Abstract
Previously unknown foehn jets have been identified to the east of the Antarctic Peninsula (AP) above the Larsen C Ice Shelf. These jets have major implications for the east coast of the AP, a region of rapid climatic warming and where two large sections of ice shelf have collapsed in recent years.During three foehn events across the AP, leeside warming and drying is seen in new aircraft observations and simulated well by the Met Office Unified Model (MetUM) at ∼1.5 km grid spacing. In case A, weak southwesterly flow and an elevated upwind inversion characterise a highly nonlinear flow regime with upwind flow blocking. In case C strong northwesterly winds characterise a relatively linear case with little upwind flow blocking. Case B resides somewhere between the two in flow regime linearity.The foehn jets – apparent in aircraft observations where available and MetUM simulations of all three cases – are mesoscale features (up to 60 km in width) originating from the mouths of leeside inlets. Through back trajectory analysis they are identified as a type of gap flow. In cases A and B the jets are distinct, being strongly accelerated relative to the background flow, and confined to low levels above the Larsen C Ice Shelf. They resemble the ‘shallow foehn’ of the Alps. Case C resembles a case of ‘deep foehn’, with the jets less distinct. The foehn jets are considerably cooler and moister relative to adjacent regions of calmer foehn air. This is due to a dampened foehn effect in the jet regions: in case A the jets have lower upwind source regions, and in the more linear case C there is less diabatic warming and precipitation along jet trajectories due to the reduced orographic uplift across the mountain passes.
Highlights
The ice shelves surrounding the Antarctic Peninsula (AP) have been in a state of retreat over the past 50 years (Vaughan et al, 2001)
Journal of the Royal Meteorological Society published by John Wiley & Sons Ltd on behalf of the Royal Meteorological Society
During three differing cases of westerly foehn above the Larsen C Ice Shelf (LCIS), foehn air was able to penetrate to near-surface levels, mixing and flushing away any residual cool air which typically pools above the Larsen Ice Shelf
Summary
The ice shelves surrounding the Antarctic Peninsula (AP) have been in a state of retreat over the past 50 years (Vaughan et al, 2001). If the westerly winds are relatively weak, the low-level eastward transport of these air masses (which are usually stably stratified) is blocked by the AP, especially to the south where the Peninsula is bounded by high mountains (Orr et al, 2008) Under these circumstances, the east side of the AP c 2014 The Authors. Marshall et al (2006) found that summer and autumn temperature variations on the northeast side of the AP were strongly correlated with variations in the SAM index They suggested that the observed warming to the east of the AP may be due to the stronger and more frequent westerly winds leading to an increase in the volume of air able to pass over the AP from the west, resulting in more frequent downslope ‘foehn’ winds to the lee of the mountains.
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