Radioisotopic age, formation, and preservation of Late Pleistocene human footprints at Engare Sero, Tanzania

Radioisotopic age, formation, and preservation of Late Pleistocene human footprints at Engare Sero, Tanzania

We report on the radioisotopic age, formation, and preservation of a late Pleistocene human footprint site in northern Tanzania on the southern shore of Lake Natron near the village of Engare Sero. Over 400 human footprints, as well as tracks of zebra and bovid, are preserved in a series of volcanic...

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Published in:Palaeogeography, palaeoclimatology, palaeoecology Vol. 463; pp. 68 - 82
Main Authors: Liutkus-Pierce, C.M., Zimmer, B.W., Carmichael, S.K., McIntosh, W., Deino, A., Hewitt, S.M., McGinnis, K.J., Hartney, T., Brett, J., Mana, S., Deocampo, D., Richmond, B.G., Hatala, K., Harcourt-Smith, W., Pobiner, B., Metallo, A., Rossi, V.
Format: Journal Article
Language:English
Published: Elsevier B.V 01-12-2016
Subjects:
Engare Sero
Footprints
Hominin
Lake Natron
Pleistocene
Tanzania, Natron L
ISW, Tanzania
Footprints
Lake Natron
Hominin
Engare Sero
Pleistocene
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Summary:We report on the radioisotopic age, formation, and preservation of a late Pleistocene human footprint site in northern Tanzania on the southern shore of Lake Natron near the village of Engare Sero. Over 400 human footprints, as well as tracks of zebra and bovid, are preserved in a series of volcaniclastic deposits. Based on field mapping along with geochemical and grain-size analyses, we propose that these deposits originated as proximal volcanic material from the nearby active volcano, Oldoinyo L'engai, and were then fluvially transported to the footprint site. Stable isotope results (δ18O and δ13C) suggest that the footprints were originally emplaced on a mudflat saturated by a freshwater spring and were later inundated by the rising alkaline waters of Lake Natron. We employed the 40Ar/39Ar and 14C dating methods to investigate the age of the site and determined that the footprint level is older than 5760±30yrs. BP and younger than 19.1±3.1ka. These radioisotopic ages are supported by stratigraphic correlations with previously documented debris avalanche deposits and the stable isotope signatures associated with the most recent highstand of Lake Natron, further constraining the age to latest Pleistocene. Since modern humans (Homo sapiens) were present in Africa ca. 200ka, Engare Sero represents the most abundant and best-preserved footprint site of anatomically modern Homo sapiens currently known in Africa. Fossil footprints are a snapshot in time, recording behavior at a specific moment in history; but the actual duration of time captured by the snapshot is often not well defined. Through analog experiments, we constrain the depositional window in which the prints were made, buried, and ultimately preserved to within a few hours to days or months. •Over 400 late Pleistocene human footprints are preserved at Engare Sero.•Engare Sero is currently the most abundant late Pleistocene Homo sapiens footprint site in Africa.•The footprints were preserved in a series of fluvially reworked debris flows from Oldoinyo L'engai.
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ISSN:0031-0182
1872-616X
DOI:10.1016/j.palaeo.2016.09.019