Edward Berry, NWS and Klaus Weickmann,
CDC
At the time of our last update (3 November 2004) a MJO was moving east over
the Indian Ocean with its active convection located at ~80E.
At the same time new convection was developing over the equatorial date line
region where SSTs are ~1-1.5C above normal. Around 6-7 November, the
MJO weakened substantially, and the convection farther east over the Pacific
intensified as part of an equatorial Rossby mode. The latter shifted
westward toward the west Pacific and weakened producing some tropical cyclone
activity there. Strong subtropical westerly flow developed in association
with the Pacific Ocean convection, and contributed to a split flow pattern
across North America and most of the Northern Hemisphere. During the
last week, convection has once again intensified across the Indian Ocean
and become suppressed west of the date line.
For information on the status of El Nino and the MJO see the following links:
Figure 1 (below) shows Hovmoller plots of outgoing longwave radiation anomalies (OLRA) for the equatorial (bottom) and northern (top) tropics. The solid dots highlight convective flareups near the date line and the circled pluses over the Indian Ocean. The contours isolate three coherent OLR modes, including the MJO, the Kelvin wave and the equatorial Rossby wave. Both regions show westward propagation of negative OLR anomalies starting near the date line around 3 November. Meanwhile the convection with the MJO weakened abruptly in both regions as strong suppression of convection developed over Indonesia. The MJO contours on Fig. 1 show a weak signal and the (Wheeler Phase Space Diagram) has a very weak MJO signal. The suppressed convection over the Indonesian region (~100-120E)moved in from the west with a MJO and has added to a persistent signal of suppressed convection centered ~120E for the last 2-3 months. This is more probable during a El Nino.
At the present time (21 November 2004), convection has re-intensified over the Indian Ocean. and continues sporadically over the Pacific Ocean, especially near 160W. The latest Pacific satellite imagery in Fig. 2 (from 11/20/2004) shows convection coming eastward over western Indonesia suggesting Indian Ocean convection is moving east, possibly as a MJO. Also, convection is seen near 160W, which may become a new equatorial Rossby wave. The latter would follow on the heels of the wave whose residual moisture is still evident over the west Pacific and Phillipines in the Fig. 2 satellite image. A more substantial consolidation of convection may occur as these two features interact.
For current satellite images see: Latest Indian Ocean Satellite
Picture; Latest Western Pacific Satellite
Picture
Figure 1 latest images
Figure 2
Figure 3 is a time-latitude plot of 200 mb zonal mean zonal wind anomalies.
The superimposed lines highlight a pattern of split flow that has been prevelant
since early September 2004. Some important events in the northern mid-latitude
circulation are listed on the right. The time of date line and Indian
Ocean convective flareups are marked using the same symbols as on Fig. 1.
In this short record, highly amplified wave patterns in mid-latitudes (30-60N)
appear to accompany west Pacific convective flareups (the three solid dots).
The first one was linked to a baroclinic wave packet that traversed the hemisphere
while the last two were linked to anticyclonic (LC1 type) wave breaking events,
one over the Pacific/North American region and other over the North American/Atlantic
sector, respectively. A breakdown of the persistent split flow occurred during
the second half of October 2004 when stronger mid-latitude westerly flow
was linked to two intense troughs that affected California. Recently,
the split flow re-intensified. From about 9-13 November the subtropical
westerly flow (~25N) was ~10m/s stronger than normal in the zonal
mean. At the same time the mid-latitude (45N) westerly flow
(~45N) was weaker than normal and westerlies were strong and moving south
around 60N.
There was a brief period during this time when the atmosphere was in Stage 3 of the Synoptic-Dyamic Model (SDM), with an "El Nino" like base state over the Indo-Pacific region (link to discussion with SDM). Since about 15 November, substantial weakening of the subtropical westerlies has occurred, with weak easterly wind anomalies appearing north of the equator.
Figure 3
Figure 4 shows daily mean 150mb vector wind anomalies valid 11 and 17 November
2004. The tropical convective forcing was just west of the date line
on the 11th, and centered around 80E on the 17th. On the 11th there
is a signature of twin subtropical anticyclones around the date line with
anomalous subtropical westerlies, particularly from Africa to the Americas,
typical of Stage 3 of the SDM. The large anticyclone over the North
Atlantic is a remnant of the second wave breaking event noted above.
Wave energy from the event is moving east across Asia at this time.
By the 17th subtropical anticyclones have reformed across the Indian Ocean,
tied to the divergence associated with the convection there. The anticyclones
are part of a wavetrain that has amplified across the subtropics of the eastern
hemisphere. Over higher latitudes, large scale zonal flow anomalies
have developed, westerly at 60N and easterly at 80N. The westerly anomalies
over Asia are shifting south. The winds two days later on 19 November
show this as the high latitude wavetrain extending from Asia to the Pacific
Ocean becomes dominant and the anomaly pattern over the North Pacific more
closely resembles a response to the recent suppression of convection over
the west Pacific (see Fig. 1). The patterns on 17 and 19 November are transitional
ones, and have similarities to Stage 4 of the SDM. The interested reader can
view an animation of daily mean 150mb vector wind anomalies here
.
Figure 4 latest
image
2. Predictive Insights Verification:
In the 3 November discussion, consolidation of convection around 140E was predicted due to interaction of a MJO with an equatorial Rossby wave. Instead, the MJO weakened abruptly while the convection with the Rossby wave drifted west to about 140E. The split flow pattern persisted and during 12-19 November much of the northern USA was warmer and dryer than normal and the southwest and southcentral states were cool and wet with several closed lows in a subtropical storm track. This weather pattern for the lower 48 states was not predicted in the 3 November discussion.
Currently convection continues to intensify across the Indian Ocean basin centered ~ EQ, 80E, per latest 3 day averages of OLRA, with concentrated areas across eastern Africa and Indonesia, per satellite imagery from 11/21/04. Latest animations of 150mb vector wind anomalies show that while a subtropical wavetrain of gyres has been moving east across both hemispheres, divergence has remained centered around EQ, 80E, consistent with the 3-day OLRA average. As discussed above, a separate weaker area has redeveloped near the date line (see small dot on Fig. 1). All available MJO indices give a very weak signal at most, thus statistical and numerical predictions of a MJO cannot be considered useful at this time (see lastest MJO forecasts ). Synoptic indications are that a MJO is redeveloping over the Indian Ocean (perhaps centered at ~EQ, 80E); convection near the date line remains a wild card in its future evolution
Week 1 (22-28 November 2004): Stage 1 of the SDM is the most probable
forecast at this time. Nearly all of the available operational numerical
models including their ensembles are trending toward this solution (see links
below). An active southwest-northeast storm track across the central
USA is also more probable. Indeed, there is a robust signal that a strong
baroclinic cyclone will develop across the Rockies and central USA starting
early in the work week and affect that part of the country perhaps into Thanksgiving,
as it moves northeast. Therefore a major winter storm must be concern
from the central/southern Rockies to the mid/upper Mississippi Valley and
Great Lakes states (latter area may also get lake effect snow in the wake
of the storm). Strong to severe local storms/heavy rainfall will be
possible across the southeast. Toward the end of this period, another
closed low may be digging into the southwest states. Much of the Rockies
and Plains should have colder (with "some" Arctic air) than normal temperatures,
with above normal temperatures possible southeast states.
Week 2 (29 November-05 December 2004): During this week convection
may once again become rather intense around 150E, favoring the development
of some version of a western Pacific wavetrain; that is, Stage 2 of the SDM,
toward the end of this period. At least one or two more potentially
significant storm developments may occur across the Rockies and Plains after
the first one during week 1. This would mean continued cold and stormy
for much of the Rockies and Plains, including an increased risk for severe
winter weather. Above normal temperatures would be expected across the
east and southeast states. Portions of the southcentral and southeastern
USA may continue to experience above normal rainfall, with strong to locally
severe thunderstorms.
Week 3 (06-12 December 2004): The evolution to the western Pacific tropical convection is very uncertain. In any event, this period may begin with a deep trough across the central part of the country (~90-100W), suggesting colder than normal temperatures for that area (including Arctic air), as indicated by Stage 2 of the SDM.
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