Probabilistic Heavy Snow and Icing Discussion NWS Weather Prediction Center College Park MD 323 AM EDT Sun Mar 16 2025 Valid 12Z Sun Mar 16 2025 - 12Z Wed Mar 19 2025 ...Great Lakes... Day 1... Guidance continues to intensify secondary low pressure developing across the Ohio Valley early this morning downstream of a potent shortwave trough emerging from the MS VLY. The resulting intensification of this surface low is partly due to more impressive downstream ridging interacting with the shortwave as it develops a negative tilt over MO/IL/IN. Height falls and the LFQ of an almost due-north advecting jet streak will help lower surface pressures, and the the surface low is progged to deepen rapidly as it lifts across the L.P. of MI and into Ontario province. Moisture downstream of this surface low will be impressive, with isentropic ascent lifting north from the Gulf surging PWs to above the 99th percentile across the Mid-Atlantic, with the increasing cyclonic flow pushing the accompanying theta-e ridge westward into Michigan as a modest TROWAL. The overlap of this TROWAL with an intensifying deformation axis will result in impressive omega, partially driven by an intersection of fgen into the DGZ, to cause rapid cooling of the column and resultant heavy snowfall. The system is progressive off to the northeast, so the duration of heavy snow is likely to be limited, but both the HREF and WPC prototype snowband tool indicate a corridor of 1+"/hr snowfall rates across the western L.P. for the first 6-10 hours of the forecast. While the intensity has gotten stronger with recent model runs, the placement has been quite consistent, and despite antecedent conditions that are not favorable for snow accumulations, these intense rates should still result in several inches of snowfall as reflected by WPC probabilities for 2+ inches that range from 10-30% near Chicago, IL, to above 70% near Traverse City, MI, with 4-6" possible in the vicinity of the latter. ...The West... Days 1-3... The period begins with the Pacific Coast sandwiched between an anomalous ridge to the east across the Intermountain West, and an amplifying trough well to the west over the Pacific Ocean. Between these two features, pinched mid-level flow will surge moisture eastward into the Pacific Northwest, with IVT progged to approach 750 kg/m/s, funneling along a cold front and focused into OR. As the upstream trough over the Pacific deepens and pivots eastward, it will shed periodic lobes of vorticity into the Northwest, with an accompanying surface low likely moving towards the OR/CA border at the start of D2 /12Z Monday/. This surface low will briefly intensify ascent (which will already be impressive through height falls, PVA, upslope flow, and LFQ jet-level diffluence), while also pushing the strongest moisture channel southward into CA. While this suggests the highest PW anomalies will pivot south as well towards the Sierra, sufficient upper level flow will maintain elevated moisture well inland through D2, providing the impetus for continued moderate to heavy snowfall across the terrain as far east as the NW WY ranges. For D1, the heaviest snowfall is likely within the plume of highest IVT along the cold front from the OR Cascades eastward into the Salmon River/Sawtooth ranges, and south into northern CA and the Sierra. Here, WPC probabilities are high (>70%) for more than 8 inches of snow, with locally 2-3 feet possible in the Cascades and near the Shasta/Trinity region, although snow-levels indicate the heaviest accumulations will remain above 5000 ft before falling in tandem with weakening snow intensity. During D2, the heaviest snow becomes primarily focused in the Sierra where a high risk (>70%) is progged by WPC probabilities for more than 12 inches, leading to 2-day snowfall as much as 2-4 feet in the higher elevations above 4000 ft. This will still result in significantly impacted travel across the Sierra passes Monday into Tuesday. Most of the forcing and moisture advect east by D3, so heavy snow should wane across much of the West as it focuses instead into the Central Rockies, but additional snowfall of a few inches is possible (10-30%) in the Wasatch and Northern Rockies. ...Central Rockies to the Central Plains... Days 2-3... The next in this impressive series of significant low pressure systems to impact the Plains will develop late Monday in the Central Rockies and then strengthen into the Central Plains Tuesday. This system will initially develop downstream of a large trough which will cross out of CA and the Great Basin, reaching the Four Corners states Tuesday morning. Downstream height falls and PVA will help drive large scale ascent into the region, which will be additionally enhanced by a subtropical jet streak strengthening through the primary trough axis. As this jet streak pivots poleward, the LFQ will overlap with the mid-level height falls to help drive surface pressure falls, and lee cyclogenesis the latter portion of D2 /after 00Z Tuesday/. However, this jet streak will outrun the primary forcing in response to vorticity shedding rapidly to the east, with secondary troughing and a more pronounced, negatively tilted, trough developing over the Central High Plains later Tuesday. This will result in secondary jet streak development, with even more impressive diffluence overlapping the more structured height falls/mid-level divergence. It is this secondary development around 00Z Wednesday that will potentially become a powerful cyclone with heavy snow across the Central Plains and into the Upper Midwest by the end of the forecast period. Although the first low is weaker, it will interact with a cold front dropping out of the interior Northwest, leading to some enhanced ascent through fgen and upslope flow across Wyoming on D2. Moisture streaming into the wave from the E/SE, as well as aloft from the S/SW will manifest as precipitation across WY, but with the heaviest snowfall likely occurring in the terrain of the Big Horns, NW WY ranges, and along the axis of greatest fgen over N-central WY D2. However, total snowfall is expected to be modest this period except above 4000 ft in the NW WY ranges and Big Horns, where WPC probabilities for 6+ inches are above 70%. Then during D3, snowfall becomes much more expansive and heavy as the secondary, stronger, low develops and spreads snow from the Central Rockies into the Central Plains. There is still considerable placement and intensity uncertainty as reflected by broad spread in the D3-D4 clusters, but the GFS members appear to be the deepest and fastest solutions, with the CMC/ECMWF ensembles supporting slightly less spread and are favored at this time. With significant spread still in place, WPC probabilities are somewhat compromised, but still support a high risk (>70%) of 6+ inches from the Wind Rivers through the Laramie Range and into much of the CO Rockies where heavy snow rates are likely both through fgen/upslope flow. Farther east, increasing deformation over the Central Plains by the end of the period will result in increasing coverage of heavy snowfall, and while current WPC probabilities for 4+ inches are only around 10% across NE/KS, these will likely increase and spread northeast into D4. Additionally, as this secondary low intensifies, the pressure gradient is progged to become quite intense, regardless of the model preference, and WSSI-P is already featuring a widespread 30-50% probability of moderate blowing snow impacts, suggesting the potential for near-blizzard conditions in some areas, but those details still need to be ironed out as the event approaches. Weiss