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Insediamenti di epoca sannitica nel territorio circostante la Valle del Torrente Tappino (Campobasso, Molise): II. Gildone: Mortalità, stress nutrizionali e da attività lavorativa in un campione di sanniti del V–IV sec. a.C.

Published online by Cambridge University Press:  09 August 2013

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Samnite settlement in and around the tappino valley (campobasso, molise)

The first part of the paper reviews the evidence for prehistoric, Samnite and Roman settlement and land-use in the Tappino valley region, and discusses in detail two sites at Cercemaggiore-Gildone: a Samnite farmstead abandoned probably in the second century BC, and a nearby cemetery of the fifth to fourth centuries BC, which may be associated with the first phase of occupation at the farmstead.

The demography, dental pathology, nutritional state and work-induced lesions of the cemetery population (23 individuals) are analysed in the second part of the paper. High frequencies of oral lesions, especially in females, can be related to a poor, high-carbohydrate diet. Diseases of the joints and bone fractures indicate heavy physical activities, particularly in men.

The evidence suggests that agriculture was the most important economic activity of this population. The sample is compared with others from central-southern Italy and a number of close correspondences emerge. It would appear that socio-economic changes, including differences in territorial organisation and subsistence activities, brought about a worsening of the general health of the human population.

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Copyright © British School at Rome 1993

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References

Bibliografia

Acsàdi, G. e Nemeskéry, J. (1970) History of Human Life Span and Mortality. Akadémiai Kiado, Budapest.Google Scholar
Alciati, G. e Fedeli, M. (1983) Grado di fertilità e perdite dentarie patologiche in antiche donne egizie. Quaderni di Anatomia Pratica 39: 127139.Google Scholar
Angel, J. L. (1966) Early skeletons from Tranquillity, California. Smithsonian Contributions to Anthropology 2, 1.CrossRefGoogle Scholar
Angel, J. L. (1969a) The bases of paleodemography. American Journal of Physical Anthropology 30: 427437.CrossRefGoogle ScholarPubMed
Angel, J. L. (1969b) Paleodemography and evolution. American Journal of Physical Anthropology 31: 343353.CrossRefGoogle ScholarPubMed
Angel, J. L. (1971) Disease and culture in ancient East Mediterranean. Anthropological Congress dedicated to Ales Hrdlicka, Praha, 1969: 503508. Praha, Academia.Google Scholar
Angel, J. L. (1975) Paleoecology, paleodemography and health. In: Polgar, S. (ed.) Population, Ecology and Social Evolution: 167190. Mouton, The Hague, Chicago, Aldine.Google Scholar
Angel, J. L. (1982) Osteoarthritis and Occupation (Ancient and Modern). Nobotny, V. (ed.), 2nd Anthropological Congress of Ales Hrdlicka: 443446. Universitas Carolina Pragensis.Google Scholar
Angel, J. L., Suchey, J. M., Iscan, M. Y. e Zimmerman, M. R. (1986) Age at death estimated from the skeleton and viscera. In Zimmerman, M. R. e Angel, J. L. (eds) Dating and Age Determination of Biological Material: 193202. London, Croom Helm.Google Scholar
Angel, J. L., Kelley, J. O., Parrington, M., Pinter, S. (1987) Life stresses of the Free Black community as represented by the First African Baptist Church, Philadelphia, 1823–1841. American Journal of Physical Anthropology 74: 213229.CrossRefGoogle ScholarPubMed
Blakey, M. L., Coppa, A., Damadio, S. e Vargiu, R. (1990) A comparison of dental enamel defects in Christian and Meroitic populations from Geili, Central Sudan. International Journal of Anthropology 5: 193202.CrossRefGoogle Scholar
Brabant, H. (1967) Palaeostomatology. In Brothwell, D. R. e Sandison, A. (eds) Diseases in Antiquity: 538550. Springfield, Thomas.Google Scholar
Brothwell, D. R. (1971) Paleodemography. In Bass, W. (ed.) Biological Aspects of Demography: 111130. Taylor and Francis, London.Google Scholar
Brothwell, D. R. (1981) Digging up Bones: the excavation, treatment and study of human skeletal remains. London, Oxford University Press.Google Scholar
Brothwell, D. R. e Higgs, E. (1969) Scientific studies in archaeology. In Brothwell, D. R. e Higgs, E. (eds) Science in Archaeology. A Survey of Progress and Research: 2324. Bristol, Thames and Hudson.Google Scholar
Capasso, L. (1989) Modelli Biologici e Modelli Tecnologici nell'Abruzzo Preromano. Mostra Museo Archeologico Nazionale. Campli: 312. Soprintendenza Archeologica dell'Abruzzo.Google Scholar
Clarke, S. (1977) Mortality trends in prehistoric populations. Human Biology 49: 181186.Google Scholar
Cohen, M. N. e Armelagos, G. J. (1984) Paleopathology at the Origins of Agriculture. New York, Academic Press.Google Scholar
Coppa, A. (1992) Comunicazione personale.Google Scholar
Coppa, A., Danubio, M. E., Mancinelli, D. e Petrone, P. P. (1987) L'analisi antropologica e curve di mortalità. In Trucco, F. (tesi di dottorato non pubblicata). Profilo socio-culturale di una comunità enotria della prima età del ferro: le evidenze funerarie di Sala Consilina.Google Scholar
Coppa, A., Mancinelli, D., Petrone, P. P. e Vargiu, R. (1989) Paleodemography of Iron Age populations in South-Central Italy. 58th Annual Meeting of American Association of Physical Anthropologists, San Diego, comunicazione.Google Scholar
Coppa, A., Colarossi, P., Danubio, M. E., Mancinelli, D. e Petrone, P. P. (1991) Aspetti paleodemografici in campioni di popolazione adulta dell'Italia Centrale durante l'Età del Ferro. Antropologia Contemporanea, Atti del VII Convegno degli Antropologi Italiani, Frascati 24–26 Settembre 1987, 13: 179190.Google Scholar
Costa, R. L. Jr. (1980) Age, sex, and antemortem loss of teeth in prehistoric Eskimo samples from Point Hope and Kodiak Island, Alaska. American Journal of Physical Anthropology 53: 579587.Google Scholar
Di Niro, A. (1991) Le necropoli dell'area costiera. In Capini, S. e Di Niro, A. (eds) Samnium, Archeologia del Molise: 6571. Roma, Quasar.Google Scholar
Dobney, H. e Brothwell, D. R. (1987) A method for evaluating the amount of dental calculus on teeth from archaeological sites. Journal of Archaeological Science 14: 343351.CrossRefGoogle Scholar
Dutour, O. (1986) Enthesopathies (lesions of muscular insertions) as indicators of the activities of Neolithic Saharan populations. American Journal of Physical Anthropology 71: 221224.CrossRefGoogle ScholarPubMed
El-Najjar, M. Y. (1978) Patterns of prehistoric epidemiology and human paleopathology. MVC Quarterly 14: 39.Google Scholar
Fedele, F. (1978) Per un' “Antropologia del popolamento” Uomo ed ecosistemi nelle Alpi Occidentali dal Neolitico al Ferro. Antropologia Contemporanea 1: 1534.Google Scholar
Ferembach, D., Schwidetzky, I. e Stloukal, M. (19771979) Raccomandazioni per la Determinazione dell'Età e del Sesso sullo Scheletro. Rivista di Antropologia 60: 551.Google Scholar
Fornaciari, G., Brogi, M. G. e Balducci, E. (1984) Patologia dentaria degli inumati di Pontecagnano (Salerno): VII–IV sec. a.C. Archivio per l'Antropologia e la Etnologia 114: 95120.Google Scholar
Gartland, J. J. (1974) Fundamentals of Orthopaedics. Saunders Company, Philadelphia, London, Toronto: 92125.Google Scholar
Genovés, S. (1969) Estimation of age and mortality. In Brothwell, D. R. and Higgs, E. S. (eds) Science in Archaeology. A Survey of Progress and Research: 440452. Bristol, Thames and Hudson.Google Scholar
Goodman, A. H., Armelagos, G. J. e Rose, J. C. (1980) Enamel hypoplasias as indicators of stress in three prehistoric populations from Illinois. Human Biology 52: 515528.Google ScholarPubMed
Goodman, A. H., Martin, D. L., Armelagos, G. J. e Clark, G. (1984a) Indication of stress from bone and teeth. In Cohen, M. N. e Armelagos, G. J. (eds) Paleopathology at the Origins of Agriculture: 1349. New York, Academic Press.Google Scholar
Goodman, A. H., Lallo, J., Armelagos, G. J. e Rose, J. C. (1984b) Health changes at Dickson Mounds, Illinois (A.D. 950–1300). In Cohen, M. N. e Armelagos, G. J. (eds) Paleopathology at the Origins of Agriculture: 271305. New York, Academic Press.Google Scholar
Hillson, S. (1986) Teeth: 283323. Cambridge, Cambridge University Press.Google Scholar
Jurmain, R. D. (1977) Stress and etiology of osteoarthritis. American Journal of Physical Anthropology 46: 353366.CrossRefGoogle Scholar
Jurmain, R. D. (1980) The pattern of involvement of appendicular degenerative joint disease. American Journal of Physical Anthropology 53: 143150.CrossRefGoogle ScholarPubMed
Jurmain, R. D. (1990) Paleoepidemiology of a central California prehistoric population from CAALA-329. II. Degenerative disease. American Journal of Physical Anthropology 83: 8394.CrossRefGoogle ScholarPubMed
Kelley, J. O. e Angel, J. L. (1987) Life stress of slavery. American Journal of Physical Anthropology 74: 199211.Google Scholar
Kennedy, K. A. R. (1989) Skeletal markers of occupational stress. In Iscan, M.Y. e Kennedy, K. A. R. (eds) Reconstruction of Life From the Skeleton: 129160. New York, Alan R. Liss.Google Scholar
Larsen, C. S. (1983) Behavioural implications of temporal change in cariogenesis. Journal of Archaeological Science 10: 18.Google Scholar
Lovejoy, C. O. (1985) Dental wear in the Libben population: its functional pattern and role in the determination of adult skeletal age at death. American Journal of Physical Anthropology 68: 4756.Google Scholar
Lukacs, J. R. (1989) Dental paleopathology: methods for reconstructing dietary patterns. In Iscan, M. Y. e Kennedy, K. A. R. (eds) Reconstruction of Life From the Skeleton: 261286. New York, Alan R. Liss.Google Scholar
Macchiarelli, R. e Salvadei, I. (1986) Topographic distribution of maxillary carious lesions at Alfedena (VI–V cent. B.C., Central Italy). Antropologia Contemporanea 9: 201206.Google Scholar
Marafon, G. (1981) Odontoiatria. Roma, Collana Università.Google Scholar
Merbs, C. F. (1983) Patterns of Activity-Induced Pathology in a Canadian Inuit Population. National Museum of Man Mercury Series, Archaeological Survey of Canada No. 119.Google Scholar
Merbs, C. F. e Wilson, W. H. (1962) Anomalies and pathologies of the Sadlermiut Eskimo vertebral column. Contributions to Anthropology. National Museum of Canada 180. 1: 154180.Google Scholar
Miles, A. E. W. (1963) The dentition in the assessment of individual age in skeletal material. In Brothwell, D. R. (ed.) Dental Anthropology. Symposia of the Society for the Study of Human Biology: 191209. London, Pergamon Press.Google Scholar
Ortner, D. J. e Putschar, W. G. J. (1985) Identification of Pathological Conditions in Human Skeletal Remains. Washington DC, Smithsonian Press.Google Scholar
Owsley, D. W., Orser, C. E. Jr., Mann, R. W., Moore-Jansen, P. H. e Montgomery, R. L. (1987) Demography and pathology of an urban slave population from New Orleans. American Journal of Physical Anthropology 74: 185197.Google Scholar
Petrone, P. P. (1991) Gli scavi di Piazza del Corso. I reperti osteologici umani: i dati biopatologici e loro importanza nella comprensione delle possibili interazioni tra caratteristiche biologiche e fattori socio-culturali (II–III sec. d.C, Nocera Inferiore, Italia Meridionale). Comunicazione al Convegno: “Nuceria fuori le mura”: L'area extraurbana prima di S. Matteo. Nocera Inferiore (SA).Google Scholar
Petrone, P. P. (1992a) I dati dell'antropologo. In Antiqua, Rivista dell'Archeoclub d'Italia 1: 31.Google Scholar
Petrone, P. P. (1992b) Popolazioni biologiche e gruppi socioculturali: il concetto di popolazione e problemi di metodo nell'analisi dei reperti osteologici umani. (Lavoro in corso d'opera).Google Scholar
Petrone, P. P. (1992c) Dati di studio non pubblicati.Google Scholar
Petrone, P. P. (1993a) Analisi paleodemografica, lesioni dentali e periodontali in un campione di popolazione del IV sec. a.C. di Pontecagnano (Campania, Italia meridionale). Quaderni di Aion, Archeologia e Storia Antica, Quaderno9. (Lavoro in stampa).Google Scholar
Petrone, P. P. (1993b) Indicatori bio-culturali: analisi dei dati di patologia dentaria e scheletrica in comunità di età sannitica (VI–IV sec. a.C., Molise, Italia centrale). Comunicazione al Convegno: Paleobiologia delle Popolazioni Umane dal Neolitico all'Età del Ferro in Italia, Roma1516 aprile 1993.Google Scholar
Powell, M. L. (1985) The analysis of dental wear and caries for dietary reconstruction. In Gilbert, R. I. e Mielke, J. H. (eds) The Analysis of Prehistoric Diets: 307338. New York, Academic Press.Google Scholar
Rogers, J., Waldron, T., Dieppe, P. e Watt, I. (1987) Arthropathies in palaeopathology: the basis of classification according to most probable cause. American Journal of Physical Anthropology 14: 179193.Google Scholar
Steinbock, R. T. (1976) Paleopathological Diagnosis and Interpretation, Bone Diseases in Ancient Human Populations. Springfield, Thomas.Google Scholar
Szilvassy, J. e Kritscher, H. (1990) Estimation of chronological age in man based on the spongy structure of long bones. Anthropologischer Anzeiger 48: 289298.CrossRefGoogle ScholarPubMed
Todd, T. W. (1920) Age changes in the pubic bone I. The male white pubis. American Journal of Physical Anthropology 3: 285334.CrossRefGoogle Scholar
Turner, C. G. II (1979) Dental anthropological indications of agriculture among the Jomon people of Central Japan. American Journal of Physical Anthropology 51: 619636.CrossRefGoogle Scholar
Woods, R. J. (1986) Biomechanics and Degenerative Joint Disease in Humans, Gorillas and Chimpanzees. M.A. Thesis, Kent State University.Google Scholar