DIETA NO SAMBAQUI JABUTICABEIRA-II (SC): CONSUMO DE PLANTAS REVELADO POR MICROVESTÍGIOS PROVENIENTES DE CÁLCULO DENTÁRIO

  • Célia Helena Cezar Boyadjian Laboratório de Arqueobotânica e Paisagem, Departamento de Antropologia. Museu Nacional, Universidade Federal do Rio de Janeiro, Quinta da Boa Vista s/n, São Cristovão. CEP:20940-040, Rio de Janeiro/RJ – Brasil
  • Sabine Eggers Laboratório de Antropologia Biológica. Depto. de Genética e Biologia Evolutiva. Instituto de Biociências – USP. Rua do Matão, 277 tr.14 sala 250/252. Cidade Universitária, São Paulo/SP – Brasil
  • Karl Jan Reinhard School of Natural Resources. University of Nebraska – Lincoln. Lincoln, NE 68583-0987 – USA
  • Rita Scheel-Ybert Laboratório de Arqueobotânica e Paisagem, Departamento de Antropologia. Museu Nacional, Universidade Federal do Rio de Janeiro, Quinta da Boa Vista s/n, São Cristovão. CEP:20940-040, Rio de Janeiro/RJ – Brasil
Palavras-chave: Paleodieta, Sambaqui, Cálculo dentário, Microvestígios botânicos, Amido, Fitólito, Diatomácea

Resumo

RESUMO: A análise do conteúdo de cálculo dentário de coleções osteológicas é uma ferramenta poderosa para a Bioantropologia e a Bioarqueologia. Ela é particularmente importante  para sítios arqueológicos a partir dos quais não foram recuperados restos botânicos; caso de muitos sambaquis. Neste estudo, analisaram-se grãos de amido, fitólitos e diatomáceas extraídos de cálculo de sambaquieiros de Jabuticabeira II. Sugere-se que plantas das famílias Araceae, Arecaceae, Convolvulaceae (Ipomoea batatas), Dioscoreaceae (Dioscorea sp.), Maranthaceae (Calathea sp.), Myrtaceae e Poaceae (incluindo Zea mays) eram consumidas. A identificação das diatomáceas reafirma o uso de recursos do ambiente lagunar no entorno do sitio.  Número e distribuição dos microrrestos variaram consideravelmente entre indivíduos, sugerindo uma dieta mais diversificada para alguns. Porém, comparando-se assembléias de microrrestos por sexo, idade de óbito, patologias e características dos sepultamentos, não houve diferença entre eles. Grãos de amido danificados foram observados indicando processamento alimentar. Finalmente, a prática do cultivo por esse grupo não pode ser ainda confirmada, porém, a diversidade de tipos de microrrestos encontrados pode indicar que viviam em um sistema de economia mista, em que a pesca e coleta eram associadas a horticultura e/ou manejo de algumas espécies importantes.ABSTRACT: Analysis of dental calculus contents from human osteological collections is a powerful tool for Archaeology. It is particularly important for sites where archaeobotanical remains were not recovered, such as certain sambaquis. In this study, we analyzed starch grains, phytoliths, and diatoms obtained from calculus from sambaqui Jabuticabeira II. We suggest that plants from the families Araceae (taro), Arecaceae (palms), Convolvulaceae (sweet potato), Dioscoreaceae (yams), Maranthaceae (leren), Myrtaceae (pitanga), and Poaceae (including maize) were consumed. Damaged starches were recovered, indicating food processing. Variations in the number and distribution of starch grains among the individuals suggest a more diversified diet for some of them. However, no difference was found when comparing the starch assemblage by sex, age class, presence or absence of certain pathologies, and burial characteristics. Diatoms identification reaffirms the use of resources from the nearby paleolagoon. The diversity of plant microremains found as well as evidence of use of domesticated plants as food might indicate that the group lived in a system of mixed economy, where fishing and gathering were associated with horticulture. Although preliminary, the results presented here reaffirm the importance of plants in the daily life of the group from Jabuticabeira II and bring some important contributions to Brazilian Archaeobotany.

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Referências

AFONSO, M. C.; DEBLASIS, P. A. D. Aspectos da formação de um grande sambaqui: alguns indicadores em Espinheiros II, Joinville, SC. Revista do Museu de Arqueologia e Etnologia v.4, p.21–30.1994.

AMARAL, P. G. C. D. Evolução da sedimentação lagunar holocênica da região de Jaguaruna, estado de Santa Catarina: uma abordagem sedimentológica-micropaleontológica integrada. Tese de Doutorado, Universidade de São Paulo (USP), Brazil. 2008.

AMBROSE, S. H. Isotopic analysis of paleodiets: Methodological and interpretative conside- rations. In:

STANFORD, M. K. (ed.). Investigations of ancient human tissue: Chemical analysis in Anthropology. Langhorne, Gordon and Breach Science Publishers, 1993. p. 58-130.

ASEVEDO, L.; WINCK, G. R.; MOTHÉ, D.; AVILLA, L. S. Ancient diet of the Pleistocene gomphothere Notiomastodon platensis (Mammalia, Proboscidea, Gomphotheriidae) from lowland mid-latitudes of South America: Stereomicrowear and tooth calculus analyses combined. Quaternary International, v. 255, p.42–52. 2012.

BABOT, M. D. P. Starch grain damage as an indicator of food processing. In: HART, D. M.; WALLIS, L. A. (Eds.) Phytolith and starch research in the Australian-Pacific-Asian regions: the state of the art. Pandanus Books, Canberra, 2003, pp. 69–81.

BABOT, M. D. P. Damage on Starch from Processing Andean Food Plants. In: TORRENCE, R.; BARTON, H. (Eds.). Ancient Starch Research. Left Coast Press, Walnut Creek, 2006, p. 66–67.

BANDEIRA, D. D. R. Mudança na estratégia de subsistência do sítio arqueológico Enseada I - Um estudo de caso. Dissertação de mestrado, Universidade Federal de Santa Catarina (UFSC), Santa Catarina, Brazil, 1992.

BARTON, H. Starch Granules from Niah Cave Sediments. In: TORRENCE, R.; BARTON, H. (Eds.). Ancient Starch Research. Left Coast Press, Walnut Creek, 2006, p. 132–134.

BASTOS, M. Q. R.; MENDONÇA DE SOUZA, S. F.; SANTOS, R. V.; LIMA, B. A. F.; SANTOS, R. V.; RODRIGUESCARVALHO, C. Human mobility on the Brazilian coast: analisys of strontium isotopes in archaeological human remains from the sambaqui of Forte Marechal Luz. Anais da Academia Brasileira de Cien̂cias v.83, n.2, p.731-743. 2011.

BASTOS, M. Q. R.; LESSA, A.; RODRIGUES-CARVALHO, C.; TYKOT, R. H.; SANTOS, R. V. Análise de isótopos de carbono e nitrogênio: a dieta antes e após a presença de cerâmica no sítio Forte Marechal Luz. Rev. Museu Arqueologia e Etnologia, 24, p.137-151. 2014.

BECK, A. A variação do conteúdo cultural dos sambaquis, litoral de Santa Catarina. Tese de Doutorado, FFLCH, Universidade de São Paulo, Brasil. 1972. BECK, A. Sambaquis: tecnologia e subsistência. Anais do Museu de Antropologia UFSC, v.10, n.11, p.24-38, 1978

BEHLING, H.; PILLAR, V. D.; BAUERMANN, S. G. Late Quaternary grassland (Campos), gallery Forest, Fire, and climate dynamics, studied by pollen, charcoal and multivariate annalysis of the São Francisco de Assis core in Western Rio Grande do Sul (Southern Brazil). Review of Palaeobotany and Palynology, v.133, n.3-4, p. 235–248, 2005.

BIANCHINI, G. F.; SCHEEL-YBERT, R. Plants in a funerary context at the Jabuticabeira-II shellmound (Santa Catarina, Brazil) – feasting or ritual offerings? In: BADAL, E.; CARRION, Y.; MACIAS, M.; ANTINOU, M. (Coord.). Wood and charcoal evidence for human and natural history. Sagvntvm: papeles del laboratorio de arqueologia de Valencia, Extra-13. Universitat de Valencia, Departament de Prehistòria i Arqueologia de la Facultad de Geografía i Història, 2012, p. 253–258.

BIANCHINI, G.F.; SCHEEL-YBERT, R.; GASPAR, M. D. Estaca de Lauraceae em contexto funerário (sítio Jaboticabeira II, Santa Catarina, Brasil). Revista do Museu de Arqueologia e Etnologia v17, p. 223-229, 2007.

BOYADJIAN, C. H. C. Análise e identificação de microvestígios vegetais de cálculo dentário para a reconstrução de dieta sambaquieira: estudo de caso de Jabuticabeira II, SC. Tese de Doutorado, Universidade de São Paulo (USP), Brasil. 2012.

BOYADJIAN, C. H. C.; EGGERS, S. Micro-Remains Trapped in Dental Calculus Reveal Plants Consumed by Brazilian Shell Mound Builders. In: ROKSANDIC, M.; BURCHEL, M.; EGGERS, S.; KLÖKLER, D.; MENDONÇA DE SOUZA, S. (Eds.) The cultural dynamics of shell-matrix sites. University of New Mexico Press, 2014. p. 279-288.

BOYADJIAN, C. H. C.; EGGERS, S.; REINHARD, K. Dental wash: a problematic method for extracting microfossils from teeth. Journal of Archaeological Science v34, p.1622–1628, 2007.

BOCHERENS, H.; DRUCKER, D. G.; BILLIOU, D.; PATOU-MATHIS, M.; VANDERMEERSCH, B. Isotopic evidence for diet and subsistence pattern of Saint-Cesaire I neanderthal: review and use of a multi source mixing model. Journal of Human Evolution, v.49, p.71-87, 2005.

BRYAN, A. L., The Sambaqui at Forte Marechal Luz, State of Santa Catarina, Brazil. Corvallis: Center for the Study of the First Americans, Oregon State University. 1993.

BUCKLEY, S.; USAI, D.; JAKOB, T.; RADINI, A.; HARDY, K. Dental calculus reveal unique Insights into Food Items, Cooking and Plant Processing in Prehistoric Central Sudan. PlosOne v.9, n.7, 2014.

CHANDLER-EZELL, K.; PEARSALL, D. M.; ZEIDLER, J. A. Root and Tuber Phytoliths and Starch Grains Document Manioc (Manihot esculenta), Arrowroot (Maranta arundinaceae), and Lléren (Calathea sp.) At Real Alto Site, Ecuador. Economic Botany, v.60, n.2, p. 103-120, 2006.

CHARLIER, P.; HUYNH-CHARLIER, I.; MUNOZ, O.; BILLARD, M.; BRUN, L.; LORIN DE LA GRANDMAISON, G. The microscopic (optical and SEM) examination of dental calculus deposits (DCD). Potential interest in forensic anthropology of a bio-archaeological method. Legal Medicine Annual, v. 12, p. 163-171, 2010.

CHMYZ, I. A ocupação do litoral dos estados do Paraná e Santa Catarina por povos ceramistas. Estudos Brasileiros v.1, p.7-43, 1976.

COLLINS, G. B.; KALINSKY, R. G. Studies on Ohio diatoms: I. Diatoms of the Scioto river basin, II. Referenced checklist of diatoms from Ohio, exclusive of lake Erie and the Ohio river. Bulletin of the Ohio Biolog. Survey, v.5, n.3, p.1-76, 1977.

COLLINS, M. J.; COPELAND, L. Ancient Starch: Cooked or Just old Proceedings of the National Academy of Sciences of the United States of America Letters v.108, n.22, E145, author reply E146. May 31. 2011.

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. Long-Term Resilience of Late Holocene Coastal Subsistence System in Southeastern South America. Plos One v.9, e93854. 2014.

DE BLASIS, P. A. D.; FISH, S. K.; GASPAR, M. D.; FISH, P. R. Some references for the discusion of complexity among the sambaqui mound bulders from the southen shores of Brazil. Revista de Arqueología Americana, v. 15, p. 75-105, 1998.

DE BLASIS, P. A.; KNEIP, A.; SCHEEL-YBERT, R.; GIANNINI, P. C.; GASPAR, M. D. Sambaquis e paisagem: Dinâmica natural e arqueologia regional no litoral do sul do Brasil. Arqueol. Suramericana/Arqueol. SulAmericana, v. 3, n. 1, p. 29-61, 2007.

DE BLASIS, P. A.; GASPAR, M. D. Os Sambaquis do Sul Catarinense: Retrospectiva e Perspectivas de Dez Anos de Pesquisa. Caderno de Ciências Humanas, v. 11/12 (20/21), p. 83-125, 2008/2009.

DE MASI, M. A. N. Prehistoric hunter-gatherer mobility on southern Brazilian coast: Santa Catarina Island. PhD thesis, Standford University, California, 1999, 372p.

DE MASI, M. A. N. Pescadores coletores da costa sul do Brasil. Pesquisas Antropologia, v. 57, p. 1-136, 2001.

DE MASI, M. A. N. Mobilidade dos caçadores-coletores da Ilha de Santa Catarina. São Leopoldo: Instituto Anchietano de Pesquisas, 2003, 136p.

DE MASI, M. A. N. Analise de isótopos estáveis de 13/12C e 15/14N em resíduos de incrustações carbonizadas de fundo de recipientes cerâmicos das Terras Altas do Sul do Brasil. Anais do XIV Congresso da SAB, 2007. CD-Room.

DICKAU, R.; RANERE, A. J.; COOKE, R. G. Starch grain evidence for the preceramic dispersals of maize and root crops into tropical dry and humid forests of Panama. Proceedings of the National Academy of Sciences (PNAS), v. 104, n. 9, p. 3651-3656, 2007.

DRUCKER, D. G. E HENRI-GAMBIER, D. Determination of dietary habits of a Magdalenian woman from SaintGermain-la-Rivière in southwestern France using stable isotopes. Journal of Human Evolution, v.49, p.19-35, 2005.

DI STASI, L. C.; HIRUMA-LIMA, C. A. Plantas Medicinais na Amazônia e na Mata Atlântica. 2ª edição. São Paulo: Editora UNESP, 2002. 604p.

DUDGEON, J. V.; TROMP, M. Diet, Geography and Drinking Water in Polynesia: Microfossil Research from Archaeological Human Dental Calculus, Rapa Nui (Easter Island). International Journal of Osteoarchaeology doi: 10.1002/oa.2249. 2012.

FIGUTI, L. Les Sambaquis COSIPA (4200 à 1200 Ans BP): Et́ude De La Subsistance Chez Les Peuples Preh́ istoriques De Peĉheurs-ramasseurs De Bivalves De La Cote Centrale De L’et́at De São Paulo, Breśil. Museum National d’Histoire Naturelle, Paris. 1992.

FISH, S. K.; DEBLASIS, P. A. D.; GASPAR, M. D., FISH, P. R. Eventos Incrementais na Construção de Sambaquis, Litoral Sul do Estado de Santa Catarina. Revista do Museu de Arqueologia e Etnologia v.10, p.69–87, 2000.

FOX, C. L.; JUAN, J.; ALBERT, R. M. Phytolith analysis on dental calculus, enamel surface, and burial soil: information about diet and paleoenvironment. American Journal of Physical Anthropology v.101, p.101–13, 1996.

FULLAGAR, R.; FIELD, J.; DENHAM, T.; LENTFER, C. Early and mid Holocene tool-use and processing of taro (Colocasia esculenta), yam (Dioscorea sp.) and other plants at Kuk Swamp in the highlands of Papua New Guinea. Journal of Archaeological Science v.33, p.595–614, 2006.

GASPAR, M. D. Aspectos da organização social de um grupo de pescadores, coletores e caçadores: região compreendida entre a Ilha Grande e o delta do Paraíba do Sul, Estado do Rio de Janeiro. Tese de Doutorado. São Paulo, USP. 1991.

GASPAR, M. D. Considerations of the sambaquis of the Brazilian coast. Antiquity v.72, p.592–615, 1998.

GASPAR, M. D.; KLOKLER, D.; DEBLASIS, P. Were sambaqui people buried in the trash?: Archaeology, Physical Anthropology, and the evolution of the interpretation of brazillian Shell Mounds. In: ROKSANDIC, M.; BURCHEL, M.; EGGERS, S.; KLÖKLER, D.; MENDONÇA DE SOUZA, S. (Orgs.) The cultural dynamics of shell-matrix sites. University of New Mexico Press, 2014, p.91-100.

GREENE, T. R.; KUBA, C. L.; IRISH, J. D. Quantifying Calculus: A Suggested New Approach for Recording an Important Indicator of Diet and Dental Health. Homo, v. 56, p. 119-132, 2005.

GOBETZ, K. E.; BOZARTH, S. R. Implications for Late Pleistocene Mastodon Diet from Opal Phytoliths in Tooth Calculus. Quaternary Research v.55, p.115–122, 2001.

GOTT, B.; BARTON, H.; SAMUEL, D.; TORRENCE, R.; Biology of starch. In: TORRENCE, R.; BARTON, H. (Eds.). Ancient Starch Research. Left Coast Press Inc, California, 2006, p. 35-45.

HARDY, K. Prehistoric string theory. How twisted fibers helped to shape the world. Antiquity, v. 82, p. 271– 280, 2008.

HARDY, K.; BLAKENEY, T.; COPELAND, L.; KIRKHAM, J.; WRANGHAM, R.; COLLINS, M. Starch granules, dental calculus and new perspectives on ancient diet. Journal of Archaeological Science v.36, p.248–255, 2009.

HARDY, K.; BUCKLEY, S.; COLLINS, M. J.; ESTALRRICH, A.; BROTHWELL, D.; COPELAND, L.; GARCÍATABERNERO, A.; GARCÍA-VARGAS, S.; DE LA RASILLA, M.; LALUEZA-FOX, C.; HUGUET, R.; BASTIR, M.; SANTAMARÍA, D.; MADELLA, M.; WILSON, J.; CORTÉS, A.F.; ROSAS, A. Neanderthal medics? Evidence for food, cooking, and medicinal plants entrapped in dental calculus. Naturwissenschaften v.99, p.617–626, 2012.

HASLAM, M. The decomposition of starch grains in soils: implications for archaeological residue analyses. Journal of Archaeological Science v.31, p.1715–1734, 2004.

HAZEN, S. P. Supragingival dental calculus. Periodontology v.2000, n.8, p.125–136, 1995.

HENRY, A. G.; PIPERNO, D. R. Using plant microfossils from dental calculus to recover human diet: a case study from Tell al-RaqAí, Syria. Journal of Archaeological Science, v. 35, p. 1943-1950, 2008.

HENRY, A. G.; HUDSON, F. H.; PIPERNO, D. R. Changes in Starch grain morphologies from cooking. Journal of Archaeological Science, v. 36, p. 915-922, 2009.

HENRY, A. G.; BROOKS, A. S.; PIPERNO, D. R. Microfossils in calculus demonstrate consumption of plants and cooked foods in Neanderthal diets (Shanidar III, Iraq; Spy I and II, Belgium). Proceedings of the National Academy of Sciences of the United States of America (PNAS), v.108, p.486–491, 2010.

HOLT, B. Phytoliths from dental calculus: direct evidence on prehistoric diet. Phytolitherien newsletter v.7, p. 8, 1993.

HORROCKS, M.; IRWIN, G.; JONES, M.; SUTTON, D. Starch grains and xylem cells of sweet potato (Ipomoea batatas) and bracken (Pteridium esculentum) in archaeological deposits from northern New Zealand. Journal of Archaeological Science v.31, p.251–258, 2004.

HURT, W. R. The interrelationship between the natural environment and four sambaquis, coast of Santa Catarina, Brasil. Occasional Papers and Monographs 1, Indiana University Museum, Bloomington, 1974.

ICSN 2011, The International Code for Starch Nomenclature, disponível em: www.fossilfarm.org/ICSN/Code.html. Acesso em: Dezembro 2014.

IRIARTE, J. Assessing the feasibility of identifying maize through the analysis of cross-shaped size and threedimensional morphology of phytoliths in the grasslands of southeastern South America. Journal of Archaeological Science v.30, p.1085–1094, 2003.

IRIARTE, J.; HOLST, I.; MAROZZI, O.; LISTOPAD, C.; ALONSO, E.; RINDERKNECKT, A.; MONTAÑA, J. Evidence for cultivar adoption and emerging complexity during the mid-Holocene in the La Plata basin. Nature, v. 432, p. 614-617, 2004.

KATZENBERG, M. A. Destructive Analyses of Human Remains in the Age of NAGPRA and Related Legislation. In: SAWCHUK, L.; PFEIFFER, S. (eds.). Out of the Past: The History of Human Osteology at the University of Toronto. Scarborough, CITD Press, University of Toronto at Scarborough. 2001. Disponível em: http://citdpress.utsc.utoronto.ca/osteology/pfeiffer.html (último acesso 16/05/2016).

KLÖKLER, D. M. Construindo ou Deixando um Sambaqui? Análise de Sedimentos de um Sambaqui do Litoral Meridional Brasileiro: Processos Formativos. Região de Laguna, SC. Dissertação de mestrado, Universidade de São Paulo (USP), Brasil. 2001.

KLÖKLER, D. M. Food for body and soul: Mortuary ritual in shell mounds (Laguna-Brazil). Tese de doutorado, University of Arizona, USA. 2008.

KNEIP, L. M. Pescadores e coletores pré-históricos do litoral de Cabo Frio, RJ. Coleção Museu Paulista, sér. Arqueologia v.5, p.7–169, 1977.

KNEIP, L. M. Cultura material e subsistência das populações pré históricas de Saquarema, RJ. Documento de Trabalho, sér. Arqueologia v.2, p.1–120, 1994.

KNEIP, A. O povo da Lagoa: uso do SIG para modelamento e simulação na área arqueológica do Camacho. Tese de doutorado, Universidade de São Paulo, Brasil. 2004.

KORSTANJE, M. A.; BABOT, M. P. A microfossil characterization from South Andean economic plants. In: MADELA, M.; ZURRO, D. (Eds.) Plants, people and places: recent studies in phytholithic analysis, Oxbow Books, Cambridge, 2007, p. 41-72.

KUCERA, M.; PANY-KUCERA, D.; BOYADJIAN, C.H.; REINHARD, K.; EGGERS, S. Efficient but destructive: a test of the dental wash technique using secondary electron microscopy. Journal of Archaeological Science v.38, p.129–135, 2011.

LEE-THORP, J. A; SEALY, J. C.; VAN DER MERWE, J. C. Stable carbon isotope ratio differences between bone collagen and bone apatite and their relashionship to diet. Journal of Archaeological Science, v.16, p.585- 599, 1989.

LENTFER, C.; THERIN, M.; TORRENCE, R. Starch Grains and Environmental Reconstruction: a Modern Test Case from West New Britain, Papua New Guinea. Journal of Archaeological Science v.29, p.687–698, 2002.

LIEVERSE, A. Diet and the aetiology of dental calculus. International Journal of Osteoarchaeology v.232, p.219–232, 1999.

LIMA, T. A. Em busca dos frutos do mar: os pescadores-coletores do litoral centro-sul do Brasil. Revista USP v.44, p.270–327, 1999-2000.

MANN, D. G.; DROOP, J. M.; Biodiversity, biogeography and conservation of diatoms. Hydrobiologia v.336, p.19–32, 1996.

MERCADER, J.; BENNETT, T.; RAJA, M. Middle Stone Age starch acquisition in the Niassa Riff, Mozambique. Quaternary Research, v. 70, p. 283-300, 2008.

MESSNER, T. C. Accorns and bitter roots: Starch grain research in prehistoric eastern woodlands. Tuscaloosa: The University of Alabama Press, 2011. 195 p.

MICKLEBURGH, H. L., PAGÁN-JIMÉNEZ, J. R. New insights into the consumption of maize and other food plants in the pre-Columbian Caribbean from starch grains trapped in human dental calculus. Journal of Archaeological Science v.39, p.2468–2478, 2012.

MIDDLETON, W. D.; ROVNER, I. Extraction of opal phytoliths from herbivore dental calculus. Journal of Archaeological Science, v. 21, p. 469-473, 1994.

MILLER, E. T. Pesquisas Arqueológicas Efectuadas no Planalto Meridional, Rio Grande do Sul (rios Uruguai, Pelotas, e das Antas). Publicações Avulsas do Museu Paraense Emílio Goeldi, (PRONAPA 4), v. 15, p. 37- 60, 1971.

MUSAUBACH, M. G.; PLOS, A.; BABOT, M. D. P. Differentiation of archaeological maize (Zea mays L.) from native wild grasses based on starch grain morphology. Cases from the Central Pampas of Argentina. Journal of Archaeological Science, v.40, p.1186-1193, 2013.

NEVES W. A.; UNGER P.; SCARAMUZZA, C. A. M. Incidência de cáries e padrões de subsistência no litoral norte de Santa Catarina. Revista de Pré-história v6, p.371-380, 1984.

NORR, L. Interpreting dietary maize from bone stable isotopes in the American tropics: The state of the art. In: STAHL, P. W. (ed.). Archaeology in the lowland American tropics: current analytical methods and recent applications. Cambridge, Cambridge Univ. Press, 1995, p.198-223.

OLIVEIRA, M. C. T. A importância da coleta no advento da agricultura. Dissertação de mestrado, Universidade Federal do Rio de Janeiro (UFRJ), Brazil.1991.

PEARSALL, D. M. Paleoethnobotany: A Handbook of Procedures. Second Edition. Acadêmica Press, New York, 2000.

PEARSALL, D. M. Phytoliths in the Flora of Ecuador: The University of Missouri Online Phytolith Database. [http://phytolith.missouri.edu]. With contributions by Ann Biddle, Dr. Karol Chandler-Ezell, Dr. Shawn Collins, Dr. Neil Duncan, Bill Grimm, Dr. Thomas Hart, Dr. Amanda Logan, Meghann O'Brien, Sara Stewart, Cesar Veintimilla, and Dr. Zhijun Zhao. 2015.

PEARSALL, D. M.; CHANDLER-EZELL, K.; ZEIDLER, J. Maize in ancient Ecuador: results of residue analysis of stone tools from the Real Alto site. Journal of Archaeological Science v.31, p.423–442, 2004.

PERRY, L. Starch Granule Size and the Domestication of Manioc (Manihot esculenta) and Sweet Potato (Ipomoea batatas). Economic Botany, v. 56, n. 4, p. 335-349, 2002.

PERRY, L. Starch analyses reveal the relationship between tool type and function: an example from the Orinoco Valley of Venezuela. Journal of Archaeological Science, v. 31, n. 8, p. 1069-1081, 2004.

PERRY, L.; SANDWEISS, D. H.; PIPERNO, D. R.; RADEMAKER, K.; MALPASS, M. A.; UMIRE, A. N.; DE LE VERA, P. Early maize agriculture and interzonal interaction in southern Peru. Nature v.440, n.2, p.76-79, 2006.

PIPERNO, D. R. Phytoliths: a Comprehensive Guide for Archaeologists and Paleoecologists. AltaMira Press, Lanham, Maryland, 2006.

PIPERNO, D. R.; DILLEHAY, T. Starch Grains on Human Teeth Reveal Early Broad Crop Diet in Northern Peru. Proceedings of the National Academy of Sciences of the United States of America (PNAS), v. 105, n. 50, p. 19622–19627, 2008.

PIPERNO, D. R.; HOLST, I. The Presence of Starch Grains on Prehistoric Stone Tools from the Humid Neotropics: Indications of Early Tuber Use and Agriculture in Panama. Journal of Archaeological Science v.25, p.765-776, 1998.

PIPERNO, D. R; PEARSALL, D. M. The Neotropical Ecosystem in the Present and the Past. In: PIPERNO, D. R; PEARSALL, D. M. The Origins of Agriculture in the Lowland Neotropics. Academic Press, San Diego, 1998, pp. 39–107.

PIPERNO, D. R.; RANERE, A. J.; HOLST, I.; HANSELL, P. Starch grains reveal early root crop horticulture in the Panamanian tropical forest. Nature v.407, p.894-897, 2000.

PIPERNO, D. R.; WEISS, E.; HOLST, I.; NADEL, D. Processing of wild cereal grains in the Upper Paleolithic revealed by starch grain analysis. Nature v.430, p.670-673, 2004.

POWER, R. C.; SALAZAR-GARCIÁ , D. C.; WITTIG, R. M.; HENRY, A. G. Assessing use and suitability of scanning electron microscopy in the analysis of micro remains in dental calculus. Journal of Archaeological Science, v. 49, p.160-169, 2014.

PROUS, A. A arqueologia brasileira. Brasília, Editora da Universidade de Brasília, 1992, 613p.

RADLEY, J. A. Starch and its Derivatives (2nd Ed.) London: Chapman and Hall, 1943.

REICHERT, E. T. The Differentiation and Specificity of Starches in Relation to Genera, Species, etc.; stereochemistry applied to protoplasmic processes and products, and as a strictly scientific basis for the classification of plants and animals. The Carnegie Institution of Washington, Washington, D.C. 1913.

REINHARD, K. J. The utility of pollen concentration on coprolite analysis: Expanding upon Dean’s comments. Journal of Ethnobiology, v.13, p.114-128, 1993.

REINHARD, K. J.; BRYANT JR., V. M. Coprolite analysis: A biological perspective on archaeology. In: SCHIFFER, M.B. (Ed.) Advances in Archaeological Method and Theory 14. The University of Arizona Press, Tucson, 1992, p. 245-288.

REINHARD, K. J.; SOUZA, S. F. M.; RODRIGUEZ, C.; KIMMERLE, E.; DORSEY-VINTON, S. Microfossils in Dental Calculus: A New Perspective on Diet and Dental Disease. In: WILLIAMS, E. (Ed). Human Remains: Conservation, Retrieval and Analysis. British Archaeology Research Council, London, 2001, p.113-118.

REVEDIN, A.; ARANGUREN, B.; BECATTINI, R.; LONGO, L.; MARCONI, E.; LIPPI, M. M.; SKAKUN, N.; SINITSYN, A.; SPIRIDONOVA, E.; SVOBODA, J. Thirty thousand-year-old evidence of plant food processing. Proceedings of the National Academy of Sciences of the United States of America v.107, p.18815–18819, 2010.

SALAZAR-GARCÍA, D. C.; RICHARDS, M. P.; NEHLICH, O.; HENRY, A. G. Dental calculus is not equivalent to bone collagen for isotope analysis: a comparison between carbon and nitrogen stable isotope analysis of bulk dental calculus, bone and dentine collagen from same individuals from the Medieval site of El Raval (Alicante, Spain). Journal of Archaeological Science, v. 47, p.76-77, 2014.

SAMUEL, D. Modified Starch. In: TORRENCE, R.; BARTON, H. (Eds.). Ancient Starch Research. Left Coast Press, California, 2006, p. 205-216.

SCHEEL-YBERT, R. Man and Vegetation in Southeastern Brazil during the Late Holocene. Journal of Archaeological Science v.28, p.471-480, 2001.

SCHEEL-YBERT, R.; EGGERS, S.; WESOLOWSKI, V.; PETRONILHO, C. C.; BOYADJIAN, C. H.; DEBLASIS, P. A. D.; BARBOSA-GUIMARÃES, M.; GASPAR, M. D.; Novas perspectivas na reconstituição do modo de vida dos sambaquieiros: uma abordagem multidisciplinar. Revista Arqueologia v.16, p.109-137, 2003.

SCHEEL-YBERT, R.; EGGERS, S.; WESOLOWSKI, V.; PETRONILHO, C. C.; BOYADJIAN, C. H.; GASPAR, M. D.; TENÓRIO, M. C.; DEBLASIS, P. Subsistence and lifeway of coastal Brazilian moundbuilders. In: CAPPARELLI, A.; CHEVALIER, A.; PIQUÉ, R (Eds.). La alimentación en la América precolombina y colonial: un aproximación interdisciplinary. Treballs d’Etnoarqueologia, Barcelona v.7, p.37-53, 2009.

SCHEEL-YBERT, R. Preliminary data on nonwood plant remains at Sambaquis from the Southern and Southeastern Brazilian coast: considerations on diet, ritual, and site particularities. Cuadernos del Instituto Nacional de Antropología, v.1, p.60-72, 2013.

SCHMITZ, P. I. As tradico̧ ̃es ceramistas do planalto sul-brasileiro. Documentos (Inst. Anchietano de Pesquisas) v.2, p.75-130, 1988.

STOERMER, E. F.; SMOL, J. P. Applications and uses of diatoms: prologue. In: STOERMER, E. F.; SMOL, J. P. (Eds.) The diatoms: applications for the environmental and earth sciences. Cambridge, 2001, 469p.

TORRENCE, R. Starch and Archaeology. In: TORRENCE, R.; BARTON, H. (Eds.). Ancient Starch Research. Left Coast Press, Califórnia, 2006, p.17-34.

TORRENCE, R.; BARTON, H. Ancient Starch Research. Left Coast Press, Walnut Creek, CA, 2006.

UGENT, D.; POZORSKI, S.; POZORSKI, T. Archaeological Manioc (Manihot) from Coastal Peru. Economic Botany, v.40, n.1, p.78-102, 1986.

VILLAGRÁN, X. Análise de arqueofácies na camada preta do sambaqui Jabuticabeira II. Dissertação de mestrado, Universidade de São Paulo (USP), Brasil, 2008.

VILLAGRAN, X. S.; KLOKLER, D.; PEIXOTO, S.; DEBLASIS, P.; GIANNINI, P. C. F. Building Coastal Landscapes: Zooarchaeology and Geoarchaeology of Brazilian Shell Mounds, The Journal of Island and Coastal Archaeology, v.6, n.2, p.211-234, 2011.

VILLAGRÁN, X. S. Micromorfologia de sítios concheiros da América do Sul: Arqueoestratigrafia e processos de formação de Sambaquis (Santa Catarina, Brasil) e concheros (Terra do Fogo, Argentina). Tese de Doutorado apresentada ao Museu de Arqueologia e Etnologia, Universidade de São Paulo, 2012.

WARINNER, C.; RODRIGUES, J. F. M.; VYAS, R.; TRACHSEL, C.; SHVED, N.; GROSSMANN, J.; RADINI, A.; HANCOCK, Y.; TITO, R. Y.; FIDDYMENT, S.; SPELLER, C.; HENDY, J.; CHARLTON, S.; LUDER, H. U.; SALAZARGARCÍA, D. C.; EPPLER, E.; SEILER, R.; HANSEN, L. H.; CASTRUITA, J. A. S.; BARKOW-OESTERREICHER, S.; TEOH, K. Y.; KELSTRUP, C. D.; OLSEN, J. V.; NANNI, P.; KAWAI,T.; WILLERSLEV, E.; VON MERING, C.; LEWIS JR, C. M.; COLLINS, C. M.; GILBERT, M. T. P.; RÜHLI, F.; CAPPELLINI, E. Pathogens and host immunity in the ancient human oral cavity. Nature Genetics v.46, p.336-344, 2014

WESOLOWSKI, V. Cáries, desgaste, cálculos dentários e micro resíduos da dieta entre grupos pré-históricos do litoral norte de Santa-Catarina: É possível comer amido e não ter cárie? Tese de doutorado, Escola Nacional de Saúde Pública, Fundação Oswaldo Cruz (FIOCRUZ), Rio de Janeiro, Brazil, 2007.

WESOLOWSKI, V.; FERRAZ MENDONÇA DE SOUZA, S. M.; REINHARD, K. J.; CECCANTINI, G. Evaluatin microfossil content of dental calculus from Brazilian sambaquis. Journal of Archaeological Science v.37, p.1326-1338, 2010.

YBERT J.-P.; BISSA W. M.; CATHARINO E. L. M.; KUTNER M. Environmental and sea-level variations on the southeastern Brazilian coast during the Late Holocene with coments on prehistoric human occupation. Palaeogeography, Palaeoclimatology, Palaeoecology, v.189, p.11-24, 2003.

ZARRILLO, S.; PEARSALL, D. M.; RAYMOND, J. S.; TISDALE, M. A.; QUON, D. J. Directly dated starch residues document early formative maize (Zea mays L.) in tropical Ecuador. Proceedings of the National Academy of Sciences (PNAS), v.105, p.5006-5011, 2008.

Publicado
2016-06-22
Como Citar
Boyadjian, C. H. C., Eggers, S., Reinhard, K. J., & Scheel-Ybert, R. (2016). DIETA NO SAMBAQUI JABUTICABEIRA-II (SC): CONSUMO DE PLANTAS REVELADO POR MICROVESTÍGIOS PROVENIENTES DE CÁLCULO DENTÁRIO. Cadernos Do LEPAARQ (UFPEL), 13(25), 131-161. https://doi.org/10.15210/lepaarq.v13i25.7395
Seção
Dossiê Arqueobotânica na América do Sul