"The clustering of multiyear La Nina events is phenomenal given that only ten such events have occurred since 1920," said Wang, emeritus professor of atmospheric sciences in the UH Manoa School of Ocean and Earth Science and Technology.
El Nino and La Nina, the warm and cool phases of a recurring climate pattern across the tropical Pacific, affect weather and ocean conditions, which can, in turn, influence the marine environment and fishing industry in Hawai'i and throughout the Pacific Ocean. Long-lasting La Ninas could cause persistent climate extremes and devastating weather events, affecting community resilience, tourist industry and agriculture.
Determining why so many multiyear La Nina events have emerged recently and whether they will become more common has sparked worldwide discussion among climate scientists, yet answers remain elusive.
Wang and co-authors examined 20 La Nina events from 1920-2022 to investigate the fundamental reasons behind the historic change of the multiyear La Nina. Some long-lasting La Ninas occurred after a super El Nino, which the researchers expected due to the massive discharge of heat from the upper-ocean following an El Nino. However, three recent multiyear La Nina episodes (2007-08, 2010-11, and 2020-22) did not follow this pattern.
They discovered these events are fueled by warming in the western Pacific Ocean and steep gradients in sea surface temperature from the western to central Pacific.
"Warming in the western Pacific triggers the rapid onset and persistence of these events," said Wang. "Additionally, our study revealed that multiyear La Nina are distinguished from single-year La Nina by a conspicuous onset rate, which foretells its accumulative intensity and climate impacts."
Results from complex computer simulations of climate support the observed link between multiyear La Nina events and western Pacific warming.
The new findings shed light on the factors conducive to escalating extreme La Nina in a future warming world. More multiyear La Nina events will exacerbate adverse impacts on communities around the globe, if the western Pacific continues to warm relative to the central Pacific.
"Our perception moves beyond the current notion that links extreme El Nino and La Nina to the eastern Pacific warming and attributes the increasing extreme El Nino and La Nina to different sources," Wang added. "The knowledge gained from our study offers emergent constraints to reduce the uncertainties in projecting future changes of extreme La Nina, which may help us better prepare for what lies ahead."
Research Report:Understanding the recent increase in multiyear La Ninas
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