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Comptes Rendus

Comment & Reply - Stratigraphy, Sedimentology
Traces of fire in a 560,000-year-old occupation soil at Caune de l’Arago: response to the article by Professor Henry de Lumley
Comptes Rendus. Géoscience, Volume 354 (2022), pp. 47-50.

Abstract

This note is a reply to the comment “Did the first inhabitants of the Caune de l’Arago between 700,000 and 400,000 years BP have domesticated fire? Did they know how to light the fire at will?” by H. de Lumley, published in Comptes Rendus Géoscience in Volume 354, 2022, pages 41-45, https://doi.org/10.5802/crgeos.113. The comment in question concerns the article “Search for early traces of fire in the Caune de l’Arago at Tautavel (Eastern Pyrenees, France), combining magnetic susceptibility measurements, microscopic observations, and Raman analysis” by Deldicque et al., published online on July 29, 2021, in Comptes Rendus Géoscience in Volume 353, 2021, pages 247-264, https://doi.org/10.5802/crgeos.66.

Metadata
Received:
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Published online:
DOI: 10.5802/crgeos.114
Keywords: charcoal, Caune de l’Arago cave, Magnetic susceptibility, Raman spectroscopy, Fire, Middle Pleistocene, Magnetic minerals

Damien Deldicque 1; Jean-Pierre Pozzi 1, 2; Christian Perrenoud 3; Christophe Falguères 2; Geoffroy Mahieux 4; Anne-Sophie Lartigot-Campin 5; Jean-Noël Rouzaud 1

1 Laboratoire de Géologie, Département de géosciences, École Normale Supérieure, CNRS, UMR 6 8538, PSL University, Paris, France
2 UMR 7194 HNHP, Département Homme et Environnement, Muséum National d’Histoire Naturelle, 8 1 rue René Panhard, Paris, France
3 UMR 7194 HNHP, Département Homme et Environnement, Muséum National d’Histoire Naturelle, 10 Centre Européen de Recherches Préhistoriques, avenue Grégory, 66720 Tautavel, France
4 U2R 7511, Bassin Réservoir Ressource, UPJV, 33 rue St Leu, Amiens, France
5 UMR 7194 HNHP, Université de Perpignan Via Domitia, Centre Européen de Recherches 13 Préhistoriques, avenue Léon-Jean Grégory, 66720 Tautavel, France
License: CC-BY 4.0
Copyrights: The authors retain unrestricted copyrights and publishing rights
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     author = {Damien Deldicque and Jean-Pierre Pozzi and Christian Perrenoud and Christophe Falgu\`eres and Geoffroy Mahieux and Anne-Sophie Lartigot-Campin and Jean-No\"el Rouzaud},
     title = {Traces of fire in a 560,000-year-old occupation soil at {Caune} de {l{\textquoteright}Arago:} response to the article by {Professor} {Henry} de {Lumley}},
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Damien Deldicque; Jean-Pierre Pozzi; Christian Perrenoud; Christophe Falguères; Geoffroy Mahieux; Anne-Sophie Lartigot-Campin; Jean-Noël Rouzaud. Traces of fire in a 560,000-year-old occupation soil at Caune de l’Arago: response to the article by Professor Henry de Lumley. Comptes Rendus. Géoscience, Volume 354 (2022), pp. 47-50. doi : 10.5802/crgeos.114. https://comptes-rendus.academie-sciences.fr/geoscience/articles/10.5802/crgeos.114/

Original version of the full text (Propose a translation )

Our paper [Deldicque et al. 2021] presents a new archaeometric method that reveals traces of heating associated with charcoal and vitrified charcoal at the prestigious site of the Caune de l'Arago. This evidence is found in sediments older than 400,000 years BP where no charcoal has previously been reported. Guided by a strong magnetic susceptibility signal in Ensemble I of the Middle Complex, we use Raman spectrometry and scanning electron microscopy to characterize charcoals and closely associated magnetic minerals in the Q4 level of the cave, where the age of the sediments is estimated at between 580,000 and 560,000 years BP. The strong magnetic susceptibility signal is due to the presence of maghemite and magnetite. The charcoals and associated magnetic minerals are found precisely at the F/G band boundary in zone 15, 1040 cm below the zero level (Figure 1 (a)). According to our observations, some charcoal fragments are up to 1 mm long ([Deldicque et al. 2021, Figure 3 and Figure 7]).

Figure 1.

(a) Location of sample CA 1040 located 1040 cm below the zero level in zone G15, which was misplaced on the figure presented by Henry de Lumley in his comment. (b) Extract from [de Lumley et al. 2020], mentioning a scarcity of bones in the ``Terres Noires'', in which sample CA 1040 is located.

We also show that it is possible to produce the same magnetic minerals and reach the same susceptibility values by heating cave sediments – which are a priori unheated – sampled in proximity to the charcoals and magnetic minerals. The temperatures required for the formation of such minerals can be attained in the topmost few centimetres under a wood fire, at around 500°C [Aldeias et al 2016].

Concerning the interpretation of our results, we do not claim at any point that the inhabitants of the Arago Cave knew how to make fire and use it as they wished; these criteria would need to be met before we could speak of fire domestication stricto sensu. We have been extremely cautious and have carefully considered and studied two hypotheses: an external origin and an in situ origin. Both possibilities have very interesting implications. An ex situ origin is compatible with the existence of paleo wildfires, which would therefore characterize the paleo-environments of the first occupants of the Caune de l'Arago. In the case of in situ origin, the presence of charcoals provides evidence of an anthropic input into the cave 560,000 years ago.

The article does not in any way question the age of fire domestication around 400,000 years ago, which is currently the consensus. There is increasing evidence for fire domestication in Europe between 400,000 and 300,000 years ago ([Roebroeks and Villa 2011; Shimelmitz et al. 2014]). Sites showing evidence of fire use are rare in the first half of the Middle Pleistocene (between 800,000 and 400,000 years BP and its anthropogenic origin is systematically debated, with good reason: the traces are often altered and the association of charcoal, burnt bone and thermally altered lithic objects is not always present. Such is the case, for example, at Menez-Dregan 1 in Brittany, France, dated at around 500,000 years BP (layer 9 - [Monnier et al. 2016]) and at the Gesher Benot Ya'aqov site in Israel (800,000 years BP) ([Goren-Inbar et al. 2004]).

At Caune de l'Arago, questions arise about the close association of charcoal and magnetic minerals in the same level. In particular, we need to explain why these different combustion products are found together at the same location, 30 m away from the original entrance. If the charcoal and magnetic minerals had been formed from a natural fire outside the cave, it would be necessary to invoke transport by wind or run-off water. However, the highly contrasted densities and surface properties of the charcoal and mineral phases (chars are hydrophobic, unlike minerals) would probably have led to their separation during transport, which is not what we observe.

To date, no burnt bones have been found associated with the charcoal and magnetic minerals. However, it should be noted that sample CA 1040 is located in the ``Terres Noires'' (Figure 1 (a)), an organic-rich zone within the cave, whose sediments have undergone significant geochemical alteration, notably decarbonation. Volume III of the monograph on the Caune de l'Arago [de Lumley et al. 2020, p. 549, paragraph ``Palaeontology''], presented in Figure 1 (b), mentions a scarcity of bones and limestone lithic objects, although they are abundant in the same stratigraphic horizon outside the ``Terres Noires'' zone. The continuation of the excavation would allow to go further on this point.

The discovery of charcoal associated with magnetic minerals that can be formed by heating, in a level estimated to be 560,000 years old, leads to consider and examine some exciting new hypotheses.

For instance, the charcoal could have been introduced through fissures from a medieval charcoal kiln. However, it is difficult to prove that the charcoals from the charcoal kiln are indeed the same as those found in level Q4. Such a hypothesis could be tested by identifying the vegetal species, by dating and by soil micromorphology. Furthermore, it would be necessary to show how charcoals sometimes 1 mm long could have travelled so far from the surface kiln to reach a depth of more than 10 m. If the charcoal kiln had also produced magnetic minerals, it would be necessary to explain how magnetic minerals and charcoals could remain systematically associated together after transport over such a long distance in view of the physicochemical constraints mentioned above. It should also be noted that these associations are located only in two levels (RFB and Q4), whereas they should be present systematically in the case of inputs from outside the cave or by migration from the charcoal kiln. Finally, these charcoals would have contaminated all the overlying sediments of level Q4, which would call into question all the data already obtained on the distribution of charcoals in the stratigraphic infilling.

In conclusion, our article clearly demonstrates the presence of traces of fire (charcoal associated with magnetic minerals) in the Arago Cave at Tautavel in sediments dated at more than 400,000 years BP. However, this result does not allow us to decide between the two hypotheses of an in situ or ex situ origin. Our article therefore invites more detailed investigations with additional observations, experiments and analyses. Further studies, including magnetic, micromorphological, anthracological, taphonomic and Raman analyses, could provide more insight into the origin of the charcoals and magnetic minerals associated together in level Q4. A great deal of multidisciplinary research is in perspective.


References

[Aldeias et al., 2016] V. Aldeias; H. L. Dibble; D. Sandgathe; P. Goldberg; S. J. P. McPherron How heat alters underlying deposits and implications for archaeological fire features: A controlled experiment, J. Archaeol. Sci., Volume 67 (2016), pp. 64-79 | DOI

[de Lumley et al., 2020] H. de Lumley; C. Fontaneil; B. Mestour; C. Perrenoud; T. Saos Études granulométrique, pétrographique, minéralogique, géochimique, micromorphologique et de la susceptibilité magnétique des formations pléistocènes de la Caune de l’Arago et de son environnement géologique, Caune de l’Arago : Tautavel-en-Roussillon, Pyrénées-Orientales, France, Volume 3, CNRS Éditions, 2020

[Deldicque et al., 2021] D. Deldicque; J. P. Pozzi; C. Perrenoud; C. Falguères; G. Mahieux; A. S. Lartigot-Campin; J. N. Rouzaud Search for early traces of fire in the Caune de l’Arago et Tautavel (Eastern Pyrenees, France), combining magnetic susceptibility measurements, microscopic observations and Raman analysis, Comptes Rendus. Géoscience, Volume 353 (2021) no. 1, pp. 247-264 | DOI

[Goren-Inbar et al., 2004] N. Goren-Inbar; N. Alperson; M. E. Kislev; O. Simchoni; Y. Melamed; A. Ben-Nun; E. Werker Evidence of hominin control of fire at Gesher Benot Yaaqov, Israel. Science, Volume 304 (2004) no. 5671, pp. 725-727 | DOI

[Monnier et al., 2016] J. L. Monnier; A. L. Ravon; S. Hinguant; B. Hallégouët; C. Gaillard; M. Laforge Menez-Dregan 1 (Plouhinec, Finistère, France) : un site d’habitat du Paléolithique inférieur en grotte marine. Stratigraphie, structures de combustion, industries riches en galets aménagés, L’Anthropologie, Volume 120 (2016) no. 3, pp. 237-262 | DOI

[Roebroeks and Villa, 2011] W. Roebroeks; P. Villa On the earliest evidence for habitual use of fire in Europe, Proc. Natl. Acad. Sci. USA, Volume 108 (2011) no. 13, pp. 5209-5214 | DOI

[Shimelmitz et al., 2014] R. Shimelmitz; S. L. Kuhn; A. J. Jelinek; A. Ronen; A. E. Clark; M. Weinstein-Evron ‘Fire at will’: The emergence of habitual fire use 350,000 years ago, J. Hum. Evol., Volume 77 (2014), pp. 196-203 | DOI


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