Subj : HVYRAIN: Excessive Rainfall Discussion
To   : wx-storm@lists.illinois.edu
From : COD Weather Processor
Date : Tue Apr 04 2023 08:10:20

FOUS30 KWBC 040810
QPFERD

Excessive Rainfall Discussion
NWS Weather Prediction Center College Park MD
409 AM EDT Tue Apr 04 2023

Day 1
Valid 12Z Tue Apr 04 2023 - 12Z Wed Apr 05 2023

....THERE ARE MARGINAL RISKS FOR EXCESSIVE RAINFALL FOR PORTIONS OF
SOUTH-CENTRAL U.S. AND GREAT LAKES REGION...

....Western Great Lakes...

A powerful cyclone over the Midwest will be responsible for two
particular areas where Excessive Rainfall is possible today.
Focusing first in the western Great Lakes, the primary surface low
is set to track from the Central Plains Tuesday morning and into
the Upper Midwest by Tuesday evening. The warm front associated
with the low pressure will also push north, tracking through the
Middle MS River Valley Tuesday midday and reach the the Great
Lakes by Tuesday evening. Between the exceptionally deep upper
trough in the West and strong ridging in the Southeast, the
integrated vapor transport will steadily increase from South Texas
to the Upper Midwest. By 00Z Wednesday, NAEFS shows IVT values
will be >750 kg/m/s and above the 99th climatological percentile
from southeast TX to northern IL. PWs in the Marginal Risk area
will eventually reach 1.10-1.20", which is above the 90th
climatological percentile according to NAEFS. The excellent
moisture transport and rising PWs does provide enough moisture for
developing thunderstorms to tap into, leading to locally heavy
rainfall rates. Most guidance is in agreement in MUCAPE >1,000
J/kg, which is high enough to support heavy rainfall rates.

The biggest limiting factors in the flash flood threat are storm
motions and drier air at upper levels. Area averaged soundings
show that the 700-300mb layer is quite dry, and the elevated
convection will also contain some modest hail CAPE as well. Mean
850-300mb winds are will be at a progressive 50-60 knots as well
so barring the potential for training convection, which is not as
likely as convection much farther south, residence time of heavy
rainfall rates will be on the shorter side. The wild card in this
setup are soil temps, which are still quite chilly. In addition,
western MI has also received as much as 300% of rainfall over the
past 7 days. FFGs are also as low as 1"/hr in parts of eastern WI,
northern IL, western IA, and western MI. With the available
instability and anomalous moisture, the Marginal Risk still looks
to be in good shape at this time given the fast storm motions will
help to keep the flash flood threat much more localized.

....East TX/OK, Arkansas, and Middle MS River Valley...

Unlike their neighbors to the north, the atmosphere will be more
unstable and feature less intrusion of the dryslot from the
powerful cyclone in parts of the South Central U.S. Storm motions
will still be rather fast, but this region has the right entrance
region of a 150 knot 250mb jet streak positioned overhead,
maximizing vertical ascent atop the atmosphere. Over 1,000 J/kg of
MLCAPE and PWs approaching 1.5" will coincide within an
atmospheric profile Tuesday evening that features 80-90% RH values
in the 1000-500mb layer. Unlike the soundings to the north, the
atmospheric column will feature deeper warm cloud layers and more
saturated profiles, allowing these developing thunderstorms
Tuesday night to be more efficient rainfall producers. The slower
progression of the cold front and strengthening LLJ after 00Z Wed
will prompt thunderstorms to blossom in these areas along a
pre-frontal trough initially, followed by the cold front sweeping
through these areas early Wednesday morning.

It is along the pre-frontal trough with mean winds in the LCL-LFC
cloud layer running parallel to it where there is the potential
for training convection. However, storm motions will likely be as
fast as 40-50 knots, so residency time of hourly rainfall rates up
to 2"/hr would be shorter and keep the best flash flood potential
to only segments of training storms. East TX may be the most prone
location for possible flash flooding given recent 7-day rainfall
totals have surpassed 300% of normal. However, the lower 1-hr FFGs
are in the Ozarks and into the Middle MS Valley where some values
are as low as 1.5"/hr. Given the quick progression of the
anticipated convection, have maintained the Marginal Risk but will
mention a Slight Risk upgrade may be required should hi-res CAMs
begin showing higher QPF totals in future forecast cycles.

Mullinax



Day 2
Valid 12Z Wed Apr 05 2023 - 12Z Thu Apr 06 2023

....THERE IS A SLIGHT RISK FOR EXCESSIVE RAINFALL FROM THE UPPER
TEXAS COAST INTO THE OHIO VALLEY...

The upper trough over the North-Central U.S. and the strong
ridging along the Southeast coast will work in tandem to funnel
rich Gulf of Mexico moisture north and east from southeast TX into
the Great Lakes. The region from east TX to the Mid-South remains
favorably positioned beneath the diffluent right-entrance region
of a 150 knot jet streak. PWs up to 1.5" are expected as far north
as the Ohio Valley with PWs above 1.75" likely in the Lower MS
Valley and along the Upper Coast of TX. The latest 00Z HREF shows
up to 1,000 J/kg of MUCAPE as far north as the central KY, with
upwards of 2,500 J/kg in central LA. Perhaps one of the biggest
supporting factors for higher chances for flash flooding lies with
a much more saturated profile. The NAEFS showed mean specific
humidity values at the 925-850-700-500mb height levels that were
all above the 90th climatological percentile through Wednesday
afternoon and into Wednesday night, indicating the column through
much of the lower-mid levels of the atmosphere is well saturated.
The other component supportive of flash flooding is that as the
intense cyclone over the Midwest crosses into Canada Wednesday
evening, the trailing cold front over the Mid-South and the Upper
TX coast slows down to becoming nearly stationary. Mean 850-300mb
winds will remain quasi-parallel to the front while southerly
850mb winds continue to pump in Gulf moisture into the frontal
boundary. This is a setup that would support training convection,
and with warm cloud layers as deep as 10-12k feet in some cases,
efficient warm rain processes within these training segments of
convection have better odds to cause flash flooding.

Antecedent conditions feature wetter soils in some of these areas,
most notably in parts of southern AW, northern LA, and central MS.
These areas are more prone to potential flooding, but given the
slowing forward propagation of the cold front Wednesday night, the
primary method for any flash flooding will be most commonly linked
to training convection. Hourly rainfall rates >2"/hr are
anticipated within the more robust areas of convection,
particularly from the Upper TX coast to the Lower MS Valley. Chose
to maintain the Slight Risk with just some minor tweaks shifting
the at-risk area a bit more west to account for slightly slower
trends in the QPF shield from CAMs and deterministic guidance.
Farther north, MUCAPE between 500-1,000 J/kg will be present in
the Upper Ohio Valley and even into portions of the eastern Great
Lakes. With soils growing more saturated it may not take much in
the way of 0.75"/hr rainfall rates to possibly cause localized
areas with rapid runoff and street ponding. The Marginal Risk
remains in place of this forecast update.

Mullinax



Day 3
Valid 12Z Thu Apr 06 2023 - 12Z Fri Apr 07 2023

....THERE IS A SLIGHT RISK FOR EXCESSIVE RAINFALL FROM SOUTHEAST
TEXAS TO WESTERN LOUISIANA...

....South Texas to the Mid-South...

Texas on north and east into the Mid-South will contend with a
stationary front just off the Texas coast while the region sees a
conveyor belt of 500mb shortwaves track northeast into the
Mid-Atlantic. Meanwhile, the 250-500mb trough axis is residing
over Arizona on south through the Gulf of California. This setup
is not only forcing the right-entrance region of the 150+ knot
250mb jet streak to reside over the Mid-South, but a weaker
(albeit, still diffluent) left exit region of a 90 knot jet streak
over the tropical East Pacific sets up near the Rio Grande. Strong
ridging off the East Coast is responsible for an expansive area of
southeasterly 850mb winds stemming from the western Caribbean and
continuing through the Gulf of Mexico. There is no shortage of
atmospheric moisture over southeast Texas with PWs >1.75" expected
along the Texas coast and as far north as southwest Louisiana.
Compared to recent days, mean wind speeds within the 850-300mb
layer are also a little slower at 20-25 knots out of the SW. With
a persistent inflow of 850mb moisture flux and a stalled front and
upper level pattern, it will be an active day of widespread
showers and thunderstorms across the southern tier of Texas and
into the Mid-South.

There is some uncertainty in how much instability will be present,
but as of now, MUCAPE between 500-1,000 J/kg would be available
for developing storms. Meanwhile, the 1000-500mb mean RH values
are likely to be >90% throughout the Slight and Marginal Risk
areas. There was a brief consideration to a Moderate Risk in
southeast Texas, but there is still enough uncertainty in rainfall
totals, low-end instability, and seeing how saturated soils are
after two days worth of rainfall leading up to the event, to keep
the threat level topped out as a Slight Risk for now. The Marginal
Risk was expanded more into northern AL and southern TN as a
result of both lingering PWs >1.5" and thunderstorms likely
forming in areas where soils have moistened up after rainfall
Wednesday night.

....Pacific Northwest Coast...

Chose to expand the inherited Marginal Risk as far north as the
Olympics of western Washington as a result of deep 850-700mb
moisture flux being oriented along the coast Thursday morning and
into the afternoon hours. It is a rather sharp 250-500mb trough
axis approaching the coast Thursday morning with excellent
diffluence atop the atmospheric column. This is a warmer setup
aloft, causing rain to be the primary precipitation type in
mountainous terrain that has a deep snowpack. Over 2" worth of
rainfall is expected from the coastal range of California and
Oregon to the Olympics, where 0-40cm soil moisture percentiles
courtesy of NASA SPoRT-LIS are between 70-90% saturated. The
combination of heavy rainfall rates up to a 0.5"/hr and some snow
melt could result in rapid runoff in complex terrain, as well as
rapid rises in creeks and streams.

Mullinax


Day 1 threat area: https://urldefense.com/v3/__https://www.wpc.ncep.noaa.go=
v/qpf/94epoints.txt__;!!DZ3fjg!-POWNDHSd1ZOokuX8LeRPNBPZC99sJjfCBa0jhSeYz2G=
gSc6hN_vPXNub6KgTR4NvrIcQ3wCDk39A_WWjCWn7W4FKzY$=20
Day 2 threat area: https://urldefense.com/v3/__https://www.wpc.ncep.noaa.go=
v/qpf/98epoints.txt__;!!DZ3fjg!-POWNDHSd1ZOokuX8LeRPNBPZC99sJjfCBa0jhSeYz2G=
gSc6hN_vPXNub6KgTR4NvrIcQ3wCDk39A_WWjCWnTFp39jY$=20
Day 3 threat area: https://urldefense.com/v3/__https://www.wpc.ncep.noaa.go=
v/qpf/99epoints.txt__;!!DZ3fjg!-POWNDHSd1ZOokuX8LeRPNBPZC99sJjfCBa0jhSeYz2G=
gSc6hN_vPXNub6KgTR4NvrIcQ3wCDk39A_WWjCWnd87BQd4$=20


$$



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