Abstract
The Abric Romaní rock-shelter (Capellades, Barcelona) is a key site for studying the use of fire among Neanderthal communities. The evidence of its use, including the identification of heated faunal remains, has led to infer the practice of some domestic activities in the site, such as cooking, use of bones as fuel, or habitat surface cleaning throughout the entire sequence. In the Qa level, dated ca. 58 ky BP, heated bones are characterized by the predominance of brown homogeneous surfaces, a different pattern from those described for the abovementioned activities. Here, an experiment is presented to clarify the domestic activities at the Qa level. We built hearth replicas and heated defleshed shaft fragments in fresh and dry. The recovered fragments were described according to their coloration and spatial relationship in the hearth. Following these parameters, a new classification method of heated bones from archeological sites is proposed: color and its distribution on the bone surface. We detected differences in color depending on whether they were buried or not and whether they were from the center or the peripheral areas. The brown bones with the color homogeneously distributed on their surface were exclusively found on buried heated bones. Compared with the remains from the Qa level, the results suggest that the post-depositional burning of the faunal remains was habitual, which could be related to the overlapping occupations at this level.
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References
Albert RM, Lavi O, Estroff L, Weiner S (1999) Mode of occupation of Tabun Cave, Mt Carmel, Israel during the Mousterian period: a study of the sediments and phytoliths. J Archaeol Sci 26:1249–1260
Albert RM, Berna F, Goldberg P (2012) Insights on Neanderthal fire use at Kebara Cave (Israel) through high resolution study of prehistoric combustion features: evidence from phytoliths and thin sections. Quat Int 247:278–293
Aldeias V, Goldberg P, Sandgathe D, Berna F, Dibble HL, McPherron SP, Turq A, Rezek Z (2012) Evidence for Neanderthal use of fire at Roc de Marsal (France). J Archaeol Sci 39:2414–2423
Aldeias V, Dibble HL, Sandgathe D, Goldberg P, McPherron SJP (2016) How heat alters underlying deposits and implications for archaeological fire features: a controlled experiment. J Archaeol Sci 67:64–79
Allué E, Burjachs F, García A, López-García JM, Bennásar M, Rivals F, Blain H-A, Expósito I, Martinell J (2012) Neanderthal landscapes and their home environment: flora and fauna records from level J. In: Carbonell E (ed) High Resolution Archaeology and Neanderthal Behavior: Time and Space in Level J of Abric Romaní (Capellades, Spain), Vertebrate Paleobiology and Paleoanthropology. Springer Netherlands, Dordrecht, pp 135–157
Asmussen B (2009) Intentional or incidental thermal modification? Analysing site occupation via burned bone. J Archaeol Sci 36:528–536
Baddeley A, Rubak E, Turner R (2015) Spatial point patterns: methodology and applications with R. Chapman and Hall/CRC Press, New York
Bailey, G., 2008. Time perspectivism: origin and consequences. En: Holdaway, S., Wandsnider, L. (Eds.): Time in Archaeology: Time Perspectivism Revisited. Utah: University Press, pp. 13-30.
Barkai R, Rosell J, Blasco R, Gopher A (2017) Fire for a reason. Barbecue at Middle Pleistocene Qesem Cave, Israel. Curr Anthropol 58:S314–S328
Behrensmeyer AK (1978) Taphonomic and ecologic information from bone weathering. Paleobiology 4:150–162
Bennett JL (1999) Thermal alteration of buried bone. J Archaeol Sci 26:1–8
Berna F, Goldberg P, Horwitz LK, Brink J, Holt S, Bamford M, Chazan M (2012) Microstratigraphic evidence of in situ fire in the Acheulean strata of Wonderwerk Cave, Northern Cape province, South Africa. Proc Natl Acad Sci 109(20):E1215–E1220. https://doi.org/10.1073/pnas.1117620109
Binford LR (1978) Nunamiut Ethnoarchaeology. Academic Press, New York
Binford LR (1981) Bones. Ancient men and modern myths. Academic Press, Orlando
Binford LR (1984) Faunal remains from Klasies River mouth. Academic Press, Orlando
Bischoff JL, Julia R, Mora R (1988) Uranium series dating of the Mousterian occupation at Abric Romaní, Spain. Nature 332:68–70
Bischoff JL, Ludwig K, Garcia JF, Carbonell E, Vaquero M, Stafford TW, Jull AJT (1994) Dating of the basal Aurignacian sandwich at Abric Romaní (Catalunya, Spain) by radiocarbon and uranium-series. J Archaeol Sci 21:541–551
Blumenschine RJ, Marean CW (1993) A carnivore’s view of archaeological bone assemblages. In: Hudson J (ed) From Bones to Behavior. Center for Archaeological Investigations, Carbondale, pp 273–301
Blunier T, Brook EJ (2001) Timing of millennial-scale climate change in Antarctica and Greenland during the last glacial period. Science 291:109–112
Braadbaart F, Reidsma FH, Roebreks W, Chioti L, Slon V, Meyer M, Théry-Parisot I, van Hoesel A, Nierop KGJ, Kaal J, van Os B, Marquer L (2020) Heating histories and taphonomy of ancient fireplaces: a multi-proxy case study from the Upper Palaeolithic sequence of Abric Pataud (Les Eyzies-de-Tayac, Fram¡nce). J Archaeol Sci Rep 33
Brain CK (1981) The hunters or the hunted? An introduction to African Cave taphonomy. University of Chicago Press, Chicago
Brink JS et al (2012) First hominine remains from a ∼1.0 million year old bone bed at Cornelia-Uitzoek, Free State Province, South Africa
Buikstra JE, Swegle M (1989) Bone modification due to burning experimental evidence. In: Bonnichsen R, Sorg MH (eds) Bone Modification. University of Maine Center for the Study of the First Americans, Orono, pp 247–258
Bunn HT (1983) Comparative analysis of modern bone assemblages from a San Hunter-Gatherer Camp in the Kalahari Desert, Botswana, and from a spotted hyena den near Nairobi, Kenya. In: Clutton-Brock J (ed) Animals and archaeology. 1. Hunters and their prey. BAR International Series, Oxford, pp 143–148
Cáceres I (2002) Tafonomía de yacimientos antrópicos en Karst. Complejo Galería (Sierra de Atapuerca, Burgos), Vanguard Cave (Gibraltar) y Abric Romaní (Capellades, Barcelona). Dpto. Historia y Geografía, Universitat Rovira i Virgili, Tarragona, Spain: p. 659
Cáceres I, Bravo P, Esteban M, Expósito I, Saladié P (2002) Fresh and heated bones breakage. An experimental approache. In: Renzi M, Pardo AV, Belinchón M, Peñalver E, Montoya P, Márquez-Aliaga A (eds) Current topics on taphonomy and fossilization. Ajuntament de Valencia, Valencia. Col.lección Encontres 5, 471 - 481
Camarós E, Cueto M, Teira LC, Tapia J, Cubas M, Blasco R, Rosell J, Rivals F (2013) Large carnivores as taphonomic agents of space modification: an experimental approach with archaeological implications. J Archaeol Sci 40:1361–1368
Capaldo SD (1998) Simulating the formation of dual-patterned archaeofaunal assemblages with experimental control samples. J Archaeol Sci 25:311–330
Carbonell E (2002) Abric Romaní. Nivell I. Models d’ocupació de curta durada de fa 46.000 anys a la Cinglera del Capelló (Capellades, Anoia, Barcelona). Universitat Rovira i Virgili, Tarragona
Carbonell E (ed) (2012) High resolution archaeology and Neanderthal behavior: time and space in level J of Abric Romaní (Capellades, Spain). Springer Verlag
Carbonell E, Vaquero M (1998) Behavioral complexity and biocultural change in Europe around forty thousand years ago. J Anthropol Res 54:373–398
Carroll EL, Smith M (2018) Burning questions: investigations using field experimentation of different patterns of change to bone in accidental vs deliberate burning scenarios. J Archaeol Sci Rep 20:952–963
Chacón MG, Bargalló A, Gabucio M-J, Rivals F, Vaquero M (2015) Neanderthal behaviors from a spatio-temporal perspective: an interdisciplinary approach to interpret archaeological assemblages. In: Conard NJ, Delagnes A (eds) Settlement Dynamics of the Middle Paleolithic and Middle Stone Age, vol IV. Kerns Verlag, Tübingen, pp 253–294
Chacón MG, Fernández-Laso MC (2007) Modelos de ocupación durante el Paleolítico medio: el nivel K del Abric Romaní (Capellades, Barcelona, España). Complutum:47–60
Chacón MG, Fernández-Laso MC, García-Antón MD, Allué E (2007) Level K and L from Abric Romaní (Barcelona, Spain): procurement resources and territory management in shorts occupations during the Middle Palaeolithic. In: Raw Material Supply Areas and Food Supply Areas. Integrated Approach of the Behaviours, Session WS23. Archaeopress, Oxford, pp. 187-197
Costamagno S, Griggo C, Mourre V (1998) Approche Expérimentale d’un Problème Taphonomique: Utilisation de Combustible Osseux au Paléolithique. Préhistoire Européenne 13:167–194
Costamagno S, Théry-Parisot I, Brugal JP, Guilbert R (2002) Taphonomic consequences of the use of bones as fuel. Experimental data and archaeological applications. In: O'Connor, T. (Ed.), Biosphere to Lithosphere, New Studies in Vertebrate Taphonomy, (Proceed. 9th Conf. ICAZ, Durham, Aug. 02). Oxbow Books, Durham, pp. 51 - 62
Costamagno S, Théry-Parisot I, Kuntz D, Bon F, Mensan R (2010) Impact taphonomique d’une combustion prolongée sur des ossements utilisés comme combustible. P@lethnologie/2010.2 http://blogs.univ-tlse2.fr/palethnologie/wp-content/files/2010/fr FR/Palethnologie-2010-FR-14-Costamagno-etalii.pdf
De Graff G (1961) Gross effects of a primitive hearth. S Afr Archaeol Bull 16:25–26
Domínguez-Rodrigo M, de Juana S, Galán AB, Rodríguez M (2009) A new protocol to differentiate trampling marks from butchery cut marks. J Archaeol Sci 36:2643–2654
Fernández-Jalvo Y, Perales Piquer C (1990) Análisis macroscópicos de huesos quemados experimentalmente. Comunicaciones de la Reunión de Tafonomía y fosilización, Madrid, pp 105–110
Gabucio MJ (2014) Estudi espaciotemporal d’un palimpsest: anàlisi zooarqueològica i tafonòmica del nivell O de l’abric romaní (Capellades, Barcelona, Espanya). Dpt. Història i Història de l’Art, Universitat Rovira i Virgili, Tarragona, Spain: p. 492
Gabucio MJ, Cáceres I, Rodríguez-Hidalgo A, Rosell J, y Saladié P (2014a) A wildcat (Felis silvestris) butchered by Neanderthals in Level O of the Abric Romaní site (Capellades, Barcelona, Spain). Quat Int 326 - 327:307–318
Gabucio MJ, Cáceres I, Rosell J, Saladié P, Vallverdú J (2014b) From small bone fragments to Neanderthal activity areas: the case of Level O of the Abric Romaní (Capellades, Barcelona, Spain). Quat Int 330:36–51
García-Antón MD, Morant N (2000) Estudio de las materias primas líticas del nivel I del Abric Romaní, 2000. In: 3o Congresso de Arqueología Peninsular: UTAD, Vila Real, Portugal, setembro de 1999, vol. 2. Paleolítico da Península Ibérica, ISBN 972-97613-3-7, pp. 203-214. Presented at the 3o Congresso de Arqueología Peninsular: UTAD, Vila Real, Portugal, setembro de 1999, ADECAP, pp. 203-214
Gifford-Gonzalez D (1993) Gaps in the zooarchaeological analyses of butchery: is gender an issue? In From Bones to Behavior. Ethnoarchaeological and Experimental Contributions to the Interpretation of Faunal Remains. In: Hudson J (ed) Carbondale, Center for Archaeological Investigations, Southern Illinois University at Carbondale, pp. 181 - 199
Gómez De la Rúa D, y Díez Martín F (2009) La domesticación del fuego durante el Pleistoceno inferior y medio: estado de la cuestión. Veleia 26:189–216
Gómez de Soler B (2016) Procedencia del aprovisionamiento lítico durante el Paleolítico medio en el yacimiento del Abric Romaní (Capellades, Barcelona). Niveles M, Oa y P. Universitat Rovira i Virgili, Tarragona. Ph.D
Gómez de Soler B, Soto M, Vallverdú J, Vaquero M, Bargalló A, Chacón MG, Romagnoli F, Carbonell E (2020) Neanderthal lithic procurement and mobility patterns through a multi-level study in the Abric Romaní site (Capellades, Spain). Quat Sci Rev 237:106315
Goudsblom F (1992) Fire and civilization. The Penguin Press, Allen Lane, p 247
Grayson DK (1984) Quantitative zooarchaeology. Topics in the Analysis of Archaeological Faunas. Academic Press, Orlando
Hlubik S, Berna F, Feibel C, Braun D, Harris JWK (2017) Researching the nature of fire at 1.5 Mya on the site of FxJj20 AB, Koobi Fora, Kenya, using high-resolution spatial analysis and FTIR spectrometry. Curr Anthropol 58_:S243–S257
Hlubik S, Cutts R, Braun DR, Berna F, Feibel CS, Harris JWK (2019) Hominin fire use in the Okote member at Koobi Fora, Kenia: new evidence for the old debate. J Hum Evol 133:214–229
Levins R (1968) Evolution in changing environments: some theoretical explorations. Princeton University Press, Princeton
Lyman RL (1994) Vertebrate taphonomy. Cambridge University Press, Cambridge
Maguire JM, Pemberton D, Collett MH (1980) The Makapansgat limeworks grey breccia: Hominids, hyaenas, histricids, or hillwhas? Paleontol Afr 23:75–98
Marín J, Saladié P, Rodríguez-Hidalgo A, Carbonell E (2017) Neanderthal hunting strategies inferred from mortality profiles within the Abric Romaní sequence. PLoS One 12:e0186970
Marín J, Rodríguez-Hidalgo A, Vsllverdú J, Gómez de Soler B, Rivals F, Rabuñal J, Pineda A, Chacón MG, Carbonell E, Saladié P (2019) Neanderthal logistic mobility during MIS3: zooarchaeological perspective of Abric Romaní level P (Spain). Quat Sci Rev 225:106033
Marín-Arroyo AB, Landete Ruiz MD, Vidal Bernabeu G, Seva Román R, González, Morales MR, Straus LG (2008) Archaeological implications of human-derived manganese coatings: a study of blackened bones in El Miro'n Cave, Cantabrian Spain. J Archaeol Sci 35:801–813
Marquer L, Nespoulet R, Chiotti L (2010) A new approach to study the fuel used in hearths by hunter-gatherers at the Upper Palaeolithic site of Abri Pataud Dordogne, France. J Archaeol Sci 37:2735–2746
McAdams C, Morley MW, Roberts RG (2021) The acid test: an experimental microarchaeological study of guano-driven diagenesis in tropical cave sediments. J Archaeol Sci Rep 37:102947
Morin E (2010) Taphonomic implications of the use of bone as fuel. In: Chabal L, Costamagno S (eds) The Taphonomy of Burned Organic Residues and Combustion Features in Archaeological Contexts, Théry-Parisot I. Proceedings of the Round Table, Valbonne, May 27-29, 2008. P@lethnologie, vol 2, pp 209–217
Oakley KP (1961) On man’s use of fire, with comments on tool-making and hunting. In: Washburn S (ed) Social Life of Early Man, vol 31. Viking Funds Publications in Anthropology, pp 176–193
Pérez L, Sanchís A, Hernández CM, Galván B, Sala R, Mallol C (2017) Hearths and bones: an experimental study to explore temporality in archaeological contexts based on taphonomical changes in burnt bones. J Archaeol Sci 11:287–309
Potts R, Shipman P (1981) Cutmarks made by stone tools on bones from Olduvai Gorge, Tanzania. Nature 291:577–580
R Core Team (2018) R: a language and environment for statistical computing. R Foundation for Statistical Computing, Vienna. https://www.R-project.org
Reidsma F, van Hoesel A, van Os BJH, Megens L, Braadaart F (2016) Charred bone: physical and chemical changes during laboratory simulated heating under reducing conditions and its relevance for the study of fire use in archaeology. J Achaeol Sci Rep 10:282–292
Richter D (2008) Altersbestimmung der Fundschichten von Schöningen mit dosimetrischen Datierungsmethoden. Die Schöninger Speere—Mensch und Jagd vor 400,000 Jahren, eds Thieme H, Maier R (Konrad Theiss, Stuttgart), pp 62–66.
Ripley BD (1988) Statistical inference for spatial processes. Cambridge University Press, New York
Roebroeks W, Villa P (2011) On the earliest evidence for habitual use of fire in Europe. PNAS USA 108:5209–5214
Rosell J (2001) Patrons d’aprofitament de les biomasses animals durant el Pleistocè Inferior i Mig (Sierra de Atapuerca, Burgos) i Superior (Abric Romaní, Barcelona). Departament de Història i Geografia. Tarragona, Universitat Rovira i Virgili: 329
Rosell J, Cáceres I, Blasco R, Bennàsar M, Bravo P, Campeny G, Esteban-Nadal M, Fernández-Laso MC, Gabucio MJ, Huguet R (2012) A zooarchaeological contribution to establish occupational patterns at level J of Abric Romaní (Barcelona, Spain). Quat Int 247:69–84
Saladié P, Huguet R, Díez C, Rodríguez-Hidalgo A, Cáceres I, Vallverdú J, Rosell J, Bermúdez de Castro JM, Carbonell E (2011) Carcass transport decisions in Homo antecessor subsistence strategies. J Hum Evol 61:425–446
Sandgathe DM, Dibble HL, Goldberg P, McPherron SP, Turq A, Niven L, Hodgkins J (2011) On the role of fire in Neanderthal adaptations in western Europe: evidence from Pech de l’Azé IV and Roc de Marsal, France. PaleoAnthropology 2011:216–242
Sanz M, Daura J, Cabanes D, Égüez N, Carrancho A, Badal E, Souto P, Rodrigues F, Zilhão J (2020) Early evidence of fire in south-western Europe: the Acheulean site of Gruta da Aroeira (Torres Novas, Portugal). Sci Rep 10:12053
Schiffer MB (1983) Toward the identification of formation processes. Am Antiq 48:675–706
Schiffer MB (1987) Formation processes of archaeological record. University of New Mexico Press, Albuquerque
Shahack-Gross R, Bar-Yosef O, Weiner S (1997) Black-colored bones in Hayonim Cave, Israel: differentiating between burning and oxide staining. J Archeol Sci 24:439–446
Sharp WD, Mertz-Kraus R, Vallverdu J, Vaquero M, Burjachs F, Carbonell E, Bischoff JL (2016) Archeological deposits at Abric Romaní extend to 110ka: U-series dating of a newly cored, 30 meter-thick section. J Archaeol Sci Rep 5:400–406
Shimelmitz R, Khun SL, Jelinek A, Ronen A, Clark AE, Weinsten-Evron M (2014) Fire at will: the emergence of habitual fire use 350.000 years ago. J Hum Evol 77:196–203
Shipman P (1981) Life history of a fossil. An introduction to Taphonomy and Paleoecology. Harvard University Press, Massachusetts
Shipman P, Rose J (1983) Early hominid hunting, butchering, and carcass-processing behaviors: approaches to the fossil record. J Anthropol Archaeol 2:57–98
Shipman P, Fisher DC, Rose JJ (1984) Mastodon butchery: microscopy evidence of carcass processing and bone tool use. Paleobiology. 10(3):358–365
Simpson GG (1970) Uniformitarianism. An inquiry into principle, theory, and method in geohistory and biohistory. In: Hecht MK, Steere WC (eds) Essays in evolution and genetics in honor of Theodosius Dobzhansky. Appleton, New York, pp 43–96
Smolderen A (2016) Cinquante nuances de noir. Problèmes de diagnostic en archéologie du feu: études de cas du Bassin Mosan belge aun MIS 3. Faculté de philosophie et sciences sociales. Université libre de Bruxelles. Tesis doctoral inédita. 560 p
Solé A, Allué E, Carbonell E (2013) Hearth-related wood remains from Abric Romaní layer M (Capellades, Spain). J Anthropol Res 69:535–559
Sorensen AC, Claud E, Soressi M (2018) Neanderthal fire-making technology inferred from microwear analysis. Sci Rep 8:10065. https://doi.org/10.1038/s41598-018-28342-9
Stiner MC (1991) Food procurement and transport by human and non-human predators. J Archaeol Sci 18:455–482
Stiner MC, Khun SL, Weiner S, Bar Yosef O (1995) Differential burning, recrystallization, and fragmentation of archaeological bone. J Archaeol Sci 22:223–237
Symes SA, Rainwater CW, Chapman EM, Gipson DR, Piper AL (2008) Patterned thermal destruction of human remains in a forensic setting. In: Schmidt C, Symes S (eds) The Analysis of Burned Human, Remains. Academic Press, New York, pp 15–54
Théry-Parisot I, Costamagno S, Brugal JP, Castel JC, Gerbe M, Bouby L, Guilbert R (2009) La question des os brûlés dans les sites du Paléolithique. Les Nouvelles de l'archéologie 118:31–36
Uzquiano P (2008) Domestic fires and vegetation cover among Neanderthalians and anatomically modern human groups (>53-30 Kyrs. BP) in the Cantabrian region (Cantabria, Northern Spain). In: Fiorentino G, Magri D (eds) Charcoal from the Past: Cultural and Palaeoenvironmental Implications. B.A.R. International Series, vol. 1807, Oxford, UK, pp 273–285
Uzquiano P, Yravedra J, Ruiz Zapata B, Gil MJ, Sese C, Baena J (2012) Human behavior and adaptations to MIS 3 environmental trends (>53-30 kyrs BP) at El Esquilleu cave (Cantabria, northern Spain). Quat Int 252:82–89
Vallverdú J (2002) Micromorfologia de las facies sedimentarias de la Sierra de Atapuerca y del Nivel J del Abric Romaní. Implicaciones Geoarqueológicas y paleoetnográficas. Universitat Rovira i Virgili. Ph.D
Vallverdú J, Courty M-A (2012) Microstratigraphic analysis of level J deposits: a dual paleoenvironmental-paleoethnographic contribution to paleolithic archeology at the Abric Romaní. In: Carbonell E (ed) High Resolution Archaeology and Neanderthal Behavior: Time and Space in Level J of Abric Romaní (Capellades, Spain). Springer Netherlands, Dordrecht, pp 77–133
Vallverdú J, Allué E, Bischoff JL, Cáceres I, Carbonell E, Cebrià A, García-Antón D, Huget R, Ibañez N, Martinez K, Pastó I, Rosell J, Saladié P, Vaquero M (2005) Short human occupations in the Middle Palaeolithic level i of the Abric Romaní rock-shelter (Capellades, Barcelona, Spain). J Hum Evol 48(2):157–174
Vallverdú J, Vaquero M, Cáceres I, Allué E, Rosell J, Saladié P, Chacón G, Ollé A, Canals A, Sala R (2010) Sleeping activity area within the site structure of archaic human groups. Curr Anthropol 51:137–145
Vallverdú J, Gómez de Soler B, Vaquero M, Bischoff JL (2012) The Abric Romaní Site and the Capellades Region. In: Carbonell E (ed) High Resolution Archaeology and Neanderthal Behaviour: Time and Space in Level J of Abric Romaní (Capellades, Spain). Springer Netherlands, Dordrecht, pp 19–46
Van Hoesel A, Reidsma FH, van Os BJH, Megens L, Braadbaart F (2019) Combusted bone: physical and chemical changes of bone during laboratory simulated heating under oxidizing conditions and their relevance for the study of ancient fire use. J Archaeol Sci Rep:28
Vaquero M (2008) The history of stones: behavioral inferences and temporal resolution of an archaeological assemblage from the Middle Palaeolithic. J Archaeol Sci 35:3178–3185
Vaquero M, y Pasto, I. (2001) The definition of spatial units in Middle Palaeolithic sites: the hearth-related assemblages. J Archaeol Sci 28(11):1209–1220
Vaquero M, Vallverdú J, Rosell J, Pastó I, Allué E (2001) Neanderthal behavior at the middle paleolithic site of Abric Romaní, Capellades, Spain. J Field Archaeol 28:93–114
Vaquero M, Rando JM, Chacón G (2004) Neanderthal spatial behavior and social structure: hearth-related assemblages from the Abric Romaní Middle Palaeolithic site. In: Conard NJ (ed) Settlement Dynamics of the Middle Paleolithic and Middle Stone Age. Kerns Verlag, Tübingen, pp 367–392
Vaquero M, Chacón MG, García-Antón MD, Gómez de Soler B, Martínez K, Cuartero F (2012) Time and space in the formation of lithic assemblages: the example of Abric Romaní level. Quat Int 247:162–181
Vaquero M, Allué E, Bischoff JL, Burjachs F, Vallverdú J (2013) Environmental, depositional, and cultural changes in the Upper Pleistocene and Early Holocene: the Cinglera del Capelló sequence (Capellades, Spain). Quaternaire 24:49–64
Villa P (1983) Terra Amata and the Middle Pleistocene Archaeological Record of Southern France. University of California Press, Berkeley
Villa P, Mahieu E (1991) Breakage patterns of human long bones. J Hum Evol 21:27–48
Yravedra J, Uzquiano P (2013) Burnt bone assemblages from El Esquilleu cave (Cantabria, Northern Spain): deliberate use for fuel or systematic disposal of organic waste? Quat Sci Rev 6815:175–190
Yravedra J, Álvarez-Alonso D, Estaca-Gómez V, López-Cisneros P, Arrizabalaga A, Elorza M, Iriarte MJ, Jordá-Pardo JF, Sesé C, Uzquiano P (2017) New evidence of bones used as fuel in the Gravettian level at Coímbre cave, northern Iberian Peninsula. Archaeol Anthropol Sci 9:1153–1168
Acknowledgements
Funding for fieldwork is provided by the Ajuntament de Capellades and Romanyà-Valls. We acknowledge the Catalonian Government for concession of the Quadrennial Project CLT009/18/00054. To the research group SGR2017-1040 and the research group SGR -2017-836. To the Ministerio de Ciencia e Innovación of Spanish Government project MCI EIN2020-112254. E. Téllez is beneficiary of a PEJ grant (PEJ2018-005210-A) funded by the Spanish National System of Garantía Juvenil and the European Social Fund. A. Pineda is supported by the Spanish Ministry of Science and Innovation through the “Subprograma Juan de la Cierva-Formación” programme (FJC2019-040804-I). P.S., J.V. and M.G.CH. research is funded by CERCA Programme/Generalitat de Catalunya. This research was supported by the Spanish Ministry of Science and Innovation through the “María de Maeztu” excellence accreditation (CEX2019-000945-M).
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Téllez, E., Saladié, P., Pineda, A. et al. Incidental burning on bones by Neanderthals: the role of fire in the Qa level of Abric Romaní rock-shelter (Spain). Archaeol Anthropol Sci 14, 119 (2022). https://doi.org/10.1007/s12520-022-01577-4
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DOI: https://doi.org/10.1007/s12520-022-01577-4