Climate change is reshaping the global water cycle, disrupting rainfall patterns and putting growing pressure on cities and ecosystems. Some regions are grappling with heavier rainfall and flooding, while others face prolonged droughts that threaten public health, disrupt economies and increase the risk of political instability. In one recent example, a years-long drought between 2015 and 2020 brought Cape Town, South Africa, to the brink of running out of water鈥攁 moment officials d氙 鈥淒ay Zero.鈥
Scientists have long debated whether extreme events like the Cape Town water crisis are driven by human-caused climate change or are part of natural climate variability, with some models suggesting that global warming may indeed play a role.
鈥淏ut a model is not the real world,鈥 says聽, Thonis Family Associate Professor in Syracuse University鈥檚 Department of Earth and Environmental Sciences (EES). 鈥淪o we looked back in time.鈥
In a paper recently published in聽, Bhattacharya and a team of researchers鈥攍ed by EES graduate Claire Rubbelke 鈥25, Ph.D., (and supported by undergraduates Lucy Weisbeck from the State University of New York College of Environmental Science and Forestry as well as, in earlier work, Ellen Jorgensen 鈥23)鈥攁nalyzed ancient plant matter preserved in a column of sediment drilled off the coast of South Africa. These molecules contain hydrogen isotopes from the rainfall that nourished the plants, providing a chemical fingerprint of past climate conditions.
The study focuses on the Mid-Pleistocene Transition, a 550,000-year period between 1.25 and 0.7 million years ago when Earth’s glacial cycles and atmospheric composition underwent major shifts. The researchers found evidence that, during this time, dramatic changes in global atmospheric circulation鈥攊ncluding contractions and expansions of the massive Hadley cell, which rises near the equator and sinks around 30 degrees latitude鈥攑roduced wetting and drying conditions in Southern Africa. The latter correspond to the conditions experienced during Cape Town鈥檚 Day Zero crisis.
鈥淲e found that when the climate has changed dramatically in the past, it produced shifts analogous to the Day Zero drought,鈥 Bhattacharya says. 鈥淭his suggests that those types of events are really driven by global climate change.鈥
Rubbelke says the findings raise new questions about the future. 鈥淥ne big question I鈥檓 left with is whether these short droughts鈥攁nd the Day Zero drought was relatively short-lived鈥攚ill become more prolonged and eventually a permanent feature of the regional climate,鈥 she says. 鈥淭he fact that past droughts appear in the sediment record suggests they persisted for many years.鈥
In future work as a postdoctoral researcher, Rubbelke plans to conduct comparative studies on the opposite, eastern coast of Africa to better understand variations in rainfall across the continent. She also hopes to explore how shifting rainfall patterns may have shaped early human evolution in Southern Africa, home to key fossil sites like the Cradle of Humankind. Changes in vegetation and water availability could have influenced where hominin species lived and which ones survived.
Beyond its scientific insights, the research offers practical value for the present. Regions such as California, which share South Africa鈥檚 Mediterranean climate鈥攎arked by mild, wet winters and hot, dry summers鈥攃ould benefit from a deeper understanding of past drought dynamics. 鈥淐limate models are the only tool we have for planning,鈥 says Bhattacharya. 鈥淏y testing how well they simulate past events, we can identify where they fall short鈥攁nd ultimately improve our modeling capacity to better prepare for the future.鈥
Story by Olivia Hall
