• DAY1 Enhanced Risk NE US

    From Dumas Walker@21:1/175 to All on Sunday, June 30, 2024 09:17:00
    ACUS01 KWNS 301256
    SWODY1
    SPC AC 301255

    Day 1 Convective Outlook
    NWS Storm Prediction Center Norman OK
    0755 AM CDT Sun Jun 30 2024

    Valid 301300Z - 011200Z

    ...THERE IS AN ENHANCED RISK OF SEVERE THUNDERSTORMS OVER PARTS OF
    THE I-95/NEAR-COASTAL CORRIDOR FROM THE DELAWARE VALLEY TO
    SOUTHEASTERN NEW ENGLAND...INCLUDING THE NEW YORK CITY METRO...

    ...THERE IS A SLIGHT RISK OF SEVERE THUNDERSTORMS SURROUNDING THE
    ENHANCED RISK FROM NORTHERN NORTH CAROLINA TO NEW ENGLAND...AND ALSO
    OVER PARTS OF THE NORTHERN HIGH PLAINS...

    ...SUMMARY...
    Scattered damaging winds will be possible across parts of the
    Northeast and Mid-Atlantic States this afternoon/evening. Hail and
    damaging winds may also occur from eastern Montana into western
    North Dakota.

    ...Synopsis...
    In mid/upper levels, the synoptic pattern over the CONUS will remain
    dominated by progressive troughs in the Northwest to northern
    Rockies, and in the Great Lakes to Northeast. An anticyclone aloft,
    attached to a more extensive, zonal, subtropical ridge, will remain
    anchored over the southern Plains. What will become the main
    shortwave perturbation associated with the Northeast trough is
    apparent over portions of the Upper Great Lakes and MI, and will
    amplify while moving over southern ON around 00Z. A sharp shortwave
    trough should result overnight, extending from northern VT across
    eastern NY to northern WV by 12Z tomorrow.

    Meanwhile, a series of minor/low-amplitude shortwaves and vorticity
    lobes will eject northeastward ahead of the Northwest trough, across
    the central/northern Rockies. A weak, convectively induced
    perturbation now near the southern AZ border should move slowly
    northwestward around the subtropical ridging. The northern part of
    another trough in the mid/upper easterlies is evident in moisture-
    channel imagery from the MX coastline northwest of Mazatlan,
    northward to at least southern Chihuahua, moving northwestward.

    The 11Z surface analysis showed a low over south-central QC, with
    cold front southwestward over Lake Ontario, southwestern OH,
    northern/western KY, north-central OK, to east-central NM. By 00Z
    the cold front should reach parts of ME, southeastern NY, northern
    VA, central AL, and southern OK, becoming a quasistationary to warm
    front over the TX Panhandle to northeastern NM. By the end of the
    period, this boundary should move offshore north of the Outer Banks
    of NC, and extend over central GA, southern AL/MS, the Red River
    Valley of TX/OK, and southeastern CO. Separate cyclogenesis should
    occur today over south-central/southeastern MT, with cold front
    southwestward across parts of the Great Basin.

    ...Northern/middle Atlantic Seaboard...
    Scattered thunderstorms -- mainly in lines but with some discrete
    activity -- are expected to move mostly eastward across this
    corridor from late morning through early evening in episodes, with
    damaging winds likely, a few embedded severe gusts possible, and
    isolated potential for large hail or a tornado.

    Low/middle-level destabilization will occur in the preconvective/
    prefrontal environment throughout the day, essentially removing
    already weak MLCINH. This will occur via diurnal heating of the
    surface and large-scale lift ahead of the approaching Great Lakes
    trough aloft. Steepening boundary-layer lapse rates amid rich
    low-level moisture, with dewpoints commonly in the upper 60s to low
    70s F, will offset modest mid/upper-level lapse rates enough to
    foster peak/preconvective MLCAPE in the 1500-2500 J/kg range.
    Greatest buoyancy is possible over the coastal plain between the
    Delmarva peninsula and eastern MA. Wind profiles will be largely unidirectional from the southwest or west-southwest, limiting
    low-level hodograph size and overall vertical shear. However,
    strengthening flow aloft with northward extent will support
    increasing potential for a few supercells northward from the
    northern Mid-Atlantic into New England, and especially across ME. A counterbalancing effect, however, will be diminishing buoyancy with
    northward extent over New England. Farther south over much of VA
    and NC, weak shear will support predominantly multicellular storm
    modes, with damaging/isolated severe gusts possible in water-loaded
    downdrafts.

    ...Northern Plains to central Rockies/High Plains...
    Scattered to isolated thunderstorms should develop over the central
    Rockies and higher terrain near the Four Corners and move
    northeastward to eastward this afternoon -- some of it out onto the
    central High Plains. Activity should produce locally strong-severe
    gusts and isolated large hail from downdrafts penetrating deep,
    well-mixed subcloud layers, though vertical shear this far south of
    the main flow belt should remain too weak to support well-organized
    severe potential.

    Farther north, however, a better-organized severe threat may occur
    this evening with later-developing convection in the northern
    Rockies and adjacent High Plains. Increasing large-scale ascent
    ahead of the Northwest trough will support this activity, along with
    backed low-level flow and strengthening convergence positioned
    poleward of the deepening surface low. Early-stage convection may
    include a few supercells with large hail and damaging gusts, with
    some convection potentially expanding upscale into one or more
    clusters as it encounters greater low-level moisture content across central/eastern MT. Large hail will remain possible -- especially
    with embedded supercell(s), and the severe-gust threat should
    increase with potential for mesobeta-scale cold-pool development,
    especially considering the moderately high LCL. A narrow corridor
    of mid 40s to mid 50s F surface dewpoints, and steep low/middle-
    level lapse rates, should support MLCAPE in the 1000-1500 J/kg range (locally/briefly higher). Veering winds with height will contribute
    to effective-shear magnitudes in the 45-55-kt range in support of
    storm organization.

    ...Central/southeastern AZ...
    Cloud debris and mostly light lingering precip are evident over
    southern AZ, related to the first perturbation, with warming IR
    cloud tops and overall thinning of clouds noted in recent satellite
    trends. This should continue and shift northwestward with the
    initial perturbation through midday into early afternoon, allowing
    for diurnal heating/destabilization of the boundary layer over
    southeastern AZ by mid/late afternoon. This, along with favorable
    low-level moisture, orographic forcing, and weak large-scale ascent
    preceding the next perturbation aloft, will support widely scattered
    to scattered afternoon thunderstorms, some of which may produce
    severe gusts.

    Valley-floor dewpoints in the 50s F largely should be maintained
    through the heating/mixing cycle, beneath very steep low-level lapse
    rates and a well-mixed subcloud layer. A deep southeasterly wind
    profile in low and middle levels will support northwestward motion
    of activity, which may aggregate their outflows to encourage both
    reinforcing development and localized channels of strong-severe
    wind. The somewhat delayed nature of the destabilization process,
    and uncertainties about storm coverage/aggregation, preclude greater unconditional probabilities at this time.

    ..Edwards/Kerr.. 06/30/2024

    $$
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