Air Masses: Type, Modification, and Associated weather ENVI1400: Lecture 5.

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Presentation transcript:

Air Masses: Type, Modification, and Associated weather ENVI1400: Lecture 5

ENVI 1400 : Meteorology and Forecasting : lecture 52 Air Masses A body of air with more-or-less uniform physical properties over horizontal distances of hundreds of kilometres Temperature Moisture content lapse rate Properties and degree of uniformity depend on: Source of the air History – air mass modification Age of air mass Input of heat and moisture to atmosphere is non-uniform. Creation of a uniform air mass achieved via: –Mixing –Radiative processes –Time (3 – 7 days) Source regions: areas of extensive uniform surface conditions situated below quasi- stationary high pressure systems. In low latitudes there are few strong temperature gradients; air masses distinguished by moisture content – more difficult to interpret.

ENVI 1400 : Meteorology and Forecasting : lecture 53 Air Mass Modification Processes Thermodynamic Surface heating/cooling –Change of temperature of surface, or advection over different surface Addition of moisture –Surface evaporation –Evaporation of precipitation falling from higher level Loss of moisture –Condensation, precipitation Radiative heating/cooling –slow compared to surface heat exchange (up to 2 weeks) Dynamic Turbulent mixing –Increases uniformity of air mass. Very efficient close to surface. Large-scale lifting/descent –Causes adiabatic changes of temperature –May result in formation or evaporation of clouds

ENVI 1400 : Meteorology and Forecasting : lecture 54 Air Mass Characterization Air masses are classified according to how they compare to the properties of the underlying surface and of adjacent air masses. 4 (sometimes 5) basic classifications – combine source region and surface type: Maritime/marine (m) –high moisture content Continental (c) –typically low moisture Tropical (T) –warm Polar (P) –cold Also: Arctic (A) –very cold –Frequently indistinguishable from polar air masses in lower levels –Originates over polar icecaps rather than high latitude land masses. Some classification schemes include indication of whether air is warmer (w) or cooler (k) than underlying surface after air mass modification has taken place; e.g. cPk, mPw.

ENVI 1400 : Meteorology and Forecasting : lecture 55 Origin: continental anticyclones over Siberia and northern Canada during winter; Arctic basin (cA) when high pressure dominant. No sources of cP in southern hemisphere. Antarctica is a source of cA all year round. Snow covered surface  cooling of surface layers, equilibrium vapour pressure is low  low moisture content (0.1 to 0.5 g/kg). Cooling at surface  stable stratification, limited mixing; allows further cooling by radiation resulting in very low temperatures. Subsidence of air aloft (and associated adiabatic warming) combined with radiative cooling at low levels  pronounced inversion from surface to about 850 mb (~1 km). Low humidity results in generally low cloud amounts. Solar heating of land surface in summer removes source of cold air. Continental Polar (cP)

ENVI 1400 : Meteorology and Forecasting : lecture 56 H Continental Polar (cP) Source: Siberia, very cold in winter, hot and dry in summer. Summer: Warm & dry, cloud free, except perhaps at east coast where cool & showery. Winter: Snow near east coast; occasional snow showers in west. Very cold & strong easterly winds Track: overland, short track over North Sea

ENVI 1400 : Meteorology and Forecasting : lecture 57

8

9 Maritime Polar (mP) Origin: In northern hemisphere mP results primarily from modification of cP by flow over oceans: Siberia flowing over north Pacific, northern Canada & Greenland flowing over north Atlantic. In summer the Arctic icecap – significant areas of melt water, and open leads in ice, provide effective water surface. In southern hemisphere: oceans surrounding Antarctica. In winter modified cA provides colder mP than modified cP. Cool and moist, extensive cloud cover. During initial flow over water, cP is warmed and moistened. High surface heat and moisture fluxes  instability and strong convection; flow is very turbulent, increasing amounts of cumulus form, often in streets aligned with wind. Downwind, large cumulus organised in first closed, then open cells. Air mass now cool, moist mP, extensive cloud cover.

ENVI 1400 : Meteorology and Forecasting : lecture 510

ENVI 1400 : Meteorology and Forecasting : lecture 511 Maritime Polar (mP) Source: North Canada & Greenland. Very cold. Summer: Heavy showers, thunderstorms over high ground. Winter: Heavy showers in north-west; clear skies in east at night giving frost. Dry in lee of mountains. L Track: cool, moist, unstable

ENVI 1400 : Meteorology and Forecasting : lecture 512

ENVI 1400 : Meteorology and Forecasting : lecture 513

ENVI 1400 : Meteorology and Forecasting : lecture 514 L Track: warmer & wetter than mP Returning Polar Maritime Source: North Canada. Very cold and dry Summer: Very warm, stratus clouds in southwest, squally showers & storms inland. Winter: stratus cloud, showers over high ground, particularly in west.

ENVI 1400 : Meteorology and Forecasting : lecture 515

ENVI 1400 : Meteorology and Forecasting : lecture 516

ENVI 1400 : Meteorology and Forecasting : lecture 517 L Arctic Maritime (mA) Source: Arctic seas / ice cap. Very cold. Summer: Cold, frequent heavy showers. Winter: Very cold; strong winds from north and north west. Heavy snow showers, particularly in north and coastal areas. Cold & bright in lake district and South Wales in lee of mountains to north. Track: short; warm & moist at surface, cold aloft; unstable

ENVI 1400 : Meteorology and Forecasting : lecture 518

ENVI 1400 : Meteorology and Forecasting : lecture 519

ENVI 1400 : Meteorology and Forecasting : lecture 520 Maritime Tropical (mT) Origin: Oceanic subtropical high pressure cells – mid Atlantic (Azores High), much of pacific. 50% of southern hemisphere is a source of mT. High temperatures, and high humidity in lower layers. Stable or near neutral stratification. Modification of warm air is usually slow. Cooling from surface as air moves to higher latitudes results in formation of advection fog. If wind speed is high, mechanical mixing produces a deeper boundary layer (few hundred metres) and low stratiform cloud forms – stratus or stratocumulus. Forced ascent at land can result in thick cloud and heavy rain. Advection fog, Golden Gate Bridge

ENVI 1400 : Meteorology and Forecasting : lecture 521 L H Track: moist at surface Maritime Tropical (mT) Source: warm tropical oceans Summer: Southwest winds; warm & sunny inland. Low stratus clouds round west coast. Winter: Stratus clouds/hill fog/drizzle clearing to the northeast. Warm, muggy, with prolonged rainfall in westerly mountains.

ENVI 1400 : Meteorology and Forecasting : lecture 522

ENVI 1400 : Meteorology and Forecasting : lecture 523

ENVI 1400 : Meteorology and Forecasting : lecture 524 Continental Tropical (cT) Origin: Continental parts of subtropical high pressure cells (e.g. north Africa) or regions of generally light, variable winds & subsidence in upper troposphere over major landmasses during summer (e.g. central Asia). Strong solar heating of land mass results in unstable stratification and strong convection. Low humidity coupled with subsidence means limits cloud development and preciptitation. In the northern hemisphere winter, north Africa is the only source of cT. Modification during transit over water (e.g. from N. Africa moving over Mediterranean into Europe): picks up lots of water vapour, lowering the density of humidified air and triggering strong convection. Large cumulus and thunderstorms form.

ENVI 1400 : Meteorology and Forecasting : lecture 525 L H Continental Tropical (cT) Source: North Africa – hot and dry. Summer only: Heatwave weather, hazy with occasional thunderstorm. Track: overland with short sea track

ENVI 1400 : Meteorology and Forecasting : lecture 526

ENVI 1400 : Meteorology and Forecasting : lecture 527

ENVI 1400 : Meteorology and Forecasting : lecture 528 Summary “Air masses” are large regions of air with distinct properties Originate in high-pressure regions, and move towards low pressure Modified by changes in surface properties, and radiative warming/cooling Associated with different general weather conditions over UK