New paper on ENSO diversity, transitions, and projected changes

New paper published in Envirnomental Research Letter today. We looked at ENSO event transitions for different types of El Niño and La Niña events from one year to the next.

So basically we assessed how likely it is to develop an ENSO event given the previous year conditions. We used a couple of long instrumental datasets going back ~150 years and climate model output from CMIP5 and CMIP6 to compare against.


Press release

Australian climatologists closely monitor atmospheric and oceanic conditions to assess the risk of El Niño Southern Oscillation (ENSO) events occurring, which can lead to devastating natural disasters, however these predictions have become somewhat delayed in recent years.

Published in Environmental Research Letters, a team of researchers from institutions including the University of Melbourne, Bureau of Meteorology and CSIRO, have now assessed the likelihoods of different types of ENSO events developing in succession, and the results have enabled them to deliver more accurate and timely forecasts, giving communities more time to prepare and plan.

For countries in the Southern Hemisphere, El Niño events are typically associated with higher-than-average temperatures, while La Niña events are associated with increased rainfall. For Australia, Central Pacific ENSO variations are of most concern as these climate patterns have the greatest impact.

ENSO events have led to devastating global natural disasters such as the 2015-16 El Niño, which impacted approximately 60 million people across Africa, Latin America, the Caribbean and the Asia-Pacific region, resulting in severe drought, flooding, food insecurity, disease outbreaks, malnutrition and respiratory diseases. Given ENSO is one of the most influential climatic phenomena on Earth, providing early and accurate predictions of ENSO cycles is critically important. However, climatologists are currently hampered by a ‘predictability barrier’, which occurs during Autumn in the Southern Hemisphere and Spring in the Northern Hemisphere, significantly reducing forecasting accuracy.

By analysing weather observational records and climate models dating back to 1870, the research team was able to quantify the likelihood of ENSO events occurring in two consecutive years.

The team examined the sequence of past El Niño and La Niña events of different types and identified clear patterns.

University of Melbourne climate science lecturer Dr Mandy Freund said:> “using this data, we found Eastern Pacific El Niño and Central Pacific El Niño events will most likely be followed by neutral conditions the following year, with the probability of this occurring being 55.6% and 37% respectively.”

“However, the same doesn’t apply for La Niña events. Based on our findings, we estimate there’s a 40% chance of a Central Pacific El Niño event developing the year after an Eastern Pacific La Niña and a 27.8% chance of a consecutive Central Pacific La Niña developing two years in a row.”

The Bureau of Meteorology is currently on La Niña watch, however researchers believe while ENSO-neutral conditions persist, there is only a small chance of a weak La Niña event developing during the last two months.

“Australia has just come out of an Eastern Pacific El Niño, which began in September 2023. Based on the findings from our study, there is a 16.7% chance of a La Niña developing in the Pacific Ocean in 2024 and if so, it will peak in the Central Pacific,” Dr Freund said.

Dr Freund said: “as climate change intensifies, the frequency, type and transitions of El Niño and La Niña events are expected to change in the future.”

“The likelihood of having two consecutive neutral years is significantly decreasing. Based on the models we’ve looked at, we expect to see more Central Pacific La Niña events developing the year after an Eastern Pacific El Niño as predicted this coming season. Understanding ENSO transitions and their response to warming is essential to improve and adapt seasonal prediction systems,” Dr Freund said.