453 FOUS30 KWBC 140821 QPFERD Excessive Rainfall Discussion NWS Weather Prediction Center College Park MD 421 AM EDT Tue Jul 14 2026 Day 1 Valid 12Z Tue Jul 14 2026 - 12Z Wed Jul 15 2026 ...THERE IS A MODERATE RISK OF EXCESSIVE RAINFALL OVER SOUTH- CENTRAL TEXAS... ...Texas... An incredibly active period on tap across the Lone Star State with an elevated risk of flash flooding, some significant, across portions of the state. The greatest threat will lie across the Edwards Plateau into Hill Country and along the RGV between the Big Bend down towards Eagle Pass. The bottom line for the setup is the environmental conditions across the southern two-thirds of the state favor not only heavy rainfall, but very efficient rainfall as deep layer moisture of Gulf origin will send wetbulb zero heights to >14k ft, meaning warm cloud layers plentiful for efficient rainfall makers. The probabilities for any cell south of I-20 to materialize and breach 2"/hr at times is incredibly high within both the NBM and HREF probability fields with the HREF outputs some of the highest we've seen for widespread 2+ inch/hr rainfall potential from a non-tropical impact standpoint. 00z RAOB from KMAF to KDRT to KCRP all came in with PWATs running towards the 95-99th percentile according to climatological records for the date, a testament to the magnitude of the moisture field present and what could transpire from any convective development. The initial part of the period (12-20z) will be active from the southern Concho Valley over towards coastal TX between CRP to HGX and any point in-between as increasing low-level convergence and the addition of multiple organized mid-level disturbances will enhance a widespread axis of thunderstorms with the heaviest precip initially along and east of I-35 in Central TX, spreading west- northwestward as a weak shortwave dips south towards the Edwards Plateau allowing for convective development to ensue by early this afternoon. Heavy rain threat between San Antonio to Houston along I-10 will be considerable in regards to rates and potential for several inches of rainfall in a short time frame allowing for at least scattered flash flood instances to occur. HREF neighborhood probs for at least 3" of rainfall is upwards of 60-80% with a bullseye of 30-50% for greater than 5" located along that US290 corridor between Austin and Houston, centered near Bastrop to Brenham. Majority of CAMs are hinting at this threat in that general vicinity, so it'll be something to keep a close eye on as we move through the morning and early afternoon hours as the setup is favorable for widespread 2-3+ inch totals. The I-35 corridor between Georgetown to San Antonio is also under a threat for significant rainfall potential, however there is some uncertainty on this particular area for the period with some guidance maintaining the strongest threat north and east of this region with the other max located further west of the urban corridor. This is still a sensitive area pertaining to the setup as any significant convective episodes in this part of TX are notorious for rapidly developing flash flood prospects thanks to the complex topography, high run-off capabilities due to the sub-soil layer, and urbanization factors. A high-end SLGT is located over this region over into the Houston metro and all points referenced above for the threat today, so regardless of not being in the main area of interest further west, this is still a setup that needs to be paid close attention. As we step forward into the afternoon and evening hours, the focus for the more significant flash flood threat shifts over into the Edwards Plateau and neighboring Hill Country/RGV as convective overspreads this area after 18z with very little breaks expected in the convective onslaught. A multi-round punch of heavy precipitation is likely to occur over this area of TX with consensus on all reputable deterministic and associated ensembles signaling a significant axis of heavy rainfall occurring in the D1 leading to likely widespread flash flood issuances, as well as some potential for life-threatening impacts to both life and property in the hardest hit locations. 00z HREF neighborhood probabilities for >5" stands at 60-90% for areas between Del Rio to parts of the TX Hill Country, east of the immediate RGV. Modest probs for >8" also exist for the same areas with 100-year ARI exceedance probabilities settling between 30-45% over that same corridor. These types of probabilities correlate highly to a potentially significant event for a broader area, especially when you factor in the complex topography, as well as multiple medium to large population centers expected to be impacted. The period between 00-12z Wednesday will be the time frame of interest with regards to the prolonged heavy rain signal as a maturing LLJ and strong low to mid-level convergence signature will initiate along either side of the Rio Grande. A weak, but still notable 850-700mb disturbance is forecast in proximity of the area of interest within the latest CAMs with agreement on the development from even the ML EC-AIFS which has been steadfast in its presentation for several consecutive runs. Low-end QPF output is ~3" with some deterministic pushing local maxima closer to 10" for just the D1. This is more than enough consensus and a formidable signal to warrant a continuation of a MDT risk across the aforementioned area with a northwestern bound into the Big Bend and an eastern periphery located a bit west of the I-35 corridor between Austin/San Antonio in the TX Hill Country. The other areas that could see some locally heavy rainfall will lie on the periphery of the broader heavy rain threat with the notable areas between Waco to Austin and points east through east TX, as well as southwest TX within the terrain of the Davis and Glass Mtns, and the southern half of the Stockton Plateau. Locally significant impacts can be seen in these areas, as well thanks to the environmental conditions at hand. A SLGT risk encompasses both these regions for the period with scattered flash flood warnings plausible in either region. Please stay tuned for the latest updates for the threat across the state as this is an evolving situation where near term trends could prompt upgrades at any time given observational trends throughout the D1. ...Southeast into Southern Mid Atlantic... General consensus on widespread convective development across the southern Carolina's into the Southeast lends to at least a broad MRGL risk for flash flooding in any area north of I-4 with a relative max for heavy rain situated across portions of MS/AL thanks to the presence of a meandering upper level disturbance over the area. WV satellite this evening pin-points a weak upper level circulation centered over northern MS with an extremely slow propagation to the west-southwest over the past several hours. This particular upper circulation will be a focal point for enhanced low to mid-level convergence later this afternoon interacting with what is a formidable moist/unstable environment across the Southeast CONUS. Scattered to widespread showers and thunderstorms will materialize across northern LA over into MS and AL during peak diurnal destabilization leading to pulse/multi-cell convective development over the region with heavy rain prospects likely very high considering the environment in place. Wetbulb zero heights >14k ft on forecast soundings across MS/AL indicate an effective warm cloud layer that will likely present efficient rainfall rates with even pulse variety convection yielding 2-3"/hr rainfall potential during its mature phases. Slow cell motions under a weak steering pattern situated across the Southeast will only act as an aid to flash flood prospects over the region as cells will be more likely to produce heavy bouts of rain for multiple hours before drifting away from an area, or even just decaying overhead. 00z HREF and REFS neighborhood probabilities for >3" are solidly between 50-80% across central and south-central MS into western AL with the main area of interest lying along and north of I-20 in both areas. HREF blended mean outputs show a scattered 2-3" precip signal over the aforementioned area with individual deterministic even pushing close to 5" in the hardest hit locales. This is more than sufficient for maintaining the previous SLGT risk forecast, as well as wording for a high-end SLGT threshold likely over that area encompassed within central MS to western AL. ...Southwest U.S. into the Great Basin... Continued impacts expected from lying into the western flank of the ridge centered over the Northern U.S. as prevailing southerly flow will just maintain a prevalent moisture advection regime poleward over the Desert Southwest into the Great Basin. Models remain consistent in their interpretations of locally heavy rainfall over both regions with the heaviest QPF centered over AZ, but potentially greater impacts in those more flash flood prone areas located in the interior west, including those slot canyons over UT/NV. Rainfall rates will be the driving factor for flash flooding in this scenario with instability generally favorable (>750 J/kg MUCAPE) over a large portion of the Western CONUS. The combination of PWAT anomalies >2 deviations above normal and elevated instability favors at least widely scattered flash flood potential, which this setup is leaning into the textbook signature as forecast. 00z HREF neighborhood probabilities for >1" have a smattering of 40-60% probs within areas of the Great Basin and Four Corners with a more widespread 40-70% probability oriented in the terrain from southeastern AZ up through the Mogollon Rim into the area of the Grand Canyon. Any of these cells in the terrain will be conducive for heavy rainfall between 0.5-1"/hr, locally higher across the terrain with more of the general 0.25-0.75"/hr over the Great Basin. Given the consistency in the model output and anomalous moisture presence across the West, the previous MRGL risk was maintained. ...Montana... PWATs encroaching the 90-99th percentile over much of MT coupled with favorable instability and approaching mid- level troughing to the west will allow for scattered to perhaps widespread convection to materialize over the Northern Rockies into Central MT later this afternoon and evening. Ample shear and elevated moisture presence will amplify the convective threat and proceeding heavy rainfall posture across portions of Big Sky country as we move into the time frame of peak diurnal destabilization. Organized cell clusters, including a few supercells, are likely to initiate over the terrain in the Central portion of MT with an eventual rapid storm motion off to the northeast as the steering flow will allow for very quick propagation(s) through the High Plains of MT by later in the evening. The best threat for heavy rainfall suitable for flash flooding will likely occur where the initiation point occurs and just downstream of the eventual storm motions to the northeast. HREF probabilities for >2" are generally modest in this area with consistency in the CAMs for cell initiation and eventual impacts in this region northwest of Billings up through Glasgow to the Canadian border. The previous MRGL risk was maintained given the threat. ...Northern New England... A strong closed low analyzed over Northern Quebec this evening will pinwheel southeast, well north of the Canadian border in New England, but will aid in a broad brush of robust mid-level vorticity over the northern tier of both VT/NH into western ME during peak diurnal heating into the coming evening. MUCAPE between 2500-3500 J/kg will be located across the northern tier of all three states leading to a targeted area for locally heavy rainfall with rates likely to approach close to 2"/hr as noted in the latest HREF prob fields (10-25%) with 1"/hr rates a greater certainty (30-50%). A quick 1-3" is forecast across this small area of New England, however this area is notorious for local terrain influences that could cause issues with any appreciable rainfall in that short period of time. The previous MRGL risk was expanded further north to include western ME given the trends in guidance for heavy rain to impact this area as cell maturation over neighboring Canada will likely motion into the area as we step into the late-afternoon and early evening hours today. Kleebauer Day 2 Valid 12Z Wed Jul 15 2026 - 12Z Thu Jul 16 2026 ...THERE IS A MODERATE RISK OF EXCESSIVE RAINFALL ACROSS PORTIONS OF THE EDWARDS PLATEAU, CENTRAL RIO GRANDE VALLEY, AND HILL COUNTRY... ...Texas... Convective cluster across the Edwards Plateau and neighboring RGV and Hill Country will likely lead to the development of an MCV and/or a more consolidated mid-level disturbance in the region that will remain relatively stagnant in terms of its general motion leading to a repeat of the same pattern that will plague the area during the D1 period. This repeating evolution of convection is a worst- case scenario where another round of heavy rainfall will transpire and overlap areas that will be impacted significantly the period prior. Multi- model consensus is basically on top of each other in the placement of the next wave of heavy rains in the region with additional totals of 3+ inches increasingly likely during the D2 time frame. NBM mean QPF totals for the 48hr period are >5" around the area of Del Rio and neighboring portions of the Edwards Plateau. Moving towards the 75th and 90th percentile forecasts, NBM jumps significantly into 6" and 8", respectively for each data point. Widespread 3-6" totals are likely in the 2-day period, but it is within the realm of possibility that additional rainfall on D2 will push totals in areas above 10 inches, a threshold that likely spell major flash flooding and hydrologic impacts that will encroach more severe levels compared to the normal scenarios from the past. The setup continues to show great consistency within the latest ensemble and deterministic outputs which does add value to the forecast as this provides greater confidence in a high level event brewing as we step through the D2 period. The previous MDT risk was generally maintained with just some minor adjustments on the eastern and southern flank of the risk. This period, and the event in question will need to be monitored for a potential upgrade to a High Risk which will likely occur once we see how the initial evolution is transpiring. No matter the case, life-threatening flash flooding and significant hydrologic concerns are increasingly likely for the D2 period with the heaviest rainfall likely to occur in the initial start of the D2 and after 00z Thursday when the nocturnal LLJ initiates and provides a fresh low-level moisture injection and enhanced convergence within the proximity of any lingering disturbance. A high-end MDT risk remains in effect for those areas referenced above with a broader MDT extension out into Hill Country and over into the Lower Trans Pecos to Big Bend. ...Mogollon Rim into Central Arizona... Broad upper ridge centered over the Northern U.S. will continue to provide significant moisture advection into the interior west leading to scattered convective signals from the Canadian border down into the Desert Southwest with flash flood concerns in those more susceptible areas out west. Increased confidence in a locally favorable convective maxima has allowed for not only a continuation of the previous SLGT risk positioned across the Mogollon Rim in AZ, but also an expansion further northwest and north, including the addition of Flagstaff proper. 00z HREF at the end of its temporal range signaled widespread thunderstorm genesis over the terrain after 20z Wednesday with some formidable heavy rain cores likely to materialize out of the initiation. Modest neighborhood probabilities for >1" of rainfall exist in the small window between 18-00z Wed/Thu with the highest probs situated in that terrain area between Phoenix and Flagstaff within the Mogollon Rim across central AZ. In coordination with the local Flagstaff WFO, have expanded the previous SLGT risk forecast to areas northwest of Flagstaff within the western periphery of the Mogollon Rim, as well as a further north expansion to include Flagstaff proper given the recent trends in guidance, and the premise of urbanization factors providing more suitable ground conditions for flash flood prospects. ...Lower Mississippi Valley into Southeast... Our meandering upper level disturbance will continue to churn over the Southern U.S. with sights on the Lower Mississippi Valley by Wednesday afternoon. Models are within close proximity of each other on the positioning of the disturbance with the centroid of the circulation likely to be focused somewhere over Arkansas and the southwest corner of TN. Elevated moisture and general diurnal destabilization across the Lower Mississippi and Southeastern U.S. will lead to another round of slow-moving thunderstorms capable of producing locally heavy rainfall with rates of 2-3"/hr likely in those stronger cell cores. The setup is not as prolific within the QPF means compared to the previous few periods, so the threat remains within the MRGL risk threshold. However, will continue to monitor trends closely as we move forward in time as the chance for a targeted upgrade, likely underneath the upper level disturbance, is plausible. Kleebauer Day 3 Valid 12Z Thu Jul 16 2026 - 12Z Fri Jul 17 2026 ...THERE IS A MODERATE RISK OF EXCESSIVE RAINFALL ACROSS PORTIONS OF THE LOWER TRANS PECOS, EDWARDS PLATEAU, AND RIO GRANDE VALLEY... ...Texas... Convection will continue across the Edwards Plateau and surrounds for at least one more period as the regional pattern maintains a persistence in its evolution with yet another round of convection lingering through the morning from the previous period, and one last round of nocturnal convection anticipated the evening of Thursday into early Friday morning. There is some uncertainty on the exact location of the final convective wave that will transpire with some guidance positioning the greatest threat a little further north of the area likely to see the greatest impacts from the prior periods. In any case, the threat is still very much robust for wherever this transpires as the axis of heavy rainfall will likely produce more totals bordering between 2-4", locally higher in the hardest hit locations. Considering the nature of anticipated compromised soils and ongoing flooding across portions of the RGV and Edwards Plateau, very little additional rainfall would cause a myriad of problems, including an exacerbation of any remnant flood waters, especially if impacted by additional heavy rainfall >1"/hr. There's enough of a signal to warrant an addition of a MDT risk across the area between the Big Bend over into the Edwards Plateau with emphasis on Val Verde county extending up to the neighboring counties to the north, including the I-10 stretch in central Crockett county. Considering the nature of the situation, this period will be monitored very closely and its susceptible to larger scale changes as the setup evolves. Heavy rain will likely enhance life-threatening flash flooding to portions of the region for yet another period before the setup finally looks to break after the D3 time frame. ...Southwest U.S into the Great Basin... Another round of afternoon and evening convection will transpire across the Southwest CONUS into the Great Basin on Thursday with the threat carrying into the early morning periods of Friday in some locations. Models are keen on a more robust moisture advection pulse and general instability axis across the Desert Southwest on Thursday with a broad axis of heavy rain prospects from the southern border all the way north into southern UT. Ensemble bias corrected output is very bullish on the threat in and around the slot canyons of southern UT, along the Mogollon Rim, and down towards the terrain embedded within Cochise, Santa Cruz, and Pima counties. Areal average of 1-2" is forecast for the region along the southern border with 0.75-1.25" forecast across the Mogollon Rim and southern UT. Considering the environment maturing closer to 1000-2000 J/kg MUCAPE over much of AZ into southern UT/NV, instability and anomalous moisture within the 90-99th percentile of climatology across the region will produce more widespread heavy rain prospects leading to scattered flash flood occurrences in those more susceptible locations in the terrain. There is even some opportunity for thunderstorm genesis off several outflows that could impact some of the larger urban corridors within AZ, including the Phoenix metro as the environment favors this type of potential. A broad SLGT risk was introduced for much of AZ into southern UT with the eastern extent out towards the NM/AZ border into the immediate Four Corners, outlining the mean QPF closer to 0.5" within the ensembles. Kleebauer Day 4 and Day 5 Valid 12Z Fri Jul 17 2026 - 12Z Sun Jul 19 2026 ...THERE IS A SLIGHT RISK OF EXCESSIVE RAINFALL ACROSS PORTIONS OF THE SOUTHWEST ON FRIDAY... ...Western U.S... A broad active monsoonal pattern will continue across much of the western U.S. Friday into Saturday. An anomalous PW axis stretching from AZ northward into MT is forecast to remain above the climatological 90th percentile, and locally higher in some spots. This airmass will sustain a localized flash flood threat across an expansive corridor spanning from portions of eastern CA, AZ, and NM northward to MT. We did go ahead and upgrade much of AZ into southwest UT and southwest NM into a Slight risk for D4 (Friday). While the prolonged monsoonal pattern will bring at least a localized flash flood threat to the region each of the next 5 days, current model guidance indicates Thursday and Friday will see a peak in both PWs and CAPE. Model consensus and NBM QPF are also higher on these days. Of course, mesoscale details (which we can't pin down at this lead time) may end up determining the eventual flash flood coverage. But there seems to be enough of a signal to suggest the risk may be relatively higher those two days. The isolated threat continues into D5 (Saturday), but will hold that at a Marginal for now with a modest decrease in PWs/CAPE/QPF noted in the models compared to Friday. ...Texas... The multi-day heavy rainfall event over portions of central and west TX should be on a declining trend by Friday. PWs gradually decrease and lower level convergence seems to wane, with both the AI models and GFS/ECMWF showing a decrease in convective coverage. With that said, we will still have strong 850mb southerly moisture transport across the state, and some leftover shortwave energy. So the event is likely not over on Friday, just probably less widespread and hopefully not as high end. The setup into Friday is still favorable enough that can not rule out Slight risk upgrades on future updates, especially if the convective footprint overlaps hydrologically sensitive areas from previous rainfall. The risk should lower further by Saturday, but again some risk of a locally heavy rainfall threat continues from the Edwards Plateau and points west. ...Great Lakes into the Mid-Atlantic... On Friday a Marginal risk was introduced from portions of the TN Valley northward into the Great Lakes. The strong mid to upper level ridge currently anchored over the Plains/Midwest is forecast to break down and translate southeastward. This synoptic shift will allow the high PW airmass currently situated over the South to advect north-northeastward. By Friday afternoon much of the OH and TN valleys will have PWs around 2" and CAPE potentially exceeding 3000 J/kg in spots. This unstable and saturated environment will be conducive for high rainfall rates. While weaker large scale forcing across the southern portion of the risk area may limit overall convective organization isolated instance of flash flooding will be possible. Further north, stronger synoptic forcing should support organized convection across portions of WI into northern MI. These convective cluster may lean toward a progressive mode, but the degree of instability and PWs should support some flash flood risk. On Saturday the core of the high PW airmass shifts eastward into the Mid-Atlantic. Amplifying troughing building into the Northeast, accompanied by embedded shortwave energy, should support a organized convective threat from OH into the northern Mid-Atlantic and possibly southern NY. Spatial uncertainties exist regarding how far north the surface front and axis of better instability will get, which will ultimately dictate the northern bound of any flash flood risk. Further south and west across the OH Valley into the southern Mid-atlantic large scale forcing may be weaker, but plentiful moisture and instability may still drive localized areas of heavy rainfall. Chenard 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 $$