FOUS30 KWBC 280808
QPFERD

Excessive Rainfall Discussion
NWS Weather Prediction Center College Park MD
408 AM EDT Tue Apr 28 2026

Day 1
Valid 12Z Tue Apr 28 2026 - 12Z Wed Apr 29 2026

...THERE IS A SLIGHT RISK OF EXCESSIVE RAINFALL FROM THE ARKLATEX
REGION INTO THE MID SOUTH...

A favorable environment will exist for numerous organized
thunderstorms over the southern U.S. today and tonight. Outflow
from steadily advancing squall lines over the Tennessee Valley
should provide a more distinct focus for renewed convective
development over the forecast period. The boundary is likely to be
oriented west-east, essentially parallel to 40-50 knot bulk shear
vectors. Although the air mass north of the boundary may modify
with time, it should still provide low-level convergence and a
contrast in instability. South of the boundary, the warm sector
will have very strong instability (CAPE over 3000 j/kg) and deep
moisture (PW approaching 2 inches; above the 99th percentile for
late April). This parameter space is very supportive of high rain
rates, potentially in excess of 2 inches per hour in the most
intense and organized thunderstorms.

If anything, recent hi-res model runs (06Z HRRR, 00Z RRFS in
particular) have focused the heavy rainfall signal even more into a
corridor approximately 100 miles wide, with 2-4 inch totals and
localized maxima even higher. This is consistent with the expected
pattern described above, with repeated rounds of thunderstorms
along a distinct mesoscale boundary. The main change with this
outlook was to narrow the Slight Risk a bit, especially by trimming
from the stable (northern) periphery well into the stable side of
the mesoscale boundary. It could potentially be focused a bit more,
and that will be a consideration later today. A mitigating factor
for flash flood impacts could be the severe to extreme drought
conditions in place across much of the Slight Risk area. With rain
rates potentially in excess of 2 inches per hour, and heavy rain
sustained for several hours in some cases, drought conditions may
not necessarily prevent impacts but could lead to more isolated
instances of flash flooding. This is still consistent with the
Slight Risk definition. Flash flood guidance factors in current
ground and streamflow conditions, and HREF and REFS probabilities
still show about a 15-30 percent chance of exceeding FFG despite
the overall dry antecedent setup.

Lamers

Day 2
Valid 12Z Wed Apr 29 2026 - 12Z Thu Apr 30 2026

...THERE IS A MARGINAL RISK OF EXCESSIVE RAINFALL FROM CENTRAL AND
SOUTHEAST TEXAS TO THE CENTRAL GULF COAST...

The outlook for Day 2 has remained mostly unchanged, with a
Marginal Risk in a corridor from Texas through Alabama along the
western and central Gulf Coast. A threat of excessive rainfall and
flash flooding is expected, due to a continuation of strong
instability, and the arrival of a plume of unusual amounts of mid-
level moisture. Backward trajectory analysis indicates moisture
around 3km above the surface can be traced along an anomalously
strong subtropical jet extending back into the tropical central
Pacific Ocean. This should push PW values over the risk area above
1.7 inches, and above 2 inches in portions of Texas, which is quite
unusual for April. Given this, it's possible an upgrade to Slight
Risk may be needed in future outlook updates. However, hi-res
guidance is just coming into view. While the extended HRRR and RRFS
do both show rain rates in this environment reaching (and even
exceeding, in some cases) 2 inches per hour, confidence is not high
on placement of greater concentrations of convection. Additionally,
there doesn't seem to be much signal for backbuilding and training,
except perhaps via cell mergers, which could lead to more limited
duration of heavy rain. Therefore, the risk level was held at
Marginal for now for the entire region.

Lamers

Day 3
Valid 12Z Thu Apr 30 2026 - 12Z Fri May 01 2026

...THERE IS A SLIGHT RISK OF EXCESSIVE RAINFALL IN CENTRAL TEXAS...

Increasing mid-upper level height falls over New Mexico and Texas,
due to a strong shortwave pushing through northern Mexico, should
lead to a low-level mass field response with increasing south to
southeast inflow across southern and central Texas. That will also
lead to a gradual uptick in low-level convergence between the
developing low-level jet, and an easterly cool conveyor belt to
the north, in a more stable region from Oklahoma into northwest
Texas. The result should be more numerous thunderstorms over the
course of the Day 3 period, particularly by Thursday Night. Deep
moisture will remain firmly in place, although the instability
should shift to a narrower CAPE profile with lower equilibrium
levels. That trend, in combination with PWs of 1.5 to 1.8 inches,
should support increasingly efficient, warm rain processes in
convective bands.

Furthermore, some training of the lower-topped convective bands may
occur. With stronger instability over South Texas, the Rio Grande
Valley, and far northeast Mexico, and steadily increasing forcing
from the approaching wave upstream, persistent new convective
growth upstream of convective bands is plausible.

Putting all these factors together, a Slight Risk was introduced
over Central Texas. This was placed where drought conditions either
do not exist or are much lower on the scale; that also happens to
be where some ensemble QPF signal is strongest. It's possible the
Slight Risk may trend southeast with time as AI guidance is
positioned on the southeast flank of the guidance envelope, and
would seem to be a logical corrective to the usual bias of QPF
maxima placed too far in the direction of a stable air mass,
especially with 2-3 days of lead time.

Lamers


Day 1 threat area: https://www.wpc.ncep.noaa.gov/qpf/94epoints.txt
Day 2 threat area: https://www.wpc.ncep.noaa.gov/qpf/98epoints.txt
Day 3 threat area: https://www.wpc.ncep.noaa.gov/qpf/99epoints.txt