Climate change is accelerating, according to comprehensive study

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Climate change is happening and accelerating. Earth will continue to warm. And these changes are unequivocally caused by human activities. Those are among the conclusions of the report published by the International Panel on Climate Change (IPCC), with University of Hawaii at Manoa Assistant Professor of oceanography Malte Stuecker as a contributing author.

Climate change is accelerating, according to comprehensive study
Ocean temperature (blue=cold, red=warm) simulated at ultra-high resolution
[Credit: IBS/ICCP‘s Aleph]

“The latest IPCC report shows clearly that if we do not drastically curb our emissions, we will head towards temperatures that Earth has not seen in millions of years,” Stuecker summarizes. “Moreover, we can now say with certainty that all of the global warming that occurred since the mid-19th century is due to human activity. While these are sobering facts, we should certainly not despair. In fact, if societies choose a pathway of large reductions in greenhouse gas emissions now, the report also shows that we will avoid the worst possible future outcomes and Earth will experience only moderate additional warming over this century that we can likely adapt to.”




In addition to global warming, regional climate in many parts of the world is impacted by the cycling between warm El Nino and cold La Nina conditions in the eastern Pacific Ocean—commonly referred to as the El Nino-Southern Oscillation (ENSO). ENSO—has persisted without major interruptions for thousands to millions of years. This may also change in a future warmer world, though the recent IPCC report highlights uncertainties in potential changes in ENSO.

Two additional studies

Continuing the long tradition of contributing to developing theories and advancing climate models around ENSO, researchers from the UH Manoa School of Ocean and Earth Science and Technology (SOEST) recently published two additional studies addressing the complexity of this most important climate phenomenon.

SOEST atmospheric scientists, Associate Professor Christina Karamperidou and Professor Fei-Fei Jin, and Stuecker co-authored a review paper published in Nature Reviews Earth & Environment wherein they synthesized recent advancements in research on ENSO.

There is an emerging consensus among simulations of future climate under strong greenhouse gas emissions with the most recent generation of climate models that the variability of future ENSO sea surface temperature may increase as the climate warms.

“There is however still much uncertainty on the degree to which ENSO may change and the time at which these potential changes will emerge from ENSO’s natural variability,” said Karamperidou. “This is partly due to incomplete understanding of the phenomenon, partly due to known limitations of models in representing and resolving relevant processes, and partly due to the inherent limitations on our understanding imposed by the short length of the instrumental record.”




Additionally, led by researchers at the IBS Center for Climate Physics in Korea, Stuecker co-authored another study published in Nature Climate Change that produced a series of global climate model simulations with unprecedented spatial resolution. Boosted by the power of one of South Korea’s fastest supercomputers (Aleph), the new ultra-high-resolution simulations realistically represented processes that are usually missing from other models, though they play fundamental roles in the generation and termination of El Nino and La Nina events.

“From this highest resolution future climate model simulation that has been done to date, we conclude that it’s possible that ENSO variability could collapse under strong greenhouse warming in the future,” said Stuecker.

Further investigation is needed

This apparent contradiction in findings raises many interesting questions and highlights the need for further investigation.

“Regardless of the details of how El Nino changes in the future, rainfall and drought will become more extreme in the future due to the fact that we will be living in a warmer world with a hydrological cycle on steroids,” said Stuecker.

“Despite the spread of model projections on how ENSO may change under strong anthropogenic forcing, both the IPCC report and the Nature Reviews article demonstrate that its impacts on rainfall are very likely to be enhanced which has significant implications across the globe and the Pacific, including Hawai?i,” said Karamperidou.

Source: University of Hawaii at Manoa [August 26, 2021]

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