Thunderstorm: a cumulonimbus cloud or collection of cumulonimbus clouds featuring vigorous updrafts, precipitation and lightning
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2 Thunderstorm: a cumulonimbus cloud or collection of cumulonimbus clouds featuring vigorous updrafts, precipitation and lightning Thunderstorms are responsible for most of what we refer to as severe weather, including high winds, lightning, tornadoes and hail - By official definition, a severe thunderstorm has at least one of the following: Large hail of ¾ inch diameter or greater Wind gusts of at least 50 knots A tornado
3 Keep in mind that a thunderstorm is a form of cumulus cloud, which means it's basically a plume of warm, cloudy air (i.e., an updraft) in a conditionally unstable environment.
4 The Thunderstorm Cell: Labeling the Parts entrainment warm condensation evaporation cold cold pool gust front
5 Labeling the Parts: The building block of a thunderstorm is the thunderstorm cell, consisting of a warm updraft and a relatively cold downdraft. The updraft is driven by condensation in the cloud, while the downdraft is driven by evaporation, as well as the drag associated with falling rain an hail. The evaporation that helps drive the downdraft happens two ways: Rain falls into the unsaturated air below and evaporates Dry air is mixed with cloudy air across the edges of the cloud, through a process called entrainment As the downdraft reaches the ground, it spreads out and forms a region of relatively cold air called the cold pool. The leading edge of the cold pool is called the gust front, as the winds behind the gust front (on the cold side) are typically strong and gusty.
6 The Thunderstorm Cell: Labeling the Parts As the gust front spreads along the ground, it forces warm air up and over the front. Under the right conditions, this lifting can initiate new updrafts, which is an important process for maintaining and propagating the system.
7 Photo of a gust front approaching outside the daycare. No walk today!
8 Recipe for a Thunderstorm The driving force behind a thunderstorm is the latent heating in the updraft. So to get things going, we'll need: And if it's a severe storm we're after, then we'll also need: wind shear
9 The Dependence on Shear The type of storm we get (and hence the intensity and duration) is strongly influenced by the wind profile in the environment (i.e., the environmental shear) To a rough approximation, this means that severe thunderstorms and tornadoes often form under a branch of the jet stream
10 Conditions for the April 15, 2011 Tornado Outbreak a change in wind speed and/or direction with height a trigger mechanism to provide lifting (cold front) a supply of warm humid air off the Gulf
11 Thunderstorm Classification A given thunderstorm can be classified as: In addition, we also classify systems in which many individual storms are evolving together in the same general region...what are called mesoscale convective systems (MCS). But we'll come back to that later.
12 Single-cell storms: A single-cell storm consists of a single updraft / downdraft pair The cell evolves through a series of stages, with the whole process taking roughly 30 to 60 minutes The motion of the storm follows the mean background wind
13 Life cycle of a single-cell storm: Growth stage: air parcels lifted to saturation by some trigger process. Clouds build into towering cumulus. Mature stage: evaporation leads to formation of a downdraft. Cold pool forms and begins to spread along the ground. Most intense stage. Dissipating stage: the spreading cold pool cuts the system off from warm air, killing the updraft and leading to dissipation.
14 A single-cell thunderstorm in the dissipating stage
15 Multicell storms: A multicell storm consists of a small group of cells evolving together, but in different stages of development Individual cells grow and die in 30 to 60 minutes, but the collection as a whole can last much longer The view from Lowes in Bryan, earlier this spring
16 Maintenance of a multicell storm: The key to multicell longevity is the spreading gust front As the gust front spreads it lifts warm air, initiating new updrafts The new updrafts form at the leading edge of the system, and the older cells shift to the back of the system and die
17 a shelf cloud formed as air is lifted up and over the edge of the gust front a rotating roll cloud just behind the leading edge of the gust front
18 Supercells: A supercell consists of a single intense, rotating updraft and either one or two associated downdrafts The organization of a supercell is self-reinforcing, and a single supercell can last several hours rotating supercell wall cloud and associated tornado
19 Supercells: Most of our intense tornadoes in the US are produced by supercell storms rotating supercell wall cloud and associated tornado
20 Supercell Structure as Seen by Radar roughly N-S cross-section (A to B) radar echoes seen at various heights above the ground roughly E-W cross-section (C to D) B Bounded Weak Echo Region (BWER): a hole in the radar signal where the updraft is so fast that precipitation has no time to grow C hook echo A D updraft region
21 Tornadic supercells usually have two downdrafts, each with an associated gust front. The single, rotating updraft is located where the two gust fronts meet.
Thunderstorm: a cumulonimbus cloud or collection of cumulonimbus clouds featuring vigorous updrafts, precipitation and lightning
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