From desiccation to wetlands and outflow: Rapid re-filling of Lake Victoria during the Latest Pleistocene 14–13 ka

Reconstructing hydrological variability is critical for understanding Lake Victoria’s ecosystem history, the evolution of its diverse endemic fish community, the dynamics of vegetation in the catchment, and the dispersal of aquatic and terrestrial fauna in the East African Rift system during Latest...

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Bibliographic Details
Published in:Journal of Great Lakes Research
Main Authors: Wienhues, Giulia, Temoltzin-Loranca, Yunuen, Vogel, Hendrik, Morlock, Marina A., Cohen, Andrew S., Anselmetti, Flavio S., Bernasconi, Stefano M., Jaggi, Madalina, Tylmann, Wojciech, Kishe, Mary A., King, Leighton Rebecca, Ngoepe, Nare, Courtney-Mustaphi, Colin J., Muschick, Moritz, Matthews, Blake, Mwaiko, Salome, Seehausen, Ole, Tinner, Willy, Grosjean, Martin
Format: Article in Journal/Newspaper
Language:English
Published: Elsevier 2023
Subjects:
570 Life sciences
biology
550 Earth sciences & geology
580 Plants (Botany)
Indian
North Atlantic
Online Access:https://boris.unibe.ch/188318/1/Wienhues_et_al_2023_JGLR.pdf
https://boris.unibe.ch/188318/
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Summary:Reconstructing hydrological variability is critical for understanding Lake Victoria’s ecosystem history, the evolution of its diverse endemic fish community, the dynamics of vegetation in the catchment, and the dispersal of aquatic and terrestrial fauna in the East African Rift system during Latest Pleistocene and Holocene times. Whereas consensus exists on widespread desiccation of Lake Victoria ~18 – 17 ka, the re-filling history (16 – 13 ka) has remained highly controversial. Here, we present data from four new sediment cores along a depth transect. We use lithostratigraphic core correlation, sediment facies, XRF data, wetland vegetation analysis (Typha pollen), and 14C chronologies of unprecedented precision to document Latest Pleistocene lake-level variability. At our coring site in the central basin, local Typha wetlands existed >16.7 ka, alternating with periods of desiccation. Moisture increased slightly between ca. 16.7 – 14.5 ka and wetlands with permanent, shallow ponds established simultaneously in the center and the marginal, more elevated parts of the flat lake basin. After ca. 14.0 ka, lake levels increased; wetlands in the central basin were submerged and replaced by lacustrine environments and a >50 m deep lake established ca. 13.5 ka, likely with intermittent overflow most of the time. The lake reached modern or even above-modern levels around 10.8 ka. This lake-level history is consistent with regional terrestrial paleoenvironmental reconstructions, notably the expansion of Afromontane and rainforest. Our data suggest a complex picture of paleoclimatic conditions in Eastern Africa and teleconnections to the North-Atlantic and Indian Ocean domains.

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