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Thermal low

January 31, 2023

Thermal lows, or heat lows, are non-frontal low-pressure areas that occur over the continents in the subtropics during the warm season, as the result of intense heating when compared to their surrounding environments.[1] Thermal lows occur near the Sonoran Desert, on the Mexican plateau, in California's Great Central Valley, in the Sahara, over north-west Argentina in South America, over the Kimberley region of north-west Australia, over the Iberian peninsula, and over the Tibetan plateau.

Vertical cross-section of a thermal low

On land, intense, rapid solar heating of the earth's surface causes the heating of the lowest layers of the atmosphere, via re-radiated energy in the infrared spectrum. The hotter air is less dense than surrounding cooler air and rises, leading to the formation of a low pressure area. Elevated areas can enhance the strength of the thermal low because they warm more quickly than the atmosphere which surrounds them at the same altitude. Over water, instability lows form during the winter when the air overlying the land is colder than the warmer water body.

Thermal lows can extend to 3,100 metres (10,200 ft) in height and tend to have weak circulations. Thermal lows over the western and southern portions of North America, northern Africa, and Southeast Asia are strong enough to lead to summer monsoon conditions. Thermal lows inland of the coastline lead to the development of sea breezes which, combined with rugged topography near the coast, can lead to poor air quality.

Formation

 
An isolated thunderstorm rolls through Wah Wah Valley, Utah. This type of monsoonal pattern is very common in the late summer of the southwest US.

In deserts, the lack of ground and plant moisture, that would normally provide evaporative cooling, can lead to intense, rapid solar heating of the lower layers of air. The hot air is less dense than surrounding cooler air. That, combined with the rise of the hot air, results in a low pressure area called a thermal low.[1] Over elevated surfaces, heating of the ground exceeds the heating of the surrounding air at the same altitude above sea level, which creates an associated heat low over the terrain, and enhances any thermal lows which would have otherwise existed.[2][3] During the cold season, (winter), warm water bodies such as the Great Lakes can induce an instability low.[4] Thermal lows which develop near sea level can build in height during the warm season, or summer, to the elevation of the 700 hPa pressure surface,[5] which lies near 3,100 metres (10,200 ft) above sea level.[6] Heat lows normally are stationary and have a weak cyclonic circulation.[7] As they are strongest at the surface and warm near their center, and weaker aloft where the air is more stable, the thermal low is considered warm core.[8][9] The strongest versions of these features globally are over Arabia, the northern portion of the Indian subcontinent, Arizona, Mexican plateau,[10] northwest Argentina,[11] southwestern Spain,[12] Australia,[13] and northern Africa. The formation of the heat low over northern Africa leads to a low-level westerly jet stream from June into October.[14]

Role in the monsoon regime

 
Onset dates and prevailing wind currents of the southwest summer monsoon
Main article: Monsoon

Monsoons are caused by the larger amplitude of the seasonal cycle of land temperature compared to that of nearby oceans. That differential warming happens because heat in the ocean is mixed vertically through a "mixed layer" that may be fifty meters deep, due to the action of wind and buoyancy-generated turbulence, whereas the land surface conducts heat slowly, with the seasonal signal penetrating perhaps a meter or so. Additionally, the specific heat capacity of liquid water is significantly higher than that of most materials that make up land. Together, those factors mean that the heat capacity of the layer involved in the seasonal cycle is much larger over the oceans than over land, meaning that the air over the land warms faster and reaches a higher temperature than the air over the ocean. The hot air over the land tends to rise, creating an area of low pressure. That creates a steady wind blowing toward the land, bringing the moist near-surface ocean air with it.[15] Similar rainfall is caused by the moist ocean air being lifted upwards by mountains,[16] surface heating,[17] convergence at the surface,[18] divergence aloft, or from storm-produced outflows at the surface.[19] However the lifting occurs, the air cools due expansion in lower pressure, which in turn produces condensation.

In winter, the land cools off quickly, but the ocean retains its heat longer due to its higher specific heat. The hot air over the ocean rises, creating a low pressure area and a breeze from land to ocean while a large area of drying high pressure is formed over the land, increased by wintertime cooling.[15] Monsoons are similar to sea and land breezes, a term usually referring to the localized, diurnal (daily) cycle of circulation near coastlines everywhere, but they are much larger in scale, much stronger, and seasonal.[20]

Role in sea breeze formation

 
Schematic cross section through a sea breeze front. If the air inland is moist, cumulus often marks the front's location.
Main article: Sea breeze

The sea is warmed by the sun to a greater depth than the land due to its greater specific heat.[21] The sea therefore has a greater capacity for absorbing heat than the land, so the surface of the sea warms up more slowly than the land's surface. As the temperature of the surface of the land rises, the land heats the air above it. The less dense warm air rises, which lowers the sea level pressure by about 0.2%. The cooler air above the sea, with higher sea level pressure, flows towards the land into the area of lower pressure, creating a cooler breeze near the coast. The strength of the sea breeze is directly proportional to the temperature difference between the land and the sea. If the environmental wind field is greater than 8 knots (15 km/h) and opposing the direction of a possible sea breeze, the sea breeze is not likely to develop.[22]

Along the California coast, the cooler water creates a surface marine layer that is much cooler than inland areas during the summer. At the same time, the intense heating inland generates a pronounced thermal trough aligned with the Central Valley, and typically linked to the broader thermal low across the North American deserts. As a consequence, a strong pressure gradient is created which draws cool marine air landward. As temperatures plummet, fog and stratus stream in and through the gaps of the Coast Ranges, and especially through the Golden Gate at San Francisco (see San Francisco fog). The same thermal trough is sometimes pushed toward the coast, especially in late fall, when higher pressure develops to the east due to cooling even further east. That situation often brings the warmest temperatures of the year to the normally cool coastline, because the sea breeze stops or is even replaced by a dangerously dry land breeze (see also Diablo wind and Santa Ana wind).

Role in air pollution

In hilly or mountainous areas near the coastline, thermally-forced sea breezes, combined with wind circulations up the sides of the mountains, can encourage the production of chemicals which can lead to the development of smog. Pollution has been tracked into the mid-levels of the troposphere in the form of ozone, which is concentrated over the circulation of the thermal low as well as adjacent oceanic areas.[23]

References

  1. ^ a b Glossary of Meteorology (2009). Thermal Low. 2008-05-22 at the Wayback Machine American Meteorological Society. Retrieved on 2009-03-02.
  2. ^ National Weather Service Office in Tucson, Arizona (2008). What is a monsoon? National Weather Service Western Region Headquarters. Retrieved on 2009-03-08.
  3. ^ Douglas G. Hahn and Syukuro Manabe (1975). The Role of Mountains in the South Asian Monsoon Circulation. Journal of the Atmospheric Sciences, vol. 32, Issue 8, pp. 1515-1541. Retrieved on 2009-03-08.
  4. ^ Nathaniel S. Winstead and Pierre D. Mourad (2000). Shallow Great Lake–Scale Atmospheric Thermal Circulation Imaged by Synthetic Aperture Radar. Monthly Weather Review: pp. 3654–3663. Retrieved on 2009-03-09.
  5. ^ David R. Rowson and Stephen J. Colucci (1992). Synoptic climatology of thermal low-pressure systems over south-western north America. International Journal of Climatology, Vol. 12 Issue 6, pp. 529-545. Retrieved on 2009-03-08.
  6. ^ United States Navy (2008). Forecasters Handbook for the Arctic Appendix B: Mean Monthly Sea Level Pressure, Air Temperature, and 700-mb Height. 2016-12-26 at the Wayback Machine Retrieved on 2009-03-08.
  7. ^ National Weather Service Forecast Office Columbia, South Carolina (2009). Weather Terms. National Weather Service Eastern Region Headquarters. Retrieved on 2009-03-08.
  8. ^ Glossary of Meteorology (2009). Warm Low. 2007-08-17 at the Wayback Machine American Meteorological Society. Retrieved on 2009-04-04.
  9. ^ Gongyuh Lin (2008). Synoptic Weather Systems. California State University, Northridge. Retrieved on 2009-04-04.
  10. ^ Donna F. Tucker (1998). The Summer Plateau Low Pressure System of Mexico. Journal of Climate: pp. 1002–1015. Retrieved on 2009-03-09.
  11. ^ Marcelo E. Seluchi, A. Celeste Saulo, Matilde Nicolini, and Prakki Satyamurty (2003). The Northwestern Argentinean Low: A Study of Two Typical Events. Monthly Weather Review: pp. 2361–2378. Retrieved on 2009-03-09.
  12. ^ Roger Graham Barry and Richard J. Chorley (2003). Atmosphere, Weather, and Climate. Routledge, p. 199. ISBN 978-0-415-27171-4. Retrieved on 2009-03-08.
  13. ^ Bureau of Meteorology. . Archived from the original on 2008-08-11. Retrieved 2008-05-03.
  14. ^ B. Pu and K. H. Cook (2008). Dynamics of the Low-Level Westerly Jet Over West Africa. American Geophysical Union, Fall Meeting 2008, abstract #A13A-0229. Retrieved on 2009-03-08.
  15. ^ a b Dr. Louisa Watts (2009). What causes the west African monsoon? National Centre for Environmental Science. Retrieved on 2009-04-04.
  16. ^ Dr. Michael Pidwirny (2008). CHAPTER 8: Introduction to the Hydrosphere (e). Cloud Formation Processes. Physical Geography. Retrieved on 2009-01-01.
  17. ^ Bart van den Hurk and Eleanor Blyth (2008). Global maps of Local Land-Atmosphere coupling. 2009-02-25 at the Wayback Machine KNMI. Retrieved on 2009-01-02.
  18. ^ Robert Penrose Pearce (2002). Meteorology at the Millennium. Academic Press, p. 66. ISBN 978-0-12-548035-2. Retrieved on 2009-01-02.
  19. ^ Glossary of Meteorology. Gust Front. 2011-05-05 at the Wayback Machine Retrieved on 2008-07-09.
  20. ^ BBC Weather. The Asian Monsoon. Retrieved on 2008-05-22.
  21. ^ Dr. Steve Ackerman (1995). Sea and Land Breezes. University of Wisconsin. Retrieved on 2006-10-24.
  22. ^ JetStream: An Online School For Weather (2008). The Sea Breeze. 2006-09-23 at the Wayback Machine National Weather Service Southern Region. Retrieved on 2006-10-24.
  23. ^ A.C. Carvalho, A. Carvalho, I. Gelpi, M. Barreiro, C. Borrego, A.I. Miranda, V. Perez-Munuzuri (2006). Influence of topography and land use on pollutants dispersion in the Atlantic coast of Iberian Peninsula.[permanent dead link] Atmospheric Environment 40 (2006) 3969–3982. Retrieved on 2009-03-09.

January 31, 2023
thermal, heat, lows, frontal, pressure, areas, that, occur, over, continents, subtropics, during, warm, season, result, intense, heating, when, compared, their, surrounding, environments, occur, near, sonoran, desert, mexican, plateau, california, great, centr. Thermal lows or heat lows are non frontal low pressure areas that occur over the continents in the subtropics during the warm season as the result of intense heating when compared to their surrounding environments 1 Thermal lows occur near the Sonoran Desert on the Mexican plateau in California s Great Central Valley in the Sahara over north west Argentina in South America over the Kimberley region of north west Australia over the Iberian peninsula and over the Tibetan plateau Vertical cross section of a thermal low On land intense rapid solar heating of the earth s surface causes the heating of the lowest layers of the atmosphere via re radiated energy in the infrared spectrum The hotter air is less dense than surrounding cooler air and rises leading to the formation of a low pressure area Elevated areas can enhance the strength of the thermal low because they warm more quickly than the atmosphere which surrounds them at the same altitude Over water instability lows form during the winter when the air overlying the land is colder than the warmer water body Thermal lows can extend to 3 100 metres 10 200 ft in height and tend to have weak circulations Thermal lows over the western and southern portions of North America northern Africa and Southeast Asia are strong enough to lead to summer monsoon conditions Thermal lows inland of the coastline lead to the development of sea breezes which combined with rugged topography near the coast can lead to poor air quality Contents 1 Formation 2 Role in the monsoon regime 3 Role in sea breeze formation 4 Role in air pollution 5 ReferencesFormation Edit An isolated thunderstorm rolls through Wah Wah Valley Utah This type of monsoonal pattern is very common in the late summer of the southwest US In deserts the lack of ground and plant moisture that would normally provide evaporative cooling can lead to intense rapid solar heating of the lower layers of air The hot air is less dense than surrounding cooler air That combined with the rise of the hot air results in a low pressure area called a thermal low 1 Over elevated surfaces heating of the ground exceeds the heating of the surrounding air at the same altitude above sea level which creates an associated heat low over the terrain and enhances any thermal lows which would have otherwise existed 2 3 During the cold season winter warm water bodies such as the Great Lakes can induce an instability low 4 Thermal lows which develop near sea level can build in height during the warm season or summer to the elevation of the 700 hPa pressure surface 5 which lies near 3 100 metres 10 200 ft above sea level 6 Heat lows normally are stationary and have a weak cyclonic circulation 7 As they are strongest at the surface and warm near their center and weaker aloft where the air is more stable the thermal low is considered warm core 8 9 The strongest versions of these features globally are over Arabia the northern portion of the Indian subcontinent Arizona Mexican plateau 10 northwest Argentina 11 southwestern Spain 12 Australia 13 and northern Africa The formation of the heat low over northern Africa leads to a low level westerly jet stream from June into October 14 Role in the monsoon regime Edit Onset dates and prevailing wind currents of the southwest summer monsoon Main article Monsoon Monsoons are caused by the larger amplitude of the seasonal cycle of land temperature compared to that of nearby oceans That differential warming happens because heat in the ocean is mixed vertically through a mixed layer that may be fifty meters deep due to the action of wind and buoyancy generated turbulence whereas the land surface conducts heat slowly with the seasonal signal penetrating perhaps a meter or so Additionally the specific heat capacity of liquid water is significantly higher than that of most materials that make up land Together those factors mean that the heat capacity of the layer involved in the seasonal cycle is much larger over the oceans than over land meaning that the air over the land warms faster and reaches a higher temperature than the air over the ocean The hot air over the land tends to rise creating an area of low pressure That creates a steady wind blowing toward the land bringing the moist near surface ocean air with it 15 Similar rainfall is caused by the moist ocean air being lifted upwards by mountains 16 surface heating 17 convergence at the surface 18 divergence aloft or from storm produced outflows at the surface 19 However the lifting occurs the air cools due expansion in lower pressure which in turn produces condensation In winter the land cools off quickly but the ocean retains its heat longer due to its higher specific heat The hot air over the ocean rises creating a low pressure area and a breeze from land to ocean while a large area of drying high pressure is formed over the land increased by wintertime cooling 15 Monsoons are similar to sea and land breezes a term usually referring to the localized diurnal daily cycle of circulation near coastlines everywhere but they are much larger in scale much stronger and seasonal 20 Role in sea breeze formation Edit Schematic cross section through a sea breeze front If the air inland is moist cumulus often marks the front s location Main article Sea breeze The sea is warmed by the sun to a greater depth than the land due to its greater specific heat 21 The sea therefore has a greater capacity for absorbing heat than the land so the surface of the sea warms up more slowly than the land s surface As the temperature of the surface of the land rises the land heats the air above it The less dense warm air rises which lowers the sea level pressure by about 0 2 The cooler air above the sea with higher sea level pressure flows towards the land into the area of lower pressure creating a cooler breeze near the coast The strength of the sea breeze is directly proportional to the temperature difference between the land and the sea If the environmental wind field is greater than 8 knots 15 km h and opposing the direction of a possible sea breeze the sea breeze is not likely to develop 22 Along the California coast the cooler water creates a surface marine layer that is much cooler than inland areas during the summer At the same time the intense heating inland generates a pronounced thermal trough aligned with the Central Valley and typically linked to the broader thermal low across the North American deserts As a consequence a strong pressure gradient is created which draws cool marine air landward As temperatures plummet fog and stratus stream in and through the gaps of the Coast Ranges and especially through the Golden Gate at San Francisco see San Francisco fog The same thermal trough is sometimes pushed toward the coast especially in late fall when higher pressure develops to the east due to cooling even further east That situation often brings the warmest temperatures of the year to the normally cool coastline because the sea breeze stops or is even replaced by a dangerously dry land breeze see also Diablo wind and Santa Ana wind Role in air pollution EditIn hilly or mountainous areas near the coastline thermally forced sea breezes combined with wind circulations up the sides of the mountains can encourage the production of chemicals which can lead to the development of smog Pollution has been tracked into the mid levels of the troposphere in the form of ozone which is concentrated over the circulation of the thermal low as well as adjacent oceanic areas 23 References Edit a b Glossary of Meteorology 2009 Thermal Low Archived 2008 05 22 at the Wayback Machine American Meteorological Society Retrieved on 2009 03 02 National Weather Service Office in Tucson Arizona 2008 What is a monsoon National Weather Service Western Region Headquarters Retrieved on 2009 03 08 Douglas G Hahn and Syukuro Manabe 1975 The Role of Mountains in the South Asian Monsoon Circulation Journal of the Atmospheric Sciences vol 32 Issue 8 pp 1515 1541 Retrieved on 2009 03 08 Nathaniel S Winstead and Pierre D Mourad 2000 Shallow Great Lake Scale Atmospheric Thermal Circulation Imaged by Synthetic Aperture Radar Monthly Weather Review pp 3654 3663 Retrieved on 2009 03 09 David R Rowson and Stephen J Colucci 1992 Synoptic climatology of thermal low pressure systems over south western north America International Journal of Climatology Vol 12 Issue 6 pp 529 545 Retrieved on 2009 03 08 United States Navy 2008 Forecasters Handbook for the Arctic Appendix B Mean Monthly Sea Level Pressure Air Temperature and 700 mb Height Archived 2016 12 26 at the Wayback Machine Retrieved on 2009 03 08 National Weather Service Forecast Office Columbia South Carolina 2009 Weather Terms National Weather Service Eastern Region Headquarters Retrieved on 2009 03 08 Glossary of Meteorology 2009 Warm Low Archived 2007 08 17 at the Wayback Machine American Meteorological Society Retrieved on 2009 04 04 Gongyuh Lin 2008 Synoptic Weather Systems California State University Northridge Retrieved on 2009 04 04 Donna F Tucker 1998 The Summer Plateau Low Pressure System of Mexico Journal of Climate pp 1002 1015 Retrieved on 2009 03 09 Marcelo E Seluchi A Celeste Saulo Matilde Nicolini and Prakki Satyamurty 2003 The Northwestern Argentinean Low A Study of Two Typical Events Monthly Weather Review pp 2361 2378 Retrieved on 2009 03 09 Roger Graham Barry and Richard J Chorley 2003 Atmosphere Weather and Climate Routledge p 199 ISBN 978 0 415 27171 4 Retrieved on 2009 03 08 Bureau of Meteorology Climate of Giles Archived from the original on 2008 08 11 Retrieved 2008 05 03 B Pu and K H Cook 2008 Dynamics of the Low Level Westerly Jet Over West Africa American Geophysical Union Fall Meeting 2008 abstract A13A 0229 Retrieved on 2009 03 08 a b Dr Louisa Watts 2009 What causes the west African monsoon National Centre for Environmental Science Retrieved on 2009 04 04 Dr Michael Pidwirny 2008 CHAPTER 8 Introduction to the Hydrosphere e Cloud Formation Processes Physical Geography Retrieved on 2009 01 01 Bart van den Hurk and Eleanor Blyth 2008 Global maps of Local Land Atmosphere coupling Archived 2009 02 25 at the Wayback Machine KNMI Retrieved on 2009 01 02 Robert Penrose Pearce 2002 Meteorology at the Millennium Academic Press p 66 ISBN 978 0 12 548035 2 Retrieved on 2009 01 02 Glossary of Meteorology Gust Front Archived 2011 05 05 at the Wayback Machine Retrieved on 2008 07 09 BBC Weather The Asian Monsoon Retrieved on 2008 05 22 Dr Steve Ackerman 1995 Sea and Land Breezes University of Wisconsin Retrieved on 2006 10 24 JetStream An Online School For Weather 2008 The Sea Breeze Archived 2006 09 23 at the Wayback Machine National Weather Service Southern Region Retrieved on 2006 10 24 A C Carvalho A Carvalho I Gelpi M Barreiro C Borrego A I Miranda V Perez Munuzuri 2006 Influence of topography and land use on pollutants dispersion in the Atlantic coast of Iberian Peninsula permanent dead link Atmospheric Environment 40 2006 3969 3982 Retrieved on 2009 03 09 Retrieved from https en wikipedia org w index php title Thermal low amp oldid 1125087295, wikipedia, wiki, book, books, library,

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