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STEM

A&S Paleoclimatologists Use Ancient Sediment to Explore Future Climate in Africa

Wednesday, October 11, 2023, By Dan Bernardi
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College of Arts and SciencesExperiential InquiryResearch and Creative

In September, extreme rains struck South Africa’s Western Cape province, flooding villages and leaving a trail of destruction. The catastrophic devastation is just one recent example in a string of extreme weather events that are growing more common around the world. Fueled by rising sea surface temperatures from global warming, torrential storms are increasing both in frequency and magnitude. Concurrently, global warming is also producing the opposite effect in other instances, as a mega-drought recently threatened the water supply of Cape Town in southwestern Africa to the point where residents were at risk of running out of water. This one-two punch of weather extremes are devastating habitats, ecosystems and human infrastructure.

Floodwaters in Africa

Floodwaters in the town of Bushmans River, South Africa.

With global warming apparently here to stay, a team of paleoclimatologists from Syracuse University, George Mason University and the University of Connecticut are studying an ancient source to determine future rainfall and drought patterns: fossilized plants that lived on Earth millions of years ago.

In a study led by Claire Rubbelke, a Ph.D. candidate in Earth and environmental sciences in the College of Arts and Sciences (A&S), and Tripti Bhattacharya, Thonis Family Professor of Earth and Environmental Sciences in A&S, researchers zeroed in on the Pliocene epoch (~3 million years ago)–a time when conditions were very similar to today. Despite warmer temperatures, many parts of the world, including southwestern Africa, experienced dramatic increases in rainfall over land, likely caused by warmer than normal sea surface temperatures. This mimics a modern event called a Benguela Niño, where researchers believe shifting winds cause warm waters to move southward along the coast of Africa causing enhanced rainfall over typically arid regions.

“In the present day, the intensity and location of extreme precipitation from Benguela Niño events appear to be influenced by both Atlantic and Indian Ocean sea surface temperatures,” says Rubbelke, who is a member of Bhattacharya’s Paleoclimate Dynamics Lab. “During the Pliocene, it appears that these Benguela Niño-like conditions may have been a permanent feature.”

Claire Rubbelke

Claire Rubbelke

The team’s work was inspired by collaborator and study co-author Natalie Burls, associate professor in the Department of Atmospheric, Oceanic and Earth Sciences at George Mason University. Burls, an oceanographer and climate scientist from South Africa, has long been intrigued by the way geological evidence from past warm climates in Earth’s history can help researchers make sense of future rainfall and drought conditions.

“This study, which explored how past warm climates can inform us on what to expect in the future as our planet warms, brings to the fore the important role of ocean warming patterns,” says Burls. “It’s important to understand how these patterns determine the response of the hydrological cycle over southwest Africa to global warming.”

To study the impact of global warming on precipitation from millions of years in the past, the team analyzed ‘molecular fossils’ in the form of ancient leaf waxes. “These are compounds produced by leaves to protect themselves from drying out,” says Bhattacharya. “They get shed from leaf surfaces and find their way to ocean sediments, where we can extract them and study their chemical composition.”

Plants use hydrogen from rainwater to produce the waxy outer coating on their leaves, which survives in ocean sediment for millions of years. The leaf wax functions as a time capsule preserved in ocean sediment.

After transporting the millions-year-old sediment from Africa to their lab in Syracuse, Rubbelke and Bhattacharya used heat and pressure to extract lipids (e.g. fat molecules), and then used a variety of solvents to isolate the exact class of molecules that they were looking to measure. From those molecules, they determined the number of different types of hydrogen present.

Tripti Bhattacharya

Tripti Bhattacharya

“When we measure the amount of heavy and light isotopes of hydrogen in the waxes, it reveals different physical processes like increased rainfall, or how far the water vapor travels,” says Rubbelke. “We can therefore identify changes in these processes by looking at long-term changes of hydrogen.”

By comparing their data to climate models, they verify how well those models capture past climate change, which can in turn improve the accuracy of those models to predict future rainfall. As Bhattacharya notes, this is critical because climate models often disagree on whether certain regions will get wetter or drier in response to global warming.

“We are using real world data from the ancient geologic past to improve our ability to model rainfall changes as the planet warms,” she says.

The study’s third author, Ran Feng, assistant professor of Earth sciences at the University of Connecticut, helped analyze the comparison data and specifically examined the proposed mechanism that explains the Pliocene wet conditions in southwest Africa. She says many features of ongoing climate change are reincarnations of the past warm climates.

Rubbelke, whose interest in paleoclimate research started in high school while studying ice cores and oxygen isotopes, says that the work she is doing alongside Bhattacharya is particularly fulfilling because they are contributing valuable data to an area where there is currently a knowledge gap.

“This research is really cool because not a lot of paleoclimate records from the southern hemisphere exist, compared to the northern hemisphere at least,” says Rubbelke. “I feel like I’m really contributing to an international research effort to rectify that.”

As to whether the future will be wetter or drier in southwestern Africa, the team’s results suggests that both are possible, depending on where extreme sea surface temperatures are occurring.

While not much can be done to reverse global warming, short of cutting the use of fossil fuels completely, the researchers say this study illuminates the need for vulnerable communities to have the tools and resources to adapt to these seemingly more frequent extreme weather events.

“A key aspect of helping vulnerable communities involves improving our ability to predict hydroclimate extremes, “says Bhattacharya. “Our study directly speaks to this need, as we show that sea surface temperature patterns strongly influence climate models’ ability to predict changes in rainfall in southwestern Africa.”

  • Author

Dan Bernardi

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