The Fujiwhara effect: When cyclones dance
Aug. 26, 2023

Why in news?

  • Earlier this year, California witnessed an unusually wet winter, with at least twelve atmospheric river storms battering the state.
    • Atmospheric rivers are vast airborne currents carrying dense moisture and hanging low in the atmosphere.
  • In one of these storms, two small areas of low pressure were drawn together in a ‘dance’, commonly known as Fujiwhara effect.

What’s in today’s article?

  • Fujiwhara effect

What is the Fujiwhara effect?

  • It is a phenomenon that occurs when two nearby cyclonic storms, such as hurricanes, typhoons, or tropical cyclones, come close enough to each other to interact.
  • As per the National Weather Service (NWS), when two hurricanes (or cyclones), spinning in the same direction, are brought close together, they begin an intense dance around their common centre.
  • This interaction between two cyclones is called the Fujiwhara effect.
  • The interaction could lead to changes in the track and intensity of either or both storms systems.
  • In rare cases, the two systems could merge, especially when they are of similar size and intensity, to form a bigger storm.

Five different ways in which Fujiwhara Effect can take place

  • Elastic Interaction (EI)
    • In these interactions, only the direction of motion of the storms changes and is the most common case.
    • These are also the cases that are difficult to assess and need closer examination.
  • Partial Straining-Out (PSO)
    • In this, a part of the smaller storm is lost to the atmosphere.
  • Complete Straining-Out (CSO)
    • It takes place in which the smaller storm is completely lost to the atmosphere.
    • The straining out does not happen for storms of equal strengths.
  • Partial Merger
    • In this, the smaller storm merges into the bigger one.
  • Complete Merger
    • It takes places between two storms of similar or different strength.

Associated damages

  • The influx of additional heat, moisture, and positive vorticity during the Fujiwhara effect intensify the primary circulation of a system.
  • The occurrence of the Fujiwhara effect also makes cyclonic systems harder to predict, as every interaction between two storm systems is unique and difficult to assess within the present climate models.

How is this related to today’s climate?

  • Experts have noted the rising frequency of this unusual effect, attributing it to a rapidly warming world and the subsequent heating of ocean waters.
  • A warming climate is giving rise to stronger cyclones, and thus, increasing the possibility of the Fujiwhara effect.