Extended Forecast Discussion
NWS Weather Prediction Center College Park MD
326 PM EST Thu Mar 04 2021
Valid 12Z Sun Mar 07 2021 - 12Z Thu Mar 11 2021
...Overview and Guidance Evaluation...
Models and ensembles this morning show decent agreement that
slow-moving upper troughing will dominate the western U.S. as
upper ridging builds across the Plains into the eastern U.S.
during the medium-range forecast period. Much of the uncertainty
will be focused across the northern Plains as upper-level energy
is forecast to lift across the central Plains and then interact
with the northern stream by midweek, but the amount of model
spread is quite reasonable for a Day 6 and 7 forecast.
The feature of interest will be an amplified eastern Pacific mean
trough aloft that gradually makes its way into the western U.S.
from Sunday through most of next week. This trough will support a
broad area of rain and higher elevation snow across the West along
with below normal temperatures. Meanwhile by Tuesday-Wednesday, a
fairly vigorous shortwave expected to eject from the trough is
likely to produce a significant northern Plains storm system that
should spread a broad area of precipitation across the
central/east-central U.S. Ahead of this evolution, an amplified
East Coast upper trough will depart after Sunday and eastern U.S.
heights will continue to rise through the period as ridging moves
in from the central U.S. and an upper high builds from Mexico into
the Gulf around midweek.
There is decent consensus for the overall evolution within the
East Pacific into western U.S. upper trough. The most likely
scenario has an upper low drifting southward off the Pacific
Northwest while energy flowing around the western/southern side of
this low reaches the West by Tuesday and then continues
northeastward to provide the dynamic support for the midweek
Northern Plains storm. The primary forecast challenges involve
the timing and evolution of the ejecting energy as well as the
overall amplitude of flow to the southeast--affecting specifics of
the surface system and how far southeastward the trailing front
extends. Overall preference is to stay closest to the ensemble
means for timing later in the period, given reasonable continuity
thus far and intermediate position between faster GFS runs and
slower ECMWF runs. The 00Z CMC offers a faster solution than the
GFS but its ensemble mean compares well with the GEFS and the EC
mean. Meanwhile, energy from the upper low off the Northwest
should drop southeastward and possibly combine with upstream flow
to yield an upper trough that reaches near the Great
Basin/Southwest by day 7 Thursday.
The WPC medium-range forecast package was derived based on
multi-model consensus of the 00Z ECMWF/00Z EC mean and the 06Z
GFS/GEFS with smaller contributions from the 00Z CMC/CMC mean.
Beginning on Day 5, more of the 06Z GEFS together with the 00Z EC
mean were used to account for the increasing
forecast uncertainty.
...Weather/Threats Highlights...
Expect a large portion of the West to see at least some
rain/higher elevation snow during the period. Heavier
precipitation should extend from southwestern Oregon through
favored terrain in California, with highest amounts most likely
along the Sierra Nevada. Meaningful though more moderate
precipitation is likely across the Interior West and Rockies.
Energy ejecting into the Plains should produce a fairly strong
storm system that tracks across northern tier locations Tuesday
onward, with a broad area of precipitation extending across the
northern/eastern Plains and into the east-central U.S. Some
wintry weather may be possible over extreme northern locations
depending on exactly how the storm evolves. Farther south there
may be locally moderate to heavy rainfall with the mid-Mississippi
Valley and lower Ohio Valley currently the most likely areas to
see highest rainfall totals. Check future outlooks as the
system's details come into clearer focus. Around the end of the
period and beyond, the cold front anchored by the surface low
could stall with continued Gulf inflow helping to add to the
rainfall potential. There is currently enough spread to temper
confidence in this scenario somewhat but it requires monitoring.
Much above normal temperatures will persist over the northern
Plains/Midwest and expand into the Great Lakes through the first
part of next week with readings generally 10-25F above normal.
Daily records should be more numerous for warm lows than daytime
highs. Development/progression of the northern Plains low
pressure system and trailing front Tuesday onward will finally
push this warmth more into the eastern half of the country by
mid-late week. At that time, morning lows should remain as warm
as 15-25F above normal while highs will likely be somewhat less
extreme. The West will see a cooling trend spreading across the
region from west to east during the period with highs tending to
drop to 5-10F or so below normal. The East Coast states will
start out chilly with similar negative anomalies on Sunday
followed by a steady warming trend.
Kong/Rausch
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
Hazards:
- Heavy snow across portions of California and the Pacific
Northwest, Mon-Wed, Mar 8-Mar 10.
- Heavy rain across portions of the Middle Mississippi Valley, the
Northern Appalachians, and the
Ohio Valley, Thu, Mar 11.
- Flooding occurring or imminent across portions of the Southeast,
the Lower Mississippi Valley,
and the Ohio Valley.
- Flooding likely across portions of the Southeast and the Ohio
Valley.
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