On the interpretation of stable isotopes in Antarctic precipitation

Polar ice caps contain valuable information about the earth's climate. This thesis investigates the extent to which meteorological data are stored in the composition of snow in order to improve the interpretation of deep ice cores from the Antarctic ice cap. It is demonstrated that annual tempe...

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Bibliographic Details
Main Author: Helsen, M.M.
Format: Doctoral or Postdoctoral Thesis
Language:English
Published: Utrecht University 2006
Subjects:
Natuur- en Sterrenkunde
stable isotopes
climate
Antarctica
Polar meteorology
ice cores
water cycle
atmospheric dynamics
snow and ice
isotopic modelling
glaciology
Antarctic
The Antarctic
Antarc*
Ice cap
ice core
Online Access:https://dspace.library.uu.nl/handle/1874/8140
Description
Summary:Polar ice caps contain valuable information about the earth's climate. This thesis investigates the extent to which meteorological data are stored in the composition of snow in order to improve the interpretation of deep ice cores from the Antarctic ice cap. It is demonstrated that annual temperature variations in Antarctica could not be accurately reconstructed from ice core investigations. The conditions during snowfall are not representative enough for the average weather over an entire year. This research also reveals that although temperature differences over the entire continent of Antarctica have a major influence on the composition of the snow, there are strong spatial variations in this. Accordingly a simple conversion of the fluctuations in the snow composition to changes in the local temperature is unreliable. During climate reconstructions from ice cores, researchers mainly examine variations in the weight of the water molecules in the ice, the so-called isotope values. Differences in the isotopic composition of precipitation occur as a result of condensation cycles during atmospheric transport: heavier water molecules are precipitated earlier than lighter ones. Atmospheric temperature plays a major role in this process. In this thesis, this process is simulated using recent meteorological data. It is demonstrated that although temperature differences across Antarctica could largely explain the observed variations in the isotope values, the spatial correlation between temperature and isotope value varies strongly from place to place. The prevailing conditions during snowfall determine the climate signal that is stored in the snow pack. However, a heavy snowstorm is a relatively rare occurrence in the interior of Antarctica because the kilometres-thick ice functions as a barrier for depressions carrying snow. Therefore the conditions during snowfall are not representative for the annual average weather conditions. Only averages over several years will provide reliable climate data from ice cores. It ...

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