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anticyclone
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{{short description|Weather phenomenon which is the opposite of a cyclone}}File:High pressure Area Sep 08 2012.jpg|thumb|270px|right|True color satellite image of an unusual anticyclone off southern AustraliaAustralia
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- HadleyCross-sec.jpg -
Hadley cell circulation tends to create anticyclonic patterns in the Horse latitudes, depositing drier air and contributing to the world's great deserts.
{{Weather}}An anticyclone (that is, opposite to a cyclone) is a weather phenomenon defined by the United States National Weather Service's glossary as "a large-scale circulation of winds around a central region of high atmospheric pressure, clockwise in the Northern Hemisphere, counterclockwise in the Southern Hemisphere".WEB, Glossary: Anticyclone, National Weather Service, January 19, 2010,weblink live,weblink" title="web.archive.org/web/20110629140523weblink">weblink June 29, 2011, Effects of surface-based anticyclones include clearing skies as well as cooler, drier air. Fog can also form overnight within a region of higher pressure. Mid-tropospheric systems, such as the subtropical ridge, deflect tropical cyclones around their periphery and cause a temperature inversion inhibiting free convection near their center, building up surface-based haze under their base. Anticyclones aloft can form within warm core lows such as tropical cyclones, due to descending cool air from the backside of upper troughs such as polar highs, or from large scale sinking such as the subtropical ridge.The evolution of an anticyclone depends upon variables such as its size, intensity, and extent of moist convection, as well as the Coriolis force. Masoud Rostami & Vladimir Zeitlin (2017) Influence of condensation and latent heat release upon barotropic and baroclinic instabilities of vortices in a rotating shallow water f-plane model, Geophysical & Astrophysical Fluid Dynamics, 111:1, 1-31, DOI: 10.1080/03091929.2016.1269897 weblink

History

Sir Francis Galton first discovered anticyclones in the 1860s. Preferred areas within a synoptic flow pattern in higher levels of the hydrosphere are beneath the western side of troughs, or dips in the Rossby wave pattern.{{clarify|date=April 2014}} High-pressure systems are alternatively referred to as anticyclones. Their circulation is sometimes referred to as cum sole. Subtropical high pressure zones form under the descending portion of the Hadley cell circulation. Upper-level high-pressure areas lie over tropical cyclones due to their warm core nature.{{See also|Siberian high}}Surface anticyclones form due to downward motion through the troposphere, the atmospheric layer where weather occurs. Preferred areas within a synoptic flow pattern in higher levels of the troposphere are beneath the western side of troughs. On weather maps, these areas show converging winds (isotachs), also known as confluence, or converging height lines near or above the level of non-divergence, which is near the 500 hPa pressure surface about midway up the troposphere.Glossary of Meteorology (2009). Level of nondivergence. {{webarchive|url=http://archive.wikiwix.com/cache/20110628073639weblink |date=2011-06-28 }} American Meteorological Society. Retrieved on 2009-02-17.Konstantin Matchev (2009). Middle-Latitude Cyclones - II {{webarchive|url=https://web.archive.org/web/20090225025157weblink |date=2009-02-25 }}. University of Florida. Retrieved on 2009-02-16. Because they weaken with height, these high-pressure systems are cold.

Subtropical ridge

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The subtropical ridge shows up as a large area of black (dryness) on this water vapor satellite image from September 2000.
Heating of the earth near the equator forces upward motion and convection along the monsoon trough or intertropical convergence zone. The divergence over the near-equatorial trough leads to air rising and moving away from the equator aloft. As air moves towards the mid-latitudes, it cools and sinks leading to subsidence near the 30° parallel of both hemispheres. This circulation known as the Hadley cell forms the subtropical ridge.Dr. Owen E. Thompson (1996). Hadley Circulation Cell. {{webarchive|url=https://web.archive.org/web/20090305122318weblink |date=2009-03-05 }} Channel Video Productions. Retrieved on 2007-02-11. Many of the world's deserts are caused by these climatological high-pressure areas.ThinkQuest team 26634 (1999). The Formation of Deserts {{webarchive|url=https://web.archive.org/web/20121017193948weblink |date=2012-10-17 }}. Oracle ThinkQuest Education Foundation. Retrieved on 2009-02-16. Because these anticyclones strengthen with height, they are known as warm core ridges.

Formation aloft

The development of anticyclones aloft occurs in warm core cyclones such as tropical cyclones when latent heat caused by the formation of clouds is released aloft increasing the air temperature; the resultant thickness of the atmospheric layer increases high pressure aloft which evacuates their outflow.

Structure

In the absence of rotation, the wind tends to blow from areas of high pressure to areas of low pressure.BWEA (2007). Education and Careers: What is wind? {{webarchive|url=https://web.archive.org/web/20110304181329weblink |date=2011-03-04 }} British Wind Energy Association. Retrieved on 2009-02-16. The stronger the pressure difference (pressure gradient) between a high-pressure system and a low-pressure system, the stronger the wind. The coriolis force caused by Earth's rotation gives winds within high-pressure systems their clockwise circulation in the northern hemisphere (as the wind moves outward and is deflected right from the center of high pressure) and anticlockwise circulation in the southern hemisphere (as the wind moves outward and is deflected left from the center of high pressure). Friction with land slows down the wind flowing out of high-pressure systems and causes wind to flow more outward (more ageostrophically) from the center.JetStream (2008). Origin of Wind {{webarchive|url=https:www.webcitation.org/618K86Fux?url=http://www.srh.noaa.gov/jetstream//synoptic/wind.htm |date=2011-08-22 }}. National Weather Service Southern Region Headquarters. Retrieved on 2009-02-16.

Effects

Surface-based systems

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- GGB in fog 2007 edit.jpg -
250 px|Golden Gate Bridge in fog
High-pressure systems are frequently associated with light winds at the surface and subsidence of air from higher portions of the troposphere. Subsidence will generally warm an air mass by adiabatic (compressional) heating.Office of the Federal Coordinator for Meteorology (2006). Appendix G: Glossary {{webarchive|url=https://web.archive.org/web/20090225025158weblink |date=2009-02-25 }}. NOAA. Retrieved on 2009-02-16. Thus, high pressure typically brings clear skies.Jack Williams (2007). What's happening inside highs and lows {{webarchive|url=https://web.archive.org/web/20120824121554weblink |date=2012-08-24 }}. USA Today. Retrieved on 2009-02-16. Because no clouds are present to reflect sunlight during the day, there is more incoming solar radiation and temperatures rise rapidly near the surface. At night, the absence of clouds means that outgoing longwave radiation (i.e. heat energy from the surface) is not blocked, giving cooler diurnal low temperatures in all seasons. When surface winds become light, the subsidence produced directly under a high-pressure system can lead to a buildup of particulates in urban areas under the high pressure, leading to widespread haze.Myanmar government (2007). Haze {{webarchive|url=https://web.archive.org/web/20070127214023weblink |date=2007-01-27 }}. Retrieved on 2007-02-11. If the surface level relative humidity rises towards 100 percent overnight, fog can form.Robert Tardif (2002). Fog characteristics {{webarchive|url=https://web.archive.org/web/20110520021633weblink |date=2011-05-20 }}. NCAR National Research Laboratory. Retrieved on 2007-02-11.The movement of continental arctic air masses to lower latitudes produces strong but vertically shallow high-pressure systems.CBC News (2009). Blame Yukon: Arctic air mass chills rest of North America. Canadian Broadcasting Centre. Retrieved on 2009-02-16. The surface level, sharp temperature inversion can lead to areas of persistent stratocumulus or stratus cloud, colloquially known as anticyclonic gloom. The type of weather brought about by an anticyclone depends on its origin. For example, extensions of the Azores high pressure may bring about anticyclonic gloom during the winter because they pick up moisture as they move over the warmer oceans. High pressures that build to the north and move southwards often bring clear weather because they are cooled at the base (as opposed to warmed) which helps prevent clouds from forming.Once arctic air moves over an unfrozen ocean, the air mass modifies greatly over the warmer water and takes on the character of a maritime air mass, which reduces the strength of the high-pressure system.Federal Aviation Administration (1999). North Atlantic International General Aviation Operations Manual, Chapter 2: Environment. FAA. Retrieved on 2009-02-16. When extremely cold air moves over relatively warm oceans, polar lows can develop.Rasmussen, E.A. and Turner, J. (2003). Polar Lows: Mesoscale Weather Systems in the Polar Regions, Cambridge University Press, Cambridge, p 612. However, warm and moist (or maritime tropical) air masses which move poleward from tropical sources are slower to modify than arctic air masses.Dr. Ali Tokay (2000). chapter 11: Air Masses, Fronts, Cyclones, and Anticyclones. University of Maryland, Baltimore County. Retrieved on 2009-02-16.

Mid-tropospheric systems

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Mean July subtropical ridge position in North America
The circulation around mid-level (altitude) ridges, and the air subsidence at their center, act to steer tropical cyclones around their periphery. Due to the subsidence within this type of system, a cap can develop which inhibits free convection and hence mixing of the lower with the middle level troposphere. This limits thunderstorm activity near their centers and traps low-level pollutants such as ozone as haze under their base, which is a significant problem in large urban centers during summer months such as Los Angeles, California and Mexico City.

Upper tropospheric systems

The existence of upper-level (altitude) high pressure allows upper level divergence which leads to surface convergence. If a capping mid-level ridge does not exist, this leads to free convection and the development of showers and thunderstorms if the lower atmosphere is humid. Because a positive feedback loop develops between the convective tropical cyclone and the upper level high, the two system are strengthened. This loop stops once ocean temperatures cool to below {{convert|26.5|C|F}},Chris Landsea. Subject: A15) How do tropical cyclones form? {{webarchive|url=https://web.archive.org/web/20090827030639weblink |date=2009-08-27 }} National Hurricane Center. Retrievon 2008-06-08. reducing the thunderstorm activity, which then weakens the upper level high pressure system.

Importance to global monsoon regimes

When the subtropical ridge in the Northwest Pacific is stronger than normal, it leads to a wet monsoon season for Asia.C.-P. Chang, Yongsheng Zhang, and Tim Li (1999). Interannual and Interdecadal Variations of the East Asian Summer Monsoon and Tropical Pacific SSTs, part I: Roles of the Subtropical Ridge. Journal of Climate: pp. 4310–4325. Retrieved on 2007-02-11. The subtropical ridge position is linked to how far northward monsoon moisture and thunderstorms extend into the United States. Typically, the subtropical ridge across North America migrates far enough northward to begin monsoon conditions across the Desert Southwest from July to September.Arizona State University (2009). Basics of the Arizona Monsoon & Desert Meteorology. {{webarchive|url=https://web.archive.org/web/20090531091848weblink |date=2009-05-31 }} Retrieved on 2007-02-11. When the subtropical ridge is farther north than normal towards the Four Corners, monsoon thunderstorms can spread northward into Arizona. When suppressed to the south, the atmosphere dries out across the Desert Southwest, causing a break in the monsoon regime.David K. Adams (2009). Review of Variability in the North American Monsoon {{webarchive|url=https://web.archive.org/web/20090508142842weblink |date=2009-05-08 }}. United States Geological Survey. Retrieved on 2007-02-11.

Depiction on weather maps

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A surface weather analysis for the United States on October 21, 2006
{{See also|Weather map}}On weather maps, high-pressure centers are associated with the letter H in English,Keith C. Heidorn (2005). Weather's Highs and Lows: Part 1 The High. {{webarchive|url=https://web.archive.org/web/20090930100747weblink |date=2009-09-30 }} The Weather Doctor. Retrieved on 2009-02-16. within the isobar with the highest pressure value. On constant-pressure upper-level charts, anticyclones are located within the highest height line contour.Glossary of Meteorology (2009). High {{webarchive|url=http://archive.wikiwix.com/cache/20110628073642weblink |date=2011-06-28 }}. American Meteorological Society. Retrieved on 2009-02-16.

Extraterrestrial versions

On Jupiter, there are two examples of an extraterrestrial anticyclonic storm; the Great Red Spot and the recently formed Oval BA. They are powered by smaller storms mergingJOURNAL,weblink Jovian atmospheric dynamics: an update after Galileo and Cassini, Ashwin R., Vasavada, Adam P., Showman, 24 April 2018, Reports on Progress in Physics, 68, 8, 1935, 24 April 2018, Institute of Physics, 10.1088/0034-4885/68/8/R06, 2005RPPh...68.1935V, unlike any typical anticyclonic storm that happens on Earth where water powers them. Another theory is that warmer gases rise in a column of cold air, creating a vortex as is the case of other storms that include Anne's Spot on Saturn and the Great Dark Spot on Neptune. Anticyclones have been detected near the poles of Venus.{{citation needed|date=February 2013}}

See also

References

{{Reflist|2}}

External links

  • weblink" title="web.archive.org/web/20041031030134weblink">Intertropical Convergence Zone photo - NASA Goddard Space Flight Center
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