ATSESS 452 Synoptic Meteorology Vorticity Vorticity What is

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ATS/ESS 452: Synoptic Meteorology • Vorticity

ATS/ESS 452: Synoptic Meteorology • Vorticity

Vorticity • What is vorticity, and why do we study it? • Why do

Vorticity • What is vorticity, and why do we study it? • Why do we focus on the vertical component?

Vorticity • Tornadoes, hurricanes, and extratropical cyclones are all characterized by varying degrees of

Vorticity • Tornadoes, hurricanes, and extratropical cyclones are all characterized by varying degrees of wind rotation about a vertical axis • Vorticity is the parameter we use to measure the rotation • Vorticity is a measure of rotation in all three directions/axes (x, y, z), however, on the synoptic scale we are primarily interested in the vertical vorticity (scale analysis!) • Relative vorticity represents the local rotation in a fluid (our atmosphere). If we include the rotation of the Earth, then we refer to it as the absolute vorticity. • In the Northern hemisphere, positive vorticity is associated with cyclonic rotation (counter-clockwise) and negative vorticity is associated with anti-cyclonic rotation (clockwise) • **Advection of the vertical vorticity is related to forcing for vertical air motion (lift) and is a critical parameter for weather forecasting.

NAM 500 -mb height, absolute vorticity analysis 00 UTC 11 Jan 12

NAM 500 -mb height, absolute vorticity analysis 00 UTC 11 Jan 12

500 mb GFS 21 -hr forecast; shading represents positive absolute vorticity

500 mb GFS 21 -hr forecast; shading represents positive absolute vorticity

Vorticity Physically, what do the i (x) and j (y) components of vorticity include?

Vorticity Physically, what do the i (x) and j (y) components of vorticity include? vertical wind shear When is this typically important? convective storms “Types” of vorticity: If vorticity is considered a measure of rotation, is it possible to have vorticity in perfectly straight flow, such as that picture below? Yes! This is called shear vorticity and is caused by a change in wind speed over some distance. It is important on the flanks of jet streams Where is the vertical vorticity positive?

300 mb GFS 30 -hr forecast; shading represents wind speeds > 70 kts

300 mb GFS 30 -hr forecast; shading represents wind speeds > 70 kts

Vorticity “Types” of vorticity: Curvature vorticity is caused by a change in wind direction

Vorticity “Types” of vorticity: Curvature vorticity is caused by a change in wind direction over some distance and is important in troughs/ridges What is the sign of vertical vorticity here? Planetary Vorticity is due to the Earth’s rotation – the air spins with the earth! Given by, f, and is positive in the NH.

500 mb GFS 168 -hr forecast; shading represents positive absolute vorticity

500 mb GFS 168 -hr forecast; shading represents positive absolute vorticity

Typical wintertime situation showing the relative between the 500 -mb heights and vorticity Left

Typical wintertime situation showing the relative between the 500 -mb heights and vorticity Left (a): Absolute vorticity values generally increase toward the North Pole, partly due to the increase in planetary vorticity (f) with latitude An area of cyclonic curvature vorticity is located in the upper trough centered near the Great Lakes Region. Cyclonic shear vorticity is evident along the northern flank of a strong jet over N. Canada Right (b): Relative vorticity now regions of negative vorticity appear in the large upper ridge over western N. America

Qualitatively estimate the geostrophic relative vorticity at location A.

Qualitatively estimate the geostrophic relative vorticity at location A.

The Vorticity Equation (a) Local time-rate-of-change in absolute vorticity (relative + planetary) (b) Vertical

The Vorticity Equation (a) Local time-rate-of-change in absolute vorticity (relative + planetary) (b) Vertical advection (of relative vorticity) (c) Tilting/twisting term conversion of horizontal vorticity to vertical vorticity Wind shear creates horiz vort Updraft “tilts” the spinning air upright The updraft then starts rotating supercell

The Vorticity Equation (d) Stretching or “convergence” term… i. e. the ice skater effect

The Vorticity Equation (d) Stretching or “convergence” term… i. e. the ice skater effect The spin-up of vorticity is proportional to the convergence This might explain the rapid development of many strongly rotating cyclonic systems (the rate of vorticity growth is proportional to the vorticity itself) Also, zones of preexisting cyclonic vorticity (fronts and troughs) and thus preferential sites for the growth of cyclones…. All it needs is a bit of convergence to grow the vorticity!

The Vorticity Equation (e) Friction (f) Horizontal advection most important on synoptic scale!

The Vorticity Equation (e) Friction (f) Horizontal advection most important on synoptic scale!

Vorticity Advection Left: 500 -mb chart showing the 500 -mb winds, isoheights and vorticity

Vorticity Advection Left: 500 -mb chart showing the 500 -mb winds, isoheights and vorticity Right: Corresponding 500 -mb vorticity advection.

The Vorticity Equation (e) Friction (f) Horizontal advection most important on synoptic scale!

The Vorticity Equation (e) Friction (f) Horizontal advection most important on synoptic scale!