The Intertropical Convergence Zone (ITCZ)

The Intertropical Convergence Zone (ITCZ) is one of Trinidad and Tobago’s main rainfall producers and is one of the triggers of the annual wet season in the region. This feature can bring days of prolonged rainfall and has historically contributed to a number of significant flood events.

What is the ITCZ?

VIIRS/MODIS Satellite Imagery showing the Intertropical Convergence Zone across the Southern Caribbean, Atlantic, and West Africa. The diagram also illustrates the northeasterly and southeasterly trade winds that form the ITCZ. Image: Trinidad and Tobago Weather Center.

The ITCZ is an area where the northeast trade winds from the Northern Hemisphere and southeast trade winds from the Southern Hemisphere meet and converge. These trade winds originate from sub-tropical highs, and in the Atlantic, these high-pressure systems are called the North Atlantic and South Atlantic subtropical high-pressure systems, respectively.

These subtropical high-pressure systems are areas of slowly sinking air near 30°N and 30°S.

This means that the ITCZ is part of the global wind circulation, which is dictated by the difference in heating from the sun globally. This heat from the sun is also important to allow the air to rise, as it heats moist air across the oceans, the triggering mechanism for convergence to begin.

Diagram of the North and South Atlantic Subtropical Highs, which produce the northeasterly and southeasterly trade winds, which allow for the formation of the ITCZ. Diagram: Trinidad and Tobago Weather Center.

It is a belt of low pressure (convergence) that circles the earth near the equator and appears as a band of clouds of showers and thunderstorms.

The Intertropical Convergence Zone is an elongated area of convergence that can be broken into bands of showers, thunderstorms, and overall cloudiness. Diagram: Trinidad and Tobago Weather Center.

The ITCZ is sometimes called the monsoon trough in Australia, parts of Asia, and parts of Africa. When it lies new the geographic Equator (at 0°N), it can sometimes be called the near-equatorial trough, as it is an area of low pressure.

How does the ITCZ move?

Average positions of the Intertropical Convergence Zones throughout the year. Image: BBC Bitesize
Position of the intertropical convergence zone in January (in blue) and in July (in red). Image: Wikipedia

During the dry season (Northern Hemisphere winter) in Trinidad and Tobago, which is generally January through May, the ITCZ remains south of the islands. This is due to more intense heat occurring in the Southern Hemisphere. In fact, only until March the ITCZ crosses the Equator and begins moving northward.

During the wet season (Northern Hemisphere summer) in Trinidad and Tobago, which generally occurs from May through December, the ITCZ periodically moves as far north as 15°N due to the Northern Hemisphere receiving more intense heat.

On a large scale, this low-pressure belt migrates with the changing position of the thermal Equator, which is the area on Earth that receives the most intense heat from the Sun. (The actual definition is the zone of highest mean temperature over the Earth, either in the annual or long-term average or at a given moment.)

Around 20th June each year, the Sun is overhead at 23 ½º North, the Tropic of Cancer. Around 20th December, the Sun is overhead at 23 ½º South, the Tropic of Capricorn.

The movement of the thermal equator shifts the belts of planetary winds and pressure systems to the north and the south annually, as the diagram below shows.

The movement of the Thermal Equator, which determines the movement of the Intertropical Convergence Zone throughout the year. Image: BBC Bitesize
The movement of the Thermal Equator, which determines the movement of the Intertropical Convergence Zone throughout the year. Image: BBC Bitesize

On a smaller scale, the ITCZ’s movement is dictated by the movement of high-pressure (pushing the ITCZ to the south) and low-pressure systems (pulling the ITCZ to the north). In the North Atlantic Ocean, these low pressures can be low-level troughs, tropical waves, and even tropical cyclones – tropical depressions, tropical storms, and hurricanes.

During the Hurricane Season, the ITCZ can lose its general band across the Atlantic due to interactions with tropical cyclones.

VIIRS/MODIS Satellite Imagery showing the Intertropical Convergence Zone across the Southern Caribbean, Atlantic, and West Africa illustrating the effect of high-pressure ridges and a tropical wave (low pressure) on the ITCZ. Image: Trinidad and Tobago Weather Center

How does the ITCZ affect T&T?

Thunderstorm activity associated with the ITCZ and the 35th Tropical Wave of 2019 produced gusty winds, which ripped off the roof of a home in Barrackpore, Southern Trinidad, on the 15th August 2019. Image: Trinidad Express.

The Intertropical Convergence Zone begins to affect T&T beginning in May (the first instance would trigger the start of the wet season) and periodically affect the region through the end of November. This feature is one of T&T’s main rainfall producers.

This band of low pressure brings increased moisture which fuels overall cloudiness, showers, periods of rain, and thunderstorms. Since the ITCZ brings prolonged rainfall, ITCZ events tend to bring multi-day rainfall events that trigger street, flash, and at times, riverine flooding. Landslides are also possible due to saturated soils. Frequent lightning and gusty winds are also a consequence of the ITCZ-thunderstorm activity.

With light and variable winds, conditions become favorable for funnel clouds, waterspouts, and even tornadoes, albeit rare.

Active vs Inactive ITCZ

Activity associated with 61st Tropical Wave of 2019 along 42W nearing the Lesser Antilles, embedded within the ITCZ in November 2019. Active and inactive areas of the ITCZ are visible on the above infrared satellite imagery. Credit: Weathernerds

The ITCZ can be active or inactive during any point of the wet season at any time of day.

An active ITCZ typically would coincide with lower pressures, favorable low-level convergence and upper-level divergence, low wind shear, and abundant atmospheric moisture.

An inactive ITCZ (or a gap within the ITCZ) is typically due to significant high-pressure ridging. This ridging forces the ITCZ southward but also inhibits shower and cloud formation. Unfavorable upper-level conditions (divergence), the presence of dense Saharan Dust, or a lack of atmospheric moisture, and increased wind shear can also cause these gaps.

Tropical waves usually move along the ITCZ. This interaction can also cause a suppressed ITCZ ahead of the tropical wave but a more active ITCZ following the wave axis.

However, the ITCZ can rapidly transition between active and inactive, making it difficult to forecast. What is known is that the active phase favors the overnight through early morning periods. This means we can wake up to a very ominous satellite image showing thunderstorms east of Trinidad and Tobago during the early morning, only to dissipate by the late morning. Generally, overnight thunderstorm events in T&T are due to the ITCZ.

Based on research, the ITCZ in the Tropical Atlantic has its strongest activity occurring between 12:00 AM and 6:00 AM local time, with another peak during the Northern Hemisphere summer months between 12:00 PM to 3:00 PM. Minimum activity occurs between 5:00 PM to 8:00 PM. All times given are in local times.

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