View of a dead cow in a dried swamp in La Mojana, a region known for its swamps and wetlands, in San Marcos, Sucre department, Colombia during an El Nino weather phenomenon on March 15, 2016. (PHOTO / AFP)

GENEVA – Temperatures are expected to soar further across large parts of the world after the El Nino weather pattern emerged in the tropical Pacific for the first time in seven years, the World Meteorological Organization said on Tuesday.

El Nino, a warming of water surface temperatures in the eastern and central Pacific Ocean, is linked to extreme weather conditions from tropical cyclones to heavy rainfall to severe droughts.

The organization said in May that there was a strong likelihood that at least one of the next five years, and the five-year period as a whole, would be the warmest on record due to El Nino and anthropogenic global warming

The statement from the global body confirmed a report last month from the US National Oceanic and Atmospheric Administration's Climate Prediction Center that the phenomenon had returned.

The world's hottest year on record, 2016, coincided with a strong El Nino – though experts says climate change has fueled extreme temperatures even in years without the phenomenon.

But that record could soon be broken, according to WMO.

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The organization said in May that there was a strong likelihood that at least one of the next five years, and the five-year period as a whole, would be the warmest on record due to El Nino and anthropogenic global warming.

"To tell you whether it be this year or next year is difficult," Wilfran Moufouma Okia, Head of Regional Climate Prediction Service at WMO, told reporters in Geneva on Tuesday.

"What we know is that throughout the next five years, we are likely to have one of the warmest years on record."

During El Nino, winds blowing west along the equator slow down, and warm water is pushed east, creating warmer surface ocean temperatures.The phenomenon occurs on average every two to seven years, and can last nine to 12 months, according to the WMO.

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It is typically associated with increased rainfall in parts of southern South America, the southern United States, the Horn of Africa and Central Asia.

In the past, it has caused severe droughts in Australia, Indonesia, parts of southern Asia, Central America and northern South America.