The effects of climate change on the Pleistocene rock art of Sulawesi

J. Huntley; M. Aubert; A. A. Oktaviana; R. Lebe; B. Hakim; B. Burhan; L. Muhammad Aksa; I. Made Geria; M. Ramli; L. Siagian; H. E. A. Brand; A. Brumm

doi:10.1038/s41598-021-87923-3

Scientific Reports (May 2021)

The effects of climate change on the Pleistocene rock art of Sulawesi

J. Huntley,
M. Aubert,
A. A. Oktaviana,
R. Lebe,
B. Hakim,
B. Burhan,
L. Muhammad Aksa,
I. Made Geria,
M. Ramli,
L. Siagian,
H. E. A. Brand,
A. Brumm

Affiliations

J. Huntley: Griffith Centre for Social and Cultural Research, PERAHU, Griffith University
M. Aubert: Griffith Centre for Social and Cultural Research, PERAHU, Griffith University
A. A. Oktaviana: Griffith Centre for Social and Cultural Research, PERAHU, Griffith University
R. Lebe: Balai Pelestarian Cagar Budaya
B. Hakim: Balai Arkeologi Sulawesi
B. Burhan: Australian Research Centre for Human Evolution, Environmental Futures Research Institute, Griffith University
L. Muhammad Aksa: Balai Pelestarian Cagar Budaya
I. Made Geria: Pusat Penelitian Arkeologi Nasional (ARKENAS)
M. Ramli: Balai Pelestarian Cagar Budaya
L. Siagian: Museum Kepresidenan Republik Indonesia
H. E. A. Brand: Australian Synchrotron
A. Brumm: Australian Research Centre for Human Evolution, Environmental Futures Research Institute, Griffith University

DOI: https://doi.org/10.1038/s41598-021-87923-3
Journal volume & issue: Vol. 11, no. 1
pp. 1 – 10

Abstract

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Abstract The equatorial tropics house some of the earliest rock art yet known, and it is weathering at an alarming rate. Here we present evidence for haloclasty (salt crystallisation) from Pleistocene-aged rock art panels at 11 sites in the Maros-Pangkep limestone karsts of southern Sulawesi. We show how quickly rock art panels have degraded in recent decades, contending that climate-catalysed salt efflorescence is responsible for increasing exfoliation of the limestone cave surfaces that house the ~ 45 to 20-thousand-year-old paintings. These artworks are located in the world’s most atmospherically dynamic region, the Australasian monsoon domain. The rising frequency and severity of El Niño-induced droughts from anthropogenic climate change (that is, higher ambient temperatures and more consecutive dry days), combined with seasonal moisture injected via monsoonal rains retained as standing water in the rice fields and aquaculture ponds of the region, increasingly provide ideal conditions for evaporation and haloclasty, accelerating rock art deterioration.

Published in Scientific Reports

ISSN: 2045-2322 (Online)
Publisher: Nature Portfolio
Country of publisher: United Kingdom
LCC subjects: Medicine; Science
Website: https://www.nature.com/srep/

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