Advances in understanding of air–sea exchange and cycling of greenhouse gases in the upper ocean

Bange, Hermann W.; Mongwe, Precious; Shutler, Jamie D.; Arévalo-Martínez, Damian L.; Bianchi, Daniele; Lauvset, Siv K.; Liu, Chunying; Löscher, Carolin R.; Martins, Helena; Rosentreter, Judith A.; Schmale, Oliver; Steinhoff, Tobias; Upstill-Goddard, Robert C.; Wanninkhof, Rik; Wilson, Samuel T.; Xie, Huixiang

doi:10.1525/elementa.2023.00044

Cited by 6 publications

(1 citation statement)

References 193 publications

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“…One carbon (C1) compounds, defined as molecules with no carbon-carbon bond, such as methane, methanol, methyl sulfides and methyl amines, are widespread on earth and play key roles in atmospheric chemistry and global warming (Yang et al, 2013;Masson-Delmotte et al, 2018;Sun et al, 2019;Mao et al, 2022;Hopkins et al, 2023;Bange et al, 2024). While methane and dimethyl sulfide have been intensively studied due to their impact on climate change (Charlson et al, 1987;Dean et al, 2018;Zhuang et al, 2018a;Forster et al, 2021;Mao et al, 2021), little is known about the biogeochemical cycling of other C1 compounds, such as trimethylamine and methanol (Van Neste et al, 1987;King, 1988;Singh et al, 2001;Zhuang et al, 2019;Fitzsimons et al, 2023).…”

Section: Introductionmentioning

confidence: 99%

Simultaneous determination of seawater trimethylamine and methanol by purge and trap gas chromatography using dual nitrogen-phosphorus detector and flame-ionization detector

Jiang,

Zhou,

Wang

et al. 2024

Front. Mar. Sci.

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Compounds containing one carbon atom or no carbon-carbon bond (C1 compounds), such as trimethylamine and methanol, are important climate relevant gases in the atmosphere and play key roles in global warming. The ocean is a significant source or sink of such compounds, while the concentrations of trimethylamine and methanol in seawater remain largely unconstrained due to the analytical challenges involved. Therefore, it is necessary to establish a continuous, rapid and sensitive method for the determination of these compounds with high polarity, volatility or solubility at low seawater concentrations. Here we developed a purge and trap system, coupled to a gas chromatography equipped with dual nitrogen phosphorus detector (NPD) and flame ionization detector (FID) for the simultaneous online analysis of trimethylamine and methanol at nanomolar range using a small sample volume (~ 10 mL). The dual detection of trimethylamine and methanol with NPD or FID was achieved by installing a capillary flow splitter between the capillary column and detectors. After modification and optimization of the setup and conditions, excellent linearity (R2 > 0.99) and repeatability (< 6%) were obtained for both compounds; the detection limits for trimethylamine and methanol were 0.3 nM and 17.6 nM, respectively. Using this method, water samples collected from coastal and open ocean were analyzed; trimethylamine and methanol concentrations ranged from 0.6 to 18.8 nM and 26.0 to 256.2 nM, respectively. Collectively, this method allowed for online, rapid, sensitive and simultaneous quantification of trace trimethylamine and methanol concentrations with low-cost instrumentation and small sample volume, which makes it promising for further application in volatile compounds analysis in marine environments.

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Section: Introductionmentioning

confidence: 99%

Simultaneous determination of seawater trimethylamine and methanol by purge and trap gas chromatography using dual nitrogen-phosphorus detector and flame-ionization detector

Jiang,

Zhou,

Wang

et al. 2024

Front. Mar. Sci.

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Distribution and sea-to-air fluxes of nitrous oxide and methane from a seasonally hypoxic coastal zone in the southeastern Arabian Sea

Arya,

Gireeshkumar,

Vignesh

et al. 2024

Marine Pollution Bulletin

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MNPM: research on metabolic neural network prediction model for predicting carbon emission accuracy

Luo,

Shi,

Liu

et al. 2024

Environ. Res. Commun.

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With the development of the social economy and increasing energy consumption, carbon emissions become a matter of global concern. It's useful to forecast the trends in carbon emissions to assist policy-maker in formulating effective emission reduction strategies. In this paper, we propose a carbon emissions forecast model, which comprehensively considers the combined impact of multiple carbon emissions-related factors in China to conduct more accurate real-world conditions. Also, we employ a non-linear model that combines time offset with rolling time training method to optimize the non-linear characteristics of data. Moreover, we introduce a dynamic iterative biological metabolic model to handle time series data, effectively addressing data lag and errors. Experiments show our scheme has better performance in filtering out extraneous data, with an average relative residual of 0.055 and an average ratio bias of 0.049, compared with other schemes.

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Advances in understanding of air–sea exchange and cycling of greenhouse gases in the upper ocean

Cited by 6 publications

References 193 publications

Simultaneous determination of seawater trimethylamine and methanol by purge and trap gas chromatography using dual nitrogen-phosphorus detector and flame-ionization detector

Simultaneous determination of seawater trimethylamine and methanol by purge and trap gas chromatography using dual nitrogen-phosphorus detector and flame-ionization detector

Distribution and sea-to-air fluxes of nitrous oxide and methane from a seasonally hypoxic coastal zone in the southeastern Arabian Sea

MNPM: research on metabolic neural network prediction model for predicting carbon emission accuracy

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