Peroxyacetyl nitrate (PAN) concentrations in the Antarctic troposphere measured during the photochemical experiment at Neumayer (PEAN'99)

Jacobi, Hans-Werner; Weller, Rolf; Jones, A. E.; Anderson, P. S.; Schrems, Otto

doi:10.1016/s1352-2310(00)00190-4

Cited by 43 publications

(37 citation statements)

References 50 publications

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“…This diurnal variation is similar to predictions from photochemical model calculations (Vogt et al, 1999), where the IO minimum at noon is caused by the reaction of HO 2 with IO to HOI, and the am/pm asymmetry by a built-up of I 2 O 2 by IO self reaction during the day. However, HO 2 concentrations at the West Antarctic coast are about a factor of five smaller than modelled by Vogt et al for mid-latitude conditions, and NO 2 concentrations around 3 ppt measured in the boundary layer at Neumayer Jacobi et al, 2000) are likely to be too small to cause a significant formation of IONO 2 during the day. Another possible explanation for the noon minimum of IO above the instrument is a break-up of the boundary layer and a mixing in of free tropospheric air low in IO.…”

Section: Diurnal Variation Of Iomentioning

confidence: 61%

Iodine monoxide in the Antarctic snowpack

et al. 2010

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Abstract. Recent ground-based and space borne observations suggest the presence of significant amounts of iodine monoxide in the boundary layer of Antarctica, which are expected to have an impact on the ozone budget and might contribute to the formation of new airborne particles. So far, the source of these iodine radicals has been unknown. This paper presents long-term measurements of iodine monoxide at the German Antarctic research station Neumayer, which indicate that high IO concentrations in the order of 50 ppb are present in the snow interstitial air. The measurements have been performed using multi-axis differential optical absorption spectroscopy (MAX-DOAS). Using a coupled atmosphere -snowpack radiative transfer model, the comparison of the signals observed from scattered skylight and from light reflected by the snowpack yields several ppb of iodine monoxide in the upper layers of the sunlit snowpack throughout the year. Snow pit samples from Neumayer Station contain up to 700 ng/l of total iodine, representing a sufficient reservoir for these extraordinarily high IO concentrations.

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Section: Diurnal Variation Of Iomentioning

confidence: 61%

Iodine monoxide in the Antarctic snowpack

et al. 2010

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“…This manual discusses the present optimum instrument designs to deploy over snow, such as preferring propeller-vane wind instruments over cup anemometers. The AWS will only provide limited information on the structure of the boundary layer, the data being used as if standard meteorological data were available (Jacobi et al, 2000;Jones et al, 2001). u * can be estimated from wind speed, assuming neutral stratification and a known or estimated roughness length.…”

Section: Automatic Weather Stations (Aws)mentioning

confidence: 99%

“…Several of note are: chemistry near the ground. A similar study for Peroxyacetyl nitrate (PAN) during PEAN'99 highlighted the benefits of having co-located in situ turbulence sensors during boundary layer chemistry campaigns (Jacobi et al, 2000).…”

Section: Introductionmentioning

confidence: 97%

Boundary layer physics over snow and ice

2008

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Abstract.Observations of the unique chemical environment over snow and ice in recent decades, particularly in the polar regions, have stimulated increasing interest in the boundary layer processes that mediate exchanges between the ice/snow interface and the atmosphere. This paper provides a review of the underlying concepts and examples from recent field studies in polar boundary layer meteorology, which will generally apply to atmospheric flow over snow and ice surfaces. It forms a companion paper to the chemistry review papers in this special issue of ACP that focus on processes linking halogens to the depletion of boundary layer ozone in coastal environments, mercury transport and deposition, snow photochemistry, and related snow physics. In this context, observational approaches, stable boundary layer behavior, the effects of a weak or absent diurnal cycle, and transport and mixing over the heterogeneous surfaces characteristic of coastal ocean environments are of particular relevance.

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“…Steig and Orsi, 2013;Heffernan, 2012;Pereira et al, 2006), there is growing interest in quantifying the magnitude and source regions of pollutants affecting this pristine region (e.g. Jones et al, 2008;Pereira et al, 2004;Jacobi et al, 2000;Berresheim and Eisele, 1998). In turn, anthropogenically driven changes to Antarctic climate and ecosystems have the potential to feedback to the global climate system, due to the significant role that Antarctica plays in largescale atmospheric and oceanic circulation patterns.…”

Section: Introductionmentioning

confidence: 99%

Characterising terrestrial influences on Antarctic air masses using Radon-222 measurements at King George Island

et al. 2014

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Abstract. We report on one year of high-precision direct hourly radon observations at King Sejong Station (King George Island) beginning in February 2013. Findings are compared with historic and ongoing radon measurements from other Antarctic sites. Monthly median concentrations reduced from 72 mBq m −3 in late-summer to 44 mBq m −3 in late winter and early spring. Monthly 10th percentiles, ranging from 29 to 49 mBq m −3 , were typical of oceanic baseline values. Diurnal cycles were rarely evident and local influences were minor, consistent with regional radon flux estimates one tenth of the global average for ice-free land. The predominant fetch region for terrestrially influenced air masses was South America (47-53 • S), with minor influences also attributed to aged Australian air masses and local sources. Plume dilution factors of 2.8-4.0 were estimated for the most terrestrially influenced (South American) air masses, and a seasonal cycle in terrestrial influence on tropospheric air descending at the pole was identified and characterised.

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Peroxyacetyl nitrate (PAN) concentrations in the Antarctic troposphere measured during the photochemical experiment at Neumayer (PEAN'99)

Cited by 43 publications

References 50 publications

Iodine monoxide in the Antarctic snowpack

Iodine monoxide in the Antarctic snowpack

Boundary layer physics over snow and ice

Characterising terrestrial influences on Antarctic air masses using Radon-222 measurements at King George Island

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