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From | To | Subject | Date/Time | |||
COD Weather Processor | wx-storm | HVYRAIN: Excessive Rainfall Discussion |
July 19, 2019 8:39 PM * |
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This is a multi-part message in MIME format... ------------=_1563568758-2024-1540 Content-Type: text/plain FOUS30 KWBC 192039 QPFERD Excessive Rainfall Discussion NWS Weather Prediction Center College Park MD 438 PM EDT Fri Jul 19 2019 Day 1 Valid 1745Z Fri Jul 19 2019 - 12Z Sat Jul 20 2019 ...THERE IS A SLIGHT RISK OF EXCESSIVE RAINFALL ACROSS PORTIONS OF THE UPPER MIDWEST/GREAT LAKES & NORTHERN MID-ATLANTIC STATES... ...Northern Plains...Upper Mississippi Valley into the Great Lakes... A northward shift was made to the previous elongated marginal and slight risk areas stretching from portions of the Northern Plains...Upper Mississippi Valley and into the Great Lakes per 700 hPa temperature forecasts and corresponding, logical shifts in the 12z mesoscale guidance. The surface frontal boundary is expected to become oriented in a west southwest to east northeasterly direction across these regions this period and remain a focus for additional convective development Friday afternoon into Friday night and the early hours of Saturday. Hi res model consensus is for activity in northeastern-most SD to broaden east-west with time into a broader organized area of convection to form along and just north of the west to east oriented front in the vicinity of central MN late Friday afternoon...ahead of a surface wave moving along the front...and push downstream across northern WI...the U.P. and northern L.P. of MI. ...Northern Mid-Atlantic States... Thunderstorms that moved out of MI into southeast Ontario are expected to move into western NY in the next 2-3 hours, with a tail of convection possible across southeast MI in an area where the guidance suggests a weakness in the mid-level cap. The activity should move roughly east to east-southeast with time. The mesoscale guidance has a scattered but agreed upon signal for local 3" amounts from Detroit MI into northeastern-most OH, northwest PA, and western NY. Added a slight risk of excessive rainfall to this area. ...Southeast... Pulse convection within an uncapped atmosphere with negligible effective bulk shear is flaring within a moist and unstable airmass: precipitable water values are 2-2.25" and ML CAPE of 2000-3000 J/kg. Thunderstorms should pinball across the region with local amounts of 3-4" possible where storms collide/merge. Drew in a marginal risk area as a number of flood advisories and a flash flood warning have come out within this area as of late. Roth/Oravec Day 2 Valid 12Z Sat Jul 20 2019 - 12Z Sun Jul 21 2019 ...THERE IS A SLIGHT RISK OF EXCESSIVE RAINFALL ACROSS PORTIONS OF THE MIDWEST CENTERED ON IOWA AND SOUTHERN WISCONSIN... ...Midwest into Michigan... 2000 UTC Update -- Based on the model trends, including the high-res CAM windows which now extend through the entire day 2 ERO period (12Z Sat-12Z Sun), have adjusted the Slight and Marginal Risk areas a bit farther south compared to the previous outlook. This aligns well with the favorable pre-frontal thermodynamic profile per the growing model consensus (robust deep-layer CAPE along an axis of PWs aoa 2.00". Strong deep-layer shear should limit the potential for cell training; however, the strength of the thermodynamic profile will likely lead to robust short term rainfall rates -- likely aoa 2.0"/hr underneath the strongest cells. Previous discussion... Early Saturday morning, ongoing isentropic ascent across the stationary boundary will be growing upscale to a solid MCS with and MCV crossing the North Central Great Lakes with ample mid/upper level support. Unseasonably strong 250mb jet will shift northeast centered over Ontario which will provide solid right entrance region dynamics across the Upper Midwest and support height-falls and tail end of shortwave energy to amplify and press eastward across the Upper Midwest. This will help the front to advance south through the day. The challenge will be the convective initiation during the afternoon which will be largely focused along the boundary, but also any residual outflow boundaries left during the aforementioned convective activity. There is no shortage of moisture and instability pooling along and just south of the front. Precipitable water values surge as high as 2+ inches in the early morning associated with the MCS into the Great Lakes region. During the afternoon/evening with strong moisture transport out of the Gulf and strengthening low level jet there is strong evidence of 2.25" precipitable water centered in Iowa into Wisconsin which is 2 standard deviations above the mean. Instability is also a factor as MUCAPE values climb to over 4500 J/kg across this region. Areal average QPF based on a blend of the GFS, ECMWF and our in-house bias corrected model results in values of 1-1.5 inches with locally higher amounts expected. While training is possible as determined by the mean wind aligning with the corfidi vectors for a time, cold pool/outflow dominated convection in the late evening into the overnight hours may limit this potential. Also, mean wind between 850mb-300mb is generally 20-25 knots which is another limiting factor, though it is hard to discern the propagation pattern of convection this far out. Regardless, with expected convection and hourly rain rates at times well above 1.5 inches/hour, anticipate localized flash flooding across portions of Iowa into Wisconsin during the late afternoon through the overnight hours. This is further evident by flash flood guidance as low as 1 inch/hour. Therefore, kept the Slight but modified for per the latest QPF and model trends. If models come into better agreement in terms of placement of the heaviest rain and the overall rain amounts, especially if they go up, a Moderate Risk may need to be considered. ...Front Range of Colorado/High Plains of NW Kansas... As the front drops south across the High Plains, remaining moisture banked up along the Range will be available for diurnal convection. Therefore any thunderstorms that do form assisted by upslope flow has the potential for producing heavy rainfall. Initially slow development moving off terrain with chaotic cell motions and intersections of outflow boundaries may pose short-term stalled downdrafts capable of isolated rainfall totals of 2"+. While confidence is not particularly high in one given location, the environment is supportive of this flooding threat and so a Marginal Risk was maintained to incorporate this threat, particularly along the Front Range of CO and SE WY. ...Portions of the Lower Tennessee Valley to the Gulf Coast... Included a Marginal Risk across eastern MS, much of AL, and far western portions of GA and the western FL Panhandle. A weak mid-level shear axis/vort lobe is indicated on the global runs, and is reflected in the sensible data with the uptick in QPF. The activity will be heavily weighted toward the peak heating hours later Sat morning through the afternoon given the weak lapse rates aloft (<6.0 C/KM between 700-500 mb). Moreover, the 0-6km bulk shear values aob 20 kts would suggest more pulse-type activity -- which would limit the duration of any intense rainfall rates. Hurley/Pagano Day 3 Valid 12Z Sun Jul 21 2019 - 12Z Mon Jul 22 2019 ...THERE IS A MARGINAL RISK FOR EXCESSIVE RAINFALL ACROSS THE CENTRAL AND SOUTHERN ROCKIES AS WELL AS THE CENTRAL PLAINS INTO THE OHIO AND TENNESSEE VALLEYS... ...Southern Rockies... As a front continues to dive south through the Central Plains and Mid-MS Valley, a trailing boundary along the Front Range will act as a catalyst for convection during the afternoon into the overnight hours Sunday into Monday. Mid-level high pressure will build overhead with impulses rounding this feature which too will promote vertical motion. At the surface, as the Canadian high builds south into the Northern Plains, easterly flow will enhance upslope during the afternoon. Moisture that pooled south of the aforementioned front will bank against the high terrain with instability of over 2000 J/kg available during the afternoon/evening hours. These factors should promote convective initiation along the windward slopes of the Rockies in CO and NM. Given fairly weak flow, convective cells should have fairly slow storm motion along the slopes with more erratic propagation as they grow upscale. Regardless, expect heavy rainfall is given decent moisture transport across this region. Hourly rain rates may approach 1 inch/hour which is just shy of the one hour FFG (1.5 inches) across this region. Again, given the uncertainty with respect to the evolution and storm motion, feel there could be some locations that see as much as 2-3+ inches when all is said and done. Thus a Marginal Risk was introduced across this region. If QPF amounts come up, a Slight Risk may be justified. ...Central Plains, OH/TN Valley... 2000 UTC Update -- Based on the latest model trends, removed the Marginal Risk area north of ~42N, as the expectation is that the surface front and best pre-frontal instability and moisture transport will have pushed to the south. Hurley Previous Discussion... A front will continue to slowly move south and east Sunday into early Monday. While all model guidance illustrates this feature, the overall orientation and timing of the front varies. The GFS and the ECMWF phase the mid-level energy round the closed low in Ontario differently which plays a large role in the surface front and expected organized convection. Regardless, the focus for shower/thunderstorm activity will be along this feature. Moisture and instability will pool right along and south of the boundary, with precipitable water as high as 2 inches and MUCAPE values over 3500 J/kg. Since there is bit of uncertainty with respect to the mid/upper level pattern, it is hard to discern if organized convection will actually occur. The 00Z GFS has a stronger signal for mid-level vorticity and upper level divergence across the Central/Southern Plains into the Mid-MS Valley as compared to 00Z ECMWF or even the 00Z NAM which is reflected in the QPF output. The GFS is by far higher in its precipitation amounts given its overall synoptic forcing resultant MCS. While there is little model consensus for this and thus no strong signal to suggest such organized convection along the frontal boundary, it is still taken into consideration given many of the ingredients are available. We will have to monitor the evolution of the upper trough axis and mid-level energy which would most certainly help to initiate organized convection. At this time, forecasting weak mid-level impulse atop a surface boundary which should promote convection along the front from the Central Plains across the OH/TN Valley and into the northern tier of New England. Areal average QPF generally ranges between 0.5-1.5 inches with locally higher amounts associated with convection. The most sensitivity areas will likely be across portions of the OH/TN Valley into the central Appalachians where FFG values are as low as 1 inch in 3 hours. A Slight Risk was considered across this region, though confidence in amounts and coverage are too low at this point. Also, with respect to the potential MCS across the Central/Southern Plains, the soils are not as sensitive per FFG and the NWM Soil Moisture. Therefore, felt a Marginal Risk would suffice for this forecast package with the understanding that a Slight Risk will likely be hoisted if models come into better agreement about organized convection and thus higher QPF amounts. Pagano Day 1 threat area: https://www.wpc.ncep.noaa.gov/qpf/94epoints.t... Day 2 threat area: https://www.wpc.ncep.noaa.gov/qpf/98epoints.t... Day 3 threat area: https://www.wpc.ncep.noaa.gov/qpf/99epoints.t... $$ ------------=_1563568758-2024-1540 Content-Type: text/plain; charset="US-ASCII" Content-Disposition: inline Content-Transfer-Encoding: 7BIT = = = To unsubscribe from WX-STORM and you already have a login, go to https://lists.illinois.edu and use the "Unsubscribe" link. Otherwise email Chris Novy at cnovy@cox.net and ask to be removed from WX-STORM. ------------=_1563568758-2024-1540-- --- SBBSecho 3.07-Linux * Origin: capitolcityonline.net * Telnet/SSH:2022/HTTP (1:2320/105) |
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