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From | To | Subject | Date/Time | |||
COD Weather Processor | wx-storm | HVYRAIN: Excessive Rainfall Discussion |
July 26, 2019 3:23 PM * |
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This is a multi-part message in MIME format... ------------=_1564154626-118394-865 Content-Type: text/plain FOUS30 KWBC 261523 QPFERD Excessive Rainfall Discussion NWS Weather Prediction Center College Park MD 1122 AM EDT Fri Jul 26 2019 Day 1 Valid 16Z Fri Jul 26 2019 - 12Z Sat Jul 27 2019 ...THERE IS A SLIGHT RISK OF EXCESSIVE RAINFALL NEAR NEW MEXICO & THE WASATCH MOUNTAINS OF UTAH... ...Central and Southern Rockies and Great Basin... Afternoon convective development will occur over the CO/NM Rockies following destabilization and upslope flow to generate lift. With monsoonal flow continuing, expect precipitable water values to climb to 1.0 to 1.25 inches -- values quite high for the region. This combined with moderate instability will lead to locally heavy rain. Areas with prior showers/storms have reduced 3-6 hr flash flood guidance, between 1-1.5 inches on 3 hours, thus the need for a slight risk area in the terrain of southeast CO across NM, including the Sangre de Cristo and Manzano Mountains. A shortwave trough moves east from California into Intermountain West today. As a result, the deep high centered over the four corners region will shift south and west in time. This will send further mid-level impulses around the ridge and help promote widespread shower/thunderstorm development from over NV/UT due to insolation within the disturbance's dry slot, currently shifting northward across central NV and southern UT. Locally heavy rain is possible where cell mergers occur. NAM forecast soundings show low directional shear today, promoting localized training. An upgrade to a slight risk was recently coordinated with the SLC/Salt Lake City forecast office. Other cells developed this morning across the central high Plains in the vicinity of a wavy front in western NE, where dewpoints are as high as the mid 60s. Cells are expected to fester and potentially increase in coverage during the peak of the diurnal cycle, with slow motions possibly leading to locally heavy amounts, with several high res models showing ~3" of rain which has come to pass per recent radar estimates. Higher flash flood guidance values precluded a more significant threat. ...Upper Peninsula of MI... A 700 mb shortwave rotating under the upper trough in southern Canada induces a combination of well defined 700 mb convergence and theta-e advection crossing from northeast MN through the UP of MI this evening. Convection generates in northeast MN during the peak diurnal period and continues east southeast across the UP of MI. The high res WRF ARW/ARW2, NAM Conus Nest, and NSSL WRF all forecast local amounts of 2-3" of rain, near flash flood guidance, though only in a couple random locations. Runoff problems could stem from localized training in the area Fri night. Broadened the marginal area somewhat to account for the 12z mesoscale guidance. ...FL peninsula... The 12z soundings indicated precipitable water values close to 2" at Miami and Tampa/Ruskin, above average for July, with wet bulb zero heights of 12,000-13,000 feet. This degree of moisture surrounds a weakening frontal boundary across the northern peninsula. Inflow at 850 hPa is fairly weak, on the order of 5-10 kts out of the southwest, which should allow for some sea breeze penetration particularly closer to the ridge axis in southern FL. However, a mid-level vorticity maximum is apparent in the model mass fields and GOES-east imagery in the northeast Gulf of Mexico this morning, which per the SPC mesoanalyses is bringing effective bulk shear near 25 kts just offshore the west coast; radar imagery shows occasional mesocyclones within the offshore convection. Believe that the convection organizing just offshore western FL should move inland in the next hour or two generally to the east to east-southeast, with embedded mesocyclones yielding higher hourly rain totals than would be typical for forward propagating convection -- up to 2.5" an hour. Whether the outflow boundaries from this convection augment or disrupt the daily sea breeze cycle remains to be seen. The mesoscale guidance shows a signal for local 5" amounts, but they tend to show a high bias in FL. Nevertheless, expect the higher rainfall totals today to lie in an arc from the Everglades towards Daytona Beach given the position of the 850 hPa ridge axis. With greater than average moisture and some effective bulk shear to work with which isn't normally there in July, thought it prudent to add a marginal risk of excessive rainfall to the FL peninsula. Roth/Petersen Day 2 Valid 12Z Sat Jul 27 2019 - 12Z Sun Jul 28 2019 ...THERE IS A SLIGHT RISK OF EXCESSIVE RAINFALL OVER PORTIONS OF THE NORTHERN PLAINS...AS WELL AS PORTIONS OF COLORADO AND NEW MEXICO... ...Northern Plains... Moisture and instability become focused along and ahead of a frontal boundary crossing northeast WY into SD, which supports convection capable of producing excessive rainfall. There was generally good model agreement concerning the evolution of the synoptic scale systems (though the 00z GFS may be too weak with the front over SD), so the WPC QPF and Excessive Rainfall Outlook were based on a multi model blend. Short wave energy ejected from a long wave trough over western Canada crosses the Northern Rockies during Day 2, pushing a frontal boundary over the Northern Rockies into the Northern Plains, mainly during the second half of Day 2. Ahead of the front and short wave energy, a 20/30 knot low level southwest flow transports 1.75 inch precipitable water air (which is between two and three standard deviations above the mean) across northeast WY and western SD, generally between 27/18z and 27/00z. Model soundings showed 1500/2000 J/KG of MLCAPE over this area, and the combination of moisture and instability are expected to feed convection over northeast WY before 28/00z, which tracks into western SD between 28/00z and 28/06z. Initially, the convection is expected to be mainly outflow and hail dominated over northeast WY, but there is a window for short term training just ahead of the short wave. Hourly rainfall rates could exceed 1.25 inches here, where three hour flash flood guidance values are as low as 1.50 inches. As the convection crosses western SD, there is a window for short term training and possible cell mergers before the front moves over the region. There is a multi model signal for local 2.00/2.50 inch rainfall amounts across western into central SD. Three hour flash guidance values are as low as 1.00/1.50 inches, as 7 day rainfall amounts across western SD has been 300+ percent of normal. Based on the above, a Slight Risk was placed over northeast WY across much of western and central SD. As the convection moves east late in the period, the threat of flash flood continues, but the storms could be more progressive over eastern SD before 28/12z. ...Central and Southern Rockies/Intermountain West... Moisture from the Central Plains and instability over much of the terrain and plains of CO and NM combine to produce storms with heavy to excessive rainfall during Day 2. There was generally good model agreement with respect to the synoptic setup and placement of the highest rainfall amounts, so the WPC QPF and Excessive Rainfall Outlook were based on a multi model blend. A low level east to southeast continues to transports 1.00/1.25 inch precipitable water air across the plains of CO and NM into the terrain from the Front Range in CO into the Sangre de Cristo Mountains of CO into northern NM. Under the mid level ridge, instability reaches 1000/1500 J/KG along the terrain, and model soundings show the cap breaking in the 27/18z to 28/00z time frame. After the convection develops, it trundles slowly southward along the terrain into the plains, as the mid level flow is fairly weak under the ridge. Slow moving storms along the terrain fosters an environment favoring cell mergers and short term training, which in turn results in hourly rainfall rates in excess of an inch (per the 00z NAM CONUS Nest). Seven day rainfall totals over portions of eastern CO have been 300+ percent of normal, with three hour flash flood guidance values as low as 1.00/1.50 inches. Given the moist antecedent conditions, and the potential for high rainfall rates with slow moving cells, a Slight Risk was placed over portions of eastern NM into central NM for Day 2. Hayes Day 3 Valid 12Z Sun Jul 28 2019 - 12Z Mon Jul 29 2019 ...THERE IS A SLIGHT RISK OF EXCESSIVE RAINFALL OVER THE UPPER MISSISSIPPI VALLEY INTO THE UPPER GREAT LAKES... ...Upper Mississippi Valley into the Upper Great Lakes... Deepening moisture and strong instability ahead of short wave and cold front crossing the Northern Plains into the Upper MS Valley and Upper Great Lakes feeds convection capable of producing excessive rainfall during Day 3. There was generally good model agreement concerning the overall synoptic setup, so the WPC QPF and Excessive Rainfall Outlook were based on a multi model blend. Convection is expected to be ongoing (and weakening) as it tracks from SD into MN during the first part of Day 3. Debris cloudiness from this activity could delay heating across MN into WI during the morning hours. However, ahead of the front and mid level trough approach from Manitoba/MT, instability climbs to 2500/3550 J/KG of MLCAPE stretching from eastern NE/IN across southern MN into WI and the northern portion of the LP of MI, peaking between 29/00z and 29/06z. The developing convection is feed 2.00+ inch precipitable water air (which is about two standard deviations above the mean) on a 30/35 knot low level southwest flow during this time frame. Lift ahead of the long wave trough should allow the convection to expand in coverage, and become better organized as it moves over southern and central MN into northern and central WI. This airmass could support hourly rainfall rates near 1.50 inches, and there is a multi model signal for 2.00/2.50 inches of rainfall over central MN into northern WI, closest to the best instability gradient. Three hour flash flood guidance values are as low as 1.50 inches over portions of MN into WI (including the Minneapolis metro area), and these numbers could be exceeded where convection trains ahead of the front. Based on this, a Slight Risk was placed over much of southern and central MN into northern WI. The placement of the Slight Risk could vary in later forecasts, especially if the instability trends south with time. ...New Mexico... While the mid level ridge eases to the west, and the monsoon flow becomes suppressed temporarily, deeper moisture and instability across eastern NM could support convection with heavy to locally excessive rainfall during Day 3. Storms developing in an axis of 1000 J/KG of MLCAPE extending from KTCC to KSRR are expected to tap 1.25 inch precipitable water air (which is about two standard deviations above the mean) in place over eastern NM to support convection capable of producing hourly rainfall rates near an inch along and just west of the terrain (as the storms moving slowly to the west with the mid level flow). Three hour flash flood guidance is generally near 1.50 inches, and it is possible that these amounts could be realized where storms merge or where short term training occurs. Since there is some spread in coverage of storms during Day 3 (as instability could be a limiting factor for a more organized flash flood threat), a Marginal Risk was placed over a portion of east central NM. Hayes 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... $$ ------------=_1564154626-118394-865 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. ------------=_1564154626-118394-865-- --- SBBSecho 3.07-Linux * Origin: capitolcityonline.net * Telnet/SSH:2022/HTTP (1:2320/105) |
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