10. századi fegyveresek aktivitás okozta szkeletális elváltozásainak összehasonlító vizsgálata – a fegyvermelléklet-adás szokásának bioarchaeológiai megközelítése
Absztrakt
The main goals were (1) to contribute to the bioarchaeological knowledge on the burials with weapons from the 10th-century CE Carpathian Basin by registering relevant activity-related skeletal changes that can help in the description and characterisation of the osteological parameters of these individuals in the future; and (2) to discuss the results in archaeological context.
The primer research material was selected from the 10th-century CE cemetery of Sárrétudvari-Hízóföld. Individuals were divided into two subgroups according to the presence/absence of weapon-related grave-goods. This cemetery is the largest known cemetery from this period and contained graves with horse riding- and weapon-related deposits in a high number. The population can be considered as one cultural group, and the armed group is consistent with the general characteristics described by the archaeological and historical sources related to the warriors from this era.
Minor skeletal differences were found between the armed and unarmed Sárrétudvari subgroups. Concerning the unarmed group, we observed higher frequency of the changes at the shoulder girdle, and especially in the clavicula, while the armed group showed higher rates of changes both at the shoulder and elbow regions. On the other hand, among all the analysed entheseal changes, joint changes, morphological variants, traumatic lesions and metric indices of shape and robusticity, we observed a statistically significant difference between the armed and unarmed group only in the case of the robusticity index of the clavicula.
Concerning the connections between the armed and unarmed groups, the anthropological research revealed that the individuals without weapon-related artefacts in their grave were practicing similar activities. Consequently, in the case of the Sárrétudvari-Hízóföld cemetery, the lack of weapon deposit does not reflect properly the past lifestyle; thus, evaluating the military potency of the population by comparing the ratios of the individuals with and without weapons in their graves is not a sufficient way.
The anthropological and bioarchaeological identification of armed individuals results in information on the level of the single graves and burials, which basically influence the possible evaluation of the cemeteries. Investigation of burial customs of the 10th and 11th centuries CE is a complex but insufficient research field; thus, every single data extends and refine our knowledge on the topic. Anthropological data concerning the Sárrétudvari-Hízóföld series proved that the lack of weapon- and, in parallel, horse riding-related grave-goods does not reflect properly the past lifestyle. Therefore, these artefacts are part of a complex burial custom, which was influenced not only by the connected lifestyle.
Hivatkozások
Ahmad, Z., Taha, Z., Hassan, H.A., Hisam, M.A., Johari, N.H., Kadirgama, K. (2014): Biomechanics Measurements in Archery. Journal of Mechanical Engineering and Sciences, 6: 762–771. DOI: https://doi.org/10.15282/jmes.6.2014.4.0074
Alves Cardoso, F. (2008): A Portrait of Gender in Two 19th and 20th Century Portuguese Populations: A Palaeopathological Perspective. Doktori Értekezés. Durham University.
Angel, J.L. (1966): Early skeletons from Tranquillity, California. Smithsonian Press, Washington.
Axford, R. (1995). Archery Anatomy: An introduction to techniques for improved performance. Souvenir Press, London.
Berthon, W. (2019): Bioarchaeological analysis of the mounted archers from the Hungarian Conquest period (10th century). Doktori Értekezés. École Pratique des Hautes Études, PSL University–University of Szeged, Paris–Szeged.
Berthon, W., Tihanyi, B., Kis, L., Révész, L., Coqueugniot, H., Dutour, O., Pálfi, Gy. (2019): Horse riding and the shape of the acetabulum: Insights from the bioarchaeological analysis of early Hungarian mounted archers (10th century). International Journal of Osteoarchaeology, 29: 117–126. DOI: https://doi.org/10.1002/oa.2723
Dutour, O. (1992): Activités physiques et squelette humain: le difficile passage de l'actuel au fossile. Bulletins et Mémoires de la Société d'Anthropologie de Paris, 4: 233–241. DOI: https://doi.org/10.3406/bmsap.1992.2319
Ertan, H., Kentel, B., Tümer, S.T., Korkusuz, F. (2003): Activation patterns in forearm muscles during archery shooting. Human Movement Science, 22: 37–45.
Härke, H. (1997): The nature of burial data. In: Jensen, C.K., Nielsen, K.H. (Ed.) Burial & Society: The chronological and social analysis of archaeological burial data, Univ. Press, Aarhus. pp. 19–27.
Józsa, L., Farkas, Gy.L., Paja, L. (2004): The frequency of enthesopathies in the 14–15th century series of Bátmonostor–Pusztafalu. Acta Biologica Szegediensis, 48: 43–45.
Just, Zs. (1998): A csigolyák rendellenességei két honfoglaláskori temető csontvázanyagában. Szakdolgozat. Szeged, József Attila Tudományegyetem.
Kennedy, K.A.R. (1989): Skeletal markers of occupational stress. In: İşcan, M.Y., Kennedy, K.A.R. (Ed.) Reconstruction of life from the skeleton. Alan R. Liss Inc, New York. pp. 129–160.
Kovács, L. (1975): A magyar honfoglalás kori fegyvertörténeti kutatások állásáról. Hadtörténeti Közlemények, 22: 515–529.
Kovács, L. (1986): Viselet, fegyverek. In: Kristó, Gy. (Szerk.) Az Árpád-kor háborúi. Zrínyi Katonai Könyv- és Lapkiadó, Budapest. pp. 216–281, 306–313, 317–326, 10–32. ábra, 1–55. kép.
Lipták, P. (1959): Embertan és történeti embertan. Anthropologiai Közlemények, 3: 111–120.
Lovell, N.C. (2008): Analysis and interpretation of skeletal trauma. In: Katzenberg, M.A., Saunders, S.R. (Ed.) Biological Anthropology of the Human Skeleton. Wiley & Sons Inc., New Jersey. pp. 341–386.
M. Nepper, I. (2002). Hajdú-Bihar megye 10–11. századi sírleletei I–II. Déri Múzeum–Magyar Nemzeti Múzeum–MTA Régészeti Intézete, Budapest–Debrecen.
Nikita, E. (2017): Osteoarchaeology. A guide to the macroscopic study of human skeletal remains. Academic Press, London.
Nikita, E., Xanthopoulou, P., Bertsatos, A., Chovalopoulou, M.E., Hafez, I. (2019). A three-dimensional digital microscopic investigation of entheseal changes as skeletal activity markers. American J. of Physical Anthropology, 169: 704–713. DOI: https://doi.org/10.1002/ajpa.23850
Oláh, S. (1990a): Sárrétudvari–Hízóföld honfoglalás kori temetőjének történeti embertani értékelése. Doktori Értekezés. József Attila Tudományegyetem, Szeged.
Oláh, S. (1990b): Investigation of bilateral non-metric traits in a sample from the 10th century. Acta Biologica Szegediensis, 36: 75–79.
Pálfi, Gy., Dutour, O. (1996): Activity-induced skeletal markers in historical anthropological material. International J. of Anthropology, 11: 41–55. DOI: https://doi.org/10.1007/BF02442202
Pálfi, Gy., Marcsik, A., Oláh, S., Farkas, Gy.L., Dutour, O. (1996): Sárrétudvari-Hízóföld honfoglalás kori széria paleopatológiája. In: Pálfi, Gy., Farkas, Gy.L., Molnár, E. (Szerk.) Honfoglaló magyarság Árpád-kori magyarság. Antropológia-Régészet-Történelem, JATE Press, Szeged. pp. 213–235.
Révész, L. (1997): Honfoglalás kori női sír Békéscsaba-Erzsébethelyen. A Móra Ferenc Múzeum Évkönyve. Studia Archaeologica, 3: 160–195.
Rhodes, J.A., Knüsel, C.J. (2005): Activity-related skeletal change in medieval humeri: Cross-sectional and architectural alterations. American Journal of Physical Anthropology, 128: 536–546. DOI: https://doi.org/10.1002/ajpa.20147
Squadrone, R., Rodano, R. (1995): Multifactorial analysis of shooting archery. In: Barabás, A., Fábián, Gy. (Szerk.) Biomechanics in Sports XII. Proceedings of the 12th Symposium of the International Society of Biomechanics in Sports, Budapest. pp. 270–273.
Squadrone, R., Rodano, R., Gallozzi, C. (1995): Fatigue effects on shooting archery performance. In: Barabás, A., Fábián, Gy. (Szerk.) Biomechanics in Sports XII. Proceedings of the 12th Symposium of the International Society of Biomechanics in Sports, Budapest. pp. 274–277.
Stirland, A. (1984): Possible correlation between os acromiale and occupation in the burial from the Mary Rose. In: Capecchi, V., Rabino Massa, E. (Ed.) Proceedings of the 5th European Meeting of Palaeopathology Association. Siena University Press, Siena. pp. 327–334.
Stirland, A.J. (1993). Asymmetry and activity-related change in the male humerus. International Journal of Osteoarchaeology, 3: 105–113. DOI: https://doi.org/10.1002/oa.1390030207
Suwarganda, E., Razali, R., Wilson, B., Pharmy, A. (2012): Influence of Muscle Activity on Shooting Performance in Archery: Preliminary Findings. In: Bradshaw, E.J., Angus Burnett, A., Hume, P.A. (Ed.) 30th International Conference on Biomechanics in Sports. Melbourne, International Society of Biomechanics in Sports, Melbourne. pp. 319–322.
Tihanyi, B., Bereczki, Zs., Molnár, E., Berthon, W., Révész, L., Dutour, O., Pálfi, Gy. (2015): Investigation of Hungarian Conquest period (10th c. AD) archery on the basis of activity-induced stress markers on the skeleton. Acta Biologica Szegediensis, 59: 65–77.
Thomas, A. (2014): Bioarchaeology of the middle Neolithic: Evidence for archery among early European farmers. American Journal of Physical Anthropology, 154: 279–290. DOI: https://doi.org/10.1002/ajpa.22504
