Extended Forecast Discussion
NWS Weather Prediction Center College Park MD
204 AM EST Sun Jan 30 2022
Valid 12Z Wed Feb 02 2022 - 12Z Sun Feb 06 2022
...Heavy precipitation likely to impact the central and eastern
U.S. later this week, including a winter storm from the Central
Plains to Great Lakes and interior Northeast...
...Overview...
Mean troughing should dominate much of the CONUS east of the
Rockies as strong upper ridging builds over both the western
Atlantic and East Pacific. A shortwave initially over the
Southwest on Wednesday will drive a potent cold front eastward
through Friday bringing widespread heavy rain to the South and a
potentially significant winter storm from the mid-Mississippi
Valley to the interior Northeast. Additional waves of shortwave
energy dropping down the east side of the ridge in the West,
should help reinforce mean troughing across the central U.S.
through next weekend.
...Guidance Evaluation/Predictability Assessment...
Guidance has come into overall good agreement regarding an
amplified shortwave initially across the Southwest on Wednesday
and into the Southern Plains/Mid-South Thursday-Friday. There
remain some minor differences in the shortwave timing (ECMWF has
been consistently slightly faster than the GFS), which ultimately
affects frontal timing, especially into the East. Albeit
differences in timing and placement, guidance shows this energy
may ultimately combine with a northern stream shortwave through
the Great Lakes/Northeast late this week to help induce a
deepening surface low well off the Northeast Coast. Given the
overall agreement, a general model compromise between the latest
runs of the deterministic models seemed a good starting point for
now through day 5 for this system which also maintained good
continuity with the .
Next energy drops into the mean trough out of the West by Friday
and the models continue to struggle both with strength and timing
of the shortwave. Recent model runs have been back and forth
between a weaker/faster shortwave and a stronger/slower possible
closed low lingering over the Southwest for a day or two. At least
through the latest 12z/18z (yesterday) guidance, the ECMWF and CMC
are weaker and faster while the 18z GFS is notably more
amplified/slower. The bulk of the ensemble guidance would support
something more towards the quicker ECMWF/CMC so that's the way the
WPC forecast leaned tonight.
Yet another shortwave rounding the top of the ridge drops into the
Northern Rockies by Saturday. Much of the guidance shows the
shortwave progress rather harmlessly south and eastward into the
northern/central Plains on Sunday, but the last few runs of the
GFS have been quite aggressive with deepening this energy and a
closed low forming over the Southwest. Ensemble plots suggest the
GFS is likely much too deep with this, and the actual solution may
be somewhere in the middle of a significantly weaker/faster ECMWF
and the GFS (similar to the 12z CMC). The best course of action
for the WPC forecast for next weekend was to stay close to the
ensemble means, with lesser influence from the CMC and ECMWF just
for some added system definition across the board.
...Weather Highlights/Threats...
The deepening trough in the West will initially bring light to
moderate precipitation across the central/southern Rockies and the
Four Corners region on Wednesday. Ahead of this, ample Gulf
moisture will be drawn northward ahead of the trough and
associated surface cold front. This should result in widespread
moderate to heavy precipitation from the southern Plains into the
Northeast Wednesday and Thursday. The best chance for heavy
rainfall extends from the Southern Plains and Lower Mississippi
Valley into parts of the lower Ohio/Tennessee Valleys to the
Appalachians and the East. The overall pattern would certainly
support at least local spots excessive rainfall/flash flooding,
but the exact locations remain quite uncertain and dependent on
smaller scale detail differences, and impeded by an overall lack
of instability.
Possibly the bigger threat however is the increasing potential for
a significant winter storm on the backside of this system from the
central Plains into the Midwest/Lower Great Lakes and eventually
the interior Northeast. Heavy accumulating snow is likely, while
possible impactful sleet and freezing rain just to the south
within the transition zone between the rain to the south and snow
to the north. Exact amounts of any wintry precipitation remain in
flux at this point and highly dependent on the lower-confidence
details of ejecting shortwave energy, frontal waves, and timing of
colder temperatures.
Above average temperatures (generally +10-15F) will spread across
the East Wednesday-Thursday. Meanwhile, as arctic high pressure
dives into the central U.S. behind the cold front midweek,
downright chilly and much below normal temperatures will spread
from the northern Rockies/High Plains all the way as far south as
Texas. Widespread daytime highs (and slightly less extreme
overnight lows) as much as 10-25 degrees below average are likely
with some locally higher spots especially Thursday across parts of
Oklahoma and north/central Texas. These temperatures may moderate
slightly as they shift east into the Ohio Valley/Gulf Coast states
next Friday and the East on Saturday, though Texas remains below
average through the end of the week. The West Coast states should
be near normal through much of next week owing to amplified
ridging across the East Pacific.
Santorelli
Additional 3-7 Day Hazard information can be found on the WPC
medium range hazards outlook chart at:
https://www.wpc.ncep.noaa.gov/threats/threats.php
WPC medium range 500mb heights, surface systems, weather grids,
quantitative precipitation, winter weather outlook probabilities
and heat indices are at:
https://www.wpc.ncep.noaa.gov/medr/5dayfcst500_wbg.gif
https://www.wpc.ncep.noaa.gov/medr/5dayfcst_wbg_conus.gif
https://www.wpc.ncep.noaa.gov/5km_grids/5km_gridsbody.html
https://www.wpc.ncep.noaa.gov/qpf/day4-7.shtml
https://www.wpc.ncep.noaa.gov/wwd/pwpf_d47/pwpf_medr.php?day=4
https://www.wpc.ncep.noaa.gov/heat_index.shtml