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Synoptic drivers and moisture sources of snowfall in coastal Victoria Land, Antarctica
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  • Marte Gé Hofsteenge,
  • Nicolas J. Cullen,
  • Harald Sodemann,
  • Marwan Katurji
Marte Gé Hofsteenge
University of Otago

Corresponding Author:[email protected]

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Nicolas J. Cullen
School of Geography
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Harald Sodemann
University of Bergen
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Marwan Katurji
University of Canterbury, New Zealand
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Abstract

Snowfall is an important component of the mass balance of ice sheets and glaciers in Antarctica. In coastal Victoria Land (VL), changes to snowfall can impact ice masses, landscapes, and coastal ecosystems. Coastal VL is characterized by strong gradients in snowfall rates between the polar desert of the McMurdo Dry Valleys and the high accumulation in northern VL. Extreme precipitation events significantly contribute to total precipitation, with the largest contribution in the Terra Nova Bay area. We present a comprehensive analysis of snowfall dynamics in this region, using a Lagrangian moisture source diagnostic to study moisture sources and Self-Organizing Maps (SOM) to link these to different synoptic weather types. The moisture for snowfall in VL originates from the Southern Ocean, with more local sources in the Ross Sea embayment in summer when sea ice is reduced. We show a strong division in moisture sources between northern and southern VL, with the north receiving precipitation from moisture sources to the west and southern VL from the east. Precipitation in northern VL results from meridional transport of marine air from lower latitudes, while precipitation in southern VL is related to cyclonic disturbances in the Ross Sea that bring moisture from the east. Extreme precipitation in northern VL occurs during blocking highs that intensify meridional transport. Such intrusions of marine air, sometimes in the form of atmospheric rivers, do not impact the more isolated western Ross Ice Shelf and southern VL further in the Ross Sea embayment.
07 Aug 2024Submitted to ESS Open Archive
07 Aug 2024Published in ESS Open Archive