Relationship between the lipid compositions of marine aerosols, the sea surface microlayer, and subsurface water

Marty, Jean-Claude; Saliot, A.; Buat‐Ménard, P.; Chesselet, R.; Hunter, Keith A.

doi:10.1029/jc084ic09p05707

Cited by 152 publications

(108 citation statements)

References 26 publications

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“…Since there are no important sources for elemental carbon in the Southern Ocean, water-insoluble organic compounds might have been more enriched in the aerosols in this region. Unsaturated fatty acids are a likely source of aerosol TC since they are major lipid components in the marine algae and are enriched in the micro-layers of sea surfaces (Marty et al, 1979). The levels of DCAs-C/TC over the western Pacific in this work are significantly higher than those (1.3 to 4.6%) observed in Tokyo (Sempéré and Kawamura, 1994), demonstrating that photochemical production of DCAs during the long-range atmospheric transport may be important in the Pacific.…”

Section: Resultscontrasting

confidence: 52%

Water-Soluble dicarboxylic acids, ketoacids and dicarbonyls in the atmospheric aerosols over the southern ocean and western pacific ocean

2006

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Water-soluble dicarboxylic acids (DCAs), ketoacids, and α-dicarbonyls in the marine aerosol samples collected over the Southern Ocean and western Pacific Ocean were determined. Oxalic acid was the most abundant species, followed by malonic acid and then succinic acid. It is suggested that aerosol concentrations of the organics over the Southern Ocean in this work represent their global background levels. Over the Southern Ocean, total concentrations of DCAs ranged from 2.9 to 7.2 ng m -3 (average: 4.5 ng m in situ photochemical production is more significant over the Southern Ocean although absolute concentrations of the organics are much lower.

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Section: Resultscontrasting

confidence: 52%

Water-Soluble dicarboxylic acids, ketoacids and dicarbonyls in the atmospheric aerosols over the southern ocean and western pacific ocean

2006

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“…The surface potentials of the compounds are compared (Table 1) by measuring AV, at the point where the film has initially formed a close-packed monolayer but is not yet under further compression (henceforth referred to as a noncompressed, close-packed monolayer), taken at the intersection of the tangent to the yf vs. A compression curve with the A-axis (Langmuir 1917). Stearic, myristic, palinitic, palmitoleic, and oleic acids are the principal fatty acids found in sea surface film hydrolysates (Garrett 1964;Duce et al 1972;Larsson et al 1974;Daumas et al 1976;Kattnel and Brockmann 1978;Marty et al 1979) and probably occur in natural films primarily as components of triglycerides, wax esters, phosphol ipids, and as free fatty acids. The AV, values for stearic acid at pH 3.0 and 8.2 are +380 and -5 (Table 1); Fig.…”

Section: Muteandismentioning

confidence: 99%

Surface potential and film pressure measurements in seawater systems1

Vleet

Williams

1983

Limnology & Oceanography

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Surface potential (AV,) and film pressure (rr) measurements of monolayers of standard compounds spread on organic carbon-free seawater were compared to AV, and yf values for natural films. The results suggest that natural seawater films most resemble films composed of proteins, polysaccharides, humic-type material, and waxes. They contain relatively small amounts of free fatty acids, free fatty alcohols, or triglycerides, but the plesence of relatively small amounts of these can strongly affect the resultant surface potential and film pressure of multicomponent films. Films formed very rapidly initially and formation rates decreased with time. Nevertheless, the potential for generating new films in 72-liter natural seawater samples did not markedly decrease with time. Surface films derived from marine phytoplankton cultures had AV, and Yf properties similar to those of naturally occurring sea-surface films. Cultures of marine bacteria contributed much less surface-active material for film formation than did those of phytoplankton.

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“…7,8 Phospholipids and fatty acids (mainly C 12À18 ) are common products of biomembrane disintegration. 9,10 Previous work has indicated that fatty acid lipids in sea salt particles can be enhanced by factors of (5-9) Â 10 4 compared to ocean surface water. 10 In addition to the material from biomembranes, bacteria can also be enriched on the particle surfaces.…”

Section: Introductionmentioning

confidence: 99%

“…9,10 Previous work has indicated that fatty acid lipids in sea salt particles can be enhanced by factors of (5-9) Â 10 4 compared to ocean surface water. 10 In addition to the material from biomembranes, bacteria can also be enriched on the particle surfaces. 11,12 An organic coating on sea salt particles is expected to modify the chemical and physical properties of the particles including their radiative properties.…”

Section: Introductionmentioning

confidence: 99%

A new mechanism for ozonolysis of unsaturated organics on solids: phosphocholines on NaCl as a model for sea salt particles

Karagulian

Lea

Dilbeck

et al. 2008

Phys. Chem. Chem. Phys.

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PERSPECTIVEThe ozonolysis of an approximately one monolayer film of 1-oleoyl-2-palmitoyl-sn-glycero-3-phosphocholine (OPPC) on NaCl was followed in real time using diffuse reflection infrared Fourier transform spectrometry (DRIFTS) at 23 1C. Matrix-assisted laser desorption/ionization (MALDI) mass spectrometry and Auger electron spectroscopy were used to confirm the identification of the products. Ozone concentrations ranged from 1.7 Â 10 12 to 7.0 Â 10 13 molecules cm À3 (70 ppb to 2.8 ppm). Upon exposure to O 3 , there was a loss of CQC accompanied by the formation of a strong band at B1110 cm À1 due to the formation of a stable secondary ozonide (1,2,4-trioxolane, SOZ). The yield of the SOZ was smaller when the reaction was carried out in the presence of water vapor at concentrations corresponding to relative humidities between 2 and 25%.

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Relationship between the lipid compositions of marine aerosols, the sea surface microlayer, and subsurface water

Cited by 152 publications

References 26 publications

Water-Soluble dicarboxylic acids, ketoacids and dicarbonyls in the atmospheric aerosols over the southern ocean and western pacific ocean

Water-Soluble dicarboxylic acids, ketoacids and dicarbonyls in the atmospheric aerosols over the southern ocean and western pacific ocean

Surface potential and film pressure measurements in seawater systems1

A new mechanism for ozonolysis of unsaturated organics on solids: phosphocholines on NaCl as a model for sea salt particles

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