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Investigating ancient human DNA preservation on cave walls and in rock art.

Bossoms Mesa Alba, A Essel, Elena E et al.

42336828 PubMed ID
60 Authors
2026-06-23 Published
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Chapter I

Publication Details

Comprehensive information about this research publication

Authors

BM
Bossoms Mesa Alba
AE
A Essel
EE
Elena E
JL
Jáuregui Louisa
LG
L Galtier
AA
Aurore A
ZE
Zavala Elena I
EN
EI Nota
KK
Kevin K
SM
Szymanski Merlin
MZ
M Zorn
JJ
Julia J
GH
Gomes Hugo
HN
H Nash
GH
George H GH
RP
Rosina Pierluigi
PL
P Lattao
VV
Virginia V
OL
Oosterbeek Luiz
LC
L Carpetudo
CC
Carlos C
AN
Almeida Nelson A
ND
NA de Las Heras
CC
Carmen C
FP
Fatás Pilar
PP
P Prada
AA
Alfredo A
DL
Díaz-González Lucía M
LS
LM Sánchez-Moral
ME
M Elena ME
MV
Martínez Villa Alberto
AM
A Menéndez Fernández
MM
Mario M
GA
García Arranz José Julio
JV
JJ von Petzinger
GG
Genevieve G
CP
Cantalejo Pedro
PF
P Fernández
LL
Luis-Efrén LE
RJ
Ramos-Muñoz José
JF
J Fernández Sánchez
DS
Diego S DS
MH
Mira Hugo A
HM
HA Muñoz Fernández
EE
Emilio E
MR
Montes-Barquín Ramón
RO
R Ontañón
RR
Roberto R
KJ
Kelso Janet
JP
J Prüfer
KK
Kay K
VB
Vernot Benjamin
BH
B Hajdinjak
MM
Mateja M
SQ
Shao Qingfeng
QG
Q Garcês
SS
Sara S
CG
Collado Giraldo Hipólito
HM
H Meyer
MM
Matthias M
Chapter II

Abstract

Summary of the research findings

Previous efforts to link Palaeolithic cultural records to specific populations through DNA analysis have focused on materials from archaeological floor deposits such as bones, sediments, and artefacts. In this study, we explore whether rock art, a spatially distinct expression of human activity, can also preserve DNA traces from its creators. We analyse DNA preservation in pigment samples collected in and around 24 rock art panels from 11 caves across Spain and Portugal, including simple marks (from nine sites), hand stencils (Maltravieso Cave, Extremadura, Spain), and figurative paintings (Cave of Altamira, Cantabria, Spain). We recover traces of ancient human mitochondrial and nuclear DNA, unaccompanied by faunal DNA, from a pigmented calcite crust at Escoural Cave (Portugal), as well as from an unpigmented cave wall sample from the same site. The absence of faunal DNA in both samples suggests direct DNA deposition through human contact. In contrast, three additional unpigmented samples, from Escoural and Covarón Cave (Asturias, Spain), yielded mixtures of human and faunal DNA, suggesting indirect deposition. Although our results do not conclusively link ancient human DNA preservation to the generation of cave art, we show that traces of human DNA can persist on cave walls for thousands of years.

Chapter III

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