Reactive chlorine in the marine boundary layer in the outflow of polluted continental air: A model study

Pechtl, S.; Glasow, R. von

doi:10.1029/2007gl029761

Cited by 70 publications

(62 citation statements)

References 28 publications

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“…During this period, the prevailing wind direction was westerly to northwesterly at 5-10 m/s, suggesting these data represent sampling of aged continental airmasses. Our observations show concentration maxima were 10-100 pptv during this period, which on the one hand are significant, relative to previously predicted values of ClNO 2 (Pechtl and von Glasow, 2007), but also illustrate the low detection limits of this method. Most nights while within the Long Island Sound (data not shown), N 2 O 5 reached 100-250 pptv on average during night, with average nighttime ClNO 2 being generally equal to or higher at mixing ratios of 150-200 pptv.…”

Section: Field Performancecontrasting

confidence: 47%

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Chlorine activation by N2O5: simultaneous, in situ detection of ClNO2 and N2O5 by chemical ionization mass spectrometry

2009

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Abstract. We report a new method for the simultaneous in situ detection of nitryl chloride (ClNO 2 ) and dinitrogen pentoxide (N 2 O 5 ) using chemical ionization mass spectrometry (CIMS). The technique relies on the formation and detection of iodide ion-molecule clusters, I(ClNO 2 ) − and I(N 2 O 5 ) − . The novel N 2 O 5 detection scheme is direct. It does not suffer from high and variable chemical interferences, which are associated with the typical method of nitrate anion detection. We address the role of water vapor, CDC electric field strength, and instrument zero determinations, which influence the overall sensitivity and detection limit of this method. For both species, the method demonstrates high sensitivity (>1 Hz/pptv), precision (∼10% for 100 pptv in 1 s), and accuracy (∼20%), the latter ultimately determined by the nitrogen dioxide (NO 2 ) cylinder calibration standard and characterization of inlet effects. For the typically low background signals (<10 Hz) and high selectivity, we estimate signal-tonoise (S/N) ratios of 2 for 1 pptv in 60 s averages, but uncertainty associated with the instrumental zero currently leads to an ultimate detection limit of ∼5 pptv for both species. We validate our approach for the simultaneous in situ measurement of ClNO 2 and N 2 O 5 while on board the R/V Knorr as part of the ICEALOT 2008 Field Campaign.

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Section: Field Performancecontrasting

confidence: 47%

“…A recent theoretical study predicted ClNO 2 mixing ratios of up to 50 parts per trillion by volume (pptv) in polluted regions (e.g. the Long Island Sound) (Pechtl and von Glasow, 2007).…”

Section: Introductionmentioning

confidence: 99%

Chlorine activation by N2O5: simultaneous, in situ detection of ClNO2 and N2O5 by chemical ionization mass spectrometry

2009

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“…By or after sorption and reactions such as photolysis, oxidation and reduction, any kind of these chlorine species can induce chloride condensation at the ISA particle surface. Acid tropospheric aerosols and gases such as H 2 SO 4 , HNO 3 , oxalic acid and weaker organic acids further induce the formation of gaseous HCl from sea-salt aerosol (Drozd et al, 2014;Kim and Park, 2012;Pechtl and von Glasow, 2007). Since 2004, evidence and proposals for possible catalyst-like sunshineinduced cooperative heterogeneous reaction between Fe(II), Fe(III), Cl − , q Cl and HCl fixed on mineral dust particles and in the gaseous phase on the CH 4 oxidation have been known (Oeste, 2004;.…”

Section: Oxidation Of Methane and Other Ghgsmentioning

confidence: 99%

Climate engineering by mimicking natural dust climate control: the iron salt aerosol method

et al. 2017

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Abstract. Power stations, ships and air traffic are among the most potent greenhouse gas emitters and are primarily responsible for global warming. Iron salt aerosols (ISAs), composed partly of iron and chloride, exert a cooling effect on climate in several ways. This article aims firstly to examine all direct and indirect natural climate cooling mechanisms driven by ISA tropospheric aerosol particles, showing their cooperation and interaction within the different environmental compartments. Secondly, it looks at a proposal to enhance the cooling effects of ISA in order to reach the optimistic target of the Paris climate agreement to limit the global temperature increase between 1.5 and 2 • C.Mineral dust played an important role during the glacial periods; by using mineral dust as a natural analogue tool and by mimicking the same method used in nature, the proposed ISA method might be able to reduce and stop climate warming. The first estimations made in this article show that by doubling the current natural iron emissions by ISA into the troposphere, i.e., by about 0.3 Tg Fe yr −1 , artificial ISA would enable the prevention or even reversal of global warming. The ISA method proposed integrates technical and economically feasible tools.

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“…Furthermore, ship emissions may induce release of reactive chlorine from sea salt, [80] which has a lifetime of several days due to multi-phase cycling. [119] As the increase in chlorine atoms is maintained for a longer period than the lifetime of the ship plume this will further reduce the atmospheric lifetime of methane. Elevated levels of formaldehyde (HCHO) in ship plumes detected by satellite [104] are probably attributable to enhanced oxidation of methane caused by elevated OH concentrations.…”

Section: Atmospheric Nutrient Supply To the Surface Oceanmentioning

confidence: 99%

Evolving research directions in Surface Ocean - Lower Atmosphere (SOLAS) science

Law¹,

Breviere²,

Leeuw³

et al. 2013

Environ. Chem.

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Environmental context. Understanding the exchange of energy, gases and particles at the ocean-atmosphere interface is critical for the development of robust predictions of, and response to, future climate change. The international Surface Ocean-Lower Atmosphere Study (SOLAS) coordinates multi-disciplinary oceanatmosphere research projects that quantify and characterise this exchange. This article details five new SOLAS research strategies -upwellings and associated oxygen minimum zones, sea ice, marine aerosols, atmospheric nutrient supply and ship emissions -that aim to improve knowledge in these critical areas.Abstract. This review focuses on critical issues in ocean-atmosphere exchange that will be addressed by new research strategies developed by the international Surface Ocean-Lower Atmosphere Study (SOLAS) research community. Eastern boundary upwelling systems are important sites for CO 2 and trace gas emission to the atmosphere, and the proposed research will examine how heterotrophic processes in the underlying oxygen-deficient waters interact with the climate system. The second regional research focus will examine the role of sea-ice biogeochemistry and its interaction with atmospheric chemistry. Marine aerosols are the focus of a research theme directed at understanding the processes that determine their abundance, chemistry and radiative properties. A further area of aerosol-related research examines atmospheric nutrient deposition in the surface ocean, and how differences in origin, atmospheric processing and composition influence surface ocean biogeochemistry. Ship emissions are an increasing source of aerosols, nutrients and toxins to the atmosphere and ocean surface, and an emerging area of research will examine their effect on ocean biogeochemistry and atmospheric chemistry. The primary role of SOLAS is to coordinate coupled multi-disciplinary research within research strategies that address these issues, to achieve robust representation of critical ocean-atmosphere exchange processes in Earth System models.

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Reactive chlorine in the marine boundary layer in the outflow of polluted continental air: A model study

Cited by 70 publications

References 28 publications

Chlorine activation by N<sub>2</sub>O<sub>5</sub>: simultaneous, in situ detection of ClNO<sub>2</sub> and N<sub>2</sub>O<sub>5</sub> by chemical ionization mass spectrometry

Chlorine activation by N<sub>2</sub>O<sub>5</sub>: simultaneous, in situ detection of ClNO<sub>2</sub> and N<sub>2</sub>O<sub>5</sub> by chemical ionization mass spectrometry

Climate engineering by mimicking natural dust climate control: the iron salt aerosol method

Evolving research directions in Surface Ocean - Lower Atmosphere (SOLAS) science

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Reactive chlorine in the marine boundary layer in the outflow of polluted continental air: A model study

Cited by 70 publications

References 28 publications

Chlorine activation by N&lt;sub&gt;2&lt;/sub&gt;O&lt;sub&gt;5&lt;/sub&gt;: simultaneous, in situ detection of ClNO&lt;sub&gt;2&lt;/sub&gt; and N&lt;sub&gt;2&lt;/sub&gt;O&lt;sub&gt;5&lt;/sub&gt; by chemical ionization mass spectrometry

Chlorine activation by N&lt;sub&gt;2&lt;/sub&gt;O&lt;sub&gt;5&lt;/sub&gt;: simultaneous, in situ detection of ClNO&lt;sub&gt;2&lt;/sub&gt; and N&lt;sub&gt;2&lt;/sub&gt;O&lt;sub&gt;5&lt;/sub&gt; by chemical ionization mass spectrometry

Climate engineering by mimicking natural dust climate control: the iron salt aerosol method

Evolving research directions in Surface Ocean - Lower Atmosphere (SOLAS) science

Contact Info

Product

Resources

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Chlorine activation by N<sub>2</sub>O<sub>5</sub>: simultaneous, in situ detection of ClNO<sub>2</sub> and N<sub>2</sub>O<sub>5</sub> by chemical ionization mass spectrometry

Chlorine activation by N<sub>2</sub>O<sub>5</sub>: simultaneous, in situ detection of ClNO<sub>2</sub> and N<sub>2</sub>O<sub>5</sub> by chemical ionization mass spectrometry