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Chemical and isotopic snow variability in East Antarctica along the 2001/02 ITASE traverse

Becagli, Silvia ; Proposito, Marco ; Benassai, Silvia ; [et al.]

International Glaciological Society ; 2004

In: Annals of Glaciology Vol. 39 ( 2004), p. 473-482

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In: Annals of Glaciology, International Glaciological Society, Vol. 39 ( 2004), p. 473-482

Abstract: As part of the International Trans-Antarctic Scientific Expedition (ITASE) project, a traverse was carried out from November 2001 to January 2002 through Terre Adélie, George V Land, Oates Land and northern Victoria Land, for a total length of about 1875 km. The research goal is to determine the latitudinal and longitudinal variability of physical, chemical and isotopic parameters along three transects: one west–east transect (WE), following the 2150m contour line (about 400 km inland of the Adélie, George V and Oates coasts), and two north–south transects (inland Terre Adélie and Oates Coast–Talos Dome–Victoria Land). The intersection between the WE and Oates Coast–Victoria Land transects is in the Talos Dome area. Along the traverse, eight 2 m deep snow pits were dug and sampled with a 2.5 cm depth resolution. For spatial variability, 1 m deep integrated samples were collected every 5 km (363 sampling sites). In the snow-pit stratigraphy, pronounced annual cycles, with summer maxima, were observed for nssSO 4 2– , MSA, NO 3 – and H 2 O 2 . The seasonality of these chemical trace species was used in combination with stable-isotope stratigraphy to derive reliable and temporally representative snow-accumulation rates. The study of chemical, isotopic and accumulation-rate variability allowed the identification of a distribution pattern which is controlled not only by altitude and distance from the sea, but also by the complex circulation of air masses in the study area. In particular, although the Talos Dome area is almost equidistant from the Southern Ocean and the Ross Sea, local atmospheric circulation is such that the area is strongly affected only by the Ross Sea. Moreover, we observed a decrease in concentration of aerosol components in the central portion of the WE transect and in the southern portion of the Talos Dome transect; this decrease was linked to the higher stability of atmospheric pressure due to the channelling of katabatic winds.

Type of Medium: Online Resource

ISSN: 0260-3055 , 1727-5644

URL: Article

DOI: 10.3189/172756404781814636

Language: English

Publisher: International Glaciological Society

Publication Date: 2004

detail.hit.zdb_id: 2122400-6

SSG: 14

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Chemical and isotopic snow variability along the 1998 ITASE traverse from Terra Nova Bay to Dome C, East Antarctica

Proposito, Marco ; Becagli, Silvia ; Castellano, Emiliano ; [et al.]

International Glaciological Society ; 2002

In: Annals of Glaciology Vol. 35 ( 2002), p. 187-194

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In: Annals of Glaciology, International Glaciological Society, Vol. 35 ( 2002), p. 187-194

Abstract: In the framework of the PNRA–ITASE (Programma Nazionale di Ricerche in Antartide–International Trans-Antarctic Scientific Expedition) project, during the field season 1998/99, surface snow (1m cores and pits) and shallow firn cores (10–50m) were collected along a traverse from Terra Nova Bay (northern Victoria Land) to Dome C (East Antarctic ice sheet). Results of chemical, tritium and stable-isotope composition are presented here for the 1 m cores, some snow pits and the first 2 mof some shallow firn cores. the δ 18 O values show a regular trend with altitude, and the regression line between δ 18 O and surface temperature is δ 18 O = 0.99T (˚C) – 0.67. Primary aerosol components such as Na + , Cl – , Ca 2+ ,Mg 2+ and K + show high concentrations decreasing with increasing altitude in the first 250–350km from the coast. At greater distances, concentrations of these species remain more constant. NO 3 – concentration shows an irregular profile with a progressive decreasing trend as altitude increases. Non-sea-salt (nss) SO 4 2– concentration decreases up to about 250 km from the coast, increases 250–770 km from the coast and remains relatively constant in the most remote stations. Methanesulphonate (MSA) concentration shows high variability. the MSA/nssSO 4 2– ratio exhibits a decreasing trend 250–550km from the coast. With increasing distance, the ratio shows moderate oscillations. nssCl – concentration shows a progressive increase as distance from the coast increases, in agreement with the increasing influence of HCl on the Cl – budget of the inland Antarctic atmosphere. Post-depositional re-emissions of Cl – and NO 3 – were found at stations characterized at the surface by long-term accumulation hiatus (wind crusts). the chemical-species distribution is consistent with the presence in the studied area of local and long-range transport processes, post-depositional effects and snow-accumulation variations observed along the traverse.

Type of Medium: Online Resource

ISSN: 0260-3055 , 1727-5644

URL: Article

DOI: 10.3189/172756402781817167

Language: English

Publisher: International Glaciological Society

Publication Date: 2002

detail.hit.zdb_id: 2122400-6

SSG: 14

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