Bone diagenesis study of the burials from the Pedra do Alexandre archaeological site, Carnaúba dos Dantas, RN

  • Henry Socrates Lavalle Sullasi Universidade Federal de Pernambuco
  • André Luiz Campelo Santos Graduate Program in Archaeology, Universidade Federal de Pernambuco, Avenida Professor Moraes Rego, 1235, 50670- 901, Recife, PE, Brazil.
  • Sérgio Francisco Serafim Monteiro da Silva Graduate Program in Archaeology, Universidade Federal de Pernambuco, Avenida Professor Moraes Rego, 1235, 50670- 901, Recife, PE, Brazil.
Palavras-chave: Pedra do Alexandre, bone diagenesis, FTIR, XRD.

Resumo

The Pedra do Alexandre archaeological site was a target of several archaeological campaigns, the bone remains from at least 36 human individuals, and charcoal fragments associated to these burials were among the archaeological findings of the campaigns. The radiocarbon dating provided values between 9400±90 BP and 2620±60 BP. However, attempts to dating the bone remain proved fruitless due to the loss of collagen caused by taphonomic processes. From that finding, this research was initiated to assess the degree of diagenetic alteration of the bone remains from the Pedra do Alexandre archaeological site. FTIR and XRD analyses conducted on 6 random human bone samples from the Site and pH measurements in correlated sediments has enabled us to conclude that all the analyzed bone remains were extensively degraded by microbial activity, although in different degrees of alteration.Resumo:O sítio arqueológico Pedra do Alexandre foi alvo de várias campanhas arqueológicas, os restos ósseos de pelo menos 36 indivíduos humanos, e os fragmentos de carvão associados a esses enterros estavam entre os achados arqueológicos das campanhas. A datação por radiocarbono forneceu valores entre 9400±90 AP e 2620±60AP. No entanto, as tentativas de datar os ossos continuam sendo infrutíferas devido à perda de colágeno causada pelos processos afonômicos. A partir dessa descoberta, esta pesquisa foi iniciada para avaliar o grau de alteração diagenética dos remanescentes ósseos do sítio arqueológico Pedra do Alexandre. Análises de FTIR e XRD em 6 amostras aleatórias de osso humano do Sítio e medições de pH em sedimentos relacionados permitiram concluir que todos os remanescentes ósseos analisados foram amplamente degradados pela atividade microbiana, embora em diferentes graus de alteração.

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Referências

Abdel-Maksoud, G., 2010. Comparison between the properties of ʺaccelerated-agedʺ bones and archaeological bones. Mediterranean Archaeology and Archaeometry 10(1), Greece, pp. 89-112.

Ambrose, S.H., Krigbaum, J., 2003. Bone chemistry and bioarchaeology. Journal of Anthropological Archaeology 22, pp. 193-199.

Anthony, J.W., Bideaux, R.A., Bladh, K.W., Nichols, M.C. (eds.), 2003. Handbook of Mineralogy. Mineralogical Society of America, Chantilly.

Beasley, M.M., Bartelink, E.J., Taylor, L., Miller, R.M., 2014. Comparison of transmission FTIR, ATR, and DRIFT spectra: implications for assessment of bone bioapatite diagenesis. Journal of Archaeological Science 15, pp. 16-22.

Berna, F., Matthews, A., Weiner, S., 2004. Solubilities of bone mineral from archaeological sites: the recrystallization window. Journal of Archaeological Science 31(7), pp. 867-882.

Binford, L.R., 1981. Bones: ancient men and modern myths. Academic Press, Inc., Orlando.

Borges, C.C.L., 2008. Uma narrativa pré-histórica. O cotidiano de antigos grupos humanos no sertão do Seridó/RN. Universidade Estadual de São Paulo, Assis.

Brady, A.L., White, C.D., Longstaffe, F.J., Southam, G., 2008. Investigating intra-bone isotopic variations in bioapatite using IR-laser ablation and micromilling: Implications for identifying diagenesis? Palaeogeography, Palaeoclimatology, Palaeoecology 266, pp. 190-199.

Brock, F., Higham, T., Ramsey, B., 2010. Pre-screening techniques for identification of samples suitable for radiocarbon dating of poorly preserved bones. Journal of Archaeological Science 37(4), pp. 855-865.

Brown, T., Brown, K., 2011. Biomolecular Archaeology An Introduction. John Wiley & Sons, Chichester.

Ceccanti, B., Landi, A., Bartoli, F., Mallegni, F., Masciandaro, G., Carmignani, A., Macci, C., 2007. Study and control of the geochemical processes responsible of diagenetic alteration of archaeological bones. Atti Soc. tosc. Sci. nat., Mem., Serie A 112, Toscana, pp. 61-68.

Collins, M.J., Nielsen-Marsh, C.M., Hiller, J., Smith, C.I., Roberts, J.P., Prigodich, R.V., Wess, T.J., Csapò, J., Millard, A.R., Turner-Walker, G., 2002. The survival of organic matter in bone: a review. Archaeometry 44(3), Oxford, pp. 383-394.

Colonese, A.C., Collins, M., Lucquin, A., Eustace, M., Hancock, Y., Ponzoni, R.A.R.,Mora, A.,Smith, C.,DeBlasis, P.,Figuti, L., Wesolowski, V.,Plens, C. R.,Eggers, S.,Farias, D.S.E.,Gledhill, A.,Craig, O.E., 2014. Long-Term Resilience of Late Holocene Coastal Subsistence System in Southeastern South America. PLoS ONE 9(4), p. e93854.

Farias, A.A., 2013. Diagênese óssea em ambiente semiárido brasileiro: modelagem e experimentações com sedimentos do sítio Pedra do Alexandre. Universidade Federal de Pernambuco, Recife.

Farlow, J.O., Argast, A., 2006. Preservation of fossil bone from the Pipe Creek Sinkhole (Late Neogene, Grant County, Indiana, U.S.A.). J. Paleont. Soc. Korea. 22(1), Seul, pp. 51-75.

Garrison, E.G., 2003. Techniques in Archaeological Geology. Springer, New York.

Goffer, Z., 2007. Archaeological Chemistry. John Wiley & Sons, Inc., Hoboken.

Harbeck, M., Grupe, G., 2009. Experimental chemical degradation compared to natural diagenetic alteration of collagen: implications for collagen quality indicators for stable isotope analysis. Archaeology and Anthropology Science 1, pp. 43-57.

Hedges, R.E.M., Millard, A.R., Pike, A.W.G., 1995. Measurements and relationships of diagenetic alteration of bone from three archaeological sites. Journal of Archaeological Science 22, pp. 201–209.

Hedges, R.E.M., 2002. Bone diagenesis: an overview of processes. Archaeometry 44(3), Oxford, pp. 319-328.

Hollund, H.I., Ariese, F., Fernandes, R., Jans, M.M.E., Kars, H., 2012. Testing an alternative high-throughput tool for investigating bone diagenesis: FTIR in attenuated total reflection (ATR) mode. Archaeometry 55(3), Oxford, pp. 507-532.

Kennan, S.W., 2016. From bone to fossil: A review of the diagenesis of bioapatite. American Mineralogist 101, pp. 1943-1951.

Koch, P.L., Tuross, N., Fogel, M.L., 1997. The Effects of Sample Treatment and Diagenesis on the Isotopic Integrity of Carbonate in Biogenic Hydroxylapatite. Journal of Archaeological Science 24, pp. 417-429.

Lage, M.C.S.M., Fabris, J.D., Moraes, B.C., Cavalcante, L.C.D., 2006. Análise Química de Sedimentos como indicador de ocupação humana pré-histórica no Parque Nacional Serra da Capivara. Clio Arqueológica 20, Recife, pp. 103-122.

Lage, M.C.S.M., Cavalcante, L.C.D., Santos, J.S. Estudo Químico de sedimentos arqueológicos do Parque Nacional Serra da Capivara. FUMDHAMentos VI, São Raimundo Nonato, pp. 106-114.

Macedo, H.A.M., 2009. Pesquisas arqueológicas realizadas em Carnaúba dos Dantas, sertão do Seridó: um balanço. Semana de Humanidades 17, Natal, pp. 1-39.

Mafra, F., Martin, G., Nogueira, M., 2015. Intervenções arqueológicas em sítios a céu aberto na Área Arqueológica do Seridó: os sítios Meggers I e Meggers III – Parelhas – RN, BRASIL. Clio Arqueológica 30(1), Recife, pp. 10-37.

Martin, G., 1995/1996. O Cemitério Pré-Histórico "Pedra do Alexandre" em Carnaúba dos Dantas, RN. Clio Arqueológica 11, Recife, pp. 43-57.

Martin, G., 2003. Fronteiras estilísticas e culturais na Arte Rupestre do Seridó RN. Clio Arqueológica 15(1), Recife, pp. 11-32.

Martin, G., 2008. Pré-História do Nordeste do Brasil. Editora Universitária da UFPE, Recife.

Martin, G., Borges, F.M., Sena, V.K., Saldanha, R.S.M., Almeida, M., Nogueira, M.A.A., Barbosa, C.C.A., 2008. Levantamento arqueológico da área arqueológica do Seridó – Rio Grande do Norte – Brasil: Nota Prévia. Clio Arqueológica 23(2), Recife, pp. 1-18.

Mays, S., 1988. The archaeology of human bones. Routledge, London.

Mutzenberg, D.S., 2007. Gênese e ocupação pré-histórica do Sítio Arqueológico Pedra do Alexandre: uma abordagem a partir da caracterização paleoambiental do Vale do Rio Carnaúba-RN. Universidade Federal de Pernambuco, Recife.

Pate, F.D., Huton, J.T., 1988. The use of soil chemistry data to address post-mortem diagenesis in bone mineral. Journal of Archeological Science 15(6), pp. 729-739.

Pate, F.D., Huton, J.T., Norrish, K., 1989. Ionic exchange between soil solution and bone: toward a predictive model. Applied Geochemistry 4(3), Great Britain, pp. 303-316.

Piga, G., Thompson, T.J., Malgosa, A., Enzo, S., 2009. The Potential of X-Ray Diffraction in the Analysis of Burned Remains from Forensic Contexts. Journal of Forensic Science 54(3), pp. 534-539.

Pruvost, M., Schwarz, R., Correia, V.B., Champlot, S., Braguier, S., Morel, N., Fernandez-Jalvo, Y., Grange, T., Geigl, E.M., 2007. Freshly excavated fossil bones are best for amplification of ancient DNA. Proceedings of the National Academy of Sciences 104(3), Washington, pp. 739-744.

Queiroz, A.N., 2002. Fauna de vertebrados do sítio arqueológico Pedra do Alexandre, Carnaúba dos Dantas, RN, Brasil: Uma abordagem zooarqueológica e tafonômica. Clio Arqueológica 15, Recife, pp. 267-282.

Queiroz, A.N., Cardoso, G.M.B., 1995/1996. Nota Prévia Sobre a Fauna Holocênica de Vertebrados do Sítio Arqueológico Pedra do Alexandre, Carnaúba dos Dantas-RN, Brasil. Clio Arqueológica 11, Recife, pp. 137-140.

Reiche, I., Vignaud, C., Menu, M., 2002. The crystallinity of ancient bone and dentine: new insights by transmission electron microscopy. Archaeometry 44(3), Oxford, pp. 447-459.

Roberts, S.J., Smith, C.I., Millard, A., Collins, M.J., 2002. The taphonomy of cooked bone: characterising boiling and its physico-chemical effects. Archaeometry 44(3), Oxford, pp. 485-494.

Rogers, K., Beckett, S., Kuhn, S., Chamberlain, A., Clement, J., 2010. Contrasting the crystallinity indicators of heated and diagenetically altered bone mineral. Palaeogeography, Palaeoclimatology, Palaeoecology 296(1-2), pp. 125-129.

Shahack-Gross, R., Marshall, F., Weiner, S., 2003. Geo-Ethnoarchaeology of Pastoral Sites: The Identification of Livestock Enclosures in Abandoned Maasai Settlements. Journal of Archaeological Science 30(4), pp. 439-459.

Shahack-Gross, R., Berna, F., Karkanas, P., Weiner, S., 2004. Bat guano and preservation of archaeological remains in cave sites. Journal of Archaeological Science 31(9), pp. 1259-1272.

Smith, C.I., Craig, O.E., Prigodich, R.V., Nielsen-Marsh, C.M., Jans, M.M.E., Vermeer, C., Collins, M.J., 2005. Diagenesis and survival of osteocalcin in archaeological bone. Journal of Archaeological Science 32(1), pp. 105-113.

Stathopoulou, E.T., Psycharis, V., Chryssikos, G.D., Gionis, V., Theodorou, G., 2008. Bone diagenesis: New data from infrared spectroscopy and X-ray diffraction. Palaeogeography, Palaeoclimatology, Palaeoecology 266(3-4), pp. 168-174.

Stiner, M.C., Kuhn, S.L., Weiner, S., Bar-Yosef, O., 1995. Differential burning, recrystallization, and fragmentation of archaeological bone. Journal of Archaeological Science, 22(2), pp. 223-237.

Sui, T., Sandholzer, M.A., Baimpas, N., Landini, G., Walmsley, A.D., Lumley, P.J., Korsunsky, M., 2013. Ultrastructural Changes in Burnt Dental Tissue Revealed by Synchrotron X-ray Scattering. Proceedings of the International MultiConference of Engineers and Computer Scientists 2013 2, Hong Kong, pp. 775-779.

Surovell, T.A., Stiner, M.C., 2001. Standardizing Infra-red Measures of Bone Mineral Crystallinity: an Experimental Approach. Journal of Archaeological Science 28, pp. 633-642.

Szostek, K., 2009. Chemical signals and reconstruction of life strategies from ancient human bones and teeth – problems and perspectives. Anthropological Review 72, pp. 3-30.

Thompson, T.J.U., Gauthier, M., Islam, M., 2009. The application of a new method of Fourier Transform Infrared Spectroscopy to the analysis of burned bone. Journal of Archaeological Science 36(3), pp. 910-914.

Torres, A.C., 1995/1996. Estudo dos Pigmentos do Sítio Pré-Histórico Pedra do Alexandre, Carnaúba dos Dantas, RN. Clio Arqueológica 11, Recife, pp. 61-70.

USDA Natural Resources Conservation Service, 1998. Soil Quality Information Sheet – Soil Quality Indicators: pH. USDA Natural Resources Conservation Service, Washington, pp. 1-2.

Weiner, S., 2010. Microarchaeology: beyond the visible archaeological record. Cambridge Press, Cambridge.

Weiner, S., Bar-Yosef, O., 1990. States of preservation of bones from prehistoric sites in the Near East: a survey. Journal of Archaeological Science 17, pp. 187–196.

Zazzo, A., Saliège, J.-F., 2011. Radiocarbon dating of biological apatites: A review. Palaeogeography, Palaeoclimatology, Palaeoecology 310, pp. 52-61.

Zazzo, A., Saliège, J.-F., Lebon, M., Lepetz, S., Moreau, C., 2012. Radiocarbon dating of calcined bones: insights from combustion experiments under natural conditions. Radiocarbon 54(3-4), Tucson, pp. 855-866.

Publicado
2018-11-30
Como Citar
Lavalle Sullasi, H. S., Santos, A. L. C., & da Silva, S. F. S. M. (2018). Bone diagenesis study of the burials from the Pedra do Alexandre archaeological site, Carnaúba dos Dantas, RN. Cadernos Do LEPAARQ (UFPEL), 15(30), 162-178. https://doi.org/10.15210/lepaarq.v15i30.12955
Seção
Dossiê: Estudos em Arqueometria