Future changes in the global teleconnections of extreme El Niño events
- 1Barcelona Supercomputing Center, Earth Science, Barcelona, Spain (paloma.trascasa@bsc.es)
- 2University of Leeds, School of Earth and Environment, Leeds, United Kingdom
Model simulations show a robust increase in El Niño-Southern Oscillation (ENSO)-related precipitation variability in a warmer climate, but there remains uncertainty in whether the characteristics of ENSO events themselves may change in the future. Our study aims to disentangle these effects by addressing how the global impacts of observed large El Niño events would change in under present and future background climate conditions.
Pacemaker simulations with the EC-Earth3-CC model were performed replaying the 3 strongest observed El Niño events from the historical record (1982/83, 1997/98, 2015/16). Model tropical Pacific sea surface temperature (SST) anomalies were restored towards observations, while imposing different background states, mimicking present and future climate conditions (following the SSP2-4.5). All variables outside the restoring region evolve freely in a coupled-atmosphere ocean transient simulation. For each start date, 30 ensemble members with different initial conditions were run for 2 years. Using this approach we ask ‘what impacts would arise if the observed El Niño occurred in the past or future’?
In response to the same imposed El Niño SST anomalies, precipitation anomalies are shifted towards the Eastern equatorial Pacific in the future compared to the present day, leading to changes in the extratropical response to El Niño. Some examples are an amplification of the surface temperature response over north-eastern North America, northern South America and Australia in boreal winter. We link the changes of El Niño related tropical Pacific precipitation to a decrease in the climatological zonal SST gradient in the equatorial Pacific, as we move from past to future climatologies, which potentially leads to a higher convection sensitivity to SST anomalies over the Central and Eastern equatorial Pacific in the future. Changes in the future climate response to extreme El Niño events are not homogeneous among regions. For example, cold and hot anomalies driven by extreme El Niño over North America and Australia in the future are amplified, whereas the response over southern Africa gets muted due to shifts in atmospheric circulation.
Our study aims to attribute the absolute future climate response to extreme El Niño events to either changes in El Niño teleconnections or climate change.
How to cite: Trascasa-Castro, P., Ruprich-Robert, Y., and Maycock, A.: Future changes in the global teleconnections of extreme El Niño events, EMS Annual Meeting 2024, Barcelona, Spain, 1–6 Sep 2024, EMS2024-239, https://doi.org/10.5194/ems2024-239, 2024.