Post on 15-Jan-2016
Blocking and Rossby Wave-breaking
Brian Hoskins
Vangelis Tyrlis, Tim Woollings
Jo Pelly, Paul Berrisford, Mike Blackburn
Department of Meteorology
Symposium in Honour of Maurice Blackmon
A typical blocking dipole: 20 November 1993 12 UTCA typical blocking dipole: 20 November 1993 12 UTC
on 2 PVUon 2 PVU
Geopotential on 250 hPaGeopotential on 250 hPa
Blocking
B = B = northnorth - - southsouth
Situations giving a reversal of the meridional contrast in θ on PV2
C
W
W
Anticyclonic cut-off
C
CW
Cyclonic cut-off
C
C
W
W
Dipole
Anticyclonic wave-breaking
Cyclonic wave-breaking
W
W
C
C
(B positive)
Annual averaged synoptic time-scale 300hPa EKE
What central latitude for calculation of B?
Blocking of eastward motion of mid-latitude weather systems
Evangelos Tyrlis (JAS in press) based on ERA-40 data
Aspects of the frequency distribution of B in DJF
Frequency distributions at 3 longitudes
20°E
230°E
270°E
Longitudinal profiles of statistics
mean
Standard deviation
skewness
Annual mean frequency of blocking
Local instantaneous blocking
Sector blocking episodes
Sector blocking
Composites of θ on PV2 for NH winter SBE days in representative sectors
Evolution of winter SBEs at 20ºE: composites of θ on PV2
Composites of θ on PV2 for NH summer SBE days in representative sectors
1. Spherical domain gives bias towards equatorward propagation & anticyclonic wave-breaking
2. Ambient shears: anticyclonic (cyclonic) breaking on poleward (equatorward)
side of jet
3. Sense of latitudinal displacement
Anticyclonic or Cyclonic Rossby Wave-breaking?
yGroup velocity
Phase speedHigh PV on θ
Low θ on PV2
Low PV on θ High θ on PV2
+
+
_
Now consider the 2-D distribution of the wave-breaking index for NH in winter.
European blocking
‘High latitude blocking’
Tim Woollings (JAS, in press)
We refer to these as “Greenland Blocking Episodes”
An example of a NW Atlantic wave-breaking event
MSLP Surface temperature
NAO- months
NAO- months with Greenland blocking days removed
Contribution of Greenland blocking to NAO- pattern
How much NAO variability could be attributed to variations in the occurrence of wave-breaking?
The Hypothesis
NAO- is a description of periods when NW Atlantic wave-breaking/Greenland blocking is frequent.
NAO+ is just a description of periods when it is infrequent (cf Benedict et al, 2004).
+ feedbacks…
Low-frequency variations in the ocean and the stratosphere could modulate the occurrence of Greenland blocking, and so have an NAO signature.
Dynamical precursors could help to identify this modulation.
1. European blocking
2. Rossby wave-train from the Pacific
3. A shift in the stratospheric jet
High latitude Blocking in the NW Atlantic tends to lead that in the N Pacific by a few days: an example
Blocking and Rossby Wave-breaking
Symposium in Honour of Maurice Blackmon
Annual cycle of the frequency of Blocking (LIB)
time
longitude0 270
Variability of mean winter blocking (SBE)
longitude
Signature of Greenland blocking episodes