Sting jet


A sting jet is a meteorological phenomenon which has been postulated to cause some of the most damaging winds in extratropical cyclones, developing according to the Shapiro-Keyser model of oceanic cyclones.

Concept

Following reanalysis of the Great Storm of 1987, led by Professor Keith Browning at the University of Reading, researchers identified a mesoscale flow where the most damaging winds were shown to be emanating from the evaporating tip of the hooked cloud head on the southern flank of the cyclone. This cloud, hooked like a scorpion's tail, gives the wind region its name the "sting jet".
It is thought that a zone of strong winds, originating from within the mid-tropospheric cloud head of an explosively deepening depression, are enhanced further as the "jet" descends, drying out and evaporating a clear path through snow and ice particles. The evaporative cooling leading to the air within the jet becoming denser, leading to an acceleration of the downward flow towards the tip of the cloud head when it begins to hook around the cyclone centre. Windspeeds in excess of 80 kn can be associated with the sting jet.
It has since been reproduced in high-resolution runs with the mesoscale version of the Unified Model. The sting jet is distinct from the usual strong-wind region associated with the warm conveyor belt and main cold front. There are indications that conditional symmetric instability also plays a role in its formation but the importance of these processes remains to be quantified.
One North Atlantic storm, Cyclone Tilo has also been analysed and found not to display a sting jet, despite displaying strong surface winds and a fractured cold front.

Globally

The sting jet mechanism has been considered less significant in Pacific Northwest windstorms which occur over the Pacific Ocean. Evidence of mesoscale high wind areas has not been noted in most large windstorms occurring there, along with cloud geometry associated with the phenomena being absent in satellite imagery of major Pacific Northwest storms. Although a case study of a sting jet in the region has been produced. High resolution computer models of the phenomena have also shown realistically strong winds without the need for sting jet dynamics.

List of sting jet cyclones