Bailey, D. W. Balkan Prehistory. (Routledge, 2000). https://doi.org/10.4324/9780203461969.
Chapman, J. A Life in Balkan Archaeology. (Oxbow Books, 2021). https://doi.org/10.2307/j.ctv1wvndcs.
Anthony, D. W. The rise and fall of Old Europe. in The lost world of Old Europe: The Danube Valley, 5000–3500 BC (eds. Anthony, D. W. & Chi, J. Y.) 26–57 (Institute for the Study of the Ancient World at NYU/Princeton University Press, 2010).
Lazăr, C., Mărgărit, M. & Radu, V. Between Dominant Ideologies and Techno-economical Constraints: Spondylus Ornaments from the Balkans in the 5th Millennium BC. in Interchange in Pre- and Protohistory. Case Studies in Iberia, Romania, Turkey and Israel. British Archaeological Reports, International Serie. (eds. Cruz, A. & Gibaja Bao, J. F.) 5–21 (Hadrian Books Ltd, 2018).
Hervella, M. et al. Ancient DNA from South-East Europe reveals different events during early and Middle Neolithic influencing the European Genetic Heritage. PLoS ONE 10, e0128810 (2015).
Google Scholar
Mathieson, I. et al. The genomic history of southeastern Europe. Nature 555, 197–203 (2018).
Google Scholar
Lazaridis, I. et al. The genetic history of the Southern Arc: A bridge between West Asia and Europe. Science 377, eabm4247 (2022).
Google Scholar
Popescu, G. M. et al. Sine qua non: Inferring Kodjadermen-Gumelniţa-Karanovo VI population dynamics from aggregated probability distributions of radiocarbon dates. Radiocarbon 65, 463–484 (2023).
Google Scholar
González-Fortes, G. et al. Paleogenomic Evidence for Multi-generational Mixing between Neolithic Farmers and Mesolithic Hunter-Gatherers in the Lower Danube Basin. Curr. Biol. 27, 1801-1810.e10 (2017).
Google Scholar
Lazăr, C. et al. Gumelnița: Research results of the 2018 and 2019 fieldwork seasons. Rev. Cercet. Arheol. şi Numis. 6, 13–100 (2020).
Lazăr, C. et al. Gumelnița: Then and now. The research results of the 2017 fieldwork. Stud. Preist. 14, 119–174 (2017).
Dumitrescu, V. O statuetă neolitică de marmură descoperită la Gumelnița. Stud. şi Cercet. Istor. Veche 14, 139–143 (1963).
Dumitrescu, V. Gumelnița—sondajul stratigrafic din 1960. Stud. şi Cercet. Istor. Veche 17, 51–60 (1966).
Dumitrescu, V. & Marinescu-Bîlcu, S. Noi descoperiri de la Gumelnița. Cult. şi Civilizaţie la Dunărea Jos 16–17, 114–144 (2001).
Lazăr, C. A. Date noi privind unele morminte Gumelnitene. Preist. Dunarii Jos XVI–XVII, 173–183 (2001).
Dumitrescu, V. Fouilles de Gumelnița. Dacia 2, 29–103 (1925).
Dumitrescu, V. Découvertes de Gumelnița. Dacia 1, 325–342 (1924).
Dumitrescu, V. Oameni și Cioburi. Contribuții la istoria contemporană a arheologiei românești. (Muzeul Dunării de Jos, 1993).
Lazăr, C. et al. Gumelnița: research results of the 2021 fieldwork season. Rev. Cercet. Arheol. și Numis. 7, 13–54 (2021).
Lazǎr, C. Rituri şi ritualuri funerare în neoliticul şi eneoliticul din România. (Cetatea de Scaun, 2021).
Lazar, C. et al. The catalogue of the Neolithic and Eneolithic funerary findings from Romania. (Cetatea de Scaun, 2012). https://doi.org/10.13140/2.1.2028.0320.
Șerbănescu, D. Vestigii neolitice descoperite la Ulmeni. Cult. şi Civilizaţie la Dunărea Jos 1, 25–34 (1985).
Vasile, G. Analiza antropologică a scheletelor eneolitice din necropola aşezării eponime de la Gumelniţa (jud. Călăraşi, România). J. Archaeol. Anthropol. Interdiscip. Stud. 1, 43–57 (2019).
Nicolăescu-Plopșor, D. Expertiza antropologică asupra unui craniu de copil descoperit la Gumelnița în 1960. Stud. şi Cercet. Istor. Veche 17, 109–112 (1966).
Chapman, J. ‘Deviant’ burials in the Neolithic and Chalcolithic of Central and South Eastern Europe. in Body parts and bodies whole: changing relations and meanings 30–45 (Oxbow Books, 2010).
Lazăr, C. The eneolithic necropolis from Sultana-Malu Rosu (Romania)—a case study. in Mobility and Transitions in the Holocene. Proceedings of the XVI World Congress of the International Union of Prehistoric and Protohistoric Sciences. BAR International Series 2658. (eds. Oosterbeek, L. & Fidalgo, C.) 67–74 (Archaeopress, 2014).
Necrasov, O. & Haimovici, S. Studiul resturilor de faună neolitică, descoperite în stațiunea Gumelnița. SCIV 17, 101–108 (1966).
Schwarcz, H. P. & Schoeninger, M. J. Stable isotope analyses in human nutritional ecology. Yearb. Phys. Anthropol. 34, 283–321 (1991).
Google Scholar
Reitsema, L. J. Beyond diet reconstruction: Stable isotope applications to human physiology, health, and nutrition. Am. J. Hum. Biol. 25, 445–456 (2013).
Google Scholar
Tykot, R. H. Stable isotopes and diet: you are what you eat. in Proceedings of the International School of Physics “Enrico Fermi”, Course CLIV (eds. Martini, M., Milazzo, M. & Piacentini, M.) 433–444 (IOS Press, 2004).
Reynard, L. M. & Hedges, R. E. M. Stable hydrogen isotopes of bone collagen in palaeodietary and palaeoenvironmental reconstruction. J. Archaeol. Sci. 35, 1934–1942 (2008).
Google Scholar
Chisholm, B., Nelson, D. E. & Schwarcz, H. P. Stable-carbon isotope ratios as a measure of marine versus terestrial protein in anciet diets. Science 216, 1131–1132 (1982).
Google Scholar
Schoeninger, M., Deniro, M. J. & Tauber, H. Stable nitrogen isotope ratios of bone collagen reflect marine and terrestrial components of prehistoric human diet. Science 220, 1381–1383 (1983).
Google Scholar
Webb, E. C. et al. The influence of varying proportions of terrestrial and marine dietary protein on the stable carbon-isotope compositions of pig tissues from a controlled feeding experiment. STAR Sci. Technol. Archaeol. Res. 3, 28–44 (2017).
van der Merwe, N. J. Carbon Isotopes, Photosynthesis, and Archaeology: Different pathways of photosynthesis cause characteristic changes in carbon isotope ratios that make possible the study of prehistoric human diets. Sigma Xi, Sci. Res. Soc. Carbon 70, 596–606 (1982).
Pearcy, R. W. & Ehleringer, J. Comparative ecophysiology of C3 and C4 plants. Plant Cell Environ. 7, 1–13 (1984).
Google Scholar
O’Leary, M. H. Carbon isotopes in photosynthesis. Bioscience 38, 328–336 (1988).
Google Scholar
O’Leary, M. H. Carbon isotope fractionation in plants. Phytochemistry 20, 553–567 (1981).
Google Scholar
Marshall, J. D., Brooks, J. R. & Lajtha, K. Sources of variation in the stable isotopic composition of plants. in Stable isotopes in ecology and environmental Science (eds. Michener, R. & Lajtha, K.) 22–60 (Blackwell Publishing, 2007).
Bocherens, H. & Drucker, D. Trophic level isotopic enrichment of carbon and nitrogen in bone collagen: Case studies from recent and ancient terrestrial ecosystems. Int. J. Osteoarchaeol. 13, 46–53 (2003).
Google Scholar
Martin, R. B., Burr, D. B., Sharkey, N. A. & Fyhrie, D. P. Skeletal Tissue Mechanics. (Springer New York, 2015). https://doi.org/10.1007/978-1-4939-3002-9.
Watanabe, S., Kodama, M. & Fukuda, M. Nitrogen stable isotope ratio in the manila clam, Ruditapes philippinarum, reflects eutrophication levels in tidal flats. Mar. Pollut. Bull. 58, 1447–1453 (2009).
Google Scholar
Delong, M. D. & Thorp, J. H. Mollusc shell periostracum as an alternative to tissue in isotopic studies. Limnol. Oceanogr. Methods 7, 436–441 (2009).
Google Scholar
O’Donnell, T. H., Macko, S. A., Chou, J., Davis-Hartten, K. L. & Wehmiller, J. F. Analysis of δ13C, δ15N, and δ34S in organic matter from the biominerals of modern and fossil Mercenaria spp. Org. Geochem. 34, 165–183 (2003).
Google Scholar
Arnay-de-la-Rosa, M. et al. Dietary patterns during the early prehispanic settlement in La Gomera (Canary Islands). J. Archaeol. Sci. 36, 1972–1981 (2009).
Google Scholar
Arnay-de-la-Rosa, M. et al. Paleodietary analysis of the prehistoric population of the Canary Islands inferred from stable isotopes (carbon, nitrogen and hydrogen) in bone collagen. J. Archaeol. Sci. 37, 1490–1501 (2010).
Google Scholar
Bownes, J. M., Ascough, P. L., Cook, G. T., Murray, I. & Bonsall, C. Using stable isotopes and a bayesian mixing model (FRUITS) to investigate diet at the Early Neolithic Site of Carding Mill Bay, Scotland. Radiocarbon 59, 1275–1294 (2017).
Google Scholar
Schulting, R. J., MacDonald, R. & Richards, M. P. FRUITS of the sea? A cautionary tale regarding Bayesian modelling of palaeodiets using stable isotope data. Quat. Int. 650, 52-61. (2023).
Google Scholar
DeNiro, M. J. & Hastorf, C. A. Alteration of 15N/14N and 13C/12C ratios of plant matter during the initial stages of diagenesis: Studies utilizing archaeological specimens from Peru. Geochim. Cosmochim. Acta 49, 97–115 (1985).
Google Scholar
Farquhar, G. D., Ehleringer, J. R. & Hubick, K. T. Carbon isotope discrimination and photosynthesis. Annu. Rev. Plant Physiol. Plant Mol. Biol. 40, 503–537 (1989).
Farquhar, G., O’Leary, M. & Berry, J. On the relationship between carbon isotope discrimination and the intercellular carbon dioxide concentration in leaves. Funct. Plant Biol. 9, 121 (1982).
Google Scholar
Araus, J. L. et al. Crop water availability in early agriculture: Evidence from carbon isotope discrimination of seeds from a tenth millennium BP site on the Euphrates. Glob. Chang. Biol. 5, 201–212 (1999).
Google Scholar
Bogaard, A., Heaton, T. H. E., Poulton, P. & Merbach, I. The impact of manuring on nitrogen isotope ratios in cereals: Archaeological implications for reconstruction of diet and crop management practices. J. Archaeol. Sci. 34, 335–343 (2007).
Google Scholar
Phillips, D. L. et al. Best practices for use of stable isotope mixing models in food-web studies. Can. J. Zool. 92, 823–835 (2014).
Google Scholar
Stock, B. C. et al. Analyzing mixing systems using a new generation of Bayesian tracer mixing models. PeerJ 6, e5096 (2018).
Google Scholar
Fernandes, R., Millard, A. R., Brabec, M., Nadeau, M.-J. & Grootes, P. Food reconstruction using isotopic transferred signals (FRUITS): A Bayesian model for diet reconstruction. PLoS ONE 9, e87436 (2014).
Google Scholar
Fernandes, R., Grootes, P., Nadeau, M.-J. & Nehlich, O. Quantitative diet reconstruction of a Neolithic population using a Bayesian mixing model (FRUITS): The case study of Ostorf (Germany). Am. J. Phys. Anthropol. 158, 325–340 (2015).
Google Scholar
Honch, N. V., Higham, T. F. G. G., Chapman, J., Gaydarska, B. & Hedges, R. E. M. M. A palaeodietary investigation of carbon (13C/12C) and nitrogen (15N/14N) in human and faunal bones from the Copper Age cemeteries of Varna I and Durankulak Bulgaria. J. Archaeol. Sci. 33, 1493–1504 (2006).
Google Scholar
Honch, N. et al. West Pontic diets: A scientific framework for understanding the Durankulak and Varna I cemeteries, Bulgaria. Interdiscip. Archaeol. 4, 147–162 (2013).
Higham, T., Slavchev, V., Gaydarska, B. & Chapman, J. AMS dating of the late copper age Varna cemetery, Bulgaria. Radiocarbon 60, 493–516 (2018).
Google Scholar
Gaydarska, B., Beavan, N. & Slavchev, V. Lifeway interpretations from ancient diet in the Varna cementery. Oxford J. Archaeol. 41, 22–41 (2022).
Google Scholar
Tafani, A., Lazăr, C. & Tykot, R. H. Stable isotope data of Neolithic and Eneolithic populations in the Balkans, 6600 to 4000 BC. Data Br. 42, 108114 (2022).
Google Scholar
Bălăşescu, A., Moise, D. & Radu, V. The Palaeoeconomy of Gumelniţa Communities on the Territory of Romania. in In Honorem Silvia Marinescu-Bîlcu 167–195 (DAIM P.H., 2005).
Bǎlǎşescu, A. Arheozoologia neo-eneoliticului de pe Valea Teleormanului. (Editura Mega, 2014).
Gillis, R. et al. Sophisticated cattle dairy husbandry at Borduşani-Popină (Romania, fifth millennium BC): The evidence from complementary analysis of mortality profiles and stable isotopes. World Archaeol. 45, 447–472 (2013).
Google Scholar
Stojanovski, D. et al. Living off the land: Terrestrial-based diet and dairying in the farming communities of the Neolithic Balkans. PLoS ONE 15, e0237608 (2020).
Google Scholar
Evershed, R. P. et al. Dairying, diseases and the evolution of lactase persistence in Europe. Nature 608, 336–345 (2022).
Google Scholar
Balasse, M. et al. Early herding at Măgura-Boldul lui Moş Ivănuş (early sixth millennium BC, Romania): Environments and seasonality from stable isotope analysis. Eur. J. Archaeol. 16, 221–246 (2013).
Google Scholar
Balasse, M. et al. Cattle and Sheep Herding at Cheia, Romania, at the Turn of the Fifth Millennium cal BC. A View from Stable Isotope Analysis. Proc. Br. Acad. 198, 115–142 (2014).
Balasse, M. et al. 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). Quat. Int. 436, 29–40 (2017).
Google Scholar
Stanc, M. S., Luca, M., Bălășescu, A. & Bejenaru, L. Holocene genetic evolution of Pig (Sus scrofa) on Romanian Territory in a European time and space frame. Diversity 14, 288 (2022).
Google Scholar
Balasse, M. et al. Wild, domestic and feral? Investigating the status of suids in the Romanian Gumelniţa (5th mil. cal BC) with biogeochemistry and geometric morphometrics. J. Anthropol. Archaeol. 42, 27–36 (2016).
Nitsch, E. K., Charles, M. & Bogaard, A. Calculating a statistically robust δ13C and δ15N offset for charred cereal and pulse seeds. STAR Sci. Technol. Archaeol. Res. 1, 1–8 (2015).
Vaiglova, P. et al. An integrated stable isotope study of plants and animals from Kouphovouno, southern Greece: a new look at Neolithic farming. J. Archaeol. Sci. 42, 201–215 (2014).
Google Scholar
Fraser, R. A. et al. Manuring and stable nitrogen isotope ratios in cereals and pulses: Towards a new archaeobotanical approach to the inference of land use and dietary practices. J. Archaeol. Sci. 38, 2790–2804 (2011).
Google Scholar
Wallace, M. et al. Stable carbon isotope analysis as a direct means of inferring crop water status and water management practices. World Archaeol. 45, 388–409 (2013).
Google Scholar
Vaiglova, P., Snoeck, C., Nitsch, E., Bogaard, A. & Lee-Thorp, J. Impact of contamination and pre-treatment on stable carbon and nitrogen isotopic composition of charred plant remains. Rapid Commun. Mass Spectrom. 28, 2497–2510 (2014).
Google Scholar
Vaiglova, P. et al. Further insight into Neolithic agricultural management at Kouphovouno, southern Greece: Expanding the isotopic approach. Archaeol. Anthropol. Sci. 12, 43 (2020).
Google Scholar
Ferrio, J. P., Araus, J. L., Buxó, R., Voltas, J. & Bort, J. Water management practices and climate in ancient agriculture: Inferences from the stable isotope composition of archaeobotanical remains. Veg. Hist. Archaeobot. 14, 510–517 (2005).
Google Scholar
García-Vázquez, A., Pinto-Llona, A. C. & Grandal-d’Anglade, A. Brown bear (Ursus arctos L.) palaeoecology and diet in the Late Pleistocene and Holocene of the NW of the Iberian Peninsula: A study on stable isotopes. Quat. Int. 481, 42–51 (2018).
Bocherens, H., Drucker, D., Billiou, D. & Moussa, I. Une nouvelle approche pour évaluer l’état de conservation de l’os et du collagène pour les mesures isotopiques (datation au radiocarbone, isotopes stables du carbone et de l’azote). Anthropologie. 109, 557–567 (2005).
Google Scholar
Bocherens, H. et al. Isotopic biogeochemistry (13C,15N) of fossil vertebrate collagen: Application to the study of a past food web including Neandertal man. J. Hum. Evol. 20, 481–492 (1991).
Google Scholar
Sava, T. B. et al. Status report on the sample preparation laboratory for radiocarbon dating at the New Bucharest Roams Center. Radiocarbon 61, 649–658 (2019).
Google Scholar
García-Vázquez, A., Radu, V. & Lazăr, C. New method for the isotopic study of ancient conchiolin from archaeological shells of freshwater mussels (Unionoida). 01 December 2022, Prepr. (Version 1) available Res. Sq. (2022). https://doi.org/10.21203/rs.3.rs-2313604/v1.
R Core Team. R: A language and environment for statistical computing. (2020).
Hammer, Ø., Harper, D. A. T. & Ryan, P. D. PAST: Paleontological statistics software package for education and data analysis. Palaeontol. Electron. 4, 9 (2001).
Bem, C. Noi propuneri pentru o schiţă cronologică a eneoliticului românesc. Pontica 33–34, 25–121 (2000).
Cook, G. T. et al. Problems of dating human bones from the Iron Gates. Antiquity 76, 77–85 (2002).
Google Scholar
Sayle, K. L., Hamilton, W. D., Gestsdóttir, H. & Cook, G. T. Modelling Lake Mývatn’s freshwater reservoir effect: Utilisation of the statistical program FRUITS to assist in the re-interpretation of radiocarbon dates from a cemetery at Hofstaðir, north-east Iceland. Quat. Geochronol. 36, 1–11 (2016).
Google Scholar
Bronk Ramsey, C. bayesian analysis of radiocarbon dates. Radiocarbon 51, 337–360 (2009).
Google Scholar
Reimer, P. J. et al. The IntCal20 northern hemisphere radiocarbon age calibration curve (0–55 cal kBP). Radiocarbon 62, 725–757 (2020).
Google Scholar
Ambrose, S. H. Preparation and characterization of bone and tooth collagen for isotopic analysis. J. Archaeol. Sci. 17, 431–451 (1990).
Google Scholar
DeNiro, M. J. Post-mortem preservation and alteration of in vivo bone collagen isotope ratios in relation to paleodietary reconstruction. Nature 317, 806–809 (1985).
Google Scholar
Schwarcz, H. P. & Nahal, H. Theoretical and observed C/N ratios in human bone collagen. J. Archaeol. Sci. 131, 105396 (2021).
Google Scholar
van Klinken, G. J. Bone collagen quality indicators for palaeodietary and radiocarbon measurements. J. Archaeol. Sci. 26, 687–695 (1999).
Google Scholar
Fiorentino, G., Ferrio, J. P., Bogaard, A., Araus, J. L. & Riehl, S. Stable isotopes in archaeobotanical research. Veg. Hist. Archaeobot. 24, 215–227 (2015).
Google Scholar
Shearer, G. & Kohl, D. N2-fixation in field settings: Estimations based on natural 15N abundance. Funct. Plant Biol. 13, 699–756 (1986).
Google Scholar
Bogaard, A. et al. Crop manuring and intensive land management by Europe’s first farmers. Proc. Natl. Acad. Sci. 110, 12589–12594 (2013).
Google Scholar
Drucker, D. G., Bridault, A., Hobson, K. A., Szuma, E. & Bocherens, H. Can carbon-13 in large herbivores reflect the canopy effect in temperate and boreal ecosystems? Evidence from modern and ancient ungulates. Palaeogeogr. Palaeoclimatol. Palaeoecol. 266, 69–82 (2008).
Google Scholar
Treasure, E. R., Church, M. J. & Gröcke, D. R. The influence of manuring on stable isotopes (δ13C and δ15N) in Celtic bean (Vicia faba L.): Archaeobotanical and palaeodietary implications. Archaeol. Anthropol. Sci. 8, 555–562 (2016).
Pyankov, V. I., Ziegler, H., Akhani, H., Deigele, C. & Lüttge, U. European plants with C4 photosynthesis: Geographical and taxonomic distribution and relations to climate parameters. Bot. J. Linn. Soc. 163, 283–304 (2010).
Google Scholar
Carni, A. & Mucina, L. Vegetation of trampled soil dominated by C4 plants in Europe. J. Veg. Sci. 9, 45–56 (1998).
Google Scholar
Purugganan, M. D. & Fuller, D. Q. The nature of selection during plant domestication. Nature 457, 843–848 (2009).
Google Scholar
Quattrocchi, U. CRC World dictionary of grasses: common names, scientific names, eponyms, synonyms, and etymology (CRC Press, 2006).
Google Scholar
Grandal-d’Anglade, A. et al. Dogs and foxes in Early-Middle Bronze Age funerary structures in the northeast of the Iberian Peninsula: human control of canid diet at the sites of Can Roqueta (Barcelona) and Minferri (Lleida). Archaeol. Anthropol. Sci. 11, 3949–3978 (2019).
Albizuri, S. et al. Dogs that ate plants: Changes in the Canine diet during the Late Bronze Age and the First Iron Age in the Northeast Iberian Peninsula. J. World Prehist. 34, 75–119 (2021).
Google Scholar
Baumann, C., Bocherens, H., Drucker, D. G. & Conard, N. J. Fox dietary ecology as a tracer of human impact on Pleistocene ecosystems. PLoS ONE 15, e0235692 (2020).
Google Scholar
Bălășescu, A. & Radu, V. Paléo-économie animalière et reconstitution de l’environnement. in Société et environnement dans la zone du Bas Danube durant le 5ème millénaire avant notre ère (eds. Carozza, L., Bem, C. & Micu, C.) 385–407 (Editura Universității Al. I. Cuza, 2011).
Bréhard, S. & Bălăşescu, A. What’s behind the tell phenomenon? An archaeozoological approach of Eneolithic sites in Romania. J. Archaeol. Sci. 39, 3167–3183 (2012).
Google Scholar
Ballari, S. A. & Barrios-García, M. N. A review of wild boar Sus scrofa diet and factors affecting food selection in native and introduced ranges. Mamm. Rev. 44, 124–134 (2014).
Google Scholar
Makhutova, O. N. et al. Feeding spectra of bivalve mollusks Unio and Dreissena from Kanevskoe Reservoir, Ukraine: Are they food competitors or not?. Zool. Stud. 52, 56 (2013).
Google Scholar
Vuorio, K., Tarvainen, M. & Sarvala, J. Unionid mussels as stable isotope baseline indicators for long-lived secondary consumers in pelagic food web comparisons. Fund. Appl. Limnol. 169, 237–245 (2007).
Google Scholar
Schenk, J. et al. Methane in lakes: Variability in stable carbon isotopic composition and the potential importance of groundwater input. Front. Earth Sci. 9, 722215 (2021).
Google Scholar
Bănaru, D., Harmelin-Vivien, M., Gomoiu, M.-T. & Onciu, T.-M. Influence of the Danube River inputs on C and N stable isotope ratios of the Romanian coastal waters and sediment (Black Sea). Mar. Pollut. Bull. 54, 1385–1394 (2007).
Google Scholar
Hobson, K. A. & Quirk, T. W. Effect of age and ration on diet-tissue isotopic (Δ13C, Δ15N) discrimination in striped skunks (Mephitis mephitis). Isotopes Environ. Health Stud. 50, 1–7 (2014).
Google Scholar
Fogel, M. L., Tuross, N. & Owsley, D. W. Nitrogen isotope tracers of human lactation in modern and archeological populations. in Carnegie Institution 1988–1989, Annual Report Geophysical Laboratory 111–117 (Geophysical Laboratory, Carnegie Institution, 1989).
Fuller, B. T., Fuller, J. L., Harris, D. A. & Hedges, R. E. M. Detection of breastfeeding and weaning in modern human infants with carbon and nitrogen stable isotope ratios. Am. J. Phys. Anthropol. 129, 279–293 (2006).
Google Scholar
Dewey, K. G. & Brown, K. H. Update on technical issues concerning complementary feeding of young children in developing countries and implications for intervention programs. Food Nutr. Bull. 24, 5–28 (2003).
Google Scholar
Tsutaya, T. & Yoneda, M. Quantitative reconstruction of weaning ages in archaeological human populations using bone collagen nitrogen isotope ratios and approximate Bayesian computation. PLoS ONE 8, e72327 (2013).
Google Scholar
Faas, M. M., Melgert, B. N. & De Vos, P. A brief review on how pregnancy and sex hormones interfere with taste and food intake. Chemosens. Percept. 3, 51–56 (2010).
Google Scholar
Dwyer, J. Dietary Reference Intakes (DRIs): Concepts and Implementation. in Encyclopedia of Gastroenterology 613–623 (Elsevier, 2004). https://doi.org/10.1016/B0-12-386860-2/00613-4.
Sellen, D. W. & Smay, D. B. Relationship between subsistence and age at weaning in “preindustrial” societies. Hum. Nat. 12, 47–87 (2001).
Google Scholar
WHO. Indicators for assessing infant and young child feeding practices: Part 1 definitions. (World Health Organization, 2008).
Osorio, L. S. Exploring the relationship between nutrition and Cribra Orbitalia: The comparison of dietary stable isotope comparisons of Juveniles from Kuelap, Peru. (University of Central Florida Part, 2022).
Zariſa, G. et al. Cribra orbitalia as a potential indicator of childhood stress: Evidence from paleopathology, stable C, N, and O isotopes, and trace element concentrations in children from a 17th-18th century cemetery in Jekabpils, Latvia. J. Trace Elem. Med. Biol. 38, 131–137 (2016).
Google Scholar
Walker, P. L., Bathurst, R. R., Richman, R., Gjerdrum, T. & Andrushko, V. A. The causes of porotic hyperostosis and cribra orbitalia: A reappraisal of the iron-deficiency-anemia hypothesis. Am. J. Phys. Anthropol. 139, 109–125 (2009).
Google Scholar
Schuster, C., Kogălniceanu, R. & Morintz, A. The living and the dead: an analysis of the relationship between the two worlds during prehistory at the Lower Danube. (Cetatea de Scaun, 2008).
Berbesque, J. C. & Marlowe, F. W. Sex differences in food preferences of Hadza Hunter-Gatherers. Evol. Psychol. 7, 601–616 (2009).
Google Scholar
Stratton, S. et al. The emergence of extramural cemeteries in Neolithic Southeast Europe: A formally modeled chronology for Cernica, Romania. Radiocarbon 61, 319–346 (2019).
Google Scholar
Trinkaus, E. et al. Stable isotope evidence for early modern human diet in Southeastern Europe: Peştera cu Oase, Peştera Muierii and Peştera Cioclovina Uscată. Mater. Şi Cercet. Arheol. (serie nouă) V, 5–14 (2009).
Borić, D., Grupe, G., Peters, J. & Mikić, Ž. Is the mesolithic-neolithic subsistence dichotomy real? New stable isotope evidence from the Danube Gorges. Eur. J. Archaeol. 7, 221–248 (2004).
Google Scholar
Doboş, A., Soficaru, A., Popescu, A. & Trinkaus, E. Radiocarbon Dating and Faunal Stable Isotopes for the Galeria Principală , Peştera Muierii, Baia de Fier, Gorj County, Romania. Mater. Şi Cercet. Arheol. (serie nouă) V, 15–20 (2009).
Bonsall, C. et al. Interrelationship of age and diet in Romania’s oldest human burial. Naturwissenschaften 99, 321–325 (2012).
Google Scholar
Bonsall, C. et al. Radiocarbon and stable isotope evidence of dietary change from the mesolithic to the middle ages in the iron gates: New results from Lepenski Vir. Radiocarbon 46, 293–300 (2004).
Google Scholar
Nehlich, O., Borić, D., Stefanović, S. & Richards, M. P. Sulphur isotope evidence for freshwater fish consumption: A case study from the Danube Gorges. SE Eur. J. Archaeol. Sci. 37, 1131–1139 (2010).
Google Scholar
Harper, T. K. Demography and climate in Late Eneolithic Ukraine, Moldova, and Romania: Multiproxy evidence and pollen-based regional corroboration. J. Archaeol. Sci. Rep. 23, 973–982 (2019).
Bond, G. et al. A pervasive millennial-scale cycle in north Atlantic Holocene and glacial climates. Science 278, 1257–1266 (1997).
Ramos-Román, M. J. et al. Lipid biomarker (brGDGT)- and pollen-based reconstruction of temperature change during the Middle to Late Holocene transition in the Carpathians. Glob. Planet. Change 215, 103859 (2022).
Google Scholar
Drǎguşin, V. et al. Constraining Holocene hydrological changes in the Carpathian-Balkan region using speleothem δ18O and pollen-based temperature reconstructions. Clim. Past 10, 1363–1380 (2014).
Google Scholar
Amundson, R. et al. Global patterns of the isotopic composition of soil and plant nitrogen. Global Biogeochem. Cycles 17, 1031 (2003).
Google Scholar
Hatté, C. et al. Excursions to C4 vegetation recorded in the Upper Pleistocene loess of Surduk (Northern Serbia): An organic isotope geochemistry study. Clim. Past 9, 1001–1014 (2013).
Google Scholar
Bǎlǎşescu, A., Moise, D. & Radu, V. Utilisation des bovins à la traction dans le Chalcolithique de Roumanie: première approche. in Actes du colloque « De l’araire au chariot. Premières tractions animales de l’Europe de l ‘Ouest » 269–273 (Editions Centre Nationale des Recherches Scientifiques, 2006).
Gaastra, J. S., Greenfield, H. J. & Linden, M. V. Gaining traction on cattle exploitation: Zooarchaeological evidence from the Neolithic Western Balkans. Antiquity 92, 1462–1477 (2018).
Bălășescu, A. & Radu, V. Oameni şi animale. Strategii şi resurse la comunităţile preistorice Hamangia şi Boian. (Editura Cetatea de Scaun, 2004).