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The New Daily
National
Wenju Cai

Climate change will disrupt El Nino and La Nina 40 years earlier than thought

You’ve probably heard a lot about La Nina lately. This cool weather pattern is the main driver of heavy rain and flooding that has devastated much of Australia’s south-east in recent months.

You may also have heard of El Nino, which alternates with La Nina every few years.

El Nino typically brings drier conditions to much of Australia.

Together, the two phases are known as the El Nino-Southern Oscillation – the strongest and most consequential factor driving Earth’s weather.

And in recent years there has been much scientific interest in how climate change will influence this global weather-maker.

Our research, released on Tuesday, sheds light on the question.

It found climate change will clearly influence the El Nino-Southern Oscillation by 2030 – in just eight years’ time. This has big implications for how Australians prepare for extreme weather events.

A complex weather puzzle

The El Nino-Southern Oscillation occurs across the tropical Pacific, and involves complex interplays between the atmosphere and the ocean. It can be in one of three phases: El Nino, La Nina or neutral.

During an El Nino phase, the central and eastern tropical Pacific Ocean warms significantly. This causes a major shift in cloud formation and weather patterns across the Pacific, typically leading to dry conditions in eastern Australia.

During a La Nina phase, which is occurring now, waters in the central and eastern tropical Pacific Ocean are cooler than average. The associated changes in weather patterns include higher-than-average rainfall over much of Australia.

When the oscillation is in the neutral phase, weather conditions hover around the long-term average.

Previous research has suggested El Nino and La Nina events may vary depending on where in the tropical Pacific the warm or cold ocean temperatures are located.

But climate change is also affecting ocean temperatures. So how might this play into El Nino and La Nina events? And where might the resulting change in weather patterns be detected? These are the questions our research sought to answer.

What we found

We examined 70 years of data on the El Nino–Southern Oscillation since 1950, and combined it with 58 of the most advanced climate models available.

We found the influence of climate change on El Nino and La Nina events, in the form of ocean surface temperature changes in the eastern Pacific, will be detectable by 2030.

This is four decades earlier than previously thought.

Scientists already knew climate change was affecting the El Nino–Southern Oscillation. But because the oscillation is itself so complex and variable, it has been hard to identify where the change is occurring most strongly.

However, our study shows the effect of climate change, manifesting as changes in ocean surface temperature in the tropical eastern Pacific, will be obvious and unambiguous within about eight years.

So what does all this mean for Australia?

Warming of the eastern Pacific Ocean, fuelled by climate change, will cause stronger El Nino events. When this happens, rain bands are drawn away from the western Pacific where Australia is located. That’s likely to mean more droughts and dry conditions in Australia.

It’s also likely to bring more rain to the eastern Pacific, which spans the Pacific coast of Central America from southern Mexico to northern Peru.

Strong El Nino events are often followed by strong and prolonged La Ninas. So that will mean cooling of the eastern Pacific Ocean, bringing the rain band back towards Australia – potentially leading to more heavy rain and flooding of the kind we’ve seen in recent months.

La Nina

What now?

Weather associated with El Nino and La Nina has huge implications. It can affect human health, food production, energy and water supply, and economies around the world.

Our research suggests Australians, in particular, must prepare for more floods and droughts as climate change disrupts the natural weather patterns of the El Nino-Southern Oscillation.

Our findings should be incorporated into policies and strategies to adapt to climate change. And crucially, they add to the weight of evidence pointing to the urgent need to reduce greenhouse gas emissions to stabilise Earth’s climate.

The Conversation______________________________________________________

Wenju Cai
Chief Research Scientist, Oceans and Atmosphere, CSIRO

This article is republished from The Conversation under a Creative Commons licence.

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