Extended Forecast Discussion
NWS Weather Prediction Center College Park MD
259 PM EDT Wed Apr 26 2023
Valid 12Z Sat Apr 29 2023 - 12Z Wed May 03 2023
...Multi-day heavy rain threat to focus this weekend into next
week over the Northeast and vicinity as a deep upper low settles
over and east/northeast of the Great Lakes...
...Amplified pattern causes cooler than normal temperatures in the
central/eastern U.S. and warmth in the West...
...Overview and Guidance/Predictability Assessment...
Models and ensembles continue to advertise a highly amplified
pattern during the period, as a Great Lakes/Northeast
U.S./southeast Canada upper low anchors a deep upper trough that
becomes established over the East while an eastern Pacific upper
low drops down and settles along the California coast. Between
these two features, an initial western U.S. ridge will gradually
make its way into the High Plains.
Along the West Coast the primary issue is exactly how the energy
within the overall trough evolves by the days 5-7 Monday-Wednesday
time frame, along with the precise position of the likely embedded
closed low. Recent GFS/ECMWF runs and their means have been fairly
coherent with the upper low, with the ECMWF/ECMWF mean tending to
track the upper low farther offshore. The ECMWF mean has been
drifting closer to the California coast over the past 24 hours
though. GEFS means have been trending southward over the past day
or so. The 00Z CMC had a different handling of shortwave energy,
leading to a closed low evolution out of sync with the GFS/ECMWF
clusters. Recent continuity/trends favored a guidance blend tilted
about 60-70 percent toward the 00Z ECMWF/ECMWF mean versus the 06Z
GFS/GEFS mean by the latter half of the period, yielding an upper
low track along or a fraction offshore the California coast. The
new 12Z GFS/GEFS mean/UKMET/CMC have all gravitated toward a
similar path, though the 12Z ECMWF has wobbled a little farther
offshore.
Farther east, there is good agreement for the upper low dropping
into the Great Lakes by Sunday-Monday. However timing spread is
considerable for the southern stream shortwave emerging from the
Plains during the weekend, which combined with uncertainty in
details of shortwave energy ahead of the northern stream trough,
lead to various possibilities for how the surface pattern will
evolve along the East Coast from late weekend into next week. An
intermediate solution appears best as a starting point, with the
00Z ECMWF even a little slower than its ensemble mean for the
southern stream wave (with the new 12Z run trending much faster)
and the GFS appearing to be most eager to consolidate low pressure
farther inland by Monday (but now joined by the 12Z ECMWF given
its changes with the southern wave). An operational model blend
transitioning to the model/mean blend described for the West Coast
system provided a reasonable intermediate solution given the
current detail uncertainties.
...Weather/Hazards Highlights...
The progressive lifting of a leading southern stream upper trough
and an associated low/frontal system will increasingly tap
Atlantic moisture lifting from the Mid-Atlantic to the Northeast
for the weekend with transition to moderate triple point/coastal
low development. A surge of wrap-back rains with the lows may
produce some local runoff issues. The WPC experimental Day 4 (12Z
Saturday-12Z Sunday) Excessive Rainfall Outlook maintains a
Marginal Risk area covering locations over and just southwest of
southern New England. Meanwhile, a southern stream shortwave
emerging from the Plains will support a Gulf Coast wave during the
weekend, connecting to the front extending back from the East
Coast system. The combination of frontal/wave focus, some
instability, and increasing moisture, plus some model/ensemble QPF
signals, suggest the potential for sufficiently high rain rates to
merit the introduction of a Marginal Risk area in the Day 4
outlook over the Florida Panhandle and some surrounding areas. By
the Day 5 (12Z Sunday-12Z Monday) time frame, progression of the
southern system pushes the axis of potential heavy rainfall
farther east/southeast with a Marginal Risk area maintained from
prior issuance. The Day 5 outlook also holds onto a Marginal Risk
area over the Northeast as a reinforcing/reforming wave maintains
the flow of moisture into the region. However there is increasing
detail spread by that time so confidence decreases. Northeast U.S.
rainfall should trend lighter after early next week. The
amplifying eastern U.S. upper trough/embedded low will support an
expanding area of below normal temperatures from the eastern
Plains to East Coast. Expect coldest highs of 10-20F below normal
over the Great Lakes/Ohio Valley/central Appalachians early next
week. Snow will be possible near the upper low track, with best
potential over the U.P. of Michigan.
Upstream, a strong upper ridge will progress from California and
the Interior West into the Rockies and High Plains
Saturday-Wednesday. This ridge will support much above average
temperatures with some record values possible, especially during
the weekend when some highs should reach at least 15-20F above
normal. Locations along the West Coast will trend steadily cooler
with time as an upper trough/embedded low drop down along the
California coast. This system may spread some light precipitation
from the Northwest southward into and near California, depending
on exact track of the upper low.
Rausch/Schichtel
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, experimental excessive rainfall
outlook, 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/#page=ero
https://www.wpc.ncep.noaa.gov/wwd/pwpf_d47/pwpf_medr.php?day=4
https://www.wpc.ncep.noaa.gov/heat_index.shtml