Early herding at Măgura-Boldul lui Moş Ivănuş (early sixth millennium BC, Romania): environments and seasonality from stable isotope analysis

Marie Balasse; Adrian Bălăşescu; Anneke Janzen; Joël Ughetto-Monfrin; Pavel Mirea; Radian Andreescu

doi:10.1179/1461957112Y.0000000028

Early herding at Măgura-Boldul lui Moş Ivănuş (early sixth millennium BC, Romania): environments and seasonality from stable isotope analysis

Published online by Cambridge University Press: 25 January 2017

Marie Balasse ,

Adrian Bălăşescu ,

Anneke Janzen ,

Joël Ughetto-Monfrin ,

Pavel Mirea and

Radian Andreescu

Show author details

Marie Balasse*: Affiliation:
Archéozoologie, Archéobotanique: Sociétés, Pratiques et Environnements, UMR 7209 CNRS/Muséum national d'Histoire naturelle, France
Adrian Bălăşescu*: Affiliation:
Muzeul National de Istorie a Romaniei, Romania
Anneke Janzen*: Affiliation:
Department of Anthropology, University of California Santa Cruz, USA
Joël Ughetto-Monfrin*: Affiliation:
Archéozoologie, Archéobotanique: Sociétés, Pratiques et Environnements, UMR 7209 CNRS/Muséum national d'Histoire naturelle, France
Pavel Mirea*: Affiliation:
Musée Départemental Teleorman, Romania
Radian Andreescu*: Affiliation:
Muzeul National de Istorie a Romaniei, Romania
*: [email: balasse@mnhn.fr]
[email: abalasescu2005@yahoo.fr]
[email: ajanzen1@ucsc.edu]
[email: ughetto@mnhn.fr]
[email: pavelcmirea@yahoo.com]
[email: radian_romus@yahoo.com]

Article contents

Abstract
References

Get access

Rights & Permissions

Abstract

Stable isotope analyses were conducted on faunal remains from the site of Măgura-Boldul lui Moş Ivănuş with the objective of characterizing the environments and seasonality of husbandry in the earliest Neolithic (Gura Baciului-Cârcea/Starčevo-Criş I) of southern Romania. Results from bone collagen analysis indicate extensive herding strategies for cattle and pigs. However, sequential analysis in tooth enamel also provides evidence for winter leaf foddering in one bovine, potentially kept by the settlement over winter. In some instances, sheep were fed a 13C-enriched resource in late winter, which may have also coincided with lactation. It could not be determined whether this contribution was from C3 or C4 plants. Although isolated, these findings may be important in evaluating how early agricultural communities dealt with environmental constraints. These results are also interpreted with reference to the models of intensive mixed farming systems recently proposed by Bogaard (2004) and Halstead (2006).

Dans le but de caractériser les environnements et la saisonnalité de l'élevage au début du Néolithique (Gura Baciului-Cârcea/Starčevo-Criş I) dans le Sud de la Roumanie, des analyses d'isotopes stables ont été effectuées sur des restes fauniques du site de Măgura-Boldul lui Moş Ivănuş. Les résultats des analyses du collagène des os montrent l'existence de stratégies d'élevage extensif pour les bovins et les porcs. Toutefois des analyses séquentielles de l'émail des dents montrent également un bovin qui était nourri de feuilles en hiver et probablement gardé près du site durant cette période. Dans certains cas, les moutons étaient nourris de ressources alimentaires enrichies de 13C à la fin de l'hiver, coïncidant peut-être avec la période de lactation. Il n'a pas été possible de déterminer si cet apport provenait de plantes C3 ou C4. Bien qu'isolées, ces découvertes pourront être importantes dans l'évaluation de la façon dont les premières communautés agricoles ont géré les contraintes environnementales. Ces résultats ont également été interprétés en se référant aux modèles de systèmes d'agriculture mixte intensive proposés récemment par Bogaard (2004) et Halstead (2006). Translation by Isabelle Gerges.

Zusammenfassung

Anhand tierischer Überreste vom Fundplatz Măgura-Boldul lui Moş Ivănuş wurden Analysen stabiler Isotopen durchgeführt, um die Umwelt und die Saisonalität der Viehzucht im frühesten Neolithikum (Gruppe Gura Baciului-Cârcea/Starčevo-Criş I) in Südrumänien zu charakterisieren. Die Ergebnisse der Untersuchungen des Knochenkollagens zeigen umfassende Strategien der Herdenhaltung von Rind und Schwein. Jedoch gibt es aufgrund der Reihenuntersuchung von Zahnschmelz auch Hinweise auf Winterheufütterung eines Rindes, das möglicherweise während des Winters in der Siedlung gehalten wurde. In einigen Fällen wurden Schafe zum Winterende hin mit 13C-angereicherten Ressourcen gefüttert, was mit dem Zeitpunkt der Laktation übereingestimmt haben könnte. Es konnte allerdings nicht ermittelt werden, ob es sich bei den Quellen um C3- oder C4-Pflanzen gehandelt hat. Wenngleich sie derzeit isoliert sind, könnten diese Funde dennoch wichtig sein, um zu bestimmen, wie früh landwirtschaftliche Gemeinschaften bereits auf Umwelteinschränkungen reagierten. Diese Ergebnisse werden zudem unter Einbeziehung der Modelle von intensiven gemischten Landwirtschaftssystemen, die kürzlich von Bogaard (2004) und Halstead (2006) vorgestellt worden sind, interpretiert. Translation by Heiner Schwarzberg.

Type: Articles
Information: European Journal of Archaeology , Volume 16 , Issue 2 , 2013 , pp. 221 - 246

DOI: https://doi.org/10.1179/1461957112Y.0000000028 [Opens in a new window]
Copyright: Copyright © European Association of Archaeologists 2013

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Aggrey, E.K. 1982. Seasonal Changes in Water Content and Turnover in Cattle, Sheep and Goats Grazing Under Humid Tropical Conditions in Ghana. In: International Atomic Energy Agency ed. Use of Tritiated Water in Studies of Production and Adaptation in Ruminants. Joint FAO/IAEA Div. of Isotope and Radiation Applications of Atomic Energy for Food and Agricultural Development. Vienna: International Atomic Energy Agency, pp. 133–42.Google Scholar

Ahmed, M.M.M., El Hadi, H.M. 1996. Water Metabolism and Dehydration in Two Types of Cattle Given Poor and Good Quality Roughages. Journal of Arid Environments, 34: 225–33.CrossRef Google Scholar

Ambrose, S.H. 1990. Preparation and Characterization of Bone and Tooth Collagen for Isotopic Analysis. Journal of Archaeological Science, 17: 431–51.CrossRef Google Scholar

Ambrose, S.H., Norr, L. 1993. Experimental Evidence for the Relationship of the Carbon Isotope Ratios of Whole Diet and Dietary Protein to those of Bone Collagen and Carbonate. In: Lambert, J.B., Grupe, G., eds. Prehistoric Human Bone. Archaeology at the Molecular Level. Berlin: Springer-Verlag, pp. 1–37.Google Scholar

Andreescu, R., Mirea, P. 2008. Teleorman Valley. The Beginning of Neolithic in Southern Romania. Acta Terrae Septemcastrensis, 7: 57–75.Google Scholar

Andreescu, R., Mirea, P., Apope, S. 2001. Cultura Gumelniţa în Vestul Munteniei. O Civilizaţie Necunoscută: Gumelniţa. CD-ROM. Bucureşti: Institutul de Memorie Culturala.Google Scholar

Andreescu, R., Mirea, P., Apope, S. 2003. Cultura Gumelniţa în Vestul Munteniei. Aşezarea de la Vităneşti. jud. Teleorman. Cercetări Arheologice, 12: 71–88.CrossRef Google Scholar

Balasse, M. 2002. Reconstructing Dietary and Environmental History from Enamel Isotopic Analysis: Time Resolution of Intra-Tooth Sequential Sampling. International Journal of Osteoarchaeology, 12: 155–65.CrossRef Google Scholar

Balasse, M., Ambrose, S.H., Smith, A.B., Price, T.D. 2002. The Seasonal Mobility Model for Prehistoric Herders in the South-Western Cape of South Africa Assessed by Isotopic Analysis of Sheep Tooth Enamel. Journal of Archaeological Science, 29: 917–32.CrossRef Google Scholar

Balasse, M., Boury, L., Ughetto-Monfrin, J., Tresset, A. 2012a. Stable Isotope Insights (δ¹⁸O, δ¹³C) into Cattle and Sheep Husbandry at Bercy (Paris, France, IV^th millennium BC): Birth Seasonality and Winter Leaf Foddering. Environmental Archaeology, 17: 29–44.CrossRef Google Scholar

Balasse, M., Obein, G., Ughetto-Monfrin, J., Mainland, I. 2012b. Investigating Seasonality and Season of Birth in Past Herds: A Reference Set of Sheep Enamel Stable Oxygen Isotope Ratios. Archaeometry, 54 (2): 349–68.CrossRef Google Scholar

Balasse, M., Smith, A.B., Ambrose, S.H., Leigh, S.R. 2003. Determining Sheep Birth Seasonality by Analysis of Tooth Enamel Oxygen Isotope Ratios: The Late Stone Age Site of Kasteelberg (South Africa). Journal of Archaeological Science, 3: 205–15.Google Scholar

Balasse, M., Tresset, A. 2007. Environmental Constraints on Reproductive Activity of Domestic Sheep and Cattle: What Latitude for the Herder? Anthropozoologica, 42 (2): 71–88.Google Scholar

Balasse, M., Tresset, A., Ambrose, S.H. 2006. First Evidence for Seaweed Winter Foddering in the Neolithic of Scotland. Journal of Zoology, 270: 170–76.CrossRef Google Scholar

Bălăşescu, A., Moise, D., Radu, V. 2005a. The Palaeoeconomy of Gumelniţa Communities on the Territory of Romania. Culturã si Civilizaţie la Dunãrea de Jos, 22: 167–200.Google Scholar

Bălăşescu, A., Radu, V., Moise, D. 2005b. Omul si Mediul Animal între Mileniile VII-IV î.e.n. la Dunãrea de Jos. Muzeul National de Istorie a României. Seria Cercetãri Pluridisciplinare XI. Târgoviste: Editura Cetatea de Scaun.Google Scholar

Blaise, E., Balasse, M. 2011. Seasonality and Season of Birth of Modern and Late Neolithic Sheep from South-Eastern France Using Tooth Enamel δ¹⁸O Analysis. Journal of Archaeological Science, 38: 3085–93.CrossRef Google Scholar

Bocherens, H., Drucker, D. 2003. Trophic Level Isotopic Enrichment of Carbon and Nitrogen in Bone Collagen: Case Studies from Recent and Ancient Terrestrial Ecosystems. International Journal of Osteoarchaeology, 13: 46–53.CrossRef Google Scholar

Bocherens, H., Fizet, M., Mariotti, A., Lange-Badré, B., Vandermeersch, B., Borel, J.P., Bellon, G. 1991. Isotopic Biogeochemistry (¹³C, ¹⁵N) of Fossil Vertebrate Collagen: Implications for the Study of a Fossil Food Web Including Neandertal Man. Journal of Human Evolution, 20: 481–92.CrossRef Google Scholar

Bogaard, A. 2004. The Nature of Early Farming in Central and South-East Europe. Documenta Praehistorica, 31: 49–58.CrossRef Google Scholar

Bogaard, A. 2005. ‘Garden Agriculture’ and the Nature of Early Farming in Europe and the Near East. World Archaeology, 37 (2): 177–96.CrossRef Google Scholar

Bökönyi, S. 1972. Aurochs (Bos primigenius Boj.) Remains from the Orjeg Peat-Bogs Between the Danube and Tizsa Rivers. Cumania, 1: 17–56.Google Scholar

Bökönyi, S., Bartosiewicz, L. 1997. Tierknochenfunde. In: Hiller, S., Nikolov, V., eds. Karanovo. Die Ausgrabungen im Sudsektor 1984–1992, Band I. Salzburg: Verlag Ferdinand Berger & Söhne, pp. 385–423.Google Scholar

Bolomey, A. 1976. Pe Marginea Analizei Arheoosteologice a Materialului de la Cârcea-Dolj. Studii şi Cercetări de Istorie Veche şi Arheologie, 27 (4): 465–75.Google Scholar

Bréhard, S., Balasescu, A. 2012. What's Behind the Tell Phenomenon? An Archaeozoological Approach of Eneolithic Sites in Romania. Journal of Archaeological Science, 39: 3167–83.CrossRef Google Scholar

Cerling, T.E., Harris, J.M. 1999. Carbon Isotope Fractionation Between Diet and Bioapatite in Ungulate Mammals and Implications for Ecological and Paleoecological Studies. Oecologia, 120: 347–63.CrossRef Google Scholar PubMed

Cerling, T.E., Harris, J.M., Passey, B. 2003. Diets of East African Bovidae Based on Stable Isotope Analysis. Journal of Mammalogy, 84 (2): 456–70.2.0.CO;2>CrossRef Google Scholar

Collins, R.P., Jones, M.B. 1985. The Influence of Climatic Factors on the Distribution of C₄ Species in Europe. Vegetatio, 64: 121–29.Google Scholar

DeNiro, M.J., Epstein, S. 1978. Influence of Diet on the Distribution of Carbon Isotopes in Animals. Geochimica et Cosmochimica Acta, 42: 495–506.CrossRef Google Scholar

Degerbøl, M., Fredskild, B. 1970. The Urus (Bos primigenius Bojanus) and the Neolithic Domesticated Cattle (Bos taurus domesticus Linné) in Denmark. Zoological and Palynological Investigations. Det Kongelige Danske Videnskabernes Selskab, Biologiske skrifter, 17 (1). København: Munksgaards Forlag. pp. 5–178.Google Scholar

Drucker, D.G., Bridault, A., Hobson, K.A., Szuma, E., Bocherens, H. 2008. Can Carbon-13 in Large Herbivores Reflect the Canopy Effect in Temperate and Boreal Ecosystems? Evidence from Modern and Ancient Ungulates. Palaeogeography, Palaeoclimatology, Palaeoecology, 266: 69–82.CrossRef Google Scholar

El Susi, G. 1996. Vânãtori, Pescari si Crescãtori de Animale în Banatul Mileniilor VI î.Ch-I d.Ch. Studiu arheozoologic. Timisoara: Editura Mirton.Google Scholar

Ehleringer, J.R., Cerling, T.E., Helliker, B.R. 1997. C₄ Photosynthesis, Atmospheric CO₂, and Climate. Oecologia, 112: 285–99.CrossRef Google Scholar PubMed

Freyer, H.D., Belacy, N. 1983. ¹³C/¹²C Records in Northern Hemisphere Trees During the Past 500 Years. Anthropogenic Impact and Climatic Superposition. Journal of Geophysical Research, 88: 6844–52.CrossRef Google Scholar

Fricke, H.C., O'Neil, J.R. 1996. Inter- and Intra-Tooth Variation in the Oxygen Isotope Composition of Mammalian Tooth Enamel: Some Implications for Palaeoclimatological and Palaeobiological Research. Palaeogeography, Palaeoclimatology, Palaeoecology, 126: 91–100.CrossRef Google Scholar

Halstead, P. 1996. Pastoralism or Household Herding? Problems of Scale and Specialization in Early Greek Animal Husbandry. World Archaeology, 28 (1): 20–42.CrossRef Google Scholar

Halstead, P. 1998. Ask the Fellow Who Lop the Hay: Leaf-Fodder in the Mountains of Northwest Greece. Rural History, 9 (2): 211–34.CrossRef Google Scholar

Halstead, P. 2006. Sheep in the Garden: The Integration of Crop and Livestock Husbandry in Early Farming Regimes of Greece and Southern Europe. In: Serjeantson, D., Field, D., eds. Animals in the Neolithic of Britain and Europe. Oxford: Oxbow Books, pp. 42–55.Google Scholar

Halstead, P., Isaakidou, V. 2011. A Pig Fed by Hand is Worth Two in the Bush: Ethnoarchaeology of Pig Husbandry in Greece and its Archaeological Implications. In: Albarella, U., Trentacoste, A., eds. Ethnozooarchaeology: The Present and Past of Human-Animal Relationships. Oxford: Oxbow, pp. 160–74.Google Scholar

Hedges, R.E.M., Reynard, L.M. 2007. Nitrogen Isotopes and the Trophic Level of Humans in Archaeology. Journal of Archaeological Science, 34: 1240–51.CrossRef Google Scholar

Henton, E., Meier-Augenstein, W., Kemp, H.F. 2010. The Use of Oxygen Isotopes in Sheep Molars to Investigate Past Herding Practices at the Neolithic Settlement of Catalhöyük, Central Anatolia. Archaeometry, 52: 429–49.CrossRef Google Scholar

Hunt, H.V., Vander Linden, M., Liu, X., Motuzaite-Matuzeviciute, G., Colledge, S., Jones, M.K. 2008. Millets Across Eurasia: Chronology and Context of Early Records of the Genera Panicum and Setaria from Archaeological Sites in the Old World. Vegetation History and Archaeobotany, 17: S5–S18.CrossRef Google Scholar PubMed

Hunt, H.V., Campana, M.G., Lawes, M.C., Park, Y.-J., Bower, M.A., Howe, C.J., Jones, M.K. 2011. Genetic Diversity and Phylogeography of Broomcorn Millet (Panicum miliaceum L.) Across Eurasia. Molecular Ecology, 20: 4756–71.CrossRef Google Scholar PubMed

Kelly, F. 1997. Early Irish Farming. Vol. IV. Dublin: Early Irish Law Series.Google Scholar

Kohn, M.J. 2010. Carbon Isotope Compositions of Terrestrial C3 Plants as Indicators of (Paleo)Ecology and (Paleo)Climate. Proceedings of the National Academy of Sciences of the United States of America, 107: 19691–95.Google Scholar PubMed

Krueger, H.W., Sullivan, C.H. 1984. Models for Carbon Isotope Fractionation Between Diet and Bone. In: Turnlund, J.R., Johnson, P.E., eds. Stable Isotopes in Nutrition. Washington, DC, USA: American Chemical Society Symposium Series 258, pp. 205–20.Google Scholar

Land, L.S., Lundelius, E.L., Valastro, S. 1980. Isotopic Ecology of Deer Bones. Palaeogeography, Palaeoclimatology, Palaeoecology, 32: 143–51.CrossRef Google Scholar

Lecomte, T., Le Neveu, C. 1986. Le Marais Vernier. Contribution à l'Étude et à la Gestion d'une Zone Humide. (Unpublished thèse de doctorat, Université de Rouen Haute-Normandie).Google Scholar

Longinelli, A. 1984. Oxygen Isotopes in Mammal Bone Phosphate: a New Tool for Paleohydrological and Paleoclimatological Research. Geochimica et Cosmochimica Acta, 48: 385–90.CrossRef Google Scholar

Lucas, A.T. 1989. Cattle in Ancient Ireland. Irish Series. Kilkenny: Boethius Press.Google Scholar

Luz, B., Kolodny, Y., Horowitz, M. 1984. Fractionation of Oxygen Isotopes Between Mammalian Bone-Phosphate and Environmental Drinking Water. Geochimica et Cosmochimica Acta, 48: 1689–93.CrossRef Google Scholar

Macfarlane, W.V., Dolling, C.H.S., Howard, B. 1966. Distribution and Turnover of Water in Merino Sheep Selected for High Wool Production. Australian Journal of Agricultural Research, 17 (4): 491–502.CrossRef Google Scholar

Mainland, I., Halstead, P. 2005. The Diet and Management of Domestic Sheep and Goats at Neolithic Makriyalos. In: Davies, J., Fabis, M., Mainland, I., Richards, M., Thomas, R., eds. Diet and Health in Past Animal Populations. Proceedings of the 9th ICAZ Conference, Durham, 2002. Oxford: Oxbow Books, pp. 104–12.Google Scholar

Manhart, H. 1998. Die Vorgeschichtliche Tierwelt von Koprivec und Durankulak und Anderen Prähistorischen Fundplatzen in Bulgarien Aufgrung von Knochenfunden aus Archäologischen Ausgrabungen. Documenta Naturae, 116: 1–353.Google Scholar

Mirea, P. 2005. Consideraţii Asupra Locuirii Starčevo-Criş din Sud-Vestul Munteniei. Cultură şi Civilizaţie la Dunărea de Jos, 22: 37–52.Google Scholar

Mirea, P. 2011. Between Everyday and Ritual Use — ‘Small Altars' or ‘Cult Tables’ from Măgura ‘Buduiasca’,Teleorman County (I): The Early Neolithic Finds. Buletinul Muzeului Judetean Teleorman. Seria Arheologie, 3: 41–58.Google Scholar

Mirea, P. in press. Epoca Neolitică pe Valea Teleormanului. Cercetările de la Măgura. Bucureşti: Renaissance.Google Scholar

Pardo, L.H., Nadelhoffer, K.J. 2010. Using Nitrogen Isotope Ratios to Assess Terrestrial Ecosystems at Regional and Global Scales. In: West, J.B., Bowen, G.J., Dawson, T.E., Tu, K.P., eds. Isoscapes. Understanding Movements, Pattern, and Process on Earth Through Stable Isotope Mapping. New York: Springer, pp. 221–49.Google Scholar

Passey, B.H., Cerling, T.E. 2002. Tooth Enamel Mineralization in Ungulates: Implications for Recovering a Primary Isotopic Time-Series. Geochimica et Cosmochimica Acta, 66: 3225–34.CrossRef Google Scholar

Pyankov, V.I., Ziegler, H., Akhani, H., Deigele, C., Lüttge, U. 2010. European Plants with C4 Photosynthesis: Geographical and Taxonomic Distribution and Relations to Climate Parameters. Botanical Journal of the Linnean Society, 163: 283–304.CrossRef Google Scholar

Rasmussen, P. 1989. Leaf-Foddering of Livestock in the Neolithic: Archaeobotanical Evidence from Weier, Switzerland. Journal of Danish Archaeology, 8: 51–71.CrossRef Google Scholar

Rasmussen, P. 1990. Leaf Foddering in the Earliest Neolithic Agriculture. Evidence from Switzerland and Danemark. Acta Archaeologica, 60: 71–86.Google Scholar

Reinhardt, C., Reinhardt, A., Reinhardt, V. 1986. Social Behaviour and Reproductive Performance in Semi-Wild Scottish Highland Cattle. Applied Animal Behaviour Science, 15: 125–36.CrossRef Google Scholar

Rozanski, K., Araguas-Araguas, L., Gonfiantini, R. 1993. Isotopic Patterns in Modern Global Precipitation. In: Stwart, P.K., Lohmann, K.C., McKenzie, J., Savin, S., eds. Climate Change in Continental Isotope Records. Washington: American Geophysical Union, pp. 1–36.Google Scholar

Schoeninger, M.J., DeNiro, M.J. 1984. Nitrogen and Carbon Isotopic Composition of Bone Collagen from Marine and Terrestrial Animals. Geochimica et Cosmochimica Acta, 48: 625–39.CrossRef Google Scholar

Sharp, Z.D., Cerling, T.E. 1998. Fossil Isotope Records of Seasonal Climate and Ecology; Straight from the Horse's Mouth. Geology, 26: 219–22.2.3.CO;2>CrossRef Google Scholar

Smedley, M.P., Dawson, T.E., Comstock, J.P., Donovan, L.A., Sherrill, D.E., Cook, C.S., Ehleringer, J.R. 1991. Seasonal Carbon Isotope Discrimination in a Grassland Community. Oecologia, 85: 314–20.CrossRef Google Scholar

Towers, J., Jay, M., Mainland, I., Nehlich, O., Montgomery, J. 2011. A Calf for All Seasons? The Potential of Stable Isotope Analysis to Investigate Prehistoric Husbandry Practices. Journal of Archaeological Science, 38: 1858–68.CrossRef Google Scholar

Ursulescu, N., Petrescu-Dîmboviţa, M., Monah, D. 2001. Neo-Eneoliticul. In: Petrescu-Dîmboviţa, M., Vulpe, A., eds. Istoria Românilor (I). Moştenirea Timpurilor Îndepărtate. Bucureşti: Ed. Enciclopedică, pp. 111–209.Google Scholar

van der Merwe, N.J., Medina, E. 1991. The Canopy Effect, Carbon Isotope Ratios and Foodwebs in Amazonia. Journal of Archaeological Science, 18: 249–59.CrossRef Google Scholar

von den Driesch, A. 1976. A Guide to the Measurement of Animal Bones from Archaeological Sites. Peabody Museum Bulletin. 1. Cambridge: Peabody Museum of Archaeology and Ethnology, Harvard University.Google Scholar

Vogel, J.C., Fuls, A., Ellis, R.P. 1978. The Geographical Distribution of Kranz Grasses in South Africa. South African Journal of Science, 74: 209–15.Google Scholar

Walker, A., Bogaard, A. 2011. Preliminary Archaeobotanical Results from Teleor 003/Măgura ‘Buduiasca’. In: Mills, S., Mirea, P., eds. The Lower Danube in Prehistory: Landscape Changes and Human-Environment Interactions. Proceedings of the International Cconference, Alexandria, 3–5 November 2010. Bucharest: Renaissance, pp. 151–59.Google Scholar

Weinreb, M.M., Sharav, Y. 1964. Tooth Development in Sheep. American Journal of Veterinary Research, 25 (107): 891–908.Google Scholar PubMed

Zazzo, A., Balasse, M., Passey, B.H., Moloney, A.P., Monahan, F.J., Schmidt, O. 2010. The Isotope Record of Short- and Long-Term Dietary Changes in Sheep Tooth Enamel: Implications for Quantitative Reconstruction of Paleodiets. Geochimica et Cosmochimica Acta, 74: 3571–86.CrossRef Google Scholar

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Tornero, Carlos Bălăşescu, Adrian Ughetto-Monfrin, Joël Voinea, Valentina and Balasse, Marie 2013. Seasonality and season of birth in early Eneolithic sheep from Cheia (Romania): methodological advances and implications for animal economy. Journal of Archaeological Science, Vol. 40, Issue. 11, p. 4039.

Bréhard, Stéphanie Radu, Valentin Martin, Alexis Hanot, Pauline Popovici, Dragomir and Bălăşescu, Adrian 2014. Food Supply Strategies in the Romanian Eneolithic: Sheep/Goat Husbandry and Fishing Activities from Hârşova Tell and Borduşani-Popină (5th Millennium BC). European Journal of Archaeology, Vol. 17, Issue. 3, p. 407.

Valenzuela-Lamas, S. Jiménez-Manchón, S. Evans, J. López, D. Jornet, R. and Albarella, U. 2016. Analysis of seasonal mobility of sheep in Iron Age Catalonia (north-eastern Spain) based on strontium and oxygen isotope analysis from tooth enamel: First results. Journal of Archaeological Science: Reports, Vol. 6, Issue. , p. 828.

Balasse, Marie Evin, Allowen Tornero, Carlos Radu, Valentin Fiorillo, Denis Popovici, Dragomir Andreescu, Radian Dobney, Keith Cucchi, Thomas and Bălăşescu, Adrian 2016. Wild, domestic and feral? Investigating the status of suids in the Romanian Gumelniţa (5th mil. cal BC) with biogeochemistry and geometric morphometrics. Journal of Anthropological Archaeology, Vol. 42, Issue. , p. 27.

Balasse, M. Tresset, A. Bălăşescu, A. Blaise, E. Tornero, C. Gandois, H. Fiorillo, D. Nyerges, É.Á. Frémondeau, D. Banffy, E. and Ivanova, M. 2017. Animal Board Invited Review: Sheep birth distribution in past herds: a review for prehistoric Europe (6th to 3rd millennia BC). Animal, Vol. 11, Issue. 12, p. 2229.

Frémondeau, Delphine Nuviala, Pauline and Duval, Colin 2017. Pigs and Cattle in Gaul: The Role of Gallic Societies in the Evolution of Husbandry Practices. European Journal of Archaeology, Vol. 20, Issue. 3, p. 494.

De Cupere, B. Frémondeau, D. Kaptijn, E. Marinova, E. Poblome, J. Vandam, R. and Van Neer, W. 2017. Subsistence economy and land use strategies in the Burdur province (SW Anatolia) from prehistory to the Byzantine period. Quaternary International, Vol. 436, Issue. , p. 4.

Balasse, Marie Bălăşescu, Adrian Tornero, Carlos Fremondeau, Delphine Hovsepyan, Roman Gillis, Rosalind and Popovici, Dragomir 2017. Investigating the scale of herding in Chalcolithic pastoral communities settled along the Danube River in the 5th millennium BC: A case study at Borduşani-Popină and Hârşova-tell (Romania). Quaternary International, Vol. 436, Issue. , p. 29.

Mărgărit, Monica Mirea, Pavel and Radu, Valentin 2018. Exploitation of aquatic resources for adornment and tool processing at Măgura ‘Buduiasca’ (‘Boldul lui Moş Ivănuş’) Neolithic settlement (southern Romania). Quaternary International, Vol. 472, Issue. , p. 49.

Knockaert, Juliette Balasse, Marie Rendu, Christine Burens, Albane Campmajo, Pierre Carozza, Laurent Bousquet, Delphine Fiorillo, Denis and Vigne, Jean-Denis 2018. Mountain adaptation of caprine herding in the eastern Pyrenees during the Bronze Age: A stable oxygen and carbon isotope analysis of teeth. Quaternary International, Vol. 484, Issue. , p. 60.

Vaiglova, Petra Halstead, Paul Pappa, Maria Triantaphyllou, Sevi Valamoti, Soultana M. Evans, Jane Fraser, Rebecca Karkanas, Panagiotis Kay, Andrea Lee-Thorp, Julia Bogaard, Amy and Halcrow, Siân E. 2018. Of cattle and feasts: Multi-isotope investigation of animal husbandry and communal feasting at Neolithic Makriyalos, northern Greece. PLOS ONE, Vol. 13, Issue. 6, p. e0194474.

Gan, Yee Min Towers, Jacqueline Bradley, Richard A. Pearson, Elizabeth Nowell, Geoff Peterkin, Joanne and Montgomery, Janet 2018. Multi-isotope evidence for cattle droving at Roman Worcester. Journal of Archaeological Science: Reports, Vol. 20, Issue. , p. 6.

Berthon, Rémi Kovačiková, Lenka Tresset, Anne and Balasse, Marie 2018. Integration of Linearbandkeramik cattle husbandry in the forested landscape of the mid-Holocene climate optimum: Seasonal-scale investigations in Bohemia. Journal of Anthropological Archaeology, Vol. 51, Issue. , p. 16.

MĂRGĂRIT, MONICA MIREA, PAVEL and BĂLĂȘESCU, ADRIAN 2018. Manufacturing technique and social identity: three cases of ‘manufacture-by-wear’ technique. Archaeofauna, Vol. 27, Issue. , p. 253.

Knipper, Corina Reinhold, Sabine Gresky, Julia Berezina, Nataliya Gerling, Claudia Pichler, Sandra L. Buzhilova, Alexandra P. Kantorovich, Anatoly R. Maslov, Vladimir E. Petrenko, Vladimira G. Lyakhov, Sergey V. Kalmykov, Alexey A. Belinskiy, Andrey B. Hansen, Svend Alt, Kurt W. and Biehl, Peter F. 2020. Diet and subsistence in Bronze Age pastoral communities from the southern Russian steppes and the North Caucasus. PLOS ONE, Vol. 15, Issue. 10, p. e0239861.

Bishop, Katherine G. Garvie-Lok, Sandra Haagsma, Margriet MacKinnon, Michael and Karapanou, Sophia 2020. Mobile animal management in the Mediterranean: Investigating Hellenistic (323-31 BCE) husbandry practices in Thessaly, Greece using δ13C, δ18O, and 87Sr/86Sr recorded from sheep and goat tooth enamel. Journal of Archaeological Science: Reports, Vol. 31, Issue. , p. 102331.

Janzen, Anneke Balasse, Marie and Ambrose, Stanley H. 2020. Early pastoral mobility and seasonality in Kenya assessed through stable isotope analysis. Journal of Archaeological Science, Vol. 117, Issue. , p. 105099.

Balasse, Marie Renault-Fabregon, Léo Gandois, Henri Fiorillo, Denis Gorczyk, John Bacvarov, Krum and Ivanova, Maria 2020. Neolithic sheep birth distribution: Results from Nova Nadezhda (sixth millennium BC, Bulgaria) and a reassessment of European data with a new modern reference set including upper and lower molars. Journal of Archaeological Science, Vol. 118, Issue. , p. 105139.

Vaiglova, Petra Gardeisen, Armelle Buckley, Michael Cavanagh, William Renard, Josette Lee-Thorp, Julia and Bogaard, Amy 2020. Further insight into Neolithic agricultural management at Kouphovouno, southern Greece: expanding the isotopic approach. Archaeological and Anthropological Sciences, Vol. 12, Issue. 2,

Kamjan, Safoora de Groene, Donna van den Hurk, Youri Zidarov, Petar Elenski, Nedko Patterson, William P. and Çakırlar, Canan 2021. The emergence and evolution of Neolithic cattle farming in southeastern Europe: New zooarchaeological and stable isotope data from Džuljunica-Smărdeš, in northeastern Bulgaria (ca. 6200–5500 cal. BCE). Journal of Archaeological Science: Reports, Vol. 36, Issue. , p. 102789.

Download full list

Article contents

Early herding at Măgura-Boldul lui Moş Ivănuş (early sixth millennium BC, Romania): environments and seasonality from stable isotope analysis

Abstract

Zusammenfassung

Keywords

Access options

References

Save article to Kindle

Save article to Dropbox

Save article to Google Drive

Reply to: Submit a response

Your details

You have entered the maximum number of contributors

Conflicting interests