Paleo-ENSO influence on African environments and early modern humans

Our results identify the prime driver of climate variation in Africa’s low latitudes over the past 620 ky—the key time frame for the evolution of our species. Warming and cooling of the tropical Pacific Ocean paced by insolation changes modulated the tropical Walker circulation, driving opposing wet...

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Bibliographic Details
Published in:Proceedings of the National Academy of Sciences
Main Authors: Kaboth-Bahr, S., Gosling, W., Vogelsang, R., Bahr, A., Scerri, E., Asrat, A., Cohen, A., Düsing, W., Foerster, V., Lamb, H., Maslin, M., Roberts, H., Schäbitz, F., Trauth, M.
Format: Article in Journal/Newspaper
Language:English
Published: 2021
Subjects:
Pacific
Southern Ocean
Online Access:http://hdl.handle.net/21.11116/0000-0008-B5F1-B
http://hdl.handle.net/21.11116/0000-0008-B5F3-9
Description
Summary:Our results identify the prime driver of climate variation in Africa’s low latitudes over the past 620 ky—the key time frame for the evolution of our species. Warming and cooling of the tropical Pacific Ocean paced by insolation changes modulated the tropical Walker circulation, driving opposing wet–dry states in eastern and western Africa. We show that the effects of glacial/interglacial cycles were not the predominant source of environmental change in most of the continent. Africa’s environmental patchwork driven by low-latitude climate processes should therefore be a critical component in conceptual models of human evolution and early demography over the past 620 ky.In this study, we synthesize terrestrial and marine proxy records, spanning the past 620 ky, to decipher pan-African climate variability and its drivers and potential linkages to hominin evolution. We find a tight correlation between moisture availability across Africa to El Niño Southern Ocean oscillation (ENSO) variability, a manifestation of the Walker Circulation, that was most likely driven by changes in Earth’s eccentricity. Our results demonstrate that low-latitude insolation was a prominent driver of pan-African climate change during the Middle to Late Pleistocene. We argue that these low-latitude climate processes governed the dispersion and evolution of vegetation as well as mammals in eastern and western Africa by increasing resource-rich and stable ecotonal settings thought to have been important to early modern humans.All study data are included in the article and/or supporting information. Results Discussion Conclusion Materials and Methods - pwPCA. - Breakpoint Analysis. - Median Calculation.

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