Ridge (meteorology) explained

In meteorology a ridge or barometric ridge is an elongated area of relatively high atmospheric pressure compared to the surrounding environment, without being a closed circulation.[1] It is associated with an area of maximum anticyclonic curvature of wind flow. The ridge originates in the center of an anticyclone and sandwiched between two low-pressure areas, and the locus of the maximum curvature is called the ridge line. This phenomenon is the opposite of a trough.

Description

Ridges can be represented in two ways:

Related weather

Given the direction of the winds around an anticyclonic circulation and the fact that weather systems move from west to east:[2]

Surface ridges, just like highs, generate fair weather because they develop under wind convergence in the negative vorticity advection zone ahead of the upper-level ridge.[2] The vertical downward air motion then gives a divergence of the winds near the surface. The subsidence of the air causes a warming in the column compared to the previous environment and therefore a drying of it because its relative humidity decreases, which has the effect of clearing the sky.[2]

Subtropical ridge

An important atmospheric ridge is the subtropical ridge. It is a series of ridges near the horse latitude characterized by mostly calm winds, which act to reduce air quality under its axis by causing fog overnight, and haze during daylight hours as a result of the stable atmosphere found near its location.[3] [4] The air descending from the upper troposphere flows out from its center at surface level toward the upper and lower latitudes of each hemisphere, creating both the trade winds and the westerlies. It helps steer tropical cyclones and the monsoon.[5]

Ridge blocking

Blocks in meteorology are large-scale patterns in the atmospheric pressure field that are nearly stationary, effectively "blocking" or redirecting migratory cyclones. These blocks can remain in place for several days or even weeks, causing the areas affected by them to have the same kind of weather for an extended period of time (e.g. precipitation for some areas, clear skies for others).[6] Upper ridges are often associated with such blocks, particularly in Omega blocks.[6]

Notes and References

  1. Web site: Ridge . AMS Glossary . American Meteorological Society . American Meteorological Society . August 2, 2019.
  2. Web site: fr. Dorsale. Glossaire. Météo-France. Météo-France. August 2, 2019 . https://web.archive.org/web/20211010103050/http://www.meteofrance.fr/publications/glossaire/150389-dorsale . 2021-10-10 . dead.
  3. Robert Tardif (2002). Fog characteristics. University Corporation for Atmospheric Research. Retrieved on 2007-02-11.
  4. Myanmar government (2007). Haze. Retrieved on 2007-02-11.
  5. 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.
  6. Web site: The Omega Block . theweatherprediction.com . 27 July 2019.