FOUS30 KWBC 270827
QPFERD

Excessive Rainfall Discussion
NWS Weather Prediction Center College Park MD
427 AM EDT Thu Mar 27 2025

Day 1
Valid 12Z Thu Mar 27 2025 - 12Z Fri Mar 28 2025

...THERE IS A MODERATE RISK OF EXCESSIVE RAINFALL ACROSS PORTIONS
OF SOUTH-CENTRAL TEXAS AND THE MIDDLE/LOWER TEXAS GULF COAST...

...South Texas...
Periods of heavy rainfall over South TX will continue into today
and tonight, as ample moisture, shear, and instability (which will
reload today via both daytime heating and decreasing lapse rates
aloft) remain in place. That said, spatially uncertainty remains
relatively high for a Day 1 outlook, as mesoscale factors this
morning may have a large impact on the ultimate evolution of
convection (best expressed by the lack of consistency from hourly
runs of the HRRR, as well as the 00z HRRR being an outlier from
most of the other CAMs with regard to QPF maxima). On the synoptic
scale, ingredients are more favorable for heavy rainfall than
yesterday, and large scale forcing should reload with the mid-
level trough axis and associated shortwave energy moving across
the area (enhancing the upper divergence/DPVA).

However, the extent of the excessive rainfall risk will be at
least partially dependent on mesoscale factors, and observational
trends have already diverged somewhat significantly from the 00z
HREF consensus (with convection propagating farther south than
indicated, to near Brownsville). Despite these trends, the
inherited Moderate risk remains largely unchanged, as localized
3-5" totals over the past 12-24 hours have occurred within the
inherited area where additional training is expected. In fact, the
one area of expansion of the Moderate risk was to bring the contour
farther inland where FFGs have been depressed. While there is still
some chance that the bulk of convection is offshore by 12z,
observational and model trends suggests it may struggle to clear
the coast, leaving coastal areas susceptible to additional heavy
rainfall and flash flooding.

While a break in convective activity is somewhat likely by late
morning to midday, there is high confidence that scattered to
numerous instances of flash flooding will become likely again by
this afternoon and evening. In a worst case scenario, the outflow
stalls near the coast allowing for repeat convection and a
significant flash flood event could evolve (though an increase in
CAMs suggesting that the convection propagates fully offshore has
reduced this risk a bit). When combining rainfall that has already
occurred with what is forecast, it seems probable that some areas
receive 5-8" of storm totals, and localized amounts of 8-12" are
certainly possible.

...MS and OH Valley...
A Marginal risk was maintained (and shifted a bit west with
observational and model trends) across portions of northern MO,
southern IA, IL and central/southern IN. Warm-air advection and
overrunning near a stationary front draped across this region will
gradually lift north as a warm front through the period. In the
meantime, a short period of training this morning may result in
short-term 1-3" totals (per HREF PMM). A localized, and generally
minor, flash flood risk could result.

...Pacific Northwest...
Another modest Atmospheric River (narrow ribbon of 500+ kg/m/s
IVTs) will result in pockets of 3-5+ inch 24 hour rainfall totals
along the West Coast from Northern CA northward through OR-WA.
Despite the relative lack of instability, the wet antecedent soils
(along with the potential of 0.3-0.5 in/hr rainfall rates) could
lead to localized short-term runoff issues, particularly along
small streams and over burn scars.

Churchill/Chenard/Hurley


Day 2
Valid 12Z Fri Mar 28 2025 - 12Z Sat Mar 29 2025

...THERE IS A SLIGHT RISK OF EXCESSIVE RAINFALL ACROSS PORTIONS OF
THE UPPER TEXAS COAST THROUGH SOUTHWEST AND SOUTH-CENTRAL LOUISIANA...

An inherited Slight risk area was maintained (and shifted a bit
west based on model trends) as a slow-moving mid-upper trough will
push the area of most favorable deep-layer forcing (upper divergence
and DPVA) farther east along the Gulf Coast. Coincident with the
favorable synoptic-scale forcing, TPWs between 1.75-2.00", along
with mixed layer CAPE around 1000-1500 J/Kg, will result in a more
enhanced excessive rainfall threat (i.e. Slight) across the Upper
TX Coast to Southwest and South-Central LA. Attributing to a lower
risk (Slight) compared to the previous days (Moderate) will be the
weakening low-level flow, which given the more limited deep-layer
shear, would more likely result in more effective convective
outflows and thus shorter duration of the more intense updrafts and
heavier rainfall cores (as well as generally drier antecedent
conditions). Considerable uncertainty still exists, as convective
details remain unclear at this point even on Day 1, but confidence
in 2-4" localized totals is increasing per the latest guidance.

Churchill/Hurley


Day 3
Valid 12Z Sat Mar 29 2025 - 12Z Sun Mar 30 2025

...THERE IS A MARGINAL RISK OF EXCESSIVE RAINFALL ACROSS PORTIONS
OF THE CENTRAL GULF COAST...

A continuation of the decreasing flash flood risk is expected from
Day 2 into Day 3, as guidance largely indicates localized totals
of only 1-3" (mostly concentrated near the Central Gulf Coast
where FFGs are rather high). The inherited Marginal risk area was
trimmed rather significantly to the north (into the Mid-South), as
forcing and instability look rather minimal (with the ECMWF being
the wettest global model only indicating localized totals of 1-2").
A localized flash flood threat should result for areas confined
closer to the Gulf Coast (and mostly limited to more sensitive
urban areas).


Churchill

$$
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FOUS30 KWBC 210737
QPFERD

Excessive Rainfall Discussion
NWS Weather Prediction Center College Park MD
337 AM EDT Fri Mar 21 2025

Day 1
Valid 12Z Fri Mar 21 2025 - 12Z Sat Mar 22 2025

The probability of rainfall exceeding flash flood guidance is less
than 5 percent.

Wegman


Day 2
Valid 12Z Sat Mar 22 2025 - 12Z Sun Mar 23 2025

The probability of rainfall exceeding flash flood guidance is less
than 5 percent.

Wegman


Day 3
Valid 12Z Sun Mar 23 2025 - 12Z Mon Mar 24 2025

...THERE IS A MARGINAL RISK OF EXCESSIVE RAINFALL FOR PORTIONS OF
THE LOWER MISSISSIPPI AND TENNESSEE VALLEYS AS WELL AS FOR THE
WESTERN OLYMPIC PENINSULA OF WASHINGTON STATE...

...Lower Mississippi and Tennessee Valleys...

A strong cold front trailing behind a deep low tracking across the
Upper Midwest will be the primary forcing supporting widespread
shower and thunderstorm activity across portions of the Mississippi
and Tennessee Valleys on Sunday. The front will be driven with a
robust longwave trough moving across the Midwest. Much of the
Marginal Risk area will be in the favorable RER of the jet. As is
typical with thunderstorm outbreaks, there will be an LLJ out of
the Gulf that will be in place ahead of the front. The
southwesterly LLJ will be parallel to the orientation of the front
(southwest to northeast), which will support training of the
leading convection. 5-10 kt southwesterly Corfidi Vectors further
support the potential for training. Thus, the forward speed of the
front, which should be slowing...but should be fast enough to limit
training potential...will be the deciding factor as to how
widespread the instances of flash flooding will be.

FFGs decrease markedly towards the north into the Ohio Valley, but
the lack of atmospheric instability in that region will keep most
of the rainfall in this area to stratiform rain. Further, when the
front is moving southeastward across the Ohio Valley, the forcing
and moisture availability will not be as optimized as a bit later
when the front is further south. Thus, the inherited Marginal Risk
over much of Kentucky and southern Indiana was trimmed with this
update. The greater instability and Gulf moisture will be closer to
the Gulf, where the Marginal Risk remains with this update. The
flooding threat will be partially offset by the higher FFGs in the
lower Mississippi Valley, so between that and the forward speed of
the front, instances of flash flooding should remain isolated,
favoring a continuation of the Marginal Risk. As always, a slowing
of the front or additional moisture/instability with future updates
could require a Slight Risk upgrade. Should the front become more
progressive then it's possible the Marginal Risk could be
downgraded or shrunk further.

...Olympic Peninsula of Washington...

A strong trailing cold front will move into the coast of the
Pacific Northwest on Sunday. IVT values will peak around 600-650
kg/ms during this time. The western Olympic Peninsula's soils are
well saturated from repeated rounds of rain over the past few
weeks, so this round could result in isolated flash flooding on the
smaller streams and creeks that drain the Olympic Mountains. There
were no changes to the inherited Marginal Risk. Expect 2 to 4
inches of new rainfall in the area through the day on Sunday.

Wegman

$$
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FOUS30 KWBC 280815
QPFERD

Excessive Rainfall Discussion
NWS Weather Prediction Center College Park MD
415 AM EDT Fri Mar 28 2025

Day 1
Valid 12Z Fri Mar 28 2025 - 12Z Sat Mar 29 2025

...THERE IS A SLIGHT RISK OF EXCESSIVE RAINFALL ACROSS PORTIONS OF
THE UPPER TEXAS COAST THROUGH SOUTHWEST LOUISIANA...

An inherited Slight risk area was maintained (and adjusted) once
again for this update, as a slow-moving mid-upper trough will push
the area of most favorable deep-layer forcing (upper divergence and
DPVA) farther east along the Gulf Coast. However, considerably
uncertainty remains (especially for an initial Day 1 outlook) as
much is dependent on the evolution of convection this morning, as
convection continues to consolidate farther south than virtually
all of the guidance indicated at this time yesterday (resulting in
the heaviest rainfall totals of 6"+ over the past 24-48 hours
occurring over far South TX). Should a similar error occur today,
a Slight risk may well not verify (as the consolidating MCS at the
time of writing over far South TX will propagate offshore and may
prevent critically necessary moisture flux transport northward into
the Gulf coast, as best depicted by the 00z HRRR). In addition,
attributing to a lower risk (Slight) compared to the previous days
(Moderate) will be the weakening low-level flow, which given the
more limited deep-layer shear, would more likely result in more
effective convective outflows and thus shorter duration of the more
intense updrafts and heavier rainfall cores (as well as generally
drier antecedent conditions).

However, should more intense convection initiate and sustain
itself farther north (as much of the rest of the 00z HREF
indicates), then localized totals of 3-6"+ totals will be possible
from Southeast TX and the Upper TX coast through much of
southeastern LA (per 00z HREF PMM QPF and associated 40-km
neighborhood probabilities for 3" and 5" exceedance of ~30-60% and
~20-40%, respectively). Meteorological factors supporting this
potential include favorable synoptic-scale forcing (particularly
the continued impressive divergence aloft), precipitable water
values between 1.75-2.00", and CAPE building to 1000-1500 J/kg.
These same factors may still fuel intense convection offshore which
ultimately fail to materialize further inland, thus the Slight
risk is considered to be conditional. On that note, the Marginal
risk was also expanded southwestward to include South TX, given the
ongoing flooding and low-end potential for convective
redevelopment once again with daytime heating (though this
convection should be much less intense with the bulk of the forcing
shifting eastward).

Churchill


Day 2
Valid 12Z Sat Mar 29 2025 - 12Z Sun Mar 30 2025

...THERE IS A MARGINAL RISK OF EXCESSIVE RAINFALL ACROSS PORTIONS
OF THE CENTRAL GULF COAST...

A continuation of the decreasing flash flood risk is expected from
Day 1 into Day 2, as ensemble guidance indicates the potential for
localized totals of 1-3" (mostly concentrated near the Gulf Coast
where FFGs are rather high). The limited inherited Marginal risk
area was maintained for this update, as forcing and instability
continue to look rather minimal (and most deterministic guidance at
this point indicates localized totals of less than 1" for the most
part, including the new WPC forecast, but decided to maintain the
Marginal for at least one more cycle to allow for new CAM data).
Any localized flash flood threat should mostly be confined closer
to the Gulf Coast (and limited to more sensitive urban areas).

Churchill


Day 3
Valid 12Z Sun Mar 30 2025 - 12Z Mon Mar 31 2025

...THERE IS A MARGINAL RISK OF EXCESSIVE RAINFALL ACROSS PORTIONS
OF THE MISSISSIPPI, TENNESSEE, AND OHIO VALLEYS...

A much broader inherited Marginal risk area (relative to Day 2) has
been largely maintained (and expanded a bit), as multiple shortwave
troughs emerging from the Intermountain West and phase with the
polar jet and an associated longwave trough. This complex
interaction is expected to result in a broad area of convection
across much of the eastern CONUS, including portions of the MS, TN,
and OH Valleys. Despite the complexity of the synoptic and
mesoscale details, global models are in fairly good agreement in
indicating a convection breaking out across a broad warm sector
(characterized by PWATs of 1.5-2.0", SB CAPE of 1000-2000 J/kg, and
effective bulk shear of 40-60 kts). Most deterministic solutions
depict 1-3" localized totals (with 2-3" amounts most commonly
located farther south across the Lower MS Valley and Mid-South,
where better instability and moisture tend to be located) with both
the GEFS and ECENS indicating 2" exceedance potential (with the
GEFS favoring portions of the Mid-South from north MS into West and
Middle TN, while the ECENS favors locations farther southwest into
the MS Delta). These types of probabilities from the ensemble
guidance suggest that CAMs may well depict 2-4" localized totals,
and a targeted Slight risk introduction may be necessary in
subsequent outlooks (once better ensemble agreement and/or a
strengthening trend is more evident in the global guidance).

Churchill

$$
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FOUS30 KWBC 290800
QPFERD

Excessive Rainfall Discussion
NWS Weather Prediction Center College Park MD
400 AM EDT Sat Mar 29 2025

Day 1
Valid 12Z Sat Mar 29 2025 - 12Z Sun Mar 30 2025

...THERE IS A MARGINAL RISK OF EXCESSIVE RAINFALL ACROSS PORTIONS
OF THE CENTRAL GULF COAST...

A lingering shortwave trough over the central Gulf Coast will
support a continuation of the decreasing flash flood risk (relative
to the past couple of days), as WPC QPF calls for areal average
totals on the order of 1-3" (concentrated in the vicinity of
coastal MS and adjacent portions of southeast LA). The 00z HREF
indicates surprisingly high odds of 5" exceedance (as high as
20-40% per a 40-km neighborhood method), especially considering
the overall decreasing trend in the forecast over the past couple
of days. Much of this is attributable to convective feedback from
the FV3 (large area of 9"+ totals, and not an uncommon phenomenon
from this particular CAM), but both the ARW and ARW2 also indicate
4-6"+ totals (though both of these models have been less than
stellar with the convection associated with this trough over the
past couple of days). Meanwhile, the 00z HRRR (as well as the NAM-
nest, for what it's worth) depicts much less significant totals
over land, indicating that some of the highest totals stay just
offshore (as well as a secondary maxima well north into central MS
with 2-4" localized totals). All this is to say, spatial
uncertainty remains higher than usual (as depicted by relatively
low probabilities of 2" exceedance, 10-20%, via 10-100 km Ensemble
Agreement Scale neighborhood probabilities). Given 3-6 hr FFGs
mostly in the 4-5" range along the coast (where the most intense
convection is most likely to occur, if it doesn't stay offshore
altogether), the limited inherited Marginal risk area was
maintained for this update (owing to the CAM model trends described
above, with forcing and instability continuing to look fairly
lackluster). Any localized flash flood threat should mostly be
confined closer to the Gulf Coast (and mostly limited to more
sensitive urban areas, which could be locally significant if
impacted by 5"+ totals).

Churchill


Day 2
Valid 12Z Sun Mar 30 2025 - 12Z Mon Mar 31 2025

...THERE IS A MARGINAL RISK OF EXCESSIVE RAINFALL ACROSS PORTIONS
OF THE MISSISSIPPI, TENNESSEE, AND OHIO VALLEYS...

A much broader inherited Marginal risk area (relative to Day 1)
has been largely maintained, as a pair of shortwave troughs
emerge from the Intermountain West into the Central U.S. on
Sunday, eventually partially phasing with the polar jet (and an
associated longwave trough) by Sunday night. This complex
interaction is expected to result in a broad area of convection
across much of the eastern half of the CONUS, including portions of
the MS, TN, and OH Valleys. Despite the complexity of the synoptic
and mesoscale details, models remain in fairly good agreement in
indicating convection breaking out across a broad warm sector
(characterized by PWATs of 1.5-2.0", SB CAPE of 1000-2000 J/kg, and
effective bulk shear of 40-60 kts) supportive of discrete and
multi-cell clusters initially, and likely transitioning to more a
more linear QLCS orientation along the front into the evening (as
best depicted by the 00z FV3 and NAM-nest, which are the only CAMs
which extend through the full period at 00z). While WPC areal
average QPF calls generally for only 1-2" totals, most
deterministic solutions from the global models are likely well
underdone on localized totals, as CAMs will be needed to better
model the discrete convective initiation that is anticipated prior
to the main QLCS passage (with the FV3, NAM- nest, and CMC-reg all
indicating the potential for 3-5" totals, with probabilities
likely maximized in the vicinity of the Mid-South and MS Delta
regions where instability and moisture are more ideal... and this
is where a targeted Slight Risk is most likely to be introduced in
future updates, possibly as early as later today).

Churchill


Day 3
Valid 12Z Mon Mar 31 2025 - 12Z Tue Apr 01 2025

...THERE IS A MARGINAL RISK OF EXCESSIVE RAINFALL ACROSS PORTIONS
OF THE SOUTHEAST...

The aforementioned pair of shortwave troughs are progged to fully
separate by Day 3, as the northern stream shortwave continues to
phase with the polar jet (and associated parent longwave trough)
into the Mid-Atlantic/Northeast, while the southern shortwave
likely hangs back into the Mid-South and Lower MS Valley. This is
anticipated to result in a weaker setup overall for excessive
rainfall on Monday into Monday night, as the best dynamics and
upper-level forcing over the Northeast and Mid-Atlantic is
displaced from the best moisture and instability over portions of
the Southeast (where forcing from the secondary shortwave should
still be sufficient for organized convective activity). The
inherited Marginal risk was maintained for this portion of the
Southeast (including much of AL/GA with surrounding portions of
TN/NC/SC and MS), where GEFS/ECENS exceedance probabilities suggest
the best potential for 2-4" localized totals. Farther northeast
into the Mid-Atlantic and southern portions of New England, while
total tropospheric moisture will certainly be lower (~1.25" versus
1.5"+), these values are either equally or more anomalous than in
the Southeast (90th percentile or higher). Despite this, have
decided not to introduce a Marginal risk at this time, due to the
combination of marginal instability and progressive storm motions.

Churchill

$$
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FOUS30 KWBC 300815
QPFERD

Excessive Rainfall Discussion
NWS Weather Prediction Center College Park MD
415 AM EDT Sun Mar 30 2025

Day 1
Valid 12Z Sun Mar 30 2025 - 12Z Mon Mar 31 2025

...THERE IS A SLIGHT RISK OF EXCESSIVE RAINFALL ACROSS PORTIONS OF
THE LOWER MISSISSIPPI, TENNESSEE, AND OHIO VALLEYS...

...Central Gulf Coast through the Ohio Valley...

A pair of shortwave troughs emerge from the Intermountain West
into the Central U.S. today, eventually partially phasing with the
polar jet (and an associated longwave trough) by later tonight.
This complex interaction is expected to result in a broad area of
organized convective activity across much of the eastern half of
the CONUS, including portions of the MS, TN, and OH Valleys.

Despite the continued complexity of the synoptic and mesoscale
details, models remain in fairly good agreement in indicating
convection breaking out across the broad warm sector today,
initially mostly discrete (and supportive of splitting supercells
and multicell clusters) and evolving into a QLCS ahead of the
associated cold front by this evening. Broad inflow from the Gulf
will result in precipitable water values of 1.25-1.75" (at or above
the 90th percentile, per CFSR climatology) and SB CAPE of 2000-4000
J/kg, as deep layer (0-6 km) shear increases to 40-60 kts. Hourly
rainfall rates of up to 2-3"/hr are possible in this environment,
initially highly localized in association with established
supercells, then more numerous to widespread with the passage of
the QLCS. Localized totals of 2-4" are generally expected within
the Slight for the whole of the event (with the majority falling in
a 3-6 hour period in association with the QLCS passage), with
totals near the upper-end of the range (~4") being possible where
storms train and/or where two or more mesocyclones align.

...Florida Peninsula/Southeasternmost Georgia...

A frontal boundary at 850 hPa slowly lifts through the state,
bringing precipitable water values to 1.5-1.75". MU CAPE maximizes
above 2000+ J/kg in South Florida. There appears to be enough
effective bulk shear for thunderstorm organization as well. The
model guidance --- mostly mesoscale -- indicates the potential for
local amounts in the 5" range. The Marginal risk was maintained.

Churchill/Roth


Day 2
Valid 12Z Mon Mar 31 2025 - 12Z Tue Apr 01 2025

...THERE IS A MARGINAL RISK OF EXCESSIVE RAINFALL ACROSS PORTIONS
OF THE SOUTHEAST & NORTHEAST...

...Southeast...

The aforementioned pair of shortwave troughs are progged to fully
separate by Day 2, as the northern stream shortwave continues to
phase with the parent longwave trough into the Mid-Atlantic and
Northeast, while the southern shortwave likely hangs back into the
Mid-South and Lower MS Valley. The best moisture and instability
lies over portions of the Southeast (where forcing from the
secondary shortwave should still be sufficient for organized
convective activity). The Marginal risk was generally maintained
for this portion of the Southeast (including much of AL/GA with
surrounding portions of East TN, southern MS and the FL Panhandle).
Localized totals of up to 2-3" are generally expected (per GEFS and
ECENS exceedance probabilities), though the inclusion of the full
CAM suite later today will probably push higher-end totals to 3-4"
(still mostly supportive of only a Marginal risk, given associated
3-6 hour FFGs of 2.5-4.0".

...Northeast...

Thunderstorms with heavy rainfall are expected during the afternoon
and evening hours ahead of a northern stream shortwave as MU CAPE
peaks around 1000 J/kg and precipitable water values peak in the
1.25-1.5" range. Sufficient inflow and effective bulk shear is
available for organized convection for much of the period, with
activity expected to be in decline past Tuesday 06z. Hourly rain
totals up to 2" are possible where convection trains, which could
challenge the flash flood guidance across urban portions of the
Mid-Atlantic States. The inherited Marginal risk was maintained.

Churchill/Roth


Day 3
Valid 12Z Tue Apr 01 2025 - 12Z Wed Apr 02 2025

...THERE IS A MARGINAL RISK OF EXCESSIVE RAINFALL ACROSS PORTIONS
OF SOUTHEAST NEBRASKA, SOUTHWEST IOWA, NORTHEAST KANSAS, AND
NORTHWEST MISSOURI...

A blocking pattern begins to emerge by Day 3, as the aforementioned
shortwaves lift northeastward into Canada with large-scale ridging
quickly builds across the eastern CONUS from the North Atlantic.
Meanwhile, large-scale troughing becomes amplified out West, with a
potent upper-low expected to develop over the Northern Rockies and
Plains (translating across the Rockies from the Pacific Northwest).
While global model suites are in overall good agreement with the
evolution of the synoptic scale, the GFS/GEFS is oddly an outlier
lacking substantial convection with the associated surface low
(which is depicted as a sub 990 mb low from the 00z GFS, ECMWF, and
CMC). Most deterministic solutions depict localized totals of 2-3"
(including the downscaled ECMWF, the UKMET, and the CMC-reg) with
remarkably good spatial agreement for this range, so the inherited
Marginal risk was maintained.

Churchill
$$
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FOUS30 KWBC 010745
QPFERD

Excessive Rainfall Discussion
NWS Weather Prediction Center College Park MD
345 AM EDT Tue Apr 1 2025

Day 1
Valid 12Z Tue Apr 01 2025 - 12Z Wed Apr 02 2025

...THERE IS A MARGINAL RISK OF EXCESSIVE RAINFALL ACROSS PORTIONS
OF THE CENTRAL PLAINS & MIDWEST...

Consensus continues to be strong for the overall evolution of a
broad surface cyclone developing in-of the High Plains to Midwest
over the next 24-36 hrs. A strong mid- level trough has ejected
into central CA and will maneuver eastward out of the western
CONUS, aiding in the initiation of a deep surface cyclone across
the Colorado Front Range by later this morning, intensifying
during its life cycle through Wednesday morning and beyond. The
process is manifested through a well- defined axis of difluence
downstream of a robust mean trough/closed-low reflection over the
Rockies, kicking eastward into the High Plains of the Dakotas.
Current deterministic output indicates sub-990mb pressures by later
this afternoon with significant low-level moisture advection
within the lead side of the circulation when assessing the forecast
850-700mb RH field. A textbook warm conveyor belt signature will
mature with a connection based from the Gulf driving warm, moist
air poleward and enhancing a blossoming QPF shield by the time we
reach this evening. The primary focus for heavy rainfall will ensue
after sunset as the initiation of a powerful LLJ across the
Central Plains on the order of 65-75kts will create an axis of
growing low to mid-level shear juxtaposed within a budding warm
sector downstream of the primary circulation. As the surface
cyclone matures, a more defined cold front will develop along the
tail end of the low as it moves into the Plains creating a focus
for convective development as it maneuvers towards the warm sector.

All major deterministic, including the latest 00Z CAMs output indicate
a rapid development of convection across portions of northern KS
into southeast NE advancing east- northeast within the bounds of
the cold front and warm sector of the cyclone. There is also some
growing consensus of a further south and southwest extension of
the convective field within eastern KS down into OK due to the
ejection of a weak mid-level perturbation caught up in the mean
flow that intersects the prolific LLJ bisecting the areas above.
This correlates well with the current ML output that has been
steady with a small sector of convection displaced from the main
line that will ultimately develop over KS into NE and IA.

HREF neighborhood and EAS probs for the primary axis of convection
over northeast KS and points northeast are very much elevated with
a core of 50-70%+ for at least 2" total via neighborhood
probabilities and 40-60% for at least 1" total via a the more
conservative EAS, a testament to a solid overlapping signal for
heavy rainfall within the above zone. A wide swath of 30-50% probs
for at least 2"/3-hrs is also situated within the primary zone of
interest, alluding to modest FFG exceedance probabilities for the
3-hr time frames between 00-12z Wednesday. Further south, the
probabilities are lower, but still within the lower bounds to at
least consider the potential. Latest First Guess Fields have been
steady to include that area across OK and eastern KS and a few CAMs
are worthy of the consideration. These types of synoptic and
mesoscale setups being depicted could offer some surprises due to
the increasingly favorable thermodynamic and kinematic evolutions
forecast within a rapidly improving environment, so to refrain
from missing out on potential, was sure to maintain the previous
MRGL risk with only minor adjustments within the southern and
northern bounds of the risk area attributing to current
probabilities and CAMs signals.

Kleebauer


Day 2
Valid 12Z Wed Apr 02 2025 - 12Z Thu Apr 03 2025

...THERE IS A MODERATE RISK OF EXCESSIVE RAINFALL ACROSS PORTIONS
OF THE LOWER MISSISSIPPI AND OHIO VALLEYS...

The D2 period will represent the initial stages of a prolonged
heavy rain event that will reside over the Lower Mississippi and
Ohio Valleys with a multitude of frontal waves riding along a
persistent quasi-stationary front that will undulate at times when
interacting with the aforementioned surface waves. The general
longwave pattern will become increasingly favorable for a "highway"
of moisture and mid-level impulses to eject northeastward out of
the southern Rockies/Plains and up through the Mississippi and Ohio
Valleys beginning Wednesday afternoon, onward. The consensus among
all ensembles and much of the deterministic fields are the first
wave of the pattern to maneuver over the mid-Mississippi Valley
around the base of a broad trough located over the Plains/Midwest
creating ample surface-based ascent to couple with the powerful
upper jet component situated over the Central CONUS in response to
the evolving pattern the day prior.

At the surface, a cold front will run into a stout western ridge
extension from a surface high located over the Western Atlantic
into the Canadian Maritimes. The pattern essentially comes to a
stalemate thanks to an expected +2 to +3 standard deviation height
anomaly centered over the Western Atlantic. This ridge will counter
the deepening trough over the Central U.S. creating a funneling
affect for deep moisture advection through the Mississippi and Ohio
Valley's, along with ample mid-level impulses that will be preside
over the same areas. The gridlocked setup will create a formidable
moderate to heavy rain event across the above areas with
depictions from guidance indicating a widespread 2-4" with some
areas exceeding 5" increasingly likely within the corridor impacted
by the multitude of convective elements spawning southwest to
northeast in proxy to the quasi- stationary front.

Latest prob fields based within the NBM blend and relevant EC/GEFS
ensembles signal a high likelihood of totals >3" over the span of
18z Wed to 12z Thu with more rain continuing beyond the D2 period.
The maxima is focused within a narrow corridor from central and
northeast AR up through the mid-Mississippi Valley encompassing far southeastern MO, western KY, and southern IN with the probability
for >2" running between 60-80% and >3" settling between 40-60%
without a full implementation of the CAMs into the blend. Rainfall
rates will be generally between 1-2"/hr at peak intensity when
assessing the current HREF/NBM outputs, however, there's a chance
for higher rates located within the southwestern flank of the
stationary boundary (Much of Arkansas up into western KY) as
assessment of the PWAT advection regime signals potential for
localized PWATs exceeding 2" at times during organized convection. Historically, this tends to lead to locally higher rates with
prospects of 2-3"/hr possible, especially when accounting for
intra-hour rates during maturing convection. In all, the setup is
very much conducive for substantial rainfall totals in a span of
12-hrs that will allow for high flash flood concerns within urban
zones and an increasing potential for significant flash and river
flooding outside those areas just due to the overall QPF footprint
anticipated.

This is an increasingly significant setup approaching with
potential for high impacts and life-threatening flash flooding
spanning the course of several days. Be sure to prepare if you live
in a flood zone anywhere from Arkansas, northeast through the
Ohio/Tennessee Valley's. Anyone surrounding will want to monitor
this setup closely as small changes could have heightened impacts
given the forecasted setup.

Kleebauer


$$
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FOUS30 KWBC 071920
QPFERD

Excessive Rainfall Discussion
NWS Weather Prediction Center College Park MD
320 PM EDT Mon Apr 7 2025

Day 1
Valid 16Z Mon Apr 07 2025 - 12Z Tue Apr 08 2025

...THERE IS A MARGINAL RISK OF EXCESSIVE RAINFALL ACROSS PARTS OF
THE SOUTHEAST AND LOWER MID ATLANTIC REGION...

...1600 UTC Update...
Latest surface analysis indicates the cold front has now moved east
of the western portions of the FL Panhandle, as has the axis of
deeper convection/higher cloud tops per longwave IR associated with
the Warm Conveyor Belt (WCB). With the diminishing deep-layer
instability and negative TPW behind the front, we've been able to
remove the Slight Risk across south-central AL and the far western
portions of the FL Panhandle.

Otherwise, the Marginal Risk remains in place across parts of the
eastern Gulf Coast into the Southeast and Lower Mid Atlantic
region. The main hindrance from a flash flood perspective is the
progressive nature of the front as time marches on this afternoon
and evening. Considered a Slight Risk for areas farther east near
the Apalachicola River in FL which could see an outflow boundary
reach the region and stall while convectively active, waiting for
the cold front to catch up before picking up the pace. However, QPF
amongst the global and mesoscale guidance showed low chances for
3"+, so left the risk farther east as Marginal, which was
coordinated with the TAE/Tallahassee FL forecast office.

Hurley/Roth


Day 2
Valid 12Z Tue Apr 08 2025 - 12Z Wed Apr 09 2025

...A MARGINAL RISK OF EXCESSIVE RAINFALL EXISTS IN SOUTHERN FLORIDA...

...1930 UTC Update...
Based on the 12Z guidance, particularly the HREF and its suite of
especially the exceedance probabilities, have trimmed the Marginal
Risk a little to include far southeast FL from Homestead to West
Palm Beach. This given the anticipated frontal progression and the
fact that the bulk of the heaviest rainfall after 12Z Tue will be
east towards the northern Bahamas. 12Z model QPFs follow suit,
especially the CAMs, as the 12Z HREF probabilities of QPF greater
than 3" in 24 hours (12Z Tue-12Z Wed) now shows only a sliver of
30-40% right along the coast along and north of Pompano Beach.

...0800 UTC Discussion...
Deep southwest flow is expected ahead of an advancing cold front
across the FL Peninsula. Precipitable water values of 1.75-2" are
forecast to reside here, and ML CAPE should maximize in the
2000-3000 J/kg range per NAM guidance. Low- level inflow and
effective bulk shear are sufficient for convective organization.
Whether or not a flash flood risk fully materializes depends upon
whether or not an East Coast seabreeze front can develop and focus
convection, which could anchor convection in the large urban area
of South FL as it is unlikely to progress inland within this
synoptic pattern. In this sort of atmosphere, hourly rain totals to
2.5" and overall totals to 5" are possible. The 00z HREF does have
some non- zero probabilities of 5"+ totals across sections of the
northern Keys, while the 3"+ probabilities are more prominent along
the Gold Coast. Considering the urban environment, ingredients
available, and mesoscale guidance signal, added a Marginal Risk to
South FL and the Upper Keys as a precaution as isolated to widely
scattered flash flooding appears possible.

Roth


Day 3
Valid 12Z Wed Apr 09 2025 - 12Z Thu Apr 10 2025

The probability of rainfall exceeding flash flood guidance is less
than 5 percent.

...Southern Illinois...
Conceptually, there is a non-zero threat of heavy rainfall in and
near southern IL Wednesday evening as precipitable water values
rise near to above 1" within a region with 1000-500 hPa thickness
near 5550 meters, implying a completely saturated troposphere. MU
CAPE is expected to rise above 250 J/kg per NAM guidance, which
tends to be under-forecast at this time range. The area will still
be attempting to dry out from recent heavy rainfall/ saturated
soils. However, there is only about a six hour window for heavy
rain concerns to materialize near the parent cyclone's associated
frontal boundary before it moves through. There is the potential
for hourly rain totals to maximize near 1.5". The guidance is this
time range QPF-wise is underwhelming, so no risk area was
depicted. However, this may change as we move closer in time into
the high resolution guidance window.


Roth
$$
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FOUS30 KWBC 090748
QPFERD

Excessive Rainfall Discussion
NWS Weather Prediction Center College Park MD
348 AM EDT Wed Apr 9 2025

Day 1
Valid 12Z Wed Apr 09 2025 - 12Z Thu Apr 10 2025

At the moment...heavy rain potential near the Florida coast
appears to be mostly offshore, except perhaps Cape Canaveral where
there is a non-zero chance of heavy rainfall within convective
banding due to onshore flow advecting in instability from the
nearby Atlantic. However, precipitable water values appear low for
atmospheric saturation, even taking into account the cooler air
mass in place. Overall, any heavy rain related issues would be
isolated at best and the probability of rainfall exceeding flash
flood guidance is considered to be less than 5 percent.

Roth


Day 2
Valid 12Z Thu Apr 10 2025 - 12Z Fri Apr 11 2025

A broad area of instability is forecast to develop across the
Lower Ohio Valley and portions of the Mid-South which shifts into
the Southern Appalachians with time. Moisture availability appears
sufficient for atmospheric saturation within a cool atmosphere
under a digging upper level trough. However, the area of sufficient moisture/moisture plume appears to be on the move. This should
limit the overall excessive rainfall/flash flood potential. The
probability of rainfall exceeding flash flood guidance may be non-
zero, but it is considered to be less than 5 percent.

Roth


Day 3
Valid 12Z Fri Apr 11 2025 - 12Z Sat Apr 12 2025

...A MARGINAL RISK OF EXCESSIVE RAINFALL EXISTS FOR PORTIONS OF THE MID-ATLANTIC STATES AND SOUTHERN NEW ENGLAND...

A deep layer cyclone slows down as it moves across the Mid-Atlantic
States on Friday. The 1000-500 hPa thickness values are quite low
across the region, so one would only need 0.75-1" precipitable
water values to saturate the atmosphere. When combined with slow-
moving low- to mid-level frontogenesis across PA in particular,
heavy rainfall with possible areas of snow through dynamic cooling could
ensue. MU CAPE is only sufficient for issues from a vertically-
derived instability standpoint down near the VA/NC border, but
slantwise convection could be a problem for areas farther north. In
theory, hourly rain totals up to 1" with local amounts to 3" are
possible. In such situations in the past, the convective band that
forms could be quite narrow which makes placement especially
difficult to discern at this time horizon. Not helping matters are
mass field differences between the guidance as the mid- to upper-
level low is attempting to close off as the upstream ridge is
beginning to falter in strength, which would normally side against
a more southerly solution like the 00z NAM. Even so, there is
enough agreement on the heavy rain potential through the various
pieces of guidance, when combined with the ingredients above, to
maintain the Marginal Risk from continuity. Should model mass
fields converge and snow becomes less of a factor, an upgrade to a
Slight Risk may be worth considering as some areas of the northern
Mid- Atlantic States have quite low flash flood guidance (northern
NJ, west- central PA, and the Southern Tier of NY).

Roth
$$
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FOUS30 KWBC 100738
QPFERD

Excessive Rainfall Discussion
NWS Weather Prediction Center College Park MD
338 AM EDT Thu Apr 10 2025

Day 1
Valid 12Z Thu Apr 10 2025 - 12Z Fri Apr 11 2025

...OH Valley and Mid-South...
The latest GOES-E WV suite shows a mid-level trough gradually
amplifying across the Midwest as shortwave energy digs
southeastward from the northern Plains. The model guidance shows a
further amplification of mid-level height falls down across the OH
Valley and Mid-South by later today and tonight which will allow
for a cold front and an attendant area of low pressure to cross
portions of the region. Locally heavy showers and thunderstorms are
expected to develop in the warm sector this afternoon and evening
as a moderately buoyant airmass characterized by MLCAPE values of
1000 to 1500 J/kg sets up and couples with proximity of left-exit
region upper jet dynamics associated with the arrival of a jet
streak. Adding to the convective footprint will be steep mid-level
lapse rates given the amplifying trough overhead, and a sufficient
amount of shear will be in place for some supercell convection.
While moisture is not going to be particularly supportive of heavy
rainfall totals, the convection will be locally well-organized and
capable of producing some hourly rainfall totals of as much as 1 to
1.5 inches. Areas from KY/TN down through northern MS/AL will
generally see scattered pockets of this convection with this
rainfall potential. Given the wet antecedent conditions from the
most recent high-end rainfall/flooding event, it is possible that
these additional rains may result in an isolated concern for some
flash flooding. For now, a Marginal Risk will not be depicted given
some question marks on the overall coverage of convection and
modest rainfall totals, but a non-zero threat of additional
flooding will exist at least on a small-scale and highly localized basis.

The probability of rainfall exceeding flash flood guidance is less
than 5 percent.

Orrison


Day 2
Valid 12Z Fri Apr 11 2025 - 12Z Sat Apr 12 2025

...A MARGINAL RISK OF EXCESSIVE RAINFALL EXISTS FOR PORTIONS OF THE MID-ATLANTIC STATES...

...Mid-Atlantic States...
The 00Z model guidance continues to strongly support the arrival of
an amplifying deep layer trough across the central Appalachians and
the Mid-Atlantic states by Friday as an upper-level jet streak rounds
the base of the trough and lifts northeastward up across the coastal
plain. The model consensus suggests a 500mb low center developing
over the VA Piedmont area, however there is some latitudinal spread
with this as some guidance like the 00Z NAM is farther south, and
other guidance like the 00Z GFS is farther north and faster.
Regardless of exact placement, large areas of the Mid-Atlantic
region will come under left-exit region jet dynamics for ascent
which coupled with strengthening frontogenetical forcing poleward
of a deepening area of low pressure, and relatively strong moisture convergence, should promote the development and expansion of
moderate to locally heavy rainfall. Instability will be lacking
over much of the region with exception of southern VA and
especially NC where closer proximity to the warm sector will be
noted. However, there will be steepening mid-level lapse rates
associated with the closed low development, and there will be areas
of slow-moving, and rather shallow convection that will be capable
of producing heavy rainfall rates. A few model solutions such as
the GEM regional, HRW-ARW2, and NAM-Conest support locally heavy
rainfall totals (2 to 4 inches) over parts of southwest VA and NC
in particular due to slow cell-motions. Farther north into the
cooler side of the storm, the I-95 urban corridor from central VA
up into southeast PA/NJ may see locally heavy rains impact this
region with totals as high as 1 to 2 inches. Generally, these rains
should be beneficial aside from some localized urban runoff
concerns. However, there may be a more defined concern for some
localized flash flooding down into areas of southwest to south-
central VA and NC, along with some potential for southern WV to see
some of this threat. Given the southward trends in the guidance
for the overall heavy rainfall footprint, the Marginal Risk area
has been accordingly shifted farther south compared to continuity.

Orrison


Day 3
Valid 12Z Sat Apr 12 2025 - 12Z Sun Apr 13 2025

The probability of rainfall exceeding flash flood guidance is less
than 5 percent.

Orrison

$$
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FOUS30 KWBC 110800
QPFERD

Excessive Rainfall Discussion
NWS Weather Prediction Center College Park MD
400 AM EDT Fri Apr 11 2025

Day 1
Valid 12Z Fri Apr 11 2025 - 12Z Sat Apr 12 2025

...THERE IS A MARGINAL RISK OF EXCESSIVE RAINFALL FOR PORTIONS OF
THE MID-ATLANTIC...

A slow-moving, amplifying upper level trough parked over the
eastern half of the country will direct a southerly jet streak
along the coast. This jet streak will work to cause the trough to
become more negatively tilted with time, though it will really be
neutrally tilted. Regardless, the jet streak combined with the cold
air in the trough and a developing upper-low-esque circulation in
the upper levels will support the development of a slow moving
coastal low along the Carolinas this morning. As divergence
increases and the low continues to pick up Gulf Stream moisture,
the precipitation shield will expand over much of the Delmarva west
to the I-95 corridor. For most areas, this will mean a prolonged
period of steady rainfall starting this morning and continuing well
into Friday night.

Cool air will be a feature of this low, so much of the rain will be
a windy, cold rain. This does not favor much in the way of
convective activity, which will limit rainfall rates. Any upper
level instability will remain over VA and NC, with little getting
any further north than the DC Metro. Given the lack of instability
and ongoing longer-term drought, and the eastward shift in the axis
of heaviest rainfall in the comma-head/cold sector of the storm,
the inherited Marginal Risk was trimmed out of PA and NJ due to
lack of instability, as well as trimmed out of southwest VA and
western NC. The heaviest rain is currently expected along and east
of the I-95 corridor, so it's in this area where the Marginal
remains in place.

Wegman


Day 2
Valid 12Z Sat Apr 12 2025 - 12Z Sun Apr 13 2025

The probability of rainfall exceeding flash flood guidance is less
than 5 percent.

Wegman


Day 3
Valid 12Z Sun Apr 13 2025 - 12Z Mon Apr 14 2025

The probability of rainfall exceeding flash flood guidance is less
than 5 percent.

Wegman

$$
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FOUS30 KWBC 140804
QPFERD

Excessive Rainfall Discussion
NWS Weather Prediction Center College Park MD
404 AM EDT Mon Apr 14 2025

Day 1
Valid 12Z Mon Apr 14 2025 - 12Z Tue Apr 15 2025

...THERE IS A MARGINAL RISK OF EXCESSIVE RAINFALL FOR PORTIONS OF
WEST VIRGINIA...

A Marginal Risk area for much of the central and southern regions
of West Virginia was introduced with this update. The latest CAMs
guidance continues to hint at a line of training showers and
thunderstorms that will press southeastward this afternoon and
evening, while the storms move more eastward, suggesting at least
some potential for training. The biggest question will be how
strong the storms with the heaviest rain cores will get. A few of
the CAMs, such as the NAMnest, 00Z HRRR and, GEM Regional all
suggest there will be a line of training storms, albeit in
different areas of the state. Thus, as is typical with Marginals,
the area is likely far bigger than the portions of the state that
end up actually seeing flash flooding. Given the aforementioned
uncertainty, the area is bigger to account for that. MUCAPE values
will be around 500 J/kg this afternoon, and PWATs will be between 1
and 1.25 inches, which are values that should support the isolated
flash flooding threat consistent with a Marginal Risk, given the
general agreement for limited areas of training.

Wegman


Day 2
Valid 12Z Tue Apr 15 2025 - 12Z Wed Apr 16 2025

The probability of rainfall exceeding flash flood guidance is less
than 5 percent.

Wegman


Day 3
Valid 12Z Wed Apr 16 2025 - 12Z Thu Apr 17 2025

...THERE IS A MARGINAL RISK OF EXCESSIVE RAINFALL FOR PORTIONS OF
NORTHERN CALIFORNIA AND WESTERN NEVADA...

An upper level low centered off the coast of central California
Wednesday morning will drift eastward towards the coast through the
day. This upper low will spread increasingly cold air in the upper
levels over California and Nevada. This will increase the
instability over the region. Meanwhile, a plume of Pacific moisture
will also move into the region, raising PWATs above 0.75 inches in
some areas, which is over 2 sigma above normal and above the 95th
percentile compared to climatology for the region. Finally,
plentiful warm air in the lower levels of the atmosphere will both
contribute to that instability, as well as raise snow levels to
9-10k ft, so the vast majority of expected precipitation in and
around the Sierras will be in the form of rain. Since expected
MUCAPE values will increase to around 500 J/kg over the area, the
storms that form will be capable of producing cores of heavier
rain, which combined with snowmelt in the Sierras will support an
isolated flash flooding risk, especially in the most prone valleys
and low lying areas. Thus, in coordination with REV/Reno, NV and STO/Sacramento, CA forecast offices, a Marginal Risk was
introduced with this update. Expect with changing model guidance
that the Marginal area will shift between the morning model run
cycle and Wednesday's event, particularly across western Nevada, as
the amount of convection that may cross the Sierras becomes more
clear.

Wegman

$$
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FOUS30 KWBC 151433
QPFERD

Excessive Rainfall Discussion
NWS Weather Prediction Center College Park MD
1033 AM EDT Tue Apr 15 2025

Day 1
Valid 16Z Tue Apr 15 2025 - 12Z Wed Apr 16 2025

The probability of rainfall exceeding flash flood guidance is less
than 5 percent.

Wegman


Day 2
Valid 12Z Wed Apr 16 2025 - 12Z Thu Apr 17 2025

...THERE IS A MARGINAL RISK OF EXCESSIVE RAINFALL FOR PORTIONS OF
NORTHERN CALIFORNIA AND WESTERN NEVADA...

A slow-moving upper level low embedded within a broader positively
tilted trough will move towards the central California coast on
Wednesday. The associated upper level cold air will overspread
central California with sufficient surface heating to increase
instability along the Sierras to between 500 and 1,000 J/kg. The
upper low will also bring a bit of Pacific moisture into the region
as PWATs increase to between 0.5 and 0.75 inches, which for central
California is as much as 3 sigma above normal and exceeds the 95th
percentile for climatology. Corfidi Vectors will generally be out
of the north to northeast, which will favor south to southwest
moving convection developing on the Nevada side of the Sierras then
slowly moving over or along the range into the foothills of the
Central Valley. Given this setup, there is potential for training
convection since all of the factors that are coming together to
support heavy rainfall from the stronger storms will be slow-moving
and persist through the afternoon and evening hours. Snow levels
from the NBM Wednesday afternoon will be between 8,000 and 9,000
ft, allowing most of the precipitation that falls to be in the
form of rain except at the highest elevations of the Sierras.
Abundant snowpack also remains in place in the Sierras below the
melting level, which will allow for some contribution to rising
streams and creeks to be from snowmelt. Thus, an isolated flash
flooding risk remains in this area. The inherited Marginal risk was
trimmed on the edges, especially into western Nevada, since the
storms will generally track towards California. However, no big
changes were made with this update.

Wegman


Day 3
Valid 12Z Thu Apr 17 2025 - 12Z Fri Apr 18 2025

...THERE IS A MARGINAL RISK OF EXCESSIVE RAINFALL FOR PORTIONS OF
SOUTHWESTERN UTAH...

The upper level low causing the marginal risk of excessive rainfall
in northern California on Day 2/Wednesday will open up and become
an extension of a longwave positively tilted trough over much of
the West on Thursday. The low-turned-trough will accelerate
eastward into southern California and eventually Arizona by late
Thursday night. The energy associated with it will draw a more
substantial upper level shortwave south into the Intermountain West
Thursday and Thursday night. The advance of the associated cold
air will increase the lift ahead of the front. Some of the Pacific
moisture will draw northeastward into southwestern Utah ahead of
the front, supporting more widespread rainfall across the region,
especially Thursday evening into the overnight. While associated
rainfall rates through here are unlikely to exceed a half inch per
hour in any one area for an extended period of time, this rain
falling on very dry and hydrophobic soils are likely to convert
mostly to runoff. Typical flooding locations such as slot canyons
will be at greatest risk for flash flooding. The rainfall should
not be enough to cause widespread flash flooding, but is likely to
cause isolated flash flooding. While higher elevations of Utah may
see mostly snow from this front, once again most areas should
remain as rain.

Wegman

$$
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FOUS30 KWBC 160804
QPFERD

Excessive Rainfall Discussion
NWS Weather Prediction Center College Park MD
404 AM EDT Wed Apr 16 2025

Day 1
Valid 12Z Wed Apr 16 2025 - 12Z Thu Apr 17 2025

The probability of rainfall exceeding flash flood guidance is less
than 5 percent.

The inherited Marginal Risk for portions of the Sierras of northern
California was removed with this update. The upper low is a bit
weaker with less moisture than in previous forecasts, resulting in
lowering amounts of rainfall forecast across this region. Thus,
despite some support from snowmelt, isolated flash flooding is no
longer anticipated in this region.

Wegman


Day 2
Valid 12Z Thu Apr 17 2025 - 12Z Fri Apr 18 2025

The probability of rainfall exceeding flash flood guidance is less
than 5 percent.

The inherited Marginal Risk for portions of southwestern Utah was
removed with this update. In addition to decreasing forecasts for
precipitation in this region, falling snow levels should keep a
significant portion of the precipitation that falls at the higher
elevations as snow, and therefore will not contribute to any
isolated flash flooding. The threat can't be entirely ruled out
even given these changes for slot canyons and flood prone areas,
but has come down to between 0 and 5 percent.

Wegman


Day 3
Valid 12Z Fri Apr 18 2025 - 12Z Sat Apr 19 2025

...THERE IS A SLIGHT RISK OF EXCESSIVE RAINFALL FOR PORTIONS OF
CENTRAL AND NORTHEASTERN OKLAHOMA INTO SOUTHWESTERN MISSOURI...

A large and very positively tilted longwave trough extending from
the Northern Plains down into the Southwest/4 Corners Region will
slowly press eastward towards the Southern Plains on Friday. As
this forcing encroaches across the Plains, it will run into a very
well established southwesterly LLJ extending from the far western
Gulf (and really the Caribbean before that) northward across
central Texas and then northeast into the Midwest. For much of the
day Friday, the forcing to the west and the LLJ will be
sufficiently separated so as to not result in much precipitation
over the Slight Risk area. However, come late Friday afternoon
through the overnight, that will change as the longwave trough
moves east and an embedded shortwave rides the base of the trough
and digs eastward, locally increasing the upper level divergence
(and therefore forcing), needed to initiate and maintain both
convection and a broader rainfall shield around it. Thus, expect
thunderstorms to break out along and ahead of the jet with a
supporting surface cold front slowly pushing southeastward.

As the LLJ runs into the front, storms will rapidly develop
northeastward along the front, then train northeastward one after
another as the LLJ restores the moisture used up by the storms in
the form of heavy rainfall. There is good agreement that the I-44
corridor from Tulsa to Joplin will be the area at greatest risk for
heavy rainfall through Friday night, though storms may continue to
backbuild down to the Oklahoma City metro, and will persist
eastward towards St. Louis. There is good agreement in the guidance
that this scenario will unfold, but less agreement on where this
corridor of training storms will set up, with the I-44 corridor
being the broader consensus. Thus, expect the Slight Risk area to
shift with future updates. Should this corridor shift
southeastward, the heaviest rain will align better with the area
hard hit by the historic rainfall just 2 weeks ago, and while
conditions have significantly improved due to the recent dry
weather, a repeat hit may cause worsened impacts with recovery
still occurring in the area. It's possible a further upgrade to a
Moderate Risk may be necessary with future updates. However, should
the corridor remain along I-44, urban concerns in Tulsa, Joplin,
and the Fayetteville/Bentonville area may locally increase the
impacts from the heavy rain.

Wegman

$$
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FOUS30 KWBC 170800
QPFERD

Excessive Rainfall Discussion
NWS Weather Prediction Center College Park MD
400 AM EDT Thu Apr 17 2025

Day 1
Valid 12Z Thu Apr 17 2025 - 12Z Fri Apr 18 2025

...THERE IS A MARGINAL RISK OF EXCESSIVE RAINFALL FOR PORTIONS OF
MINNESOTA AND WISCONSIN...

A Marginal Risk upgrade was introduced with this update for
portions of Minnesota and Wisconsin. Surface troughing associated
with a developing low over the Plains will strengthen today as a
potent cold front with much colder air moves in from the Canadian
Prairies. It will run into a potent southerly LLJ with 850 winds as
high as 35 kt advecting some Gulf moisture with PWATs up to 1.25
inches into the region. The combination of the influx of moisture
and strong forcing is expected to cause showers and storms to break
out at the nose of the jet starting this afternoon. The storms will
be fast moving, but the LLJ will supply additional moisture so that backbuilding and training storms will be possible before the storms
congeal into more of a line, which will limit the potential for
training from then on. The greatest concern for isolated flash
flooding will be in the Twin Cities metro area, where urban
concerns and lower FFGs may be exceeded if the storms train over
the cities. HREF probabilities for exceedance of 3 hour FFGs peak
above 60 percent in the Twin Cities between 21Z/4pm CDT and 00Z/7pm
CDT. Along with reasonably good CAMs guidance agreement on the
development of storms in that general area, this prompted the
Marginal Risk issuance.

Wegman


Day 2
Valid 12Z Fri Apr 18 2025 - 12Z Sat Apr 19 2025

...THERE IS A SLIGHT RISK OF EXCESSIVE RAINFALL FOR NORTHEASTERN
OKLAHOMA THROUGH CENTRAL MISSOURI...

A well-established and persistent southerly LLJ will be parked
across much of the middle of the country Friday into Friday night.
Deep tropical moisture originating from the Caribbean will flow
into the Texas Gulf Coast and along a very slow moving frontal zone
draped across the Plains to the upper Great Lakes. Showers and
thunderstorms will likely break out during peak heating across the
region starting during the late afternoon hours, but the strongest
storms and greatest rainfall are more likely to occur overnight
Friday night. The strong cold front to the north will run into
opposing flow from the LLJ, causing its progression south and east
to slow as it approaches Oklahoma and Missouri from the northwest.
This will act as a wall, resulting in the LLJ air mass to ride up
and into the front, then track along the frontal interface to the
northeast. This classic frontal scenario will strongly support
training thunderstorms that individually may move quickly to the
northeast as the LLJ intensifies to 50 kt over northwestern
Arkansas Friday night. However, the steady influx of moisture will
support backbuilding along the front, resulting in a line of
training storms across this area. The rain will be somewhat offset
from the area of greatest historic rainfall from 2 weeks ago, and
the smaller streams and creeks have fully drained from that event,
but the bigger rivers, including the Missouri, Arkansas, and
Mississippi continue to drain, and this new influx of rainfall
could back up as the new rainfall meets already full rivers. The
bulk of the event will focus into the Day 3 period. With greater
instability available for the storms to produce heavy rainfall
during this period, it's likely that where the storms are most
persistent, there will be widely scattered instances of flash
flooding, especially near the Tulsa and Joplin metros.

Guidance has favored a very small (roughly 5-10 mile) trend
towards the northwest with each run, so the Slight Risk area was
expanded a row of counties north and west with this update, but
otherwise no big changes were made. The greatest uncertainty lies
in the southwestern extent of the axis of heaviest rainfall, so a
small adjustment to the Red River (TX/OK border) was also made with
this update. In coordination with PAH/Paducah, KY and ILX/Lincoln,
IL forecast offices, the Marginal Risk was also expanded south and
east to account for the new rainfall interacting with still
draining rivers from 2 weeks ago into far southeastern Missouri and
southern Illinois as well.

Wegman


Day 3
Valid 12Z Sat Apr 19 2025 - 12Z Sun Apr 20 2025

...THERE IS A MODERATE RISK OF EXCESSIVE RAINFALL FROM EASTERN
OKLAHOMA THROUGH MUCH OF SOUTHERN MISSOURI...

In coordination with the impacted forecast offices, a Moderate Risk
upgrade was introduced with this morning's ERO update. A stationary
front separating very warm and moisture-laden air to the south from
abnormally cold air to the north will stall out from being a cold
front in previous days. Weakening northeasterly flow of cold, dry
air on the north side of the front, spurred on by a Canadian high
over the Great Lakes will contrast with an ever increasing supply
of hot and humid air straight out of the Gulf being advected
northward on up to 50 kt winds across Texas and into the frontal
interface from north Texas through Oklahoma and Missouri. Meanwhile
in the upper levels, a potent shortwave, previously an upper level
low will eject eastward out of the mountains and into this warm and
humid air mass. This will result in cyclogenesis across Oklahoma by
Sunday morning. Until that happens though, the front will be
largely stationary, with the warm humid air tracking northeastward
on one side, and cool, dry air tracking southwestward on the cold
side. The abundance of moisture and cold pools from Friday night's
storms will support continued shower and thunderstorm development
south of the front. As the shortwave approaches, additional shower
and thunderstorm development will occur, and with stronger storms
due to the added forcing as the surface low develops to the west.

The southerly flow of humid air will cause the storms to run into
the Ozarks of Oklahoma, Arkansas, and especially southern Missouri
on Saturday. The mountains will further uplift the moisture,
resulting additional locally heavy rainfall. The Ozarks are known
for being particularly flash flood prone due to the mountains
helping funnel the water quickly into the river valleys, so this
prolonged period of heavy rainfall is likely to cause some of the
worst impacts to occur in these regions.

As the storms track northeastward across Missouri, the front is
likely to direct them into the St. Louis metro. In coordination
with LSX/St. Louis forecast office, the Moderate Risk's
northeasternmost extent includes the St. Louis metro. While the
storms may not be quite as strong as compared with areas further
south and west by the time they reach St. Louis, the urban corridor
and confluence of major rivers in the area may exacerbate urban
flooding concerns as repeated rounds of heavy rain likely move over the city.

Some of the guidance (RRFS/UKMET/CMC) are favoring the southern end
of the ERO risk areas across Texas and Oklahoma as being the area
with the heaviest rain. Should that occur, then, the Dallas-Fort
Worth Metroplex will also be at higher risk for flash flooding, and
the Moderate Risk may need to be expanded southwestward with future
runs. There were 2 camps of guidance, largely split between foreign
and domestic, favoring the southern and northeastern ends
respectively. To account for these factors, the Slight and Marginal
Risk were expanded northeastward along the frontal interface to the
IL/IN border for the Slight, and well into northern Ohio for the Marginal.

Wegman

$$
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FOUS30 KWBC 180805
QPFERD

Excessive Rainfall Discussion
NWS Weather Prediction Center College Park MD
405 AM EDT Fri Apr 18 2025

Day 1
Valid 12Z Fri Apr 18 2025 - 12Z Sat Apr 19 2025

...THERE IS A SLIGHT RISK OF EXCESSIVE RAINFALL FOR NORTHEASTERN
OKLAHOMA THROUGH CENTRAL MISSOURI...

A persistent southerly low-level jet transporting deep tropical
moisture into the Texas Gulf Coast and along a very slow moving
frontal zone draped across the Plains to the upper Great Lakes will
lead to the development of convection during peak heating. However,
the strongest of the storms will likely be during the late evening
and overnight hours. The strong cold front to the north will run
into opposing flow from the LLJ, causing its progression south and
east to slow as it approaches Oklahoma and Missouri from the
northwest. This will act as a wall, resulting in the LLJ air mass
to ride up and into the front, then track along the frontal
interface to the northeast. This setup will be favorable for
training of thunderstorms and some of the individual cells may
advance quickly to the northeast as the low-level jet intensifies
to 50 kt over northwestern Arkansas Friday night.

The rain will be somewhat offset from the area of greatest
historic rainfall from 2 weeks ago, and the smaller streams and
creeks have fully drained from that event, but the bigger rivers,
including the Missouri, Arkansas, and Mississippi continue to
drain, and this new influx of rainfall could back up as the new
rainfall meets already full rivers. The bulk of the event will
focus into the Day 2 period. With greater instability available
for the storms to produce heavy rainfall during this period, it's
likely that where the storms are most persistent, there will be
widely scattered instances of flash flooding, especially near the
Tulsa and Joplin metros. A Marginal Risk area spans from the
vicinity of the Oklahoma/Texas border northeastward to
Illinois/Indiana. The Slight Risk was adjusted a small amount to
the west than the previous forecast.

Campbell

Day 2
Valid 12Z Sat Apr 19 2025 - 12Z Sun Apr 20 2025

...THERE IS A MODERATE RISK OF EXCESSIVE RAINFALL FROM NORTH-
CENTRAL TEXAS THROUGH MUCH OF SOUTHERN MISSOURI...

A stalled boundary will lead to a stark gradient between two
airmasses, on
with some adjustments on the day shift cycle to pull it a little
more south into the Lower Mississippi Valley along the front where
the better instability should be located. e abnormally cool for mid-April and the rich in
moisture. On the north side the cold, dry northeasterly flow will
be weakening while in the warm sector there will be an ever
increasing supply of hot and humid air straight out of the Gulf
being advected northward on up to 50 kt winds across Texas and into
the frontal interface from north Texas through Oklahoma and
Missouri. Meanwhile in the upper levels, a potent shortwave,
previously an upper level low will eject eastward out of the
mountains and into this warm and humid air mass. This will result
in cyclogenesis across Oklahoma by Sunday morning. Until that
happens though, the front will be largely stationary, with the warm
humid air tracking northeastward on one side, and cool, dry air
tracking southwestward on the cold side. The abundance of moisture
and cold pools from Friday night's storms will support continued
shower and thunderstorm development south of the front. As the
shortwave approaches, additional shower and thunderstorm
development will occur, and with stronger storms due to the added
forcing as the surface low develops to the west.

The westward trend of QPF persisted into this time period, placing
the highest amounts over far north-central Texas, southwest and central Oklahoma. A narrow swath of amounts 3 inches or greater are
expected in this part of the region. The storms to run into the
Ozarks of Oklahoma, Arkansas, and especially southern Missouri on
Saturday. The mountains will further uplift the moisture, resulting
additional locally heavy rainfall. As the storms track
northeastward across Missouri, the front is likely to direct them
into the St. Louis metro. In coordination with LSX/St. Louis
forecast office, the Moderate Risk's northeasternmost extent
includes the St. Louis metro. While the storms may not be quite as
strong as compared with areas further south and west by the time
they reach St. Louis, the urban corridor and confluence of major
rivers in the area may exacerbate urban flooding concerns as
repeated rounds of heavy rain likely move over the city.

The Moderate Risk area was expanded west/southwest further into
north-central Texas. The Slight Risk was shifted into central Texas
and the Marginal Risk had minor expansions to the west. With the
overall western shift of all of the Risk thresholds, the eastern
bounds of each were trimmed back to the west as well.

Campbell/Wegman


Day 3
Valid 12Z Sun Apr 20 2025 - 12Z Mon Apr 21 2025

...THERE IS A MARGINAL RISK OF EXCESSIVE RAINFALL FOR THE CENTRAL
PLAINS AND PORTIONS OF THE MIDDLE AND LOWER MISSISSIPPI VALLEY...

The upper trough and surface low pressure system will continue to
spread showers and thunderstorms across the central U.S. Sunday as
it lifts northeastward. The amount of moisture and instability may
be reduced when compared to Saturday, however it will likely be
above normal. The nature of the low track and associated storms are
expected to be a little more progressive which should limit
rainfall accumulations. Additionally, the bulk of the higher
rainfall amounts is forecast to largely fall north of the Saturday
footprint. A Marginal Risk is in place for the Middle and Lower
Mississippi Valley and eastern portions of the Central Plains.
These areas are north and west of the most sensitive areas of the Mississippi/Ohio River Valleys where streamflows remain high after
recent flooding. However, some rain atop recently flooded areas,
and runoff from other areas into these rivers, could exacerbate
ongoing flooding issues in some areas, so continue to monitor.

Campbell

$$
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FOUS30 KWBC 190754
QPFERD

Excessive Rainfall Discussion
NWS Weather Prediction Center College Park MD
354 AM EDT Sat Apr 19 2025

Day 1
Valid 12Z Sat Apr 19 2025 - 12Z Sun Apr 20 2025

...THERE IS A MODERATE RISK OF EXCESSIVE RAINFALL FROM NORTH-
CENTRAL TEXAS THROUGH MUCH OF SOUTHERN MISSOURI...

A narrow corridor of 4 to 6+ inches of rainfall likely today
across southern Missouri to North-central Texas as thunderstorms
train and backbuild along a slow moving/stalled frontal boundary.
There has been a consistent and persistent westward trend of the
placement of the heaviest rainfall both in the model runs and the
deterministic WPC QPF. Once again the risk areas were expanded
south and west. The Moderate Risk spans from north-central Texas to
the Missouri Ozarks; which had a minor reduction in coverage out of
Illinois given the decrease in QPF from the Mid-Mississippi Valley
to Ohio. The Slight Risk was also reduced over parts of Illinois
and Indiana while extended further into central Texas. The Marginal
was trimmed southward across Illinois, Indiana and Ohio while
adjusted westward of west-central Texas.

On the north side the cold, dry northeasterly flow will be
weakening while in the warm sector there will be an ever increasing
supply of hot and humid air straight out of the Gulf being
advected northward on up to 50 kt winds across Texas and into the
frontal interface from north Texas through Oklahoma and Missouri.
An upper low ejecting from the mountains into this hot, moist
airmass will lead to robust cyclogenesis over Oklahoma by Sunday
morning.

Campbell


Day 2
Valid 12Z Sun Apr 20 2025 - 12Z Mon Apr 21 2025

...THERE IS A MARGINAL RISK OF EXCESSIVE RAINFALL FOR THE CENTRAL
PLAINS AND PORTIONS OF THE MIDDLE AND LOWER MISSISSIPPI VALLEY...

The system responsible for the scattered to widespread
heavy/excessive rainfall on Saturday will begin to accelerate to
the northeast as the upper trough begins to fill. Rainfall amounts
should not rival amounts that are expected on Saturday, but
additional rainfall on top recently flooded areas remains a
potential concern. General model consensus shows a broad footprint
of up to 1.25 inches with isolated maximums of 1.5 to 2+ inches
anywhere from eastern Nebraska to southern Minnesota and Wisconsin.
The exact location of the heaviest amounts has the greatest
uncertainty.

A Marginal Risk is in place for the Middle and Lower
Mississippi Valley and eastern portions of the Central Plains.
These areas are north and west of the most sensitive areas of the Mississippi/Ohio River Valleys where streamflows remain high after
recent flooding. However, some rain atop recently flooded areas,
and runoff from other areas into these rivers, could exacerbate
ongoing flooding issues in some areas, so continue to monitor.

Campbell/Bann


Day 3
Valid 12Z Mon Apr 21 2025 - 12Z Tue Apr 22 2025

The probability of rainfall exceeding flash flood guidance is less
than 5 percent.

Campbell

$$
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FOUS30 KWBC 200829
QPFERD

Excessive Rainfall Discussion
NWS Weather Prediction Center College Park MD
429 AM EDT Sun Apr 20 2025

Day 1
Valid 12Z Sun Apr 20 2025 - 12Z Mon Apr 21 2025

..THERE IS A SLIGHT RISK OF EXCESSIVE RAINFALL ACROSS THE CENTRAL
US TODAY INTO TONIGHT...

Introduced a Slight Risk area for the potential of excessive
rainfall from parts of Texas into the Upper Midwest/Northern
Plains. It is really a composite of multiple reasons to warrant a
Slight Risk area in different geographical areas. The northern
portion of the Slight Risk area covers the growing model signal for
2-3+ inches of rain due to a combination of deformation
zone/surface low and good divergence aloft from the highly curved
anticyclonic upper level jet all becoming more or less collocated.
Rainfall amounts in the central part of the US are forecast to be
less than areas to the north...but the Slight Risk area was more
targeted for overlap between future rainfall on top of what MRMS
has shown for the past 24-36 hrs in anticipation of how the FFG
values will change. Lastly...kept some parts of the Southern Plains
in an outlook area based on short term radar/satellite trends.
While rates have come down as the plume of highest equivalent
potential temperature has narrowed overnight...suspect that the
potential for at least some excessive rainfall will persist beyond
the start of Day 1 period at 20/12Z. Those areas can be removed in
the mid- morning Day 1 ERO assuming that trends continue downward.

Bann


Day 2
Valid 12Z Mon Apr 21 2025 - 12Z Tue Apr 22 2025

The probability of rainfall exceeding Flash Flood Guidance is less
than 5 percent.


Bann

Day 3
Valid 12Z Tue Apr 22 2025 - 12Z Wed Apr 23 2025

...THERE IS A MARGINAL RISK OF EXCESSIVE RAINFALL ACROSS PORTIONS
OF TEXAS AND/OR THE ADJACENT SOUTHERN PLAINS...

Largely maintained a Marginal Risk area over portions of the
Southern Plains from Tuesday into early Wednesday morning due to
the suite of 00Z numerical guidance continuing to show the
potential for repeat/training of cells during the day and with
overnight activity within an emerging moist and unstable return
flow into and over several frontal boundaries. With the models
struggling to latch onto a coherent signal...as shown by some
guidance focusing heaviest QPF near the Gulf coast in proximity to
a weakening cold front and other guidance developing the threat
closer to the Red River in response to the approach of a mid-level
wave...have opted to highlight concern for excessive rainfall in
broad and rather unfocused Marginal Risk area close to a consensus
placement of the precipitable water axis. With PW values generally
being 1.25 inches or less...would not be expected numerous
torrential downpours. The cumulative effect of what has already
fallen from this weekends event and what falls on Tuesday/early
Wednesday needs to be watched.

Bann

$$
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FOUS30 KWBC 210808
QPFERD

Excessive Rainfall Discussion
NWS Weather Prediction Center College Park MD
408 AM EDT Mon Apr 21 2025

Day 1
Valid 12Z Mon Apr 21 2025 - 12Z Tue Apr 22 2025

...THERE IS A MARGINAL RISK OF EXCESSIVE RAINFALL ACROSS SOUTHEAST
TEXAS AND PORTIONS OF THE DEEP SOUTH...

Low-level confluence has aided in persistent, slow-moving
convection across southeast Texas and near Shreveport
overnight/early Monday. Models suggest that these storms should
continue within a similar regime for at least a few hours early in
the forecast period (through 18Z or so) as low-level confluence
shifts southward. Moist/unstable air (1.75+ PWATs) should be
maintained ahead of the activity, which should support local 2
inch/hr rainfall amounts at times given expected slow storm
motions. An instance or two of flash flooding is possible where the
downpours can fall over sensitive/low-lying ground conditions.

Across Mississippi and Alabama, a cold front is expected to make
southeastward progress during the day, but stall across northern
portions of both states. Models are in agreement that scattered
convective activity will develop during the afternoon/evening -
supported both by surface heating and low-level warm advection.
Some of the higher resolution guidance has tended to focus
convection from east-central MS into central AL - a scenario that
may favor training and a locally higher threat for flash flooding
especially given lower FFGs across AL/near the Birmingham area.
This scenario is a bit uncertain in placement, however, given the
overall weak forcing. A broad Marginal risk area is maintained for
this outlook to account for potential for localized 1-2 inch hourly
rain amounts that threaten local FFGs.

Cook


Day 2
Valid 12Z Tue Apr 22 2025 - 12Z Wed Apr 23 2025

...THERE IS A MARGINAL RISK OF EXCESSIVE RAINFALL ACROSS NORTHWEST
TEXAS AND WESTERN OKLAHOMA...

A return-flow regime begins in earnest during the forecast period
across the southern Plains and results in areas of 60s dewpoints
across the OK/TX Red River Valley area. Meanwhile, weak west-
southwesterly mid-level flow and weak perturbations within that
flow should spark initially higher-based thunderstorm activity
across the Panhandles that should spread east-southeastward toward
areas of greater moisture content after 00Z. The outflow dominant
nature of initial storms should limit flash flood potential
initially, with a conditional risk materializing later in the
evening and overnight hours if 1) any upscale growth into one or
two mesoscale convective complex can promote training and boost
rain rates and 2) heavier rainfall can materialize across portions
of north-central Texas/southern Oklahoma that received 3-8 inches
of rain in the past 72 hours or so. These factors reflect a flash
flood threat that is too conditional for anything beyond
Marginal/5% probabilities at this time, and are highly dependent on
a mesoscale evolution that remains uncertain at this time.

Across North Carolina, models suggest that surface heating along
and south of a cold front near the NC/VA state line could provide a
focus for scattered thunderstorm activity during the afternoon
hours. Zonal flow aloft (parallel to this boundary) would support
some potential for convective training, although the coverage of
storms is a bit uncertain given modest ascent/mid-level support. A
Marginal Risk/5% area may be needed in later outlooks pending
greater certainly on convective evolution.

Cook


Day 3
Valid 12Z Wed Apr 23 2025 - 12Z Thu Apr 24 2025

Substantial uncertainty exists for this outlook. Broad, western
U.S. troughing aloft should result in southwesterly flow aloft
across the High Plains for much of the forecast period. Meanwhile,
southerly low-level flow should gradually moisten low-levels across
Kansas and vicinity - especially in the latter half of the
forecast period. Subtle waves within the flow aloft should promote
scattered, initially high-based thunderstorm activity during the
afternoon and early evening, though coverage and location is in
question. Thereafter, there are hints that upscale growth of
storms could result in gradually increasing heavy rain potential as
low-level warm advection results in higher moisture content/PW
values (1-1.5 inches) across central Kansas into central Oklahoma.
Again, this scenario is uncertain given pre-existing moisture
quality concerns.

Given the uncertainty and dry antecedent soil conditions,
probabilities for excessive rainfall are removed for this outlook
across the Great Plains.

Cook

$$
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FOUS30 KWBC 221208
QPFERD

Excessive Rainfall Discussion
NWS Weather Prediction Center College Park MD
808 AM EDT Tue Apr 22 2025

Day 1
Valid 12Z Tue Apr 22 2025 - 12Z Wed Apr 23 2025

...THERE IS A MARGINAL RISK OF EXCESSIVE RAINFALL ACROSS PORTIONS
OF THE TEXAS PANHANDLE INTO WESTERN OKLAHOMA AND THE CENTRAL GULF
COAST INTO THE SOUTHEAST...

12z Update: The Marginal risk was expanded over the Southeast and
now stretches from LA northeastward into portions of MS/AL and the
southern Appalachians. Convection near a stalled boundary will be
capable of producing heavy rainfall rates today across this
corridor. See MPD 147 for more info on the near term possible
flash flood risk across portions of northern MS and AL.

Chenard

...Previous Discussion...

...Texas and Oklahoma...

A west-east orientated warm front paired with a dryline over West
Texas will maintain an environment conducive for convection through
the night. An expeditious shortwave ejecting out of the Southern
Rockies will navigate over the Caprock aiding in focused mid-level
ascent within the confines of the boundary and relative instability
maximum situated near the front and points south and east.
Scattered convection will likely billow up off the eastern New
Mexico Caprock down into the Stockton Plateau leading to strong
mesoscale cores maintaining a prevalent convective footprint over
the Southern Plains.

Cell propagation will be east to southeast motions given the
850-250mb shear field, entering into fairly unstable environments
downstream that will be capable of holding the convective pattern
well into the evening. Precipitable water values will be 1+
deviations above season average which could yield hourly rates of
1-2 inches/hour. These types of setups tend to be tricky, but the
setup is historically one that favors isolated flash flood
concerns, especially within any urbanized areas across the Caprock
into the western Red River Basin. The inherited Marginal Risk
continued to highlight the region with an elevated threat for heavy
rainfall and flash flooding.

...Gulf Coast...

Convection will focus along the slow-moving frontal boundary over
the Lower Mississippi Valley, particularly across southern
Louisiana. Locally heavy rain with cores generally anchored to any
remnants of the front as it decays within the southern Parishes of
the state. Several CAMs indicated a heavy rainfall footprint from
the Texas/Louisiana border to the New Orleans metro area. The
flooding threat is modest at best due to the uncertain nature of
where the pulse convective regime will initiate, however the
individual totals being depicted via CAMs (5-8") and some global
deterministic (3-5") are very much capable of causing some flash
flood concerns across the area. A Marginal Risk remains in effect
for this portion of the state, with only minor reshaping from the
previous issuance.

Campbell/Kleebauer


Day 2
Valid 12Z Thu Apr 24 2025 - 12Z Fri Apr 25 2025

...THERE IS A MARGINAL RISK OF EXCESSIVE RAINFALL ACROSS PORTIONS
OF THE CENTRAL AND SOUTHERN PLAINS...

Several shortwaves will be exiting the Rockies throughout the day
with several pockets of convective development sprawled across the
Central and Southern High Plains by the evening hours. While the
confidence continues to be lower on the maximum amounts there is
however higher confidence on the potential for scattered flash
flood prospects. Although the location of QPF maxima vary, there
is a general consensus of a widespread 1 to 2 inches from the Front
Range of Colorado/Wyoming/Nebraska south to the Red River Basin
near Texas to Kansas/Oklahoma. Some of these areas will have seen
significant rainfall prior to any additional impacts leading to
some localized lower FFG indices once the event occurs. The
inherited Marginal continued to mostly highlight areas across the
Plains that had an elevated threat for heavy rainfall and flash
flooding. The latest guidance and WPC QPF trended higher with QPF
over northeast Kansas, southern Nebraska, southwest Iowa and
northwest Missouri. As such, the Marginal Risk area was modified to
encompass that part of the region.

Campbell/Kleebauer


Day 3
Valid 12Z Thu Apr 24 2025 - 12Z Fri Apr 25 2025

...THERE IS A SLIGHT RISK FOR EXCESSIVE RAINFALL FOR PORTIONS OF
KANSAS, OKLAHOMA, ARKANSAS AND MISSOURI...

The pattern will be favorable for multiple rounds of showers and
thunderstorms to move through the south-central U.S. With a moist,
unstable flow expected and shortwave energy passing through heavy
rainfall will likely develop across the region which may lead to
local flash flooding. Areal averages of 1 to 2 inches are forecast
with locally higher amounts possible. A Slight Risk for excessive
rainfall is in effect for a large portion of Kansas, northern
Oklahoma, far northwest Arkansas and western Missouri. A Marginal
Risk area spans from northern Texas to southern Nebraska and
extreme southwest Iowa.

Campbell
$$
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FOUS30 KWBC 230759
QPFERD

Excessive Rainfall Discussion
NWS Weather Prediction Center College Park MD
359 AM EDT Wed Apr 23 2025

Day 1
Valid 12Z Wed Apr 23 2025 - 12Z Thu Apr 24 2025

...THERE IS A MARGINAL RISK OF EXCESSIVE RAINFALL ACROSS PORTIONS
OF THE PLAINS AND THE SOUTHEAST...

Persistent Gulf moisture advecting northward through the Gulf
states over a stalled frontal boundary draped across the Southeast
will continue to produce scattered to widespread convection capable
of producing heavy rainfall. Rounds of showers and thunderstorms
will fire up along the the boundary from Texas to the Carolinas
with some training and backbuilding expected. Given there will be
very little movement of the front the storms are likely to track over
many of the same areas being impacted by ongoing showers and
storms of late, which locally increases the flash flooding risk. A
convective complex tracking east across the Hill Country during
the very early hours of Wednesday is spreading 0.5 to 1 inch/hour
rain rates along its path which may lead to isolated urban flash
flooding. Refer to WPC mesoscale precipitation discussion #160 for
more details.

The latest guidance has better confidence that the wettest areas
will likely focus over southern Nebraska and northern Kansas. This
too will be the result of an MCS or clusters of thunderstorms
developing and training multiple times over the same areas. The
Marginal remains in place as the consensus of heaviest rains on the
order of 1-2 inches (locally higher, of course) is in a portion of
Kansas and Nebraska that has largely missed out on recent heavy
rainfall, and the antecedent dry conditions should help to offset
and delay the greatest impacts from any heavy rain.

The area of the Marginal of least concern appears to be over
Oklahoma, which while seeing some scattered shower and thunderstorm
activity, should be between the MCSs/areas of more organized and
persistent convection. However, due to heavy rainfall, lower FFGs
over much of the state lower the threshold needed to achieve flash
flooding, so the Marginal is largely unchanged there.

Campbell/Wegman


Day 2
Valid 12Z Thu Apr 24 2025 - 12Z Fri Apr 25 2025

...THERE IS A SLIGHT RISK OF EXCESSIVE RAINFALL FOR PORTIONS OF
KANSAS, OKLAHOMA, ARKANSAS AND MISSOURI...

Multiple clusters of thunderstorms will likely be ongoing in
different portions of the ERO risk areas at the start of the Day
3/Thursday time period. These MCS's will likely weaken and
dissipate through the late morning, as MCS's typically do. However,
with peak heating and the increased instability there will be
renewed rounds of showers and thunderstorms. Since this is likely
to occur over many of the same areas hit with recent heavy rain
this will once again renew the potential for localized flash
flooding over portions of the Southeast. Much of the guidance has
areal averages of 1 to 2 inches with higher maximums possible
falling over much of the same footprint in the day(s) prior. The
potential for a new MCS to form Thursday night will keep the
threat for flash flooding elevated. The inherited Slight Risk
remained largely untouched as it continued to reflect the areas
with the greater threat for flash flooding.

In similar fashion as Day 1, the low level jet will keep a steady
influx of Gulf moisture over the stalled boundary which will
maintain support for heavier rainfall with the strongest storms,
and greater coverage of showers and storms in general. A Marginal
Risk covers the northern Gulf states and Southeast.

Campbell


Day 3
Valid 12Z Fri Apr 25 2025 - 12Z Sat Apr 26 2025

...THERE IS A MARGINAL RISK FOR EXCESSIVE RAINFALL MID-MISSISSIPPI VALLEY/Tennessee VALLEY TO PORTIONS OF THE NORTHEAST...

Recent and ongoing rainfall over some portions of this broad
region will make some areas susceptible to additional rains. During
this period a surface low pressure system and its attendant front
will likely track from the Mississippi Valley toward the Great
Lakes region and interior Northeast. This system will usher in
showers and thunderstorms to areas with increased soil saturation
and lower FFGs. The broad Marginal Risk was maintained from the
Tennessee Valley to the New Hampshire/Maine border given the
increasing signal for heavier and more widespread QPF.

Campbell
$$
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FOUS30 KWBC 240759
QPFERD

Excessive Rainfall Discussion
NWS Weather Prediction Center College Park MD
359 AM EDT Thu Apr 24 2025

Day 1
Valid 12Z Thu Apr 24 2025 - 12Z Fri Apr 25 2025

...THERE IS A SLIGHT RISK OF EXCESSIVE RAINFALL FOR PORTIONS OF
THE CENTRAL/SOUTHERN PLAINS AND IOWA...

The latest suite of guidance continues to be be highly variable
with the placement of highest QPF; however persisted with increases
over Iowa as well as Oklahoma and Texas. The Slight Risk saw a
southward expansion for the Hill Country and to the northeast
placing the northern boundary into central Iowa. Meanwhile there
was a reduction across western Oklahoma and along the Missouri and
Kansas border. Areal averages of 1 to 2 inches with local maximums
of 4+ inches possible.

Multiple clusters of thunderstorms will likely be ongoing. With peak
heating and the increased instability there will be renewed rounds
of showers and thunderstorms. Since this is likely to occur over
many of the same areas hit with recent heavy rain this will once
again renew the potential for localized flash flooding over
portions of the Southeast. There will be a steady influx of Gulf
moisture streaming over the stalled boundary which will maintain
support for heavier rainfall with the strongest storms, and greater
coverage of showers and storms in general. A Marginal Risk covers
the northern Gulf states and Southeast.

Campbell


Day 2
Valid 12Z Fri Apr 25 2025 - 12Z Sat Apr 26 2025

...THERE IS A MARGINAL RISK FOR EXCESSIVE RAINFALL FOR PORTIONS OF
THE SOUTHERN PLAINS, MID-MISSISSIPPI VALLEY, OHIO VALLEY, AND
PORTIONS OF THE NORTHEAST...

A strengthening surface low developing ahead of a strengthening
upper level shortwave trough will drive the storms from a forcing
standpoint through the period. Starting in the Plains it will track
northeast into the Great Lakes Friday evening, with showers and
storms forming along the cold front to the south and east of the
low center. This will bring periodically heavy rainfall to
portions of the Northeast, which has been in a drier period the
past week. Gulf moisture continuing to advect in from the south
will lead to shower and thunderstorm activity starting Friday
afternoon across the Tennessee and Ohio Valleys, and continuing
into Friday night as the front lags behind (south and west) of the
surface low. Meanwhile, the trailing (western) end of the cold
front may be the trigger for additional thunderstorms into southern
Oklahoma, north Texas, and the southern Texas Panhandle.

In coordination will the offices in the Northeast the Marginal Risk
was removed from New Hampshire, Vermont, much of New York and
northeast Pennsylvania. This area has been drier of late and with
green up already in progress, much of the rain will be absorbed
with minimal if any flooding possible. Elsewhere, the Marginal had
minor reshaping to reflect the latest WPC QPF and model trends.

Campbell/Wegman


Day 3
Valid 12Z Sat Apr 26 2025 - 12Z Sun Apr 27 2025

...THERE IS A MARGINAL RISK FOR EXCESSIVE RAINFALL FOR PORTIONS OF
THE SOUTHERN PLAINS AND FOR PORTIONS OF NEW ENGLAND...

...New England...

Showers and thunderstorms are expected to pass through New England
thanks to upper level shortwave energy and wavy surface fronts.
The flow is expected to be fairly progressive so it will help limit
the potential for flash flood. Given the recent QPF trends and
placement, the inherited Marginal Risk area was significantly
modified to only include northeast Vermont, northern New Hampshire
and the majority of the state of Maine.

...Southern Plains...

The steady influx of rich moisture ahead of a deeply strengthening
storm system ejecting into the Plains will fuel rounds of heavy
rain and thunderstorms across portions of the central U.S. from the
weekend into next week. Guidance has improved its focus on where
the higher QPF will occur. The old Day 4 Marginal Risk was reduced
out of Nebraska and Kansas, now spanning from Texas to western
Arkansas as the new Marginal Risk area for this period. Heavy rain
will be favorable with the upper trough diffluence combined with
front/dryline instabilities.

Campbell

$$
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FOUS30 KWBC 250826
QPFERD

Excessive Rainfall Discussion
NWS Weather Prediction Center College Park MD
426 AM EDT Fri Apr 25 2025

Day 1
Valid 12Z Fri Apr 25 2025 - 12Z Sat Apr 26 2025

...THERE IS A SLIGHT RISK OF EXCESSIVE RAINFALL FOR PORTIONS OF
NORTH TEXAS AND THE TEXAS PANHANDLE INTO SOUTHWEST OKLAHOMA...

...Summary...
Minor adjustments were made to the Slight Risk from yesterday's Day
2 ERO area across western portions of the TX/OK Red River Valley
into the Cap Rock and Rolling Plains. Meanwhile, the Marginal Risk
area farther east was extended to include more of the Lower MS Valley.

...North TX...Central OK...TX-OK Panhandles...Eastern NM
Slight Risk area which was hoisted yesterday in the Day 2 ERO, in
coordination with affected TX/OK offices, continues into today's
Day 1 ERO with minor modifications. Upper level flow gradually becomes
more difluent today and tonight as the upper ridge axis pushes east
across the Southern Plains. Convection early this morning on the
leading edge of the outflow boundary south of the MCS will continue
to diminish south of the Red River, resulting in not much rainfall
from an areal-average standpoint. However, late this afternoon and
into the evening with the daytime heating and more favorable
forcing (increasing difluence aloft), additional storms will
develop along the dryline, likely growing upscale into an MCS that
will track slowly across the TX Panhandle and Red River Valley
into the overnight hours. The activity will parallel a W-E oriented
surface frontal boundary that will become quasi-stationary
overnight. The 00Z high-res guidance again indicated stronger
multicellular clusters and supercells, some of which become slow
moving per the simulated reflectivity guidance. Therefore there is
still concern that stronger storms/supercells within the MCS may
move more slowly or even stall, causing a more enhanced flash
flood risk, while the MCS as a whole remains over an area hard hit
with heavy rain in recent days. Within the Slight Risk area, the
latest (00Z) HREF shows highest probabilities of >5" within 12hrs
(40-50+ percent). Meanwhile, the Slight Risk area is also supported
by the latest UFVS-verified CSU ERO First Guess field.

...Lower-Mid MS Valley and TN Valley to OH Valley and Lower Great
Lakes, Southern-Central Appalachians...
The Marginal Risk inherited from yesterday's Day 2 ERO was expanded
to include more of the Lower MS Valley and a little more of the Mid
Atlantic Region. Over northern areas, deep-layer instability ahead
of the cold front is largely elevated and rather meager (less than
1000 J/Kg). However given the higher relative soil moisture and
lower FFGs over these areas, embedded convective elements may cause
isolated instances of flash flooding.

Farther south across the TN Valley and towards the Gulf Coast,
instability will be more plentiful (Mixed-layer CAPEs of 1000-1500
J/Kg), while TPW values are a bit more favorable as well (between
1.5-1.7"). Despite the more favorable thermodynamic profiles, the
more transient easterly progression of the shortwave energy will
limit the duration of the heaviest rainfall. Still, more elevated
1-2"+/hr probabilities in these areas may lead to localized short-
term runoff issues.

Hurley


Day 2
Valid 12Z Sat Apr 26 2025 - 12Z Sun Apr27 2025

...THERE IS A MARGINAL RISK FOR EXCESSIVE RAINFALL FOR PORTIONS OF
THE SOUTHERN PLAINS INTO THE SOUTHERN OZARKS AND JUST WEST OF THE
MISSISSIPPI DELTA...

...Southern Plains...
The MCS that is expected to traverse the Texas Panhandle and along
the Red River Valley Friday evening and overnight will persist
into Saturday across the Marginal Risk area. Guidance continues to
show more limited areal coverage of rain on Saturday as compared
with Friday with any additional convection that develops along the
dryline and the quasi-stationary west-to-east front. This
stationary front will eventually lift northeast as a warm front
Saturday night, taking the more organized/widespread convection
with it. Uncertainty regarding MCS behavior on Saturday remains
very high, and further updates and the move of this time frame into
CAMs range may require a later upgrade to a Slight, particularly
if heavy rain remains further west towards the Panhandle for
longer. Regardless, additional convection is likely to form again
Saturday afternoon along the dryline near the New Mexico border,
which may further worsen flooding concerns in the areas where the
storms develop.

Hurley/Wegman


Day 3
Valid 12Z Sun Apr 27 2025 - 12Z Mon Apr 28 2025

...THERE IS A MARGINAL RISK OF EXCESSIVE RAINFALL ACROSS PARTS OF
THE GREAT BASIN AND FROM PORTIONS OF THE NORTHERN ROCKIES INTO THE
NORTHERN PLAINS AND UPPER MISSISSIPPI VALLEY...

Mid-upper trough across the southern Great Basin early Sunday will
lift across the central Rockies by 12Z Monday. This in-turn will
nudge the upper ridge axis east of the Northern Plains and Upper MS
Valley late Sunday-Sunday night, with a quick onset of upper level
divergence in its wake. Along with the more favorable dynamical
forcing (upper divergence and deep-layer ascent), deepening
southerly flow will tap the western Gulf and lead to an uptick in
low-mid layer moisture transport, with TPW values climbing to
1.25+ inches. Deep-layer instability meanwhile will also be ramping
up, to the tune of 1000-2000+ J/Kg MUCAPE per the 00Z GFS. Some of
the guidance (particularly the ECMWF) shows an MCS developing along
the western periphery of the upper ridge, then tracking east to
eventually southeast along the 850-300 mb thickness. At this point
(day 3 forecast) the forward-propagating Corfidi vectors would
support a more progressive MCS, though much will depend on the
strength of the LLJ. For now, have maintained a fairly broad
Marginal Risk area given the potential of intense short-term
(sub-3hr) rainfall rates.

Hurley

$$
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FOUS30 KWBC 260829
QPFERD

Excessive Rainfall Discussion
NWS Weather Prediction Center College Park MD
429 AM EDT Sat Apr 26 2025

Day 1
Valid 12Z Sat Apr 26 2025 - 12Z Sun Apr 27 2025

...THERE IS A SLIGHT RISK OF EXCESSIVE RAINFALL FOR PORTIONS OF
NORTH AND NORTHWEST TEXAS INTO SOUTHERN OKLAHOMA...

...Summary...
Based on the latest observational and guidance trends, have
expanded the Slight Risk from yesterday's Day 2 ERO a little
farther west-southwest to include a bit more of the Rolling Plains
in Northwest Texas. Otherwise, more minor adjustments were made to
the surrounding Marginal Risk area.

...Southern Plains...
MCS and resultant MCV currently traversing the Texas Panhandle
early this morning will gradually track ENE along the quasi-
stationary surface frontal boundary across much of the TX-OK Red
River Valley today. By late morning, the weakening LLJ will allow
the MCS to diminish, while later in the day (afternoon) a narrow broken
line of convection develops farther upstream along the dryline
across Northwest TX during peak heating. This second area of
convection is expected to take on a more ESE trek during the
afternoon and evening, thus the southwest 'bulge' to both the
Slight and Marginal Risk areas across the Rolling Plains and (for
the Marginal Risk) into northern portions of the Hill Country.
Overnight, the surface stationary front will eventually lift
northeast as a warm front Saturday night, taking the more
organized/widespread convection with it.

As with yesterday's Day 2 ERO, the Day 1 Slight Risk area was
adjusted to capture areas where 1-2+ in/hr rainfall rate probabilities
from the HREF/RRFS ensembles are highest, while also overlapping
areas where heavy rainfall has fallen over the past couple of days
(wetter antecedent interviews).

Hurley


Day 2
Valid 12Z Sun Apr 27 2025 - 12Z Mon Apr 28 2025

...THERE IS A MARGINAL RISK OF EXCESSIVE RAINFALL ACROSS PORTIONS
OF THE NORTHERN HIGH PLAINS INTO THE UPPER MISSISSIPPI VALLEY...

Mid-upper trough across the southern Great Basin early Sunday will
lift across the central Rockies by 12Z Monday. This in-turn will
nudge the upper ridge axis east of the Northern Plains and Upper MS
Valley late Sunday-Sunday night, with a quick onset of upper level
divergence in its wake. Along with the more favorable dynamical
forcing (upper divergence and deep-layer ascent), deepening
southerly flow will tap the western Gulf and lead to an uptick in
low-mid layer moisture transport, with TPW values climbing to 1.3+
inches. Deep-layer instability meanwhile will also be ramping up,
to the tune of 1000-2000+ J/Kg MUCAPE per the 00Z models. To some
degree, the latest models indicate MCS development along the
western periphery of the upper ridge, tracking east to eventually
southeast along the 850-300 mb thickness. For the most part, the forward-propagating Corfidi vectors would support a rather
progressive area of any organized convection that can grow
upscale, though much will depend on the strength of the LLJ. For
now, have maintained a fairly broad Marginal Risk area given the
potential of intense short-term (sub-3hr) rainfall rates.

Hurley


Day 3
Valid 12Z Mon Apr 28 2025 - 12Z Tue Apr 29 2025

...THERE IS A MARGINAL RISK OF EXCESSIVE RAINFALL ACROSS PORTIONS
OF THE NORTHERN PLAINS INTO THE UPPER MIDWEST...

Mid-level circulation will open into a shortwave trough across the
northern Plains and Upper Midwest on Monday-Monday night. Ample
pre-frontal low-mid layer moisture transport and PW values climbing
to 1.5-1.75" will make for a favorable thermodynamic profile,
along with deep-layer instability as MUCAPEs peak between
2,000-3,000 J/Kg (even ~1,000 J/Kg wrapping westward into the
TROWAL zone). The biggest concern during this period will be with
cell training, especially late Monday-Monday night across the Upper
Midwest with the strengthening LLJ and weakening downwind Corfidi
Vectors. For now, guidance spread with the heavier QPF is still
rather high (not well consolidated to support a Slight Risk at
this point). However, per the GFS/ECMWF and especially the GEM-
Regional, localized totals of 3-5+ inches within 12 hours would
appear likely in this setup.

Hurley

$$
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FOUS30 KWBC 270830
QPFERD

Excessive Rainfall Discussion
NWS Weather Prediction Center College Park MD
430 AM EDT Sun Apr 27 2025

Day 1
Valid 12Z Sun Apr 27 2025 - 12Z Mon Apr 28 2025

...THERE IS A SLIGHT RISK OF EXCESSIVE RAINFALL FOR PORTIONS OF
SOUTH-CENTRAL AND SOUTHEASTERN MONTANA...

...Summary...
Minimal modifications were made to the Slight and Marginal Risk
areas from yesterday's Day 2 ERO.

...Northern High Plains to the Mid Mississippi Valley...
Mid-Upper low migrating across the central Great Basin-central
Rockies during the period will set the stage for robust deep-layer
forcing over the outlook areas as the upper ridge axis moves east.
Helping matters will be coupled upper level jet streaks, i.e. with
the ribbon of enhanced lift within the right-entrance region of the
upper jet streak traversing south-central Canada, while also
within the left-exit region of the upper jet streak lifting into
the Front Range and Central Plains. Robust low-mid level moisture
transport turning westward into the maturing Cold Conveyor Belt
(CCB) and maturing TROWAL will reach 2-3 standard deviations above
normal across the Northern Plains per the 00Z GEFS, while
anomalies peak between +3 and +5 across the Upper MS Valley Sunday
night. This as the south-southwesterly LLJ peaks by Sunday night
(~50 kts at 850 mb), while strengthening ENE-NE low-level flow
peaking between 30-40 kts across the backside of the CCB will lead
to a considerable upslope component to the lift across the
foothills and High Plains of south-central and southeast MT into
northeast WY.

The Slight Risk area was largely unchanged. Peak rainfall totals of
2-4+" west and southwest of Billings will combine with high snow
levels and burn scars to locally enhance the flash flooding
potential in this area of Montana. Farther east across the northern
Plains and Upper MS Valley, deep-layer instability will become more
plentiful (MUCAPEs peaking aoa 1,000 J/Kg), while the low-level
moisture transport becomes more robust Sunday night given the
aforementioned uptick in the LLJ. Despite the more favorable deep-
layer thermodynamical profile, the spread in the model QPFs is much
higher over this area, particularly with the heavier rainfall. This
is likely to the more transient (less persistent), mainly WAA-
driven upper level forcing, along with the low-level fronts
remaining upstream of the Upper MS Valley through Sunday night. In
addition, the forward-propagating Corfidi vectors would support a
rather progressive motion of any organized convection that is able
to grow upscale. As a result, the Marginal Risk area was
maintained across the lower (Northern) Plains and Upper MS Valley.

Hurley


Day 2
Valid 12Z Mon Apr 28 2025 - 12Z Tue Apr 29 2025

...THERE IS A SLIGHT RISK OF EXCESSIVE RAINFALL ACROSS PORTIONS OF
THE NORTHERN PLAINS INTO THE UPPER MIDWEST...

...Summary...
Based on the favorable deep-layer synoptic forcing and
thermodynamic profile and the uptick in areal-average model QPFs
(especially the upper-bound totals), have hoisted a fairly large
Slight Risk area across parts of the Northern Plains and Upper
Midwest. Also expanded the Marginal Risk area across SD, southwest
MN, and Iowa from yesterday's Day 2 ERO.

Mid-level circulation will open into a shortwave trough across the
northern Plains and Upper Midwest on Monday-Monday night. Ample
pre-frontal low-mid layer moisture transport and PW values climbing
to 1.5-1.75" will make for a favorable thermodynamic profile,
along with deep-layer instability as MUCAPEs peak between
2,000-3,000 J/Kg (even ~1,000 J/Kg wrapping westward into the
TROWAL zone). The biggest concern during this period will be with
cell training, especially late Monday-Monday night across the Upper
Midwest with the strengthening LLJ (50-55 kt at 850 mb) and
weakening downwind Corfidi Vectors. The 00Z guidance has become a
bit more clustered with the heaviest QPF within the Slight Risk
area, with pockets of 3-5+ inches per the higher-resolution models.

Hurley


Day 3
Valid 12Z Tue Apr 29 2025 - 12Z Wed Apr 30 2025

...THERE IS A SLIGHT RISK OF EXCESSIVE RAINFALL ACROSS PORTIONS OF
THE SOUTHERN PLAINS INTO THE OZARKS AND LOWER MISSOURI VALLEY...

Another potential significant rainfall event will be taking shape
across western portions of the TX-OK Red River Valley northeast
into the Ozarks and Lower MO River Valley. This as the upper trough
west/ridge east amplify and in-turn exhibit slower W-E
progression. This will allow for a more prolonged period of
favorable upper level forcing (coupled southern and northern stream
jet streaks) along a surface front that will become quasi-
stationary across OK- southeast KS into central MO. Robust
synoptic-scale forcing, favorable thermodynamic profiles (Mixed
Layer CAPEs 1000-2000 J/Kg and TPWs 1.5-1.75") and the the enhanced
risk of repetitive convection along the slow moving/stalled
frontal boundary will likely lead to impressive 24 hr rainfall
totals within the Slight Risk area (3-5+ inches, with higher
localized totals per the higher-resolution GEM-Region and RRFS
runs). Tuesday night in particular may bring a more enhanced flash
flood threat, as the LLJ veers and becomes nearly parallel (and of
similar magnitude of) the mean 850-300 mb flow, thereby leading to
weaker forward-propagating Corfidi Vectors and allowing for a
greater risk of cell training.

Hurley
$$
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FOUS30 KWBC 280742
QPFERD

Excessive Rainfall Discussion
NWS Weather Prediction Center College Park MD
342 AM EDT Mon Apr 28 2025

Day 1
Valid 12Z Mon Apr 28 2025 - 12Z Tue Apr 29 2025

...THERE IS A MARGINAL RISK OF EXCESSIVE RAINFALL ACROSS PORTIONS
OF THE PLAINS AND INTO THE UPPER MIDWEST...

...Northern Plains & Upper Midwest...

The period in question will remain active on the rainfall front, but
a few key pieces will be missing, relegating flash flood prospects
closer to the MRGL risk category as inherited from the previous
update. Upper level progression from the Inter-Mountain West through
the Northern Plains and Upper Midwest will exhibit a decaying mid to
upper level structure of a closed ULL out west with a more sheared,
progressive pieces ejecting into the High Plains and propagating
northeastward through MN and northern WI. The evolution is such that
a reasonable upper forcing pattern will materialize with scattered
to widespread convective initiation located downstream of a broad
diffluent axis situated from the Front Range through the Upper
Midwest. Instability on the order of 1500-2500 J/kg of MUCAPE will
be present ahead of the mean trough with ample mid-level
perturbations ejecting into the northern tier of the CONUS during
the morning and afternoon periods. To round off the setup, a budding
140-150kt jet streak will be oriented over south-central Canada
providing a solid RER dynamic suitable for maintaining a more
organized precipitation element over the northern tier of the CONUS.
Despite the above support for convective prospects, the pattern will
be in the process of breaking down as the upper low out west becomes
a more open wave with the primary bulk of mid-level energy quickly
ejecting northeast with a textbook strong PVA to NVA signature as
the energy vacates over the northern Lakes. This setup has shifted
to a very front loaded convective scheme over the Northern Plains
into the Upper Midwest with a majority of the convective pattern
quickly ushering east-northeastward through the course of the
morning and afternoon periods. By the evening, remnant convective
elements will become more scattered in nature, eventually moving out
of the primary area of interest after nightfall leading to a
diminished threat for the end of the forecast cycle.

00z HREF EAS probs remain pretty elevated (50-80%) for at least 1"
across the eastern half of ND through Northern MN, but a sharp
decline in probs for >2" leading the case for more isolated to
widely scattered flash flood prospects in the given pattern. There
are some respectable probabilities in the neighborhood scheme for

2" within the Arrowhead of MN back over the the Dakotas (50-80%),

but again a sharp decline once into the >3" fields limiting the
upper bounds of the potential. A few areas may see between 3-5" at
the peak, but those will likely be few and far between for an area
that is actually in a low-end drought overall. Considering the soil
type and antecedent dry conditions in the region, the inherited MRGL
was maintained with little change in the risk area over the Northern
Plains into the Upper Midwest.

...Central and Southern Plains...

The Central and Southern Plains will reside within a broad warm-
sector environment positioned between a vacated warm front pressing
north through the Mississippi Valley and a slow-moving cold front
through the High Plains with a secondary cold forecast to plunge
southeast through the Northern and Central High Plains by the end of
the forecast cycle. A fairly meridional upper pattern will end up
being a key factor in the eventual ejection of stronger shortwaves
out of Chihuahua, MX, barreling northeastward through the Southern
Plains with scattered to widespread thunderstorm development along
and east of a dry line situated over West TX. The combination of
relevant buoyancy/instability positioned over the Southern and
Central U.S. coupled with favored regional ascent and
thermodynamics will create a period of late-afternoon and evening
convective development capable of localized flash flood prospects.
Recent heavy rain episodes have contributed to an elevated soil
moisture presence from the Red River Basin up through much of OK
into southeast KS, and MO. Rainfall totals up to 2-3" in a short
time frame will be capable of causing flash flooding within the
bounds of those areas that exhibit those moist top-layer soils
since the time frame for recovery will have been short. 00z HREF
neighborhood probs for >1" are respectable (50-70%) within portions
of the Central and Southern Plains with the focus generally over
north-central OK, Concho Valley, and Western Rolling Plains of West
TX. Probabilities for >2" are very low leaving the threat for
flash flooding fairly conditional and likely more reserved for more
sensitive areas within urbanized zones and areas more susceptible
due to low-water crossings.

Kleebauer


Day 2
Valid 12Z Tue Apr 29 2025 - 12Z Wed Apr 30 2025

...THERE IS A MODERATE RISK OF EXCESSIVE RAINFALL FOR PORTIONS OF
THE SOUTHERN PLAINS INTO THE MISSOURI VALLEY...

The combination of favorable buoyancy and upper level dynamics
within the confines of a quasi-stationary front across the Southern
Plains to Mid-Mississippi Valley will create an environment
conducive for locally heavy rainfall over an area still recovering
from previous heavy rain episodes. Models are in agreement on the
placement of a west-southwest to east-northeast oriented stationary
front extending from the Western Rolling Plains of TX up through the
Red River Basin, bisecting much of central and northeastern OK, up
through the Ozarks of MO. Multiple mid-level shortwaves will eject
northeast out of MX creating a multi-wave convective initiation
cycle that will eventually move over the same areas repeatedly
during the course of the D2 time frame. Instability markers are very
favorable within the axis denoted above with sufficient buoyancy
on the order of 1500-3000 J/kg of MLCAPE situated across West TX to
points northeast through the Red River into OK. Assessment of NASA
SPoRT soil moisture anomalies pinpoint a fairly large area of
well- saturated top-layer soils running upwards of 90-98th
percentile across southwestern OK up into the Norman/OKC metro
corridor thanks to a significant flash flood episode that occurred
less than 36 hrs prior. Further northeast, soils are still
recovering from multiple rounds of convection the past several days
with elevated top-layer soils also running high within the 75-90th
percentile across the Tulsa CWA up through southwestern MO.
Considering guidance privy to these areas also being the
beneficiary of multiple convective rounds over the course of
Tuesday into Wednesday, there is a growing necessity for a higher
risk level forecast in these zones. Ensemble bias corrected
guidance has steadily increased the areal QPF averages from run to
run within these confines of northeast OK up through western MO, a
testament to the growing consensus in the heavy QPF footprint.

00z CAMs are only within the initial 12 hrs. of the period in
question, but the signs even prior to the bulk of the heavier
convective signature (Heaviest after 00z/29) are very much favorable
for potentially significant flash flood prospects. 00z HREF 6-hr FFG
exceedance probabilities for the 18-00z time frame are already
between 15-30% on the initial stages of heavier precip across the
Red River Basin of North TX into Southwestern OK up through Central
and Northeast OK. This is very likely due to the convective episode
stemming from the first mid-level shortwave ejecting northeast
generating a period of convection during the afternoon hrs. on
Tuesday. By Tuesday evening, large scale ascent will increase
substantially over the Southern Plains a potent mid-level shortwave
pivots over NM with a robust diffluent signature present downstream
into West TX and the adjacent Red River Basin. At the surface, a
cold front will motion south through the High Plains with an
expected convergence pattern developing as it moves into the already
present quasi-stationary front in place across the region. The
combination of the evolving surface and upper pattern will yield a
robust convective footprint across the Southern High Plains of TX up
through the Red River Basin, pressing northeast given the steering
pattern aloft. The episodic nature of the heavy precip will garner
limited recovery for areas already impacted by one round of
thunderstorms earlier in the period leaving a better opportunity for
flash flooding potential for the nocturnal period. There's some
discrepancy on exact placement of the more prolific convective
cores, but the one constant is the area expected to see the threat
is generally pinned down at this lead.

After coordination with local WFOs over North TX through OK,
Southeast KS, and Southwest MO...the previous MDT risk was expanded
to include much of Central and Northeast OK up through Southeast KS
into Southwest MO. A large SLGT encompasses areas surrounding the
MDT risk with areas like the eastern Permian Basin, Concho Valley,
and the Southern half of MO (Excluding the MDT risk area) within the
SLGT corridor. A broad MRGL extends from the rest of the Permian
Basin all the way through the Central and Northern Ohio Valley into
Northwest PA and far Southwest NY state as scattered convective
clusters will have the opportunity in these zones to produce locally
heavy rainfall capable of isolated flash flood prospects.

Kleebauer

$$
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FOUS30 KWBC 290739
QPFERD

Excessive Rainfall Discussion
NWS Weather Prediction Center College Park MD
339 AM EDT Tue Apr 29 2025

Day 1
Valid 12Z Tue Apr 29 2025 - 12Z Wed Apr 30 2025

...THERE IS A MODERATE RISK OF EXCESSIVE RAINFALL FOR PORTIONS OF THE
SOUTHERN PLAINS...

...Southern Plains...

A repetitive scheme of successive convective outputs across
portions of West TX through Oklahoma will result in significant
flash flooding for a large portion of the above areas. The
combination of several mid-level impulses ejecting northeast within
a large scale diffluent pattern will interact with a quasi-
stationary front aligned from the Western Rolling Plains of TX up
towards the Red River Basin mainly west of I-35. Favorable mid-
level ascent will allow for waves of convective initiation
beginning late-morning and afternoon Tuesday with a secondary pulse
around 00z Wednesday with a final pulse forecast after 06z as the
mean trough finally starts pivoting east out of the Southwestern
CONUS. Instability within the confines of West TX up to the Red
River will allow for rapid development of convective clusters with
some supercellular modes plausible prior to nightfall, eventually
merging into a more multi-cellular scheme with backbuilding favored
within the confines of the front denoted pretty well within the
theta_E gradient output in each deterministic. All CAMs are well
supportive of the 3-wave convective evolution with heavy rainfall
situated across the Southern High Plains near the eastern Permian
Basin with a general QPF maxima aligned southwest to northeast
across the northern extension of the Rolling Plains in TX, up
through the Red River and into the southern portion of the OKC
Metro. This area has been the benefactor of multiple convective
episodes already, leading to flash flooding within the corridor
extending from Lawton down to the Red River. This area will be the
most primed location for not only widespread flash flooding, but
significant life-threatening flash flood prospects due to the well
above normal soil moisture anomalies likely curbing any potential
for rainfall to soak into the top soil layer.

Latest 00z HREF probability fields are overwhelmingly indicative of
the threat with one of the more robust indications occurring
within the 6-hr FFG exceedance probability marker running between
70-90% across the area extending from Foard County in TX up to
western Cleveland County in OK. Neighborhood probabilities of >5"
total rainfall are running between 50-80% in the same location with

8" between 20-30% across Southwest OK between Lawton to the Red

River. Neighborhood probs for >3" are significant across much of OK
back into North TX with the southwest extension back into the
southeast corner of the LUB CWA. Considering the NASA SPoRT soil
moisture percentiles running between 70-99% for the 0-40cm layer
across the entire area above, the propensity for flooding, even in
rural zones will be higher than normal. Given expected rates
between 1-2"/hr during peak storm cycles and the expectation for

3" of rainfall...the threat will be of the higher magnitude in

terms of impact prospects. The previous MDT risk inherited was not
only maintained, but expanded a bit further southwest to align with
the higher probabilities with the neighborhood >5" potential and
the elevated HREF EAS >2" probabilities that have been depicted. A
high-end MDT risk is forecast across the Red River Basin west of
Wichita Falls up into the southern fringes of the OKC metro,
including the town of Norman. Lower end probabilities for flash
flooding will exist across areas of the eastern Permian Basin out
through the Concho Valley as well as across much of Oklahoma not
included in the MDT.

...Mississippi and Ohio Valleys...

Mid-level impulses that eject out of the Southern Plains will
continue to press northeast towards the Mississippi and Ohio
Valleys with a progressive cold front moving southeast out of the
Midwest during the same time frame. Afternoon destabilization
coupled with the favorable addition of mid-level forcing and surface frontogenesis will lead to scattered convective pulses across the
region with some organized elements focused within the confines of
the front and under the shortwave propagation. Soils remain moist
across much of the region extending from MO through the Ohio River
Basin with an eastern extension to the Central Appalachians and
Western PA Highlands. PWAT anomalies on the order of +1 to as high
as +2.5 deviations cements a favorable deep moist environment
conducive for heavy rainfall prospects within any convective
scheme. The greatest concentration of heavy rain will likely be
back over Southern and Central MO towards the 3 river confluence
zone near KY/MO/IN/IL. HREF probs for >1" are very high (70-90+%)
across much of the Mississippi and Ohio Valley areas with >2" probs
relatively high (50-70%) in-of the Ohio River Basin over Southern
IL through much of Eastern KY. The combination of convection over
areas that are still in recovery from previous rainfall episodes
and complex terrain will create a threat for isolated to perhaps
scattered flash flood instances over a large area during the
afternoon and evening hours Tuesday. A SLGT risk remains firmly in
place across much of MO along and south of I-70 until the 3 river
confluence zone referenced above. A MRGL risk encompasses all other
areas east through Western PA and even the southwest corner of NY state.

Kleebauer


Day 2
Valid 12Z Wed Apr 30 2025 - 12Z Thu May 01 2025

...THERE IS A MODERATE RISK OF EXCESSIVE RAINFALL FOR PORTIONS OF
THE ARKLATEX, EASTERN OKLAHOMA, AND WESTERN OZARKS...

The pattern remains very active as we move into Wednesday as the
mean trough slowly slips eastward with ample mid-level energy
accompanying, creating an environment favorable for organized
convective clusters through the entire D2 time frame. Rich Gulf air
will be pulled poleward ahead of the advancing trough with several
mid-level perturbations ejecting out of the ahead of the primary
shortwave trough. This in combination with sufficient buoyancy
across Central and East TX through the Mississippi Valley will
maintain a widespread convective zone of impact with strong, heavy
thunderstorm cores and clusters capable of producing prolific
rainfall totals.

Two primary periods of interest have become fairly well documented
within the recent deterministic cycles. The first is the
continuation of the convective complex that will develop overnight
Tuesday into Wednesday morning over the western Red River Basin and
slowly trudge eastward as it maneuvers in tandem with the primary
shortwave energy, and across the remaining theta_E gradient running
parallel to the river. 00z HREF on the back end of its run is
signaling some very impressive rainfall totals (2-5") within the
first 12 hr. period in the forecast cycle (12z Wed to 00z Thu)
across places along the Red River up through Central and Eastern OK
as the multi-cell cluster advances. Prob fields for >3" within
that first 12 hrs. are between 50-90% across south-central OK,
along and east of the I-35 corridor with 25-40% probs for even >5".
Considering this is only for the first 12 hrs., the probs are
pretty impressive and really highlight the threat on the initial
heavy QPF core.

The second period of interest will occur in the afternoon and
evening hrs. as diurnally driven convection will flare up over
Eastern TX within a broad moisture rich environment as NAEFS
anomalies continue to point to +2 to +3 deviations for PWATs
(1.5-2") situated over the area. LLJ introduction by early evening
will only exacerbate the potential with increasing low-level shear
capable of persisting updrafts and eventual cell clusters that will
originate from cells moving northeast within the mean flow. Several
mid-level perturbations will be in the vicinity across Northeast TX
to truly enhance and maintain convective cores such that it becomes
a fairly favorable prospect for heavy rainfall extending into the
Lower Mississippi Valley. Totals between 2-4" within an areal
expanse are forecast across the ArkLaTex up through Western AR to
just before the MO Ozarks. Locally higher totals will be possible
across that entire area given the favorable rates between 1-2.5"/hr
forecast currently within global deterministic. Pending outflow
propagation within the setup, heavier totals could advance further
east towards Central AR, but at this juncture, the primary area of
focus aligns over East TX up through Eastern OK and Western AR.
This correlates well with the theta_E ridge extension up through
the area where convective threats will be highest during peak
diurnal destabilization and beyond.

The previous MDT risk was maintained with a westward extension back
over portions of south-central OK down across the Red River into
TX. The MDT risk is NOT within the DFW metro, however it does lie
just north, so will have to monitor trends closely over the next
24-36 hrs. A broad SLGT risk extends south into East TX but well
north of the TX Gulf Coast.

Kleebauer
$$
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