Abstract
Tropical coastal environments expose individuals to a wide array of stressful conditions, but at the same time are supposed to grant settlers a qualitatively richer and more varied diet. The present study analyzes caries and linear enamel hypoplasia (LEH) in two Classic Period (CE 250–750) coastal sites (Jaina and Xcambó), located in the Yucatan peninsula’s northern coastline, in comparison with inland sites. The analysis reveals the absence of a clear pattern, showing high levels of caries and LEH both in Xcambó and in more inland sites, in contrast to lower levels of such stressful indicators at Jaina and in other sites located in the interior of the peninsula. Archaeological and bioarchaeological evidence rules out that social status and wealth, as well as sample composition by sex, or by age at death, can be at the base of such differences. Results, instead, highlight the concept that well-being is the result of the entangled and intertwined interaction between the environmental, biological, and cultural factors that shaped each and every human community.
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References
Aufderheide AC, Rodríguez-Martín C (1998) Dental caries. In: Aufderheide AC, Rodríguez-Martín C (eds) The Cambridge Encyclopedia of human paleopathology. Cambridge University Press, Cambridge, pp 402–404
Benavides Castillo A (2011) Jaina: ciudad, puerto y mercado. Dissertation, Universidad Nacional Autónoma de México, Mexico City
Cucina A (2011) Maya subadult mortality and individual physiological frailty: an analysis of infant stress by means of linear enamel hypoplasia. Chld Past 4:105–116
Cucina A, Tiesler V (2003) Dental caries and ante mortem tooth loss in the northern Petén area, Mexico: a biocultural perspective on social status differences among the Classic Maya. Am J Phys Anthropol 122:1–10
Cucina A, Perera Cantillo C, Sierra Sosa T et al (2011) Carious lesions and maize consumption among the Prehispanic Mayas: an analysis of a coastal community in northern Yucatán. Am J Phys Anthropol 154:560–567
Duray SM (1996) Dental indicators of stress and reduced age-at-death in prehistoric native Americans. Am J Phys Anthropol 99:275–286
Ellwood EC, Scott MP, Lipe WD et al (2013) Stone-boiling maize with limestone: experimental results and implications for nutrition among SE Utah preceramic groups. J Archaeol Sci 40:35–44
Glassman DM, Garber JF (1999) Land use, diet, and their effects on the biology of prehistoric Maya of northern ambergris cay, Belize. Part II: Paleopathology. In: White CD (ed) Reconstructing ancient Maya diet. The University of Utah Press, Salt Lake City, pp 119–132
Goodman AH, Armelagos GJ (1985) Factors affecting the distribution of enamel hypoplasias within the human permanent dentition. Am J Phys Anthropol 68:479–493
Goodman AH, Armelagos GJ (1988) Childhood stress and decreased longevity in a prehistoric population. Am Anthropol 90:936–944
Goodman AH, Martin DL (2002) Reconstructing health profiles from skeletal remains. In: Steckel RH, Rose JC (eds) The backbone of history. Cambridge University Press, Cambridge, pp 11–60
Goodman AH, Rose JC (1990) Assessment of systemic physiological perturbations from dental enamel hypoplasias and associated histological structures. Yearb Phys Anthropol 33:59–110
Goodman AH, Martin DL, Armelagos GJ et al (2013) Indicators of stress from bone and teeth. In: Cohen MN, Armelagos GJ (eds) Paleopathology at the origins of agriculture, 2nd edn. University Press of Florida, Gainesville, pp 13–50
Hernandez Espinosa PO, Marquez Morfin L (2007) El escenario demográfico de Jaina prehispánica durante el Clásico. In: Hernandez Espinosa PO, Marquez Morfin L (eds) La población prehispánica de Jaina. INAH, Mexico City, pp 33–62
Hillson SW (1996) Dental anthropology. Cambridge University Press, Cambridge
Hillson SW (2000) Dental anthropology. In: Katzenberg MA, Saunders SR (eds) Biological anthropology of the human skeleton. Wiley-Liss, New York, pp 249–286
Hillson S (2008) The current state of dental decay. In: Irish JD, Nelson GC (eds) Technique and application in dental anthropology. Cambridge University Press, Cambridge, pp 111–135
Kormondy EJ, Brown DE (1998) Fundamentals of human ecology. Prentice Hall, Upper Saddle River, New Jersey
Kreshover SJ (1960) Metabolic disturbance in tooth formation. Ann N Y Acad Sci 85:161–167
Larsen CS (1995) Biological changes in human populations with agriculture. Annu Rev Anthropol 24:185–213
Larsen CS, Shavit R, Griffin MC (1991) Dental caries evidence for dietary change: an archaeological context. In: Kelley MA, Larsen CS (eds) Advances in dental anthropology. Willey-Liss, Inc., New York, pp 179–202
Leatherman TL, Goodman AH (1997) Expanding the biocultural synthesis toward a biology of poverty. Am J Phys Anthropol 102:1–3
López Alonso S, Serrano Sánchez C (1984) Practicas funerarias prehispánicas en la isla de Jaina Campeche. Investigadores Recientes en el Área Maya 2:441–452. Sociedad Mexicana de Antropología, Mexico City
Lukacs JR (1989) Dental paleopathology: methods for reconstructing dietary patterns. In: Iscan MY, Kennedy KAR (eds) Reconstruction of life from the skeleton. Alan R. Liss, New York, pp 261–286
Lukacs JR (1992) Dental paleopathology and agricultural intensification in South Asia: new evidence from the bronze age Harappa. Am J Phys Anthropol 87:133–150
Lukacs JR (2008) Fertility and agriculture accentuate sex differences in dental caries rates. Curr Anthropol 49:901–914
Lukacs JR (2011a) Gender differences in oral health in South Asia: metadata imply multifactorial biological and cultural causes. Am J Hum Biol 23:398–411
Lukacs JR (2011b) Sex differences in dental caries experience: clinical evidence, complex etiology. Clin Oral Investig 15:649–656
Magennis AL (1999) Dietary change at the lowland Maya site of Kichpanha, Belize. In: White CD (ed) Reconstructing ancient Maya diet. The University of Utah Press, Salt Lake City, pp 133–150
Maggiano IS, Schultz M, Kierdorf H (2008) Cross-sectional analysis of long bones, occupational activities and long distance trade of the Classic Maya from Xcambó. Archaeological and osteological evidence. Am J Phys Anthropol 136:470–477
Méndez Colli C, Sierra Sosa T, Tiesler V (2009) Enamel hypoplasia at Xcambó, Yucatán, during the classic Maya period: an evaluation of the impact of coastal marshland on ancient human populations. HOMO J Comp Hum Biol 60(4):343–358
Nelson GC, Lukacs JR, Yule P (1999) Dates, caries and early tooth loss during the Iron age of Oman. Am J Phys Anthropol 108:333–343
Ortega Muñoz A (2015) Dental health and alimentation among the Quintana Roo Mayas: coastal and inland sites of the classic-Postclassic periods. Am J Hum Biol 27:779–791
Ortega Muñoz A, Sierra Sosa T, Tiesler V et al (2018) Demographic growth simulation of Xcambo, Yucatan, Mexico. A coastal settlement of Early and Late Classic period. Lat Am Antiq 29:591. https://doi.org/10.1017/laq.2018.11
Peña Castillo A (2006) Archaeological report of salvage excavation, Noh Bec-El Escondido, Yucatán. Report on File, INAH Yucatán Center, Mérida
Sahai D, Mua JP, Surjewan I et al (2001) Alkaline processing (nixtamalization) of white Mexican corn hybrids for tortilla production: significance of corn physiological characteristics and process conditions. Cereal Chem 78:116–120
Sattenspiel L (2000) Tropical environments, human activities, and the transmission of infectious diseases. Yearb Phys Anthropol 43:3–31
Saul J, Saul F (1997) The Preclassic skeletons from Cuello. In: Whittington SL, Reed D (eds) Bones of the Maya: studies of ancient skeletons. Smithsonian Institution Press, Washington, DC, pp 28–50
Seidemann RM, McKillop H (2008) Dental indicators of diet and health for the Postclassic coastal Maya on wild cane cay, Belize. Anc Mesoam 18:1–11
Sierra Sosa T (2004) La arqueología de Xcambó, Yucatán, centro administrativo salinero y puerto comercial de importancia regional durante el Clásico. Dissertation, Universidad Nacional Autónoma de México
Sierra Sosa T, Cucina A, Price TD et al (2014) Maya coastal production, exchange, and population mobility. A view from the Classic period port of Xcambó, Yucatan, Mexico. Anc Mesoam 25:221–238
Steckel RH, Rose JC (eds) (2002) The backbone of history. Health and nutrition in the western hemisphere. Cambridge University Press, Cambridge
Storey R, McAnany P (2006) Children of K’axob. Premature death in a formative Maya village. In: Ardren T, Hutson SR (eds) The social experience of childhood in ancient Mesoamerica. The University Press of Colorado, Boulder, pp 53–72
Takahashi N, Nyvad B (2011) The role of bacteria in the caries process: ecological perspectives. J Dent Res 90:294–303
Tiesler V, Cucina A, Sierra Sosa T et al (2005) Comercio, dinámicas biosociales y estructura poblacional del asentamiento costero de Xcambó, Yucatán. Inv Cult Maya 13:365–372
Tiesler V, Cucina A, Stanton TW et al (2017) Before Kukulkán. Bioarchaeology of Maya life, death, and identity at Classic period Yaxuná. University of Arizona Press, Tucson
Turner CGII (1979) Dental anthropological implications of agriculture among the Jomon people of Central Japan. Am J Phys Anthropol 51:619–636
Vega Lizama E, Cucina A (2014) Maize dependence or market integration? Caries prevalence among indigenous Maya communities with maize-based versus globalized economies. Am J Phys Anthropol 153:190–202
Watson JT (2008) Prehistoric dental disease and the dietary shift from cactus to cultigens in Northwest Mexico. Int J Osteoarchaeol 18:202–212
White CD (ed) (1999) Reconstructing ancient Maya diet. The University of Utah Press, Salt Lake City
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Cucina, A. (2020). Environmental and Cultural Stressors in the Coastal Northern Maya Lowlands in Pre-Hispanic Times. In: Azcorra, H., Dickinson, F. (eds) Culture, Environment and Health in the Yucatan Peninsula. Springer, Cham. https://doi.org/10.1007/978-3-030-27001-8_11
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