More About Location and Patterns of Tropical Cyclones
It has been observed that more than 90 tropical cyclones occur annually and an average life cycle of a cyclone is nine days. The top four countries with a maximum number of tropical cyclones are China, the Philippines, Japan and Mexico. These cyclones cause a lot of destruction every year in the coastal states. In this article, we will talk about tropical cyclones. We will learn what are tropical cyclones, their various features and especially tropical cyclone locations and its pattern. This topic is essential whenever you are studying Geography, especially oceanography and Disaster Management because it is very important to study this disaster so that proper management can be done by the coastal regions.
Introduction
The word cyclone is derived from the Greek word which means coil of the snake. Because of such appearance in the Bay of Bengal as well as in an Arabian sea, this term i.e. cyclone was coined by Henry Peddington. Cyclones are the phenomenon that occurs in a low-pressure area where the rapid inward circulation of the air is seen and this air circulated in the anti-clockwise direction and the clockwise direction in the Northern Hemisphere and Southern Hemisphere respectively. These are also accompanied by storms as well as bad weather conditions. These are generally divided into two categories ie. Tropical cyclone and Temperate cyclone which is also known as Extra-Tropical Cyclone. The former occurs in between the tropics whereas the latter occurs in the temperate areas.
Tropical Cyclone
The cyclones that occur in the regions of Tropic of Cancer, as well as Tropic of Capricorn, are termed Tropical Cyclones which is a warm-season phenomenon and usually ranges up to 30° from the equator. These are also accompanied by the storms over the oceans which affects the coastal regions to a large extent and cause a lot of destruction as well with heavy rainfall, strong winds and storms etc. These are one of the most destructive natural disasters that occur in the warm ocean waters of tropical regions.
Features
Some of the Most Important Characteristics of Tropical Cyclones are Given below:
It requires few conditions which help in the formation of these cyclones such as large sea surface, the temperature of more than 27°C, Coriolis force, variations in the wind speed, low-pressure area, etc. All these conditions lead to the formation of tropical cyclones.
It occurs in the tropical regions mostly 5° to 30° from the equator and it moves towards the poles where it starts weakening and then dies.
A typical tropical cyclone can move up to 300 - 400 miles per day whereas around 3,000 miles before it actually dies.
In terms of tropical cyclones, the Pacific Ocean ranks first whereas the Indian Ocean ranks second and the Atlantic Ocean ranks third. It does not occur in the other two oceans which are the Arctic and Southern ocean.
In the Southern Pacific ocean, where the phenomenon of LA Nina we came to see sometimes also lead to the occurrence of tropical cyclones which depends upon the various geographical locations and time.
These are considered as the most disastrous cyclones which run with an average speed of 120 kmph but sometimes it varies as well and can reach up to 200 kmph or sometimes even more. These cyclones with so much speed cause a lot of destruction in the coastal areas.
These cyclones only occur at a specific period of the year and during some seasons which are generally warm and under the trade winds influence, they generally move in the direction of East to West.
If we talk about the structure of the tropical cyclones, they have a sharp pressure gradient as they have closed isobars and these lead to a greater velocity of storms and in the centre, they have a low-pressure area that attracts winds from the surrounding areas.
Tropical cyclone locations generally include all the major oceans except the Southern and Arctic ocean. It affects the coastal regions of the Pacific or Mexico, South East Asia, North-East Australia as well as islands present in the South Pacific and other regions etc.
They are given different names every year according to the list prepared by the international body i.e World Meteorological Organisation and any name can only be repeated after six years.
Location and Patterns of Tropical Cyclones
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Various characteristics determine the occurrence of tropical cyclones in the region which we have talked about above. The geographical conditions lead to the occurrence of the cyclones. As we can see on the map, the Tropical cyclone locations are near to the tropics. The most important regions where tropical cyclones usually occur along with the less prominent regions are given below in the table as well as the various names of the tropical cyclones as according to the different regions are also represented in the table:
Regional Names
The oceans in the Tropical regions leads to having 80 tropical storms annually among which generally ⅔ are considered as severe. If we talk about the ranges where they occur, usually around 90% occurs up to 20°N and 20°S from the equator. The maximum number of cyclones can be seen in the Pacific Ocean and after this in the Indian Ocean and then in the Atlantic Ocean can be seen.
These tropical cyclones are the phenomenon that is related to the warm season and the highest frequency is after the time when the earth receives maximum insolation i.e on June 21 in the Northern Hemisphere and December 22 in the case of the Southern Hemisphere. The water reaches its maximum temperature after a few weeks and thus most of the tropical cyclones occur during the time of late summers or early autumn seasons. In the Northern hemisphere, these occur from July to September whereas, in the Southern Hemisphere, these cyclones occur during the period of January to March.
Favourable conditions of the wind systems also play an important role in the formation of the cyclones. That's why it is said that lower latitudes are more favourable for the occurrence of tropical cyclones due to the atmospheric circulation in the region. For example, in the Atlantic Ocean and North East Pacific ocean, cyclones occur with easterly waves which intensify as well as contract the horizontal phenomenon that leads to or formation of cyclones. If we talk about the Western Pacific Ocean, here you can see TUTTs which means Tropical Upper Tropospheric Troughs that helps in the formation of these cyclones. Besides, these sometimes external geographical factors also lead to the development of cyclones such as modification of the easterlies by the mountains present in Central America or Mexico towards the Caribbean and East Pacific.
In both the Hemispheres, cyclones used to move in western motion and towards the poles. Trade winds play a vital role in the movement of tropical cyclones in western motion whereas if we talk about the movement towards the poles, two factors are considered as responsible which are subtropical highs and Coriolis force. These two factors play a vital role in the deflection of the cyclones towards the poles. When the motion is about to change towards the eastern side, it is known as recurve whereas the cyclones move much far in the Northern Hemisphere than the southern hemisphere because of the presence of warm currents in the upper hemisphere. After some time they weaken as they move towards the poles.
Conclusion
Therefore, to sum up we can say that tropical cyclones are the phenomenon that occurs in the presence of certain conditions such as the temperature of more than 27°C and having low pressure and various other conditions that lead to its occurrence. They are generally found in the tropical and subtropical regions on the ocean surface but do affect the continents as well. Only two oceans are there where these cyclones do not occur but at other places, sometimes these cyclones lead to violent storms and activities which can be disastrous as well. For these violent natural calamities, proper disaster management is required by the coastal regions present in the tropical cyclones range.
FAQs on Location and Patterns of Tropical Cyclones
1. What is a tropical cyclone and why is it called 'tropical'?
A tropical cyclone is an intense, rotating storm system with a low-pressure centre, strong winds, and a spiral arrangement of thunderstorms that produce heavy rain. It is called 'tropical' because it originates almost exclusively over warm tropical oceans. The term 'cyclone' refers to its cyclonic circulation, which is counter-clockwise in the Northern Hemisphere and clockwise in the Southern Hemisphere.
2. What are the essential conditions for the formation of a tropical cyclone?
The formation of a tropical cyclone, or cyclogenesis, requires a specific set of atmospheric and oceanic conditions. The key requirements are:
Warm Sea Surface Temperature: A large ocean surface with a temperature higher than 27° C is needed to a depth of at least 50 metres.
Coriolis Force: A significant Coriolis force is necessary to initiate the cyclonic rotation. This is why these cyclones do not form between 5°N and 5°S of the equator, where this force is negligible.
Atmospheric Instability: Pre-existing weak low-pressure areas or low-level cyclonic circulations are crucial.
Low Vertical Wind Shear: Minimal changes in wind speed and direction with height are required to allow the storm's vertical structure to remain intact.
High Humidity: Ample moisture through a significant depth of the troposphere fuels the storm through the release of latent heat of condensation.
3. In which global regions are tropical cyclones most commonly located?
Tropical cyclones form in specific belts over warm oceans, generally between the latitudes of 5° and 30° North and South of the equator. The major cyclone-prone regions are:
Northwest Pacific Ocean: Affecting regions like the Philippines, China, and Japan (where they are called Typhoons).
North Atlantic Ocean & Northeast Pacific: Affecting the Caribbean, Gulf of Mexico, and the U.S. East Coast (Hurricanes).
North Indian Ocean: Affecting India, Bangladesh, and Myanmar (Cyclones).
Southwest Indian Ocean: Affecting Madagascar and southeastern Africa.
Southwest Pacific & Southeast Indian Ocean: Affecting Australia and Oceania.
4. What is the typical structure and pattern of a mature tropical cyclone?
A mature tropical cyclone has a very distinct and organised structure. Its pattern is characterised by three main parts:
The Eye: A region of calm weather and light winds at the centre of the storm, typically 30-65 km in diameter. Air sinks in the eye, preventing cloud formation.
The Eyewall: The ring of towering thunderstorms immediately surrounding the eye. This is where the most violent winds and heaviest rainfall are located. The updrafts are strongest here.
Spiral Rainbands: Bands of thunderstorms that spiral outwards from the eyewall. These bands contain heavy rain and strong, gusty winds, separated by areas of weaker precipitation.
The entire system rotates around the central eye, moving as a single unit across the ocean.
5. Why do tropical cyclones weaken and dissipate when they move over land?
Tropical cyclones weaken rapidly upon making landfall for two primary reasons. Firstly, they are cut off from their main energy source: the warm, moist air from the tropical oceans. The process of evaporation from the sea surface and subsequent condensation (releasing latent heat) is what fuels the storm. Secondly, the increased friction over the land surface disrupts the organised airflow at the cyclone's base, weakening the circulation and causing the low-pressure centre to fill.
6. What is the significance of the 'eye' in a tropical cyclone, and why is the weather calm there?
The eye is a crucial feature that indicates a well-developed and powerful tropical cyclone. Its significance lies in its role as the axis of rotation for the storm. The calm weather within the eye is a direct result of the storm's dynamics. As air spirals inward towards the centre at high speeds in the eyewall, powerful forces cause some of this air to turn upwards, while a small amount is forced to sink in the very centre. This sinking air, a process called subsidence, warms and dries out, suppressing cloud formation and leading to the clear skies and light winds that characterise the eye.
7. How do the rotational patterns of tropical cyclones differ between the Northern and Southern Hemispheres?
The direction of rotation in a tropical cyclone is determined by the Coriolis effect, which is the deflection of moving objects due to the Earth's rotation. This effect causes a difference in rotational patterns between the two hemispheres:
In the Northern Hemisphere, the Coriolis force deflects the wind to the right, causing the cyclone to spin in a counter-clockwise direction.
In the Southern Hemisphere, the Coriolis force deflects the wind to the left, resulting in a clockwise rotation.
This fundamental difference is a direct consequence of the Earth's rotation and is consistent for all large-scale storm systems.
8. What is the pattern of tropical cyclones affecting the Indian subcontinent?
Tropical cyclones affecting the Indian subcontinent originate in the North Indian Ocean, specifically the Bay of Bengal and the Arabian Sea. The pattern has distinct characteristics:
Frequency: The Bay of Bengal is more active, generating about four times as many cyclones as the Arabian Sea.
Seasons: There are two main cyclone seasons in India: pre-monsoon (April-May) and post-monsoon (October-December). The post-monsoon season is typically more intense.
Pathways: Cyclones from the Bay of Bengal generally move northwest, affecting the eastern coast (states like Odisha, Andhra Pradesh, West Bengal, and Tamil Nadu). Cyclones from the Arabian Sea tend to move towards the Gujarat and Maharashtra coasts or occasionally towards the Arabian Peninsula.
