its precursor dimethylsulfoniopropionate (DMSP) in the surface oceans. This might have consequences for future climate due to changes in formation and growth of atmospheric sulfate aerosols formed from DMS. However, the effect of OA on dimethylsulfoxide (DMSO), another intermediate of the DMS pathway and a potential precursor of oceanic methane, is unknown. Therefore, we investigated the effect of OA on the DMSO concentrations in a mesocosm study conducted in a Norwegian fjord in spring 2011. Dissolved and particulate DMSO concentrations (DMSOd/p) decreased with pH during the course of the experiment. Temperature correlated inversely with DMSOd concentrations during the first week of the experiment, reflecting the influence of temperature dependent biological activities on DMSOd pathways. Furthermore, DMSOd increased with the cell abundance of heterotrophic bacteria, cryptophytes, and the cyanobacterium Synechococcus sp. Nitrate availability influenced the distribution of cryptophytes and Synechococcus sp. in the same way as DMSOd, indicating again a possible link between these phytoplankton taxa and DMSOd. We conclude that ongoing OA may lead to decreasing DMSO concentrations in the surface ocean that, in turn, might affect the oceanic distributions of DMS and methane.

Type: Article , PeerReviewed

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Nitrite removal improves hydroxylamine analysis in aqueous solution by conversion with iron(III) (2013)

Kock, Annette ; Bange, Hermann W.

CSIRO

In: Environmental Chemistry, 10 . pp. 64-71.

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Publication Date: 2019-09-23

Description: Dissolved hydroxylamine (NH2OH) is a hort-lived compound produced in the oceanic environment during nitrification and dissimilatory eduction of nitrate to ammonium (DNRA). The ferric ammonium sulfate (FAS) conversion method is the only method available so far to determine dissolved NH2OH in nanomolar concentrations in seawater. We show that side reactions of dissolved nitrite (NO2-) can result in a significant bias in the NH2OH concentration measurements when applying the FAS conversion method. We propose to scavenge dissolved NO2- by addition of sulfanilamide to suppress effectively the undesired side reactions by NO2-. This modification of the FAS conversion method will allow a NH2OH determination even in oceanic regions with high NO2- concentrations. A reliable detection of NH2OH in seawater samples can give us a clue about the occurrence of active nitrification or DNRA in the ocean and,therefore, will provide further insights about the oceanic nitrogen cycle.

Type: Article , PeerReviewed

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Marine pathways to nitrous oxide (2010)

Bange, Hermann W. ; Freing, Alina ; Kock, Annette ; [et al.]

Earthscan

In: In: Nitrous oxide and climate change. Earthscan, London, pp. 36-62, 232 pp. ISBN 978-1-84407-757-1

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Publication Date: 2019-09-23

Type: Book chapter , NonPeerReviewed

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MEMENTO: A proposal to develop a database of marine nitrous oxide and methane measurements (2009)

Bange, Hermann W. ; Bell, Thomas G. ; Cornejo, M. ; [et al.]

CSIRO

In: Environmental Chemistry, 6 (3). pp. 195-197.

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Publication Date: 2019-09-23

Description: Environmental context. Nitrous oxide and methane are atmospheric trace gases and, because they are strong greenhouse gases, they contribute significantly to the ongoing global warming of the Earth’s atmosphere. Despite the well established fact that the world’s oceans release nitrous oxide and methane to the atmosphere, the oceanic emission estimates of both gases are only poorly quantified. The MEMENTO (MarinE MethanE and NiTrous Oxide) database initiative is proposed as an effective way by which existing nitrous oxide and methane measurements can be used to reduce the uncertainty of the oceanic emissions estimates by establishing a global database.

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