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Convective Storms and ByProducts: Thunderstorms and Tornadoes Thunder Storms • Cluster of clouds producing heavy rain, lightning, thunder, hail or tornados • Require large amounts of energy • Moist air, strong convection • Vary in length, precipitation and windiness Thunderstorm Requirements • Warm moist air • Lifting – mountains or frontal cyclones • Thunderstorms often follow midlatitude storm tracks Satellite View Satellite View II Growth and Development • Affected by – – – – Unstable atmosphere Environmental Temperature Humidity Wind speed and direction (surface to tropopause) – Vertical Wind Shear – adds spin – Nocturnal Jet – moisture and energy – Capping inversion – the lid on a boiling pot Lifting Index • A measure of convective potential – Compares Tparcel to Tenvironment – When Tp >Te, convection is possible • Te-Tp – -3 to -6 marginal instability – -6 to -9 moderate instability – < -9 very unstable air Types of Thunderstorms • Composed of cells – Ordinary- short lived and small – Super- large, last for hours • Single Cell • Multi Cell Ordinary Single Cell • Short-lived, last for ~1 hour, localized • Stages – Cumulus – Mature – Dissapating Cumulus stage • Moist surface air rises and cools at DALR until Lifting Condensation Level (LCL) is reached • Entrainment from dry environmental air – Evaporation of droplets, helps cool air – Variability in droplet size – If cloud is higher than freezing point mixed precipitation can form Mature Stage • Precipitation begins to fall • Lightning, hail and rain maximized • Updrafts strongly organized • Falling precipitation occurs when air is unsaturated, promotes downdrafts of cool dense air Dissipating stage • Updraft Collapses • Downdraft dominates, creates drag, snuffs updraft • Moisture source lost, convection slows • Dry environmental air entrains • Cloud dissipates Ordinary Single Cell Multi Cell Systems • Number of seperate individual cells at differing stages • Last several hours • 2 basic types – Squall lines – mesoscale Shelf cloud at gust front Squall line • Line, following frontal pattern • Boundaries of unstable air • 6 to 12 hours long • Span several states • Wind shear separates updraft, downdraft • Shelf cloud Conditions for Squall line • Divergence aloft • Most low level inflow • Squall lines appear ahead of cold fronts Squall Line Squall line Mesoscale Convective Complex • Complex arrangement of individual storms • 100 K Km2 (Iowa) • High pressure in upper levels • Do not require high wind shear • Long lived – Afternoon maturation – Die in early morning (dawn) MMC requirements • • • • Low level moisture source Low level jet Jet rises over downdrafts Jet weakens during sunrise, MMC breaks up • Important source of water for US Great Plains Super Cell • Rotating Single Cell system • Development depends on instability and wind shear (low level southerly, upper level westerly) • Updrafts and downdrafts are separate • Produces dangerous weather – Rain, hail, lightning, Tornadoes Super Cell Structure Structure of Supercell • Updraft goes in at rain free base, moves ahead and downwind • Anvil and overshooting tops indicate strong updrafts • Upper level winds help maintain movement • Downdraft in precipitation core There’s no place like home… Tornadoes • Rapidly Rotating columns of high wind around a low beneath a thunderstorm • Visible Funnel due to condensation, dust and debris in rapidly rising air • Funnel cloud is not a tornado Funnel Cloud Tornado Just the facts • Less than one mile wide • Short lived <30 minutes • Hard to understand due to violent nature • Related to slowly rotating super cell thunderstorms • Movement with storm track, NE in US Rotation • Begins in interplay between updrafts and downdrafts • Air spins around horizontal axis near front • Meso cyclone (5 to 20km wide) • Updrafts lift column and 2 columns form – Vertical axis – Left and Right movers – Vertical stretching increases spin Spinning air lifted Not a nice day for fishing A twister is born • Cloud under spinning updraft lowers in a rotating cloud wall – Small compared to meso cyclone • Funnel Cloud – Water vapor makes circulation visible – Touchdown - start of tornado Touchdown!! Life Cycle • Organizing • Mature • Shrinking • Rope Tornado Winds • 300 mph (480km/hr) • Force of wind proportional to v2 • 4 times more powerful than category 5 Hurricane • Ted Fujita – 1970 – Category F1 to F5 – 1% category 4,5 Source and Distribution • Source of winds unknown, strongest in direction of background flow • Strong tornadoes show multiple vortex • Distribution – Possible in any state – Areas of instability, wind shear, frontal movement Tornado Alley Tornado Season • Follows Jet stream (source of wind shear) – Minnesota- June – Mississippi- Spring and Fall • Could happen day or night • Attraction to trailer parks? Severe Weather • Lightning • Hail • Floods • Severe winds Lightning • Electrical discharge • Rising and sinking air motions • 85 deaths, 300 injured per year • 1 in 600,000 vs 1 in 5 billion • Can travel – Cloud to cloud – Cloud to ground – Inside individual clouds Charge Separation • Charges distributed throughout cloud – Ice particle- graupel collisions – When T<-5oC • Graupel-negative • Ice Crystals-positive – Updrafts move and separate charges • Ice up • Graupel down – Cloud induces surface charge Ground Charge • • • • Attraction to cloud High pointy metal structures Large charge separation Air acts to insulate, allows potential buildup • 3000 volts/ft • 9000 volts/m Lightning Formation • Large charge buildup and separation • Pilot leader • Stepped leaders- branches act as conductive channels • Spark when channel is completed to ground • Electrons flow in series of flashes Lightning crashes • Return stroke • Current flow upward • Dart leaders – Negative electrons, cloud to ground • Series of flashes Lightning Stroke Flash Floods • Input of water faster than removal, absorption or storage • Local • High volume • Short duration • Breaking dam Influences • • • • • • Rainfall intensity Topography Soil conditions Ground cover Steep terrain funnels flow Extremes in soil moisture Kodak moment Water Spouts Hail • Lumps of layered ice • Formed through accretion, require super cooled drops • Strong tilted updrafts • Vertical Cycling • Hail embryos ~1mm • Hail shaft Hail Wear a helmet This could be you! Bombs away Blasted Hail!