On uncommon cyclones in the Arabian Sea
(Source – The Hindu, International Edition – Page No. – 10)
Topic: GS1 – Geography – Important Geophysical phenomena – Cyclones |
Context |
● The Indian Ocean’s unique features, including its connection to the Pacific and Southern Oceans, and its monsoonal circulation, influence cyclone patterns.
● Recent events like Cyclone Asna, a rare August cyclone, underscore the impact of climate change and warming sea surfaces on cyclone formation and behaviour in this region. |
Introduction to the Indian Ocean’s Cyclones
- The Indian Ocean is notable for its monsoonal circulation and dramatic seasonal wind reversals north of the equator.
- It is unique due to ‘oceanic tunnels’ connecting it to the Pacific Ocean and the Southern Ocean:
- Pacific Tunnel: Transports warm water in the upper 500 metres.
- Southern Ocean Tunnel: Brings cooler waters below approximately 1 kilometre.
Cyclogenesis and the Monsoon Impact
- Monsoonal Circulation: Influences cyclogenesis by affecting heat content and atmospheric convection, leading to cyclones primarily during the pre-monsoon and post-monsoon seasons.
- Seasonal Patterns:
- Pre-Monsoon: Arabian Sea warms rapidly while the Bay of Bengal becomes warmer, producing atmospheric convection and rainfall.
- Post-Monsoon: The northeast monsoon brings significant rain to several states.
Reasons for Traditional Less Frequency of Cyclones in Indian Ocean
- Cooler Waters: The Arabian Sea and Bay of Bengal generally have cooler temperatures compared to other cyclone-prone regions.
- Wind Shear: Strong vertical wind shear in the Indian Ocean disrupts cyclone formation by stripping away energy from developing systems.
- Less Convective Activity: The Arabian Sea has relatively lower convective activity, reducing cyclonic formation.
- Monsoonal Influence: During the monsoon, intense wind patterns and evaporation affect cyclone development, particularly in the Arabian Sea.
Reasons for Increasing Frequency of Cyclones
- Warming Oceans: Rising sea surface temperatures due to global warming enhance cyclogenesis by increasing heat content available for cyclones.
- Climate Change Impacts: Increased heat from the Pacific and Southern Oceans boosts temperatures in the Indian Ocean, contributing to more frequent cyclones.
- Atmospheric Changes: Changes in wind patterns, humidity, and the weakening of monsoonal winds alter cyclone dynamics.
- Extended Cyclone Seasons: Modified climate conditions extend the duration of favourable cyclone formation periods.
- Enhanced Moisture Supply: Greater evaporation rates due to warmer waters increase moisture availability, fueling cyclone formation.
Cyclone Asna: A Case Study
- Occurrence: Cyclone Asna formed in August 2023, marking the first August cyclone in the north Indian Ocean since 1981.
- Formation: Originated from a strong land-born depression that transitioned to the warm Arabian Sea.
- Characteristics: Unusual for its powerful growth over land, using soil moisture and energy from the Arabian Sea.
- Impact: Caused nearly 50 deaths and significant damage to crops and property before dissipating due to dry desert air.
- Climate Context: The cyclone’s development was influenced by global warming, El Niño, and possibly underwater volcanic activity.
Conclusion
- The evolution of Cyclone Asna exemplifies the unpredictable nature of cyclonic activity influenced by climatic changes and unusual oceanic conditions.
- The 2023-2024 climate anomalies have led to a series of extreme weather events, reflecting the complex interplay between warming oceans and global climate patterns.
PYQ: Discuss the meaning of colour-coded weather warnings for cyclone prone areas given by India Meteorological Department. (150 words/10m) (UPSC CSE (M) GS-1 2022) |
Practice Question: Analyse the factors contributing to the recent increase in cyclone activity in the Arabian Sea. Discuss the impact of climate change and regional oceanic conditions on this trend. What are the potential implications for coastal regions in India. (250 Words /15 marks) |