FOUS30 KWBC 210052 QPFERD Excessive Rainfall Discussion NWS Weather Prediction Center College Park MD 852 PM EDT Sat Jun 20 2026 Day 1 Valid 01Z Sun Jun 21 2026 - 12Z Sun Jun 21 2026 ...THERE IS A MODERATE RISK OF EXCESSIVE RAINFALL IN EFFECT FOR PARTS OF THE CENTRAL PLAINS AND LOWER MISSOURI VALLEY... 01Z Update... Only minor adjustments to the outlook area in the Plains/Lower Missouri Valley. Numerical guidance continuity was good and radar showed storms beginning upscale growth in roughly the right place across the western outlook area. Not overly concerned about excessive amounts from the warm advection rainfall about ready to move out of the eastern portion of the outlook. More significant changes were made along from South Texas along the gulf coast into portions of Georgia and northern Florida. Additional convection in the guidance later tonight precluded removing the Slight risk along the Texas coast into Louisiana...while on-going convection with locally heavy rainfall rates precluded removal of the Slight Risk there even though the expectation was for weakening and dissipation during the late-evening. Bann ...Central Plains and Missouri Valley... A large area of heavy rain associated with a developing MCS starting this evening and continuing into early Sunday is expected to bring widespread heavy rainfall and flash flooding across portions of the central Plains into the Missouri Valley. The greatest threat for numerous instances of flash flooding currently is expected across southeastern Nebraska, northeastern Kansas, and far northwestern Missouri/southwestern Iowa. Storms are expected to initiate Saturday afternoon with peak heating over the central High Plains and ahead of a racing shortwave crossing the Rockies. Meanwhile, a LLJ of southeasterly flow will increase WAA and pump deep Gulf moisture up the Plains through the day. This will force the dryline to race eastward in response. The warm front associated with the low and the dry line will uplift the deep moisture, resulting in widespread shower and thunderstorm development across Nebraska as early as this afternoon. These storms are expected to grow upscale into an expansive, organized convective system into the evening and overnight hours that will then track southeasterly across the risk area. The latest deterministic guidance shows areal average rainfall totals along the expected path of the MCS in the 2-4" range with locally higher amounts of 4-6", more than sufficient to lead to potentially widespread flash flooding, which has prompted the level 3/4 Moderate Risk. As is usually the case with convective systems the exact path and duration will be determined by more mesoscale details than the guidance can typically pin down. Some CAMs (like the NAM3k) favor the northern axis of heavy rain across southeast Nebraska closer to the developing surface low/MCV, whereas the 00z RRFS favors a southern solution and heaviest rainfall across central Kansas. Regardless, PWs surging to 2" by tonight and increased forcing will support rainfall rates within thunderstorms to be intense and around 2-3"/hr. These rates could be exacerbated by cell mergers and brief training to quickly lead to flash flooding concerns. The 00Z REFS and HREF both highlight neighborhood probabilities of 3" per 6-hrs (above local FFG) around 40-50%+ within the MDT through 12Z Sun and then extending into the Day 2 Valid 12Z Sun Jun 21 2026 - 12Z Mon Jun 22 2026 ...THERE IS A MODERATE RISK OF EXCESSIVE RAINFALL IN EFFECT FOR PARTS OF THE CENTRAL PLAINS, MIDDLE MISSISSIPPI VALLEY, AND OHIO VALLEY... ...2000 UTC update... For the most part, the outlook areas on Day 2 are largely intact. Based on the latest (12Z) suite of deterministic and probabilistic guidance, including CAMs, have nudged the southern periphery of the Moderate Risk a tad farther south across eastern MO and southern IL-IN. A bit of a messy setup ahead of the front, with multiple meso-convective enhanced shortwaves embedded within the broader upper trough. Because of this, expect a multi-modal heavy rainfall footprint north-south when all is said and done. That said, forecast confidence in deciphering such deterministic details at this stage given the convective component is low, and as a result for now it's probably best to defer to later shifts with tightening up the Moderate Risk area. Otherwise, the trends support a small southeast shift in the Slight Risk over the Northern Plains (SD-northeast NE). Lastly, based on the antecedent soils and likelihood of additional activity associated along a lingering vort lobe (enhanced by Gulf breezes), have also expanded the Marginal Risk area to the Middle-Upper TX Coast to portions of the central Gulf Coast. Hurley Original discussion below.. ...Northern Missouri through central Illinois and Indiana... By the start of the day 2 forecast period a potent shortwave and related surface low/MCV are expected to eject eastward out of the central Plains into the Midwest. There still remains at least some uncertainty regarding the speed and latitude of these features (NAM3k a northern outlier for example), but PWs and IVT above the 90th climatological percentile (per the 00z GEFS) overlapping with soils likely still recovering from recent heavy rain in the Midwest will likely lead to a swath of scattered flash flooding. A MDT risk was introduced with the latest outlook, spanning from MO to central IN. Heavy rain near a strengthening surface low and increased lift along an eastward stretching warm front across the Ohio Valley will overlap with saturated soils and swollen rivers across much of IL and IN. This will be one axis for potentially widespread flash flooding, with another axis lingering across southwest MO into eastern KS and possibly a relative minimum in between (right now most likely centered around central to southeast MO). This MO/KS potential is associated with the southwestern tail of an expected MCS, where flow may become parallel to the outflow boundary/front and promote both training thunderstorms and redevelopment of storms by Sunday evening. NBM probabilities for at least 2" remain very high (between 70-90%) and cover much of northern MO, central IL, and central IN. Locally higher totals (CAMs depict potential for 4-7" totals) are likely given the convective environment. 00Z HREF and 18Z REFS probabilities for exceeding 3-hr FFG are around 30-60% across IL and IN, where antecedent ground conditions are wettest. The progressive nature of these storms may end up limiting the severity of flash flood impacts, but coverage of flash flooding impacts is expected to be widespread enough in the Midwest/Ohio Valley to warrant the level 3/4 MDT risk upgrade. ...Eastern Kansas to Southwest Missouri... More information regarding the southern end of the Saturday night thunderstorm complex/MCS likely to sink southeastward near a trailing cold front and impact areas near the Ozarks Sunday. 850 mb flow is expected to become quite convergent extending from central KS to southern MO, which will likely be the focus for training convection potential early on and then reforming activity later in Sunday associated with additional shortwave activity moving eastward across the Plains. However, there is some uncertainty surrounding if this boundary can sink further south during the day and keep storms somewhat progressive. This all combines for guidance to currently depict current QPF amounts of 3-4" and an average localized max of 6". This area also includes soils saturated due to a recent wet weather pattern, with NASA SPoRT-LIS depicting pockets above the 80th percentile in the 0-40cm soil moisture layer. Lastly, 00Z REFS and HREF probabilities are agreeable with 40-70% values for exceeding 3" per 6-hrs. Snell Day 3 Valid 12Z Mon Jun 22 2026 - 12Z Tue Jun 23 2026 ...THERE IS A SLIGHT RISK IN EFFECT FROM THE OHIO VALLEY TO SOUTHERN PLAINS... ...2000 UTC Update.... The notable change made to the Day 3 ERO was to expand the Slight Risk. The main driver was the favorable deep-layer moisture profiles per the latest guidance, effectively shifting the axis of 2-2.25" PWATs into the Mid Atlantic and southern New England. Instability at this point appears lacking, however in similar patterns (per the ERO first guess fields) highly-efficient rainfall rates in late June will more likely lead to more issues (perhaps more than just isolated) across the urban corridors and other areas susceptible to flash flooding. At this point, the EFI per last night's 00Z ECMWF is around 0.8, which along with PWATs near 2 standard deviations above normal, would certainly support an upgrade to at least a low-end Slight Risk over these areas (at least 15% 40km neighborhood probability). Hurley Original discussion below.. Day 3 continues to be an active pattern through a good portion of the CONUS, east of the Mississippi with a progressive trough axis pushing through the Great Lakes and Northeast leading to periods of moderate to heavy rainfall from the Ohio Valley into the Mid Atlantic and Northeast. Areas of the Northeast are subject to thunderstorm prospects with the best chance for flash flooding likely to occur in the urban footprint from Philadelphia up to Boston with an expansion inland to the Hudson Valley down through eastern PA. Current probs off the latest ensembles and National Blend indicate a large zone of 30-50% probs for >2" across the aforementioned area above with deterministic outputs closer to 2-3.5" into parts of Southern New England. MRGL risk inherited remains in effect, but there's potential here for an upgrade as we move closer to the D2 window, but want to see more of the CAMs to make that decision. Limiting factor here remains low instability and while there is a window for heavier rates to linger for 3 to 6 hours, the system overall is progressive. Some uncertainty also exists south of central NJ along the eastern Mid-Atlantic regarding overall coverage of thunderstorms. Across the Southern U.S., heavy precipitation will preclude another round of convection forming along a quasi-stationary front draped from the Southern High Plains to the Southeastern CONUS. Probs for >1" are highest in-of the areas of Eastern OK into the Lower Mississippi and southwestern Tennessee Valleys. Elevated theta_E's and PWAT anomalies +2 dev. or greater indicate a formidable environment capable of continued heavy rain potential that will likely produce rainfall of 2-4", at least in some of the thunderstorm activity that develops. The focal point along the front will likely be where the heaviest rain will occur, or at least be a low-level convergence mechanism that can enhance regional convection. There's high enough confidence in the location of convection for the D3 period to overlap with areas that will have seen several inches the periods prior which led to a level 2/4 SLGT risk positioned over portions of the Southern Plains through parts of the Lower Mississippi and neighboring Tennessee. The risk extends through the Smokey Mountains up into parts of the Central Appalachians in eastern KY up into WV as the convergence regime follows the frontal positioning over these areas. Greatest chances for multiple rounds of slow-moving thunderstorms capable of 2"+ hourly rainfall rates currently appears to be over southeast OK into central AR and will be monitored closely once CAMs are within range of the forecast time period. Snell Day 4 and Day 5 Valid 12Z Tue Jun 23 2026 - 12Z Thu Jun 25 2026 ...THERE IS A MARGINAL RISK OF EXCESSIVE RAINFALL FROM PORTIONS OF THE CENTRAL AND SOUTHERN PLAINS, LOWER MISSISSIPPI VALLEY, AND SOUTHEASTERN U.S ON BOTH TUESDAY AND WEDNESDAY... 2030Z Excessive Rainfall Discussion Update... Overall...changes were pretty minimal and were done mainly to expand the coverage of the outlook area given placement/spread of QPF in spaghetti plots. Synoptically, the pattern evolution is comparable to the previous discussion. Bann Previous Excessive Rainfall Outlook... Day 4 is a transition period into a more typical summertime regime for the CONUS with a longwave trough over the Northern U.S. and a dome of mid and upper ridging orienting itself across the southwestern CONUS. Positioning of the trough/ridge pattern will cause a persistent northwesterly flow within the mid and upper levels across the Central and Southern High Plains over into the Lower Mississippi Valley as progressive shortwave pulses eject out of the Rockies and ride the prevailing northwesterlies in place between the ridge and trough. This highlights potential for MCS development and flash flooding scenarios from the Front Range and points southeast as the steering flow orients between the base of the trough and the northeastern flank of the ridge. This is historically projecting a case of thunderstorm maturation and upscale growth over the area between CO/KS down through OK/TX with potentially the Red River Basin as a focus for thunderstorm activity. Eventually, this ends up migrating into the ArkLaTex and/or Lower Mississippi area which is showing up in the QPF footprint on ensembles. There has been little variance in the recent global ensemble suite with the deterministic output also showing very similar outcomes, at varying magnitudes with the synoptic evolution generally stable with run-to-run continuity. The entire setup continues through Day 5, as well, with repetition in the mid and upper pattern as multiple vorticity maxima slide out of the Central Rockies and migrate east-southeast through the mean flow between the trough and ridge setup. QPF distribution for both days is relatively even, however the D4 period is currently the most aggressive in terms of precipitation magnitudes depicted as the time frame notes a stronger mid-level disturbance ejecting out of the Front Range with heavy rain prospects spanning from southwestern NE down through KS/OK, eventually into the Lower Mississippi Valley as you work through the end of D4 into D5. PQPF signatures for >1" of precipitation are already pushing above 40% at lead for much of the aforementioned area, a testament to a stable signal for widespread moderate to heavy rain prospects as both the thermodynamic and kinematic evolutions remain favorable for the D4 and D5 periods. Expectation is for eventual upgrades across portions of the outlined area as we move closer, especially if the signal remains stable and the hi-res deterministic begin outlining the higher rate characteristics for the precipitation. Greatest risk for an upgrade is likely to occur where there will be multiple days of convective overlap allowing for falling FFG's and more susceptible hydrologic impacts as regional streams and rivers become more prone to flooding. This is a scenario where we'll be monitoring the evolution closely as more appreciable impacts are plausible in this synoptic scale persistence. Kleebauer 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 $$