WMO Update: 70% chance of El Niño by end of 2018

10 September 2018

 There is a 70% chance of an El Niño developing by the end of this year, according to the latest update from the World Meteorological Organization (WMO). Its intensity is currently uncertain, but a strong event appears unlikely.

Trend continues of warmer than normal conditions, accompanied by extreme weather

Geneva, 10 September 2018 - There is a 70% chance of an El Niño developing by the end of this year, according to the latest update from the World Meteorological Organization (WMO). Its intensity is currently uncertain, but a strong event appears unlikely.

The El Niño/Southern Oscillation (ENSO) is a naturally occurring phenomenon involving fluctuating ocean surface temperatures in the equatorial Pacific, coupled with changes in the overlying atmospheric circulation. It has a major influence on weather patterns over many parts of the world.

Scientific progress on the understanding and modelling of ENSO, underpinned by major observational programmes, has improved monitoring and prediction capabilities, helping society to prepare for the associated hazards such as heavy rains, floods and drought. ENSO also affects global temperature.

 “Climate change is influencing the traditional dynamics of El Niño and La Niña events as well as their impacts. 2018 started out with a weak La Niña event but its cooling effect was not enough to reduce the overall warming trend which means that this year is on track to be one of the warmest on record,” said WMO Secretary-General Petteri Taalas.

“Despite the recent “ENSO-neutral” conditions, the globe broadly continued the trend of warmer than normal conditions for May to July, accompanied by extreme weather ranging from record heat in northern Europe and devastating flooding in Japan, India and southeast Asia. Many of these events are consistent with what we expect under climate change,” said Mr  Taalas.

“WMO does not expect the anticipated El Niño to be as powerful as the 2015-2016 event, but it will still have considerable impacts. The advance prediction of this event will help save many lives and considerable economic losses,” said Mr Taalas.

WMO’s Update is based on forecast models and expert interpretation from around the world. It provides authoritative information to disaster, health and water managers and to climate-sensitive sectors such as agriculture, fisheries and energy. It is used by decision-makers and planners within governments and within the United Nations system.

Global seasonal climate outlook

For the first time, WMO accompanied the El Niño Update with a global seasonal climate outlook for the September-November season, based on an ensemble of global prediction models run by WMO-accredited centres around the world.

Possibly due to the weak strength of the expected El Niño conditions during the season, the precipitation patterns predicted resemble those normally associated with El Niño in some, but not all, of the ENSO-sensitive regions.

A tilt of the odds towards above-normal surface temperature is forecast in nearly all of the Asia-Pacific region, Europe, North America, Africa and much of coastal South America. Many – but not all - of these regions also saw above-normal temperatures during May-July 2018.  Much of North America, Europe, North Africa, East Asia and the Middle East saw temperatures 1-3 ° C above normal.

Exceptions to the expected above-normal temperatures include much of interior South America, Greenland, many of the south Pacific islands and part of the Caribbean.

Below-normal precipitation is expected in Central America and the Caribbean, parts of southern Asia, eastern Asia and the Pacific.

Above-normal precipitation is favoured in part of southern North America, southeast equatorial Africa, the Gulf of Guinea region in Africa, extreme southeastern Europe/southwest Asia and small portions of interior South America.

The September-November forecast indicate a probable continuation of the observed dry anomalies in East Asia and the Pacific, Central America and the Caribbean. Elsewhere, the forecasts generally do not show a continuation of the precipitation anomalies observed in May-July.

These global forecasts provide predictions of large-scale patterns, which need to be further calibrated and optimized to derive regional and national scale forecasts.  WMO Regional Climate Centres, Regional Climate Outlook Forums (RCOFs) and National Meteorological and Hydrological Services carry out these tasks to provide more detailed outlooks.

National Meteorological and Hydrological Services will continue to closely monitor changes in the state of ENSO over the coming months.

surface air temperature


Notes to Editors

El Niño is often associated with warm and dry conditions in southern and eastern inland areas of Australia, as well as Indonesia, the Philippines, Malaysia and central Pacific islands such as Fiji, Tonga and Papua New Guinea.

In northern hemisphere winter, drier than normal conditions are typically observed over south-eastern Africa and northern Brazil. Wetter than normal conditions are typically observed along the Gulf Coast of the United States, the west coast of tropical South America (Colombia, Ecuador and Peru) and from southern Brazil to central Argentina. Parts of eastern Africa also usually receive above-normal rainfall.

El Niño is associated with milder winters in north-western Canada and Alaska due to fewer cold air surges from the Arctic – a result of a large-scale region of lower pressure centred on the Gulf of Alaska/ North Pacific Ocean.

It is important to stress that these are typical effects – not specific forecasts – and that actual conditions vary according to the strength and timing of the El Niño event. Other factors (such as the Indian Ocean Dipole or the North Atlantic Oscillation/Arctic Oscillation) can also have an important influence on seasonal climate.

Global-scale seasonal forecasts, including those of precipitation and surface temperature, are routinely produced by WMO accredited centres using sophisticated atmosphere-ocean coupled models, which take into account ENSO as well as other climate drivers.  There are now 13 WMO Global Producing Centres of Long Range Forecasts, whose products are consolidated by a Lead Centre of Long Range Forecast Multi Model Ensemble (https://www.wmolc.org/).

Web links of the National Meteorological Hydrological Services

Information and web links to WMO Regional Climate Centres

Archive of all WMO El Niño/La Niña Updates issued so far, including this one

Multi-model ensemble long-range predictions of global precipitation and surface temperature patterns, based on WMO Global Producing Centres of Long Range Forecasts, are available here for the season September through November 2018

Notes to Editors

Trend continues of warmer than normal conditions, accompanied by extreme weather

Geneva, 10 September 2018 - There is a 70% chance of an El Niño developing by the end of this year, according to the latest update from the World Meteorological Organization (WMO). Its intensity is currently uncertain, but a strong event appears unlikely.

The El Niño/Southern Oscillation (ENSO) is a naturally occurring phenomenon involving fluctuating ocean surface temperatures in the equatorial Pacific, coupled with changes in the overlying atmospheric circulation. It has a major influence on weather patterns over many parts of the world.

Scientific progress on the understanding and modelling of ENSO, underpinned by major observational programmes, has improved monitoring and prediction capabilities, helping society to prepare for the associated hazards such as heavy rains, floods and drought. ENSO also affects global temperature.

 “Climate change is influencing the traditional dynamics of El Niño and La Niña events as well as their impacts. 2018 started out with a weak La Niña event but its cooling effect was not enough to reduce the overall warming trend which means that this year is on track to be one of the warmest on record,” said WMO Secretary-General Petteri Taalas.

“Despite the recent “ENSO-neutral” conditions, the globe broadly continued the trend of warmer than normal conditions for May to July, accompanied by extreme weather ranging from record heat in northern Europe and devastating flooding in Japan, India and southeast Asia. Many of these events are consistent with what we expect under climate change,” said Mr  Taalas.

“WMO does not expect the anticipated El Niño to be as powerful as the 2015-2016 event, but it will still have considerable impacts. The advance prediction of this event will help save many lives and considerable economic losses,” said Mr Taalas.

WMO’s Update is based on forecast models and expert interpretation from around the world. It provides authoritative information to disaster, health and water managers and to climate-sensitive sectors such as agriculture, fisheries and energy. It is used by decision-makers and planners within governments and within the United Nations system.

Global seasonal climate outlook

For the first time, WMO accompanied the El Niño Update with a global seasonal climate outlook for the September-November season, based on an ensemble of global prediction models run by WMO-accredited centres around the world.

Possibly due to the weak strength of the expected El Niño conditions during the season, the precipitation patterns predicted resemble those normally associated with El Niño in some, but not all, of the ENSO-sensitive regions.

A tilt of the odds towards above-normal surface temperature is forecast in nearly all of the Asia-Pacific region, Europe, North America, Africa and much of coastal South America. Many – but not all - of these regions also saw above-normal temperatures during May-July 2018.  Much of North America, Europe, North Africa, East Asia and the Middle East saw temperatures 1-3 ° C above normal.

Exceptions to the expected above-normal temperatures include much of interior South America, Greenland, many of the south Pacific islands and part of the Caribbean.

Below-normal precipitation is expected in Central America and the Caribbean, parts of southern Asia, eastern Asia and the Pacific.

Above-normal precipitation is favoured in part of southern North America, southeast equatorial Africa, the Gulf of Guinea region in Africa, extreme southeastern Europe/southwest Asia and small portions of interior South America.

The September-November forecast indicate a probable continuation of the observed dry anomalies in East Asia and the Pacific, Central America and the Caribbean. Elsewhere, the forecasts generally do not show a continuation of the precipitation anomalies observed in May-July.

These global forecasts provide predictions of large-scale patterns, which need to be further calibrated and optimized to derive regional and national scale forecasts.  WMO Regional Climate Centres, Regional Climate Outlook Forums (RCOFs) and National Meteorological and Hydrological Services carry out these tasks to provide more detailed outlooks.

National Meteorological and Hydrological Services will continue to closely monitor changes in the state of ENSO over the coming months.

surface air temperature


Notes to Editors

El Niño is often associated with warm and dry conditions in southern and eastern inland areas of Australia, as well as Indonesia, the Philippines, Malaysia and central Pacific islands such as Fiji, Tonga and Papua New Guinea.

In northern hemisphere winter, drier than normal conditions are typically observed over south-eastern Africa and northern Brazil. Wetter than normal conditions are typically observed along the Gulf Coast of the United States, the west coast of tropical South America (Colombia, Ecuador and Peru) and from southern Brazil to central Argentina. Parts of eastern Africa also usually receive above-normal rainfall.

El Niño is associated with milder winters in north-western Canada and Alaska due to fewer cold air surges from the Arctic – a result of a large-scale region of lower pressure centred on the Gulf of Alaska/ North Pacific Ocean.

It is important to stress that these are typical effects – not specific forecasts – and that actual conditions vary according to the strength and timing of the El Niño event. Other factors (such as the Indian Ocean Dipole or the North Atlantic Oscillation/Arctic Oscillation) can also have an important influence on seasonal climate.

Global-scale seasonal forecasts, including those of precipitation and surface temperature, are routinely produced by WMO accredited centres using sophisticated atmosphere-ocean coupled models, which take into account ENSO as well as other climate drivers.  There are now 13 WMO Global Producing Centres of Long Range Forecasts, whose products are consolidated by a Lead Centre of Long Range Forecast Multi Model Ensemble (https://www.wmolc.org/).

Web links of the National Meteorological Hydrological Services

Information and web links to WMO Regional Climate Centres

Archive of all WMO El Niño/La Niña Updates issued so far, including this one

Multi-model ensemble long-range predictions of global precipitation and surface temperature patterns, based on WMO Global Producing Centres of Long Range Forecasts, are available here for the season September through November 2018

The World Meteorological Organization (WMO) is a specialized agency of the United Nations responsible for promoting international cooperation in atmospheric science and meteorology.

WMO monitors weather, climate, and water resources and provides support to its Members in forecasting and disaster mitigation. The organization is committed to advancing scientific knowledge and improving public safety and well-being through its work.

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