The role of evaporating showers in the transfer of sting‐jet momentum to the surface

Browning, K. A.; Smart, David; Clark, Matthew R.; Illingworth, Anthony J.

doi:10.1002/qj.2581

Cited by 27 publications

(60 citation statements)

References 24 publications

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“…Browning [] identified one of the causes of the most extreme surface winds to be associated with a mesoscale feature at the tip of the cloud head as the “sting at the end of the tail” (shortened to sting jet; SJ) (Table and Figure b). This proved to be the case for the 16 October 1987 storm [ Clark et al ., ], for Windstorm Jeanette in October 2002 [ Parton et al ., ], and Christian in October 2013 [ Browning et al ., ], amongst others. However Baker [] found that the strongest surface winds during Windstorm Gudrun of January 2005 were associated with the cold conveyer belt (CCB) as it wrapped around the low‐pressure center and acted in the same direction as the motion of the cyclone.…”

Section: Introductionmentioning

confidence: 99%

Subsynoptic‐scale features associated with extreme surface gusts in UK extratropical cyclone events

Earl

Dorling

Starks

et al. 2017

Geophysical Research Letters

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Numerous studies have addressed the mesoscale features within extratropical cyclones (ETCs) that are responsible for the most destructive winds, though few have utilized surface observation data, and most are based on case studies. By using a 39‐station UK surface observation network, coupled with in‐depth analysis of the causes of extreme gusts during the period 2008–2014, we show that larger‐scale features (warm and cold conveyer belts) are most commonly associated with the top 1% of UK gusts but smaller‐scale features generate the most extreme winds. The cold conveyor belt is far more destructive when joining the momentum of the ETC, rather than earlier in its trajectory, ahead of the approaching warm front. Sting jets and convective lines account for two thirds of severe surface gusts in the UK.

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Section: Introductionmentioning

confidence: 99%

Subsynoptic‐scale features associated with extreme surface gusts in UK extratropical cyclone events

Earl

Dorling

Starks

et al. 2017

Geophysical Research Letters

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“…At first sight, it might be tempting to assume that the importance of descent is in bringing down high momentum from aloft, as suggested by Neiman and Shapiro (). As explained below, this assumption might be relevant in transporting momentum through the boundary layer (e.g Vaughan et al, ; Browning et al ., ), but, in the free troposphere, the air that becomes the sting jet starts off with low momentum (Clark et al ., ; Slater et al ., ; ). The question therefore remains as to the cause of the acceleration of the sting‐jet air as it descends within the free troposphere.…”

Section: The Wind Maximum Has More Than One Sourcementioning

confidence: 99%

“…Some researchers have found evidence to support the importance of these localised moist processes to the sting‐jet formation and intensity (e.g. Clark et al ., ; Gray et al ., ; Martínez‐Alvarado et al ., 2014b; Browning et al ., ), but others have described cases in which the importance of moist processes was questionable (e.g. Schultz and Sienkiewicz, ; Baker, ; Baker et al ., ; Smart and Browning, ; Slater et al ., ; ; Coronel et al ., ).…”

Section: The Wind Maximum Has More Than One Sourcementioning

confidence: 99%

“…Evaporative cooling is believed to be important in sting jets sometimes not so much in accounting for the acceleration of the sting jet as in reducing the static stability. This evaporative cooling facilitates the transport of high momentum associated with an already developed sting jet in the free troposphere down through the boundary layer to the surface (Browning et al ., ). Another way to weaken the static stability is through surface fluxes of heat and moisture (e.g.…”

Section: The Wind Maximum Has More Than One Sourcementioning

confidence: 99%

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What is a sting jet?

Schultz

Browning²

2017

Weather

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Some extratropical cyclones possess a maximum of surface wind speed equatorward of their low centres at the end of the feature known as the back‐bent front, and close to the tip of a characteristic cloud feature known as a cloud head. In the twentieth century, Norwegian meteorologists referred to this feature as ‘the poisonous tail’ of the back‐bent front. In 2004, Browning coined the term sting jet to describe an airstream that descends from the mid‐troposphere to end within this surface wind maximum. Later research has confirmed that, in some cyclones, this wind maximum can be composed of air from both the descending sting jet and the cold conveyor belt that encircles the low centre near the surface. Despite the publication of this research, the media, and even some researchers and forecasters, misuse the term ‘sting jet’ to describe the overall wind maximum rather than just its descending part. Thus, this article argues for clarity in the definition of what a sting jet is. Specifically, the term sting jet ought to be reserved specifically for the descending airstream alone, not for the wind maximum equatorward of the low centre more generally.

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“…Inspection of quarter‐hourly radar images indicates that the line convection evolved from one of the smaller intense rainfall elements located just north of Swansea at 0842 UTC (Figure (c)) and then persisted for several hours as it continued eastwards. The location of the line convection along the inner edge of the leaf cloud and near the tip of the back‐bent front is consistent with Browning's () conceptual model of the frontal structure in cyclones of the Shapiro–Keyser type (Shapiro and Keyser, ) and with other recent cases of cyclones with prominent back‐bent fronts, including the damaging St Jude's Day storm of 28 October 2013 (Browning et al ., ).…”

Section: Observational Datamentioning

confidence: 99%

Development of localized damaging wind gusts associated with a frontal wave and mesoscale vortex across south Wales on 18 May 2015

Young

Clark

2017

Meteorological Applications

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On 18 May 2015 there were reports of localized wind damage just north of Swansea in south Wales. Observations indicated the development of a mesoscale cyclonic circulation at the tip of a frontal wave which first formed just west of south Wales. This mesoscale circulation subsequently ran eastwards across south Wales around the time of the reported damage, accompanied by gale force gusts on its southern flank. The resulting system then evolved into a pronounced shallow cold frontal zone that propagated eastwards into southern England over the next few hours, bringing further gale force gusts. Observational data, including Doppler radar and 1 min surface observations, are combined to investigate the causes of this mesoscale circulation and synthesize the results into a conceptual model. The mesoscale development was found to share some of the characteristics of larger scale cyclonic systems that sometimes produce more widespread and sometimes severe wind-related impacts. Recognition of the precursor synoptic environment may enable identification of similar features which, combined with Doppler radar data, may assist nowcasting of small areas of damaging winds.

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The role of evaporating showers in the transfer of sting‐jet momentum to the surface

Cited by 27 publications

References 24 publications

Subsynoptic‐scale features associated with extreme surface gusts in UK extratropical cyclone events

Subsynoptic‐scale features associated with extreme surface gusts in UK extratropical cyclone events

What is a sting jet?

Development of localized damaging wind gusts associated with a frontal wave and mesoscale vortex across south Wales on 18 May 2015

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