Quantitative Precipitation Forecast Discussion
NWS Weather Prediction Center College Park MD
258 PM EDT Thu May 03 2018


Prelim Day 1 QPF Discussion
Valid May 04/0000 UTC thru May 05/0000 UTC
Reference AWIPS Graphics under...Precip Accum - 24hr


Day 1


...Central Plains into the mid/upper MS Valley, Great Lakes and
Northeast...

A strong shortwave ejecting into the Plains is resulting in an
uptick in showers and storms over NE this afternoon...which will
expand northeast into the mid and upper MS valley into tonight.
The 12z HREF members are unanimous in showing a further north axis
for convection this afternoon into tonight over IA/WI/MI and far
southeast MN...and are in pretty close agreement with the global
models as well (GFS,ECMWF,UKMET). This evolution and trend does
seem to make sense, with the wave ejecting into the plains
expected to push the current stationary front a bit northward with
time. Also, note an impressive upper level divergence signature
developing through the day over portions of MN/IA/WI with dual
right entrance and left exit region support. Thus would anticipate
the better coverage of activity to be where this upper level
support combines with the strongest low level convergence.
Instability may be a limiting factor here, although appears to be
enough for embedded heavier convective cells...especially on the
southern edge of activity. The 12z HREF members are all in
agreement showing pockets of 3"+ across this area, which makes
sense given the potential for training/repeat cells near the
front. Will continue to monitor, but given the evolving synoptic
pattern and the good agreement seen amongst the 12z HREF members,
opted to shift the Slight risk north to include central and
northern IA into southern WI. WPC QPF here utilized the 12z HREF
members, recent HRRR runs and some of the ECMWF/UKMET. In general
these models were pretty close, increasing confidence in the for
axis of higher rainfall. A similar approach to QPF was utilized
for the Great Lakes into New England.


....Texas into the lower MS Valley...

Convection continues to move eastward across portions of northeast
TX into eastern OK and western AR/MO. Earlier elevated convection
expanded this morning across northern AR and southern MO on the
nose of a strong corridor of 850 mb moisture transport. This
activity has not been all that intense, but note some embedded
heavier convective cores, and some repeat cell activity, resulting
in locally heavy rains. Currently the northern edge of the squall
line is moving across these same areas of northern AR, southern MO
and adjacent areas of IL/KY. This additional rainfall, and at
least briefly intense rates, may be enough to result in some flash
flood concerns. Thus this Slight risk was maintained, and expanded
slightly to the north and east based on latest trends.

The convective line further south should generally remain
progressive enough to prevent any organized flooding
concerns...although isolated concerns could arise in any more
susceptible areas. WPC QPF here started with a blend of the 12z
HREF members, with some extra weight given to recent HRRR runs
along with the ARW and ARW2...which all appear to be handling the
eastward progression of this line best.

Should see convection redevelop tonight over southern TX as height
falls move into the dry line/cold front in place. Also note
increasing upper level divergence as the region moves into the
favorable right entrance region. This convection is expected to
expand in coverage into the early morning hours, and progress
eastward with time. Overall note decent model agreement here,
although did slightly favor the more progressive solutions of the
ARW and ARW2. Thus WPC QPF here was a global and high res model
blend weighted more towards the aforementioned more progressive
solutions. For the most part storms will be moving enough to limit
the flash flood threat. However, PWAT values will be anomalous,
and there is some signal for some brief cell training or repeat
convection...thus some flash flood risk does seem to exist across
portions of south central TX.

Chenard