Spatial variability in isotopic composition of surface snow along the East Antarctic International Ice Sheet Traverse (EAIIST)

The isotopic signal of oxygen and hydrogen, archived in the Antarctic ice sheet through snow precipitation, is an important proxy of climatic conditions. This signal depends on several parameters such as local temperature, climatic conditions in the moisture source areas and air mass pathways. Moreo...

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Bibliographic Details
Main Authors: Agnese Petteni, Barbara Stenni, Giuliano Dreossi, Ilaria Crotti, Mathieu Casado, Amaelle Landais, Joel Savarino, Andrea Spolaor, Arianna Caneva, Massimo Frezzotti, Barbara Delmonte
Other Authors: Petteni, Agnese, Stenni, Barbara, Dreossi, Giuliano, Crotti, Ilaria, Casado, Mathieu, Landais, Amaelle, Savarino, Joel, Spolaor, Andrea, Caneva, Arianna, Frezzotti, Massimo, Delmonte, Barbara
Format: Conference Object
Language:unknown
Published: Sapienza Università di Roma 2023
Subjects:
Settore GEO/08 - Geochimica e Vulcanologia
Antarctic
The Antarctic
South Pole
Concordia Station
Antarc*
Ice Sheet
South pole
Online Access:https://hdl.handle.net/10278/5036220
Description
Summary:The isotopic signal of oxygen and hydrogen, archived in the Antarctic ice sheet through snow precipitation, is an important proxy of climatic conditions. This signal depends on several parameters such as local temperature, climatic conditions in the moisture source areas and air mass pathways. Moreover, the isotopic composition may be affected by spatial variability induced by the interactions of the snow surface with the overlying atmosphere along the direction of the prevailing winds. In regions where the snow accumulation is very low, interactions between the atmosphere and the snow surface could modify the pristine signal through isotopic exchanges, sublimation processes and mechanical mixing originated from wind action. The EAIIST (East Antarctic International Ice Sheet Traverse) traverse, that took place during the 2019-2020 Antarctic field season, starting from Concordia Station towards the South Pole, provides a perfect path of study. Along the EAIIST traverse, areas with homogeneous accumulation rates can be compared to areas influenced by wind scouring and mega-dunes formation. Extremely low accumulation and wind-surface snow interaction observed in these areas could be representative of glacial period conditions in the Antarctic Plateau. Here we present the isotopic composition (dD and d18O) of surface (a few cm of depth), bulk (1 m depth) and snow pit (2 m depth) samples along the EAIIST traverse to evaluate the parameters explaining the spatial variability of this proxy. The dD, d18O and, the deuterium excess will be evaluated with respect to geographical features (elevation, latitude, distance from the coast, slope) and climatic conditions (temperature, accumulation, wind speed and direction). Wind action is expected to play a major role in explaining the isotopic spatial variability in these areas. Understanding the spatial variability in the deposition process, which strongly decreases the ratio between signal and noise, is essential to better interpret high-resolution isotopic profiles from firn ...

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