The Mungo Mega-Lake Event, Semi-Arid Australia: Non-Linear Descent into the Last Ice Age, Implications for Human Behaviour.

Kathryn E Fitzsimmons,Colin V Murray-Wallace,William Truscott,Cornel Pop,Nicola Stern

doi:10.1371/journal.pone.0127008

Kathryn E Fitzsimmons, Colin V Murray-Wallace + Show 3 more

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https://doi.org/10.1371/journal.pone.0127008

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Abstract

The Willandra Lakes complex is one of the few locations in semi-arid Australia to preserve both paleoenvironmental and Paleolithic archeological archives at high resolution. The stratigraphy of transverse lunette dunes on the lakes’ downwind margins record a late Quaternary sequence of wetting and drying. Within the Willandra system, the Lake Mungo lunette is best known for its preservation of the world’s oldest known ritual burials, and high densities of archeological traces documenting human adaptation to changing environmental conditions over the last 45 ka. Here we identify evidence at Lake Mungo for a previously unrecognised short-lived, very high lake filling phase at 24 ka, just prior to the Last Glacial Maximum. Mega-lake Mungo was up to 5 m deeper than preceding or subsequent lake full events and represented a lake volume increase of almost 250%. Lake Mungo was linked with neighboring Lake Leaghur at two overflow points, creating an island from the northern part of the Mungo lunette. This event was most likely caused by a pulse of high catchment rainfall and runoff, combined with neotectonic activity which may have warped the lake basin. It indicates a non-linear transition to more arid ice age conditions. The mega-lake restricted mobility for people living in the area, yet archeological traces indicate that humans rapidly adapted to the new conditions. People repeatedly visited the island, transporting stone tools across water and exploiting food resources stranded there. They either swam or used watercraft to facilitate access to the island and across the lake. Since there is no evidence for watercraft use in Australia between initial colonization of the continent prior to 45 ka and the mid-Holocene, repeated visits to the island may represent a resurrection of waterfaring technologies following a hiatus of at least 20 ky.

Highlights

Lake Mungo is the best known basin within the Willandra Lakes World Heritage Area in semiarid Australia
We clarified the elevation of the main shoreline and compared this with the newly identified, higher elevation shoreline by surveying with differential global positioning systems (dGPS); confirmed the mega-lake sediments as deriving from shoreline facies; and reconstructed the mega-lake event using a digital elevation model (DEM)
On the western lake margin, the main shoreline level is expressed by wave-cut benching

Summary

Introduction

Lake Mungo is the best known basin within the Willandra Lakes World Heritage Area in semiarid Australia. Mungo Mega-Lake Event: Climate and Human Impact margins preserves Australia’s oldest known human remains and widespread archeological traces documenting human behavioral change [1,2,3]. The lunette’s stratigraphy provides a comprehensive record of paleoenvironmental and hydrologic change over the last full glacial cycle, in a region with poor preservation of such archives [4,5,6]. The conjunction of paleoenvironmental and archeological evidence presents a unique archive of human-environmental interactions over the last ca. The strategies people developed in response to changing environmental conditions, and the nature and duration of climatic transitions in the region, remains poorly defined [7]

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