Cyclone

About

A cyclone is a large-scale air mass that rotates around a strong center of low atmospheric pressure. Cyclones are characterized by inward spiraling winds that rotate counterclockwise in the Northern Hemisphere and clockwise in the Southern Hemisphere. They are known for causing severe weather conditions, including heavy rain, strong winds, and storms.

Types of Cyclones

  1. Tropical Cyclones:
    • Form over warm ocean waters.
    • Include hurricanes (in the North Atlantic and Northeast Pacific), typhoons (in the Northwest Pacific), and cyclones (in the South Pacific and Indian Ocean).
    • Feature a well-defined eye, eyewall, and rainbands.
  2. Extratropical Cyclones:
    • Occur in the middle latitudes.
    • Associated with weather fronts and can bring widespread precipitation and wind.
    • Often less intense than tropical cyclones but can still cause significant weather events.
  3. Mesocyclones:
    • Smaller in scale.
    • Form within severe thunderstorms.
    • Can lead to the development of tornadoes.

Formation and Development

  1. Tropical Cyclones:
    • Require warm sea surface temperatures (at least 26.5°C).
    • Form in regions with low vertical wind shear.
    • Develop from a pre-existing disturbance such as a tropical wave.
    • Go through stages: tropical depression, tropical storm, and then a hurricane/typhoon/cyclone as wind speeds increase.
  2. Extratropical Cyclones:
    • Develop along weather fronts.
    • Form due to the temperature difference between air masses.
    • Can intensify through baroclinic processes, where temperature differences enhance the cyclonic circulation.

Impact and Preparedness

  • Impacts:
    • Can cause significant damage through wind, storm surge, heavy rain, and flooding.
    • Affect coastal and inland areas differently, with coastal regions facing storm surge and inland areas dealing with flooding.
  • Preparedness:
    • Monitoring weather forecasts and heeding warnings.
    • Having an emergency plan and kit.
    • Evacuating if advised by authorities.
    • Securing property and staying informed about the storm’s path and potential impact.

Understanding the nature of cyclones and taking appropriate measures can significantly mitigate their impact and enhance safety during such events.

Process of Cyclone formation

The formation of cyclones, particularly tropical cyclones, involves a series of complex atmospheric processes. Here’s an overview of the stages and conditions necessary for the development of a tropical cyclone:

  1. Formation of a Disturbance
  • Pre-existing Disturbance: Cyclones often start from a pre-existing weather disturbance, such as a tropical wave or a low-pressure area.
  • Convergence of Winds: The disturbance causes the convergence of warm, moist air at the surface, which rises and leads to cloud formation.
  1. Warm Sea Surface Temperatures
  • Temperature Requirement: Sea surface temperatures need to be at least 26.5°C (80°F) to provide the heat and moisture that drive the cyclone.
  • Heat Energy: Warm ocean water heats the air above it, causing it to rise and create low pressure at the surface.
  1. Development of a Low-Pressure Area
  • Pressure Drop: As warm air rises, it cools and condenses, releasing latent heat. This process causes further reduction in surface pressure.
  • Convection: Continuous rising of warm air enhances convection, leading to the development of thunderstorm activity around the low-pressure center.
  1. Organization of the Cyclone
  • Rotation Initiation: The Coriolis effect, due to Earth's rotation, causes the rising air to begin rotating. This effect is essential for cyclone formation and is more pronounced further from the equator.
  • Formation of a Cyclonic Rotation: The system begins to organize, with winds rotating around a central low-pressure area.
  1. Maturation into a Tropical Depression
  • Defined Circulation: When the system achieves a well-defined circulation and winds reach speeds of 20-34 knots (23-39 mph), it is classified as a tropical depression.
  • Further Development: If conditions remain favorable, the cyclone will continue to strengthen.
  1. Intensification to a Tropical Storm
  • Increased Wind Speeds: As wind speeds reach 35-63 knots (39-73 mph), the system is classified as a tropical storm.
  • Naming: At this stage, the storm is given a name.
  1. Formation of a Hurricane/Cyclone/Typhoon
  • Eye Formation: When wind speeds exceed 64 knots (74 mph), the storm is classified as a hurricane (Atlantic/Northeast Pacific), typhoon (Northwest Pacific), or cyclone (South Pacific/Indian Ocean).
  • Eyewall: The storm develops a distinct eye and eyewall, where the most intense winds and weather are found.
  • Symmetry and Strength: The cyclone becomes more symmetrical and well-organized, with a clear, calm eye at the center.

Conditions Favoring Cyclone Development

  • Low Vertical Wind Shear: High wind shear can disrupt the organization of the cyclone. Low wind shear allows the storm to maintain its structure.
  • Moist Mid-Troposphere: Sufficient moisture in the mid-levels of the atmosphere (about 5,000 to 20,000 feet) is crucial for sustaining the storm.
  • Distance from the Equator: Cyclones need to form at least 5° latitude away from the equator to experience the Coriolis effect, which helps initiate rotation.

Dissipation of Cyclones

  • Land Interaction: Moving over land can weaken a cyclone due to friction and loss of the moisture source.
  • Cooler Waters: Entering areas with cooler sea surface temperatures can reduce the energy available to the cyclone.
  • Increased Wind Shear: High vertical wind shear can tear apart the storm’s structure.

Understanding these processes and conditions is crucial for predicting cyclone formation and intensity, aiding in preparation and response efforts.






Posted by on 27th May 2024