anticyclone – Artifex.News https://artifex.news Stay Connected. Stay Informed. Mon, 05 Jan 2026 04:30:00 +0000 en-US hourly 1 https://wordpress.org/?v=7.0 https://artifex.news/wp-content/uploads/2026/05/cropped-cropped-app-logo-32x32.png anticyclone – Artifex.News https://artifex.news 32 32 What is Siberian High? – The Hindu https://artifex.news/article70425172-ece/ Mon, 05 Jan 2026 04:30:00 +0000 https://artifex.news/article70425172-ece/ Read More “What is Siberian High? – The Hindu” »

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The presence behind this name can hardly be missed.
| Photo Credit: Wikimedia Commons

SH. Siberian High. Siberian Anticyclone. The presence behind this name can hardly be missed. Winter will tell you why.

Siberian High is a wind system; an intense, robust, massive system of biting cold, dry air that controls winter weather over Eurasia. This system of high atmospheric pressure has its centre in Siberia, hence the first name. During winter, the region cools significantly and the air even faster thereby giving rise to the anticyclone. Summer may mindlessly ask, “Oh so, what’s the big deal?” Those of you, at least in the Southern part of India will have an answer ready by the end of this article.

A “High” simply means a high pressure air system!

‘Cause this is chiller, chiller night

Lately, have you felt that the air is extra chilly at night and sometimes even during the morning? Good observation! Time for some weather theory.

Though working from Siberia, Siberian High is the phenomenon that is primarily responsible for it.

As far as India is concerned, this anticyclone drives the northerly winds towards India which is crucial to the country’s winter. This is the reason why we have cool winters in North India. The Siberian High is usually blocked by the Himalayas, meaning the extreme cold attitude of this wind system is denied entry into the country. With La Niña’s aid, Siberian High has entered India by strongly overcoming the Himalayan hurdle this time. Then it moved southward.

Boreal winter

Also called Asiatic High, this wind system is dominant in controlling the boreal winter climate of continental Asia. Let’s look at its characteristics.

Siberia.

Siberia.
| Photo Credit:
Unsplash Images

1. Shallow high-pressure system

In an anticyclone, the centremost part is where the pressure is high. This means that the air moves away from the centre of the surface. When such an air pressure is shallow, it means that the influence or effect of the system is felt mostly near the surface of the Earth.

2. Low vertical extent

As it is a shallow system, the more height it has, the weaker it becomes.

3. Effect is felt in the troposphere

As it is a shallow system, the effect or influence of Siberian High is felt in the lowest layer of Earth’s atmosphere – Troposphere. This is why it is so powerful when it comes to influencing winter.

4. Extreme cold and dry wind

Locked by the Siberian region, the dynamics of Siberian High is such that the radiational cooling (cooling at night when warm air escapes and cold air sinks) makes the air dry and cold. Siberia is cold because the dry air cannot retain heat.

Dry air cannot hold heat as well as humid air for relative lack of water vapour. Water vapour is extremely good at holding heat.

5. Semi-permanent

Siberian High is a semi-permanent pressure system which means that it undergoes seasonal changes. Siberian High builds up at the end of August. During summer, the wind system just dissipates because of all the heat. Winter is its playground.

SH
is the strongest semi-permanent high in the Northern Hemisphere.

No lie

The figure at the top represents data showing the mean sea level pressure during winter seasons from 1961 to 2017. Standing out like Jupiter’s red spot, Siberian High’s presence, as stated, can hardly be missed.



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Anticyclones, hanging even now over India, link warming to heat | Explained https://artifex.news/article68117359-ece/ Mon, 29 Apr 2024 00:00:00 +0000 https://artifex.news/article68117359-ece/ Read More “Anticyclones, hanging even now over India, link warming to heat | Explained” »

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A man covers his head with cloth to protect himself during a heat wave in Bhubaneswar, April 24, 2024.
| Photo Credit: Biswaranjan Rout/The Hindu

The complexities of the ways in which global warming manifests in local weather continue to underscore the need to model globally but predict locally.

The waning phase of the strong El Niño of 2023 brings the expected warm temperatures across the globe — while cooler temperatures spread from Pakistan across India to West Bengal during March. This band remained cool throughout 2023 even as record temperatures made relentless headlines.

What do the heat waves have to do with global warming?

Global warming also creates unique features locally that modulate heat waves on top of cool background temperatures. Heat waves over India have been of special concern this season because of the general elections. Some persistent circulation patterns have been creating heat waves and this pattern should serve as another focal point for improving predictions.

It was apparent in March that the anticyclonic circulations over the North Indian Ocean were the drivers of unusual rainfall over Odisha. An anticyclone has winds moving in a clockwise direction, with air sinking down in the middle of it. As this air hits the ground, it is compressed and warmed and can create a high pressure heat dome. An anticyclonic circulation could also explain the historic Dubai floods of April 17.

And these anticyclones exist over the North Indian Ocean and the Indian subcontinent even now.

What links anticyclones to heat?

The persistence of the anticyclones is not unusual in and of itself. During the pre-monsoon season, the upper-level Indian Easterly Jet (IEJ) begins to take shape in the upper atmosphere, at around the 10 degrees N latitude, across the Arabian Sea, peninsular India, and the Bay of Bengal. A strong westerly jet exists to the north around 30 degrees N, and the two together can generate an anticyclonic pattern over the Indian Ocean and the Indian subcontinent.

An easterly jet refers to strong winds coming from the east while westerly jets come from the west. These are natural seasonal features. The westerly jet is pushed north during the monsoon season and the IEJ dominates the Indian subcontinent. During the pre-monsoon season, a strong anticyclone can bring dry and hot weather over many parts of India while a weak anticyclone produces milder weather.

The key question then is whether the anticyclone is strong this year and if that is related to global warming and, thus, the heat waves.

How are heat waves amplified?

The pre-monsoon season is India’s summer and heat waves are to be expected. The focus is always on predicting them accurately and providing early warnings to save lives. The background drivers of the duration, intensity, and frequency of heat waves are helpful to identify the hotspots of heat waves at the timescales relevant to the evolution of the weather and the climate.

The record warming of 2023 has so far not been fully explained since it was much warmer than what we expected just from the superposition of El Niño on global warming. But the impact of the El Niño during its pre-monsoon demise on the IEJ tends to produce a stronger and more persistent anticyclone and thus longer lasting and more intense heat waves.

So, the heat wave season this year is consistent with the warmer temperatures due to the El Niño itself as well as the ‘steroids’ being added by the unexplained warming of 2023.

This background state of cool seasonal temperatures but a strong and persistent anticyclone is important. It can help the India Meteorological Department ensure predictions are done with accurate background conditions and build the early warnings accordingly.

What are the stages of early warnings?

Returning to the local manifestation of global warming: accurate early-warning systems take a three-step approach called the ‘ready-set-go’ system, under the so-called ‘Subseasonal-to-Seasonal Predictions’ project of the World Climate Research Program under the World Meteorological Organisation. India is part of this project, has invested heavily in S2S predictions, and has made impressive progress in improving the accuracy of predictions.

Preparing the system and guiding the National Disaster Management Agency (NDMA) requires this three-step approach to function efficiently and effectively. Considering there are more than 1.2 million polling stations for the general elections this year, the optimal use of resources to prepare for, mitigate, and recover from extreme events requires location-specific information at each step.

The ‘ready’ step provides a seasonal outlook — where the background state, or the external factors (such as global warming and the El Niño), are used to maximise the accuracy of longer-lead forecasts. The ‘ready’ step allows the NDMA, its local agencies, and all local governments to ready their disaster response systems.

The subseasonal predictions refer to the extended range of weeks two to four, which contribute to the ‘set’ step. Resource allocations and identifying potential hotspots to move resources including personnel ensure disaster-preparedness is set to go.

The ‘go’ step is based on short- (days 1-3) and medium- (days 3-10) range forecasts. At this step, everything hits the road to manage a disaster, including rescue efforts, hydration centres, heat shelters, etc.

How’re preparedness and recovery faring?

All evidence suggests India’s prediction system and early warning systems continue to improve and the NDMA has worked these details well into its ‘ready-set-go’ system.

The remaining challenges are to build resilience for the future by better predicting the trajectory of the weather at every location over India. This is a significant challenge but budding efforts for predictions at 10-year timescales have shown promise.

The coordination from national to neighbourhood levels and early-warnings from days to a decade are taking shape. Governments, their departments, and the people at large need to be trained and engaged with to make this a sustained success. India’s dream of sustained economic development depends on this.

Raghu Murtugudde is a visiting professor at IIT Bombay and an emeritus professor at the University of Maryland.



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