The area around the lower reaches of the Pirita River in northern coastal Estonia is a unique region where the majority of the known stone-cist cemeteries have been excavated. The number of such cemeteries is seven or eight, with approximately 50 excavated stone mounds. A profound study by Valter Lang in the 1990s, proceeding mainly from artefact finds, dated the stone-cist cemeteries of the area to roughly 600–200 BC, with one exception in 800–500 BC. The current paper summarises and discusses the recently obtained and partly published radiocarbon dates of the skeletons from these sites, including the hitherto unpublished data from Iru 18 and Kuristiku 4. A total of 28 radiocarbon dates has been obtained from nine graves of probably five cemeteries. The numbers are regrettably small, the main reason being the absence of proper excavation and osteological records, which are a prerequisite of consequential and efficient radiocarbon dating. The radiocarbon data suggest that the majority if not all cemeteries had been established between 1100 and 900 or 800 BC, and the last graves were added around 400 BC at the latest. A few graves also contained burials from the subsequent centuries. This is consistent with data from stone-cist graves in other regions of Estonia. The discrepancies between the radiocarbon dates and the dates based on artefact typo-chronologies suggest certain caution, although the most likely explanation of the differences lies in the absence of closed find complexes, which has always presented a challenge to the dating of stone-cist graves.
Baudou, E. 1960. Die regionale und chronologische Einteilung der jüngeren Bronzezeit im Nordischen Kreis. (Acta Universitatis Stockholmiensis. Studies in North-European Archaeology, 1.) Almqvist & Wiksell, Stockholm.
Bronk Ramsey, C. 2009. Bayesian analysis of radiocarbon dates. – Radiocarbon, 51: 1, 337–360.
https://doi.org/10.1017/S0033822200033865
Deemant, K. 1980. Ausgrabungen des Steinkistengrabes von Proosa. – TATÜ, 29: 4, 360–361.
Eerkens, J.W., Washburn, E. & Greenwald, A. M. 2017. Weaning and early childhood diets at two Early Period sites: implications for parental investment and population growth in Central California. – California Archaeology, 9: 2, 199–222.
https://doi.org/10.1080/1947461X.2017.1391469
Hornstrup, K. M., Olsen, J., Heinemeier, J., Thrane, H. & Bennike, P. 2012. A new absolute Danish Bronze Age chronology as based on radiocarbon dating of cremated bone samples from burials. – Acta Archaeologica, 83, 9–53.
https://doi.org/10.1111/j.1600-0390.2012.00513.x
Howen, A. 1900. Ausgrabungen in Estland. – Beiträge zur Kunde Est-, Liv- und Kurlands, V, 92–96.
Jaanits, K. & Lavi, A. 1978. Über die Ausgrabungen eines Steinkistengrabes in Väo. – TATÜ, 27: 4, 330–333.
Jaanits, L., Laul, S., Lõugas, V. & Tõnisson, E. 1982. Eesti esiajalugu. ENSV Teaduste Akadeemia Ajaloo Instituut, Eesti Raamat, Tallinn.
Kaul, F. 1998. Ships on Bronzes: Study in Bronze Age Religion and Iconography. (Publications from the National Museum. Studies in Archaeology & History, 3: 1–2). National Museum, Copenhagen.
Kaul, F. 2018a. The Nordic razor as a medium of creativity. – Considering Creativity: Creativity, Knowledge and Practice in Bronze Age Europe. Ed. J. Sofaer. Archaeopress Archaeology, Oxford, 105–115.
https://doi.org/10.2307/j.ctvndv8rw.12
Kaul, F. 2018b. The one-edged razor: a vivid medium of creativity and meaning. – Creativity in the Bronze Age: Understanding Innovation in Pottery, Textile, and Metalwork Production. Eds L. Bender Jørgensen, J. Sofaer & M. L. S. Sørensen. Cambridge University Press, 161–176.
https://doi.org/10.1017/9781108344357.022
Keaveney, E. M. & Reimer, P. J. 2012. Understanding the variability in freshwater reservoir offsets: a cautionary tale. – Journal of Archaeological Science, 39, 1306–1316.
https://doi.org/10.1016/j.jas.2011.12.025
Kriiska, A., Lavento, M. & Peets, J. 2005. New AMS-dates of the Neolithic and Bronze Age ceramics in Estonia. – EJA, 9: 1, 3–31.
https://doi.org/10.3176/arch.2005.1.01
Laneman, M. 2012. Stone-cist grave at Kaseküla, western Estonia, in the light of AMS dates of the human bones. – EJA, 16: 2, 91–117.
https://doi.org/10.3176/arch.2012.2.01
Laneman, M. 2021a. The date of the stone-cist cemetery at Jõelähtme reconsidered. – EJA, 25: 1, 55–89.
https://doi.org/10.3176/arch.2021.1.03
Laneman, M. 2021b. Chronology of a group of stone-cist graves in northern Estonia: radiocarbon dates from Lastekangrud at Rebala. – EJA, 25: 2, 113–139.
https://doi.org/10.3176/arch.2021.2.02
Laneman, M. & Lang, V. 2013. New radiocarbon dates for two stone-cist graves at Muuksi, northern Estonia. – EJA, 17: 2, 89–122.
https://doi.org/10.3176/arch.2013.2.01
Laneman, M., Lang, V., Malve, M. & Rannamäe, E. 2015. New data on Jaani stone graves at Väo, northern Estonia. – EJA, 19: 2, 110–137.
https://doi.org/10.3176/arch.2015.2.02
Lang, V. 1983. Ein neues Steinschiffsgrab in Nordestland. – TATÜ, 32: 4, 293–295.
Lang, V. 1987. Über die Konstruktion des Mittelwalls auf dem Burgberg Iru. – TATÜ, 36: 4, 358–365.
Lang, V. 1988. Aruanne arheoloogilistest kaevamistest Iru linnuse keskvallil 1985. ja 1986. a. (Manuscript in the archive of the Archaeological Research Collection of Tallinn University.)
Lang, V. 1992. Eesti labidaspeaga luunõelte dateerimisest. – Stilus, 1. Eesti Arheoloogiaseltsi teated, 8–32.
Lang, V. 1996. Muistne Rävala: muistised, kronoloogia ja maaviljelusliku asustuse kujunemine Loode-Eestis, eriti Pirita jõe alamjooksu piirkonnas, I–II. (MT, 4. Töid arheoloogia alalt, 4.) Eesti Teaduste Akadeemia Ajaloo Instituut, Tallinn.
Lang, V. 2007. The Bronze and Early Iron Ages in Estonia. (Estonian Archaeology, 3.) Tartu University Press.
https://doi.org/10.26530/OAPEN_423939
Lang, V. 2018. Läänemeresoome tulemised. (MT, 28.) Tartu Ülikooli Kirjastus.
Lang, V. 2020. Pronksiaeg ja eelrooma rauaaeg (1750 eKr – 50 pKr). – Eesti ajalugu, I: Eesti esiaeg. Toim V. Lang. Tartu ülikooli ajaloo ja arheoloogia instituut, Tartu, 155–230.
Lang, V. & Ligi, P. 1991. Muistsed kalmed ajaloolise demograafia allikana. – Arheoloogiline kogumik. Toim L. Jaanits & V. Lang. (MT, 1.) Eesti Arheoloogiaselts jt, Tallinn, 216–238.
Lõugas, V. 1970. Eesti varane metalliaeg (II a.-tuh. keskpaigast e.m.a – 1. sajandini m.a.j): dissertatsioon ajalooteaduste kandidaadi kraadi taotlemiseks. Eesti NSV TA Ajaloo Instituut. (Manuscript in the archive of the Archaeological Research Collection of Tallinn University.)
Lõugas, V. 1975. Ausgrabungen der Steinkistengräber in Väo. – TATÜ, 24: 1, 77–78.
Lõugas, V. 1976. Ausgrabungen der Steingräber und Flurrelikte in Iru. – TATÜ, 25: 1, 48–52.
Lõugas, V. 1981. Archäologische Rettungsgrabungen im neuen Wohngebiet Lasnamäe in Tallinn. –TATÜ, 30: 4, 390–393.
Minami, M., Mukumoto, H., Wakaki, S. & Nakamura, T. 2019. Effect of crystallinity of apatite in cremated bone on carbon exchanges during burial and reliability of radiocarbon dating. – Radiocarbon, 61: 6, 1823–1834.
https://doi.org/10.1017/RDC.2019.97
Montgomery, J., Möldner, G., Cook, G., Gledhill, A. & Ellam, R. 2009. Isotope analysis of bone collagen and tooth enamel. – ‘Clothing the Soul Divine’. Burials at the tomb of St Ninian: Excavations at Withorn Priory 1957–67. (Archaeology Report, 3.) Ed. C. Lowe. Edinburgh: Historic Scotland, 65–82.
Mook, W. G. & Waterbolk, H. T. 1985. Radiocarbon dating. (Handbooks for Archaeologists, 3.) European Science Foundation, Strasbourg.
O’Connell, T. C., Kneale, C. J., Tasevska, N. & Kuhnle, G. G. C. 2012. The diet-body offset in human nitrogen isotopic values: a controlled dietary study. – American Journal of Physical Anthropology, 149: 3, 426–434.
https://doi.org/10.1002/ajpa.22140
Olsen, J., Hornstrup, K. M., Heinemeier, J., Bennike, P. & Thrane, H. 2011. Chronology of the Danish Bronze Age based on 14C dating of cremated bone remains. – Radiocarbon, 53: 2, 261–275.
https://doi.org/10.1017/S0033822200056538
Philippsen, B. 2013. The freshwater reservoir effect in radiocarbon dating. – Heritage Science, 24: 1.
https://doi.org/10.1186/2050-7445-1-24
Punning, M. 2005. Kuidas hinnata radiosüsiniku meetodit tänapäeval? – Eesti Loodus, 11, 18–22.
http://vana.loodusajakiri.ee/eesti_loodus/artikkel1288_1279.html
Reimer, P. J., Austin, W. E. N., Bard, E., Bayliss, A., Blackwell, P. G., Bronk Ramsey, C., Butzin, M., Cheng, H., Edwards, R. L., Friedrich, M., Grootes, P. M., Guilderson, T. P., Hajdas, I., Heaton, T. J., Hogg, A. G., Hughen, K. A., Kromer, B., Manning, S. W., Muscheler, R., Palmer, J. G., Pearson, C., van der Plicht, J., Reimer, R. W., Richards, D. A., Scott, E. M., Southon, J. R., Turney, C. S. M., Wacker, L., Adolphi, F., Büntgen, U., Capano, M., Fahrni, S. M., Fogtmann-Schulz, A., Friedrich, R., Köhler, P., Kudsk, S., Miyake, F., Olsen, J., Reinig, F., Sakamoto, M., Sookdeo, A. & Talamo, S. 2020. The IntCal20 Northern Hemisphere radiocarbon age calibration curve (0–55 cal kBP). – Radiocarbon, 62: 4, 725–757.
https://doi.org/10.1017/RDC.2020.41
Saag, L., Laneman, M., Varul, L., Malve, M., Valk, H., Razzak, M. A., Shirobokov, I. G., Khartanovich, V. I., Mikhaylova, E. R., Kushniarevich, A., Scheib, C. L., Solnik, A., Reisberg, T., Parik, J., Saag, L., Metspalu, E., Rootsi, S., Montinaro, F., Remm, M., Mägi, R., D’Atanasio, E., Ryunosuke Crema, E., Diez-del-Molini, D., Thomas, M. G., Kriiska, A., Kivisild, T., Villems, R., Lang, V., Metspalu, M. & Tambets, K. 2019. The arrival of Siberian ancestry connecting the Eastern Baltic to Uralic speakers further east. – Current Biology, 29: 10, 1701–1711.
https://doi.org/10.1016/j.cub.2019.04.026
Salazar- García, D. C., Richards, M. P., Nehlich, O. & Henry, A. G. 2014. Dental calculus is not equivalent to bone collagen for isotope analysis: a comparison between carbon and nitrogen stable isotope analysis of bulk dental and dentine collagen from same individuals from the Medieval site of El Raval (Alicante, Spain). – Journal of Archaeological Science, 47, 70–77.
https://doi.org/10.1016/j.jas.2014.03.026
Schulting, R. J. 1998. Slighting the sea: stable isotope evidence for the transition to farming in northwestern Europe. – Documenta Praehistorica, XXV, 203–218.
Snoeck, C., Brock, F. & Schulting, R. J. 2014. Carbon exchange between bone apatite and fuel during cremation: impact on radiocarbon dates. – Radiocarbon, 56: 2, 591–602.
https://doi.org/10.2458/56.17454
Sørensen, M. L. S & Appleby, G. 2018. To decorate a Nordic Bronze Age razor: a design challenge. – Creativity in the Bronze Age: Understanding Innovation in Pottery, Textile, and Metalwork Production. Eds L. Bender Jørgensen, J. Sofaer & M. L. S. Sørensen. Cambridge University Press, 191–205.
https://doi.org/10.1017/9781108344357.024
Sperling, U. 2014. Aspekte des Wandels in der Bronzezeit im Ostbaltikum: die Siedlungen der Asva-Gruppe in Estland. (EJA. Supplementary Volume, 18/2S.) Tallinn.
https://doi.org/10.3176/arch.2014.2S.01
Sperling, U., Karlsen, H.-J., Lang, V., Kimber, A., Lõugas, L. & Lau, R. 2020. Ausgrabungen in der Bronzezeitsiedlung von Asva im Jahr 2019. – AVE, 2019, 51–60.
Spreckelsen, A. 1907. Ausgrabungen in Saage, Kirchsp. Jeglecht, Estland. – Beiträge zur Kunde Est-, Liv- und Kurlands, VI, 376–419.
Spreckelsen, A. 1927. Das Gräberfeld Laakt (Lagedi), Kirchspiel St. Jürgens, Harrien, Estland. (Õpetatud Eesti Seltsi toimetused / Verhandlungen der Gelehrten Estn. Gesellsch., 24.) Dorpat.
Tõnisson, E. & Selirand, J. 1964. Nõukogude Eesti arheoloogide välitööd aastail 1958–1962. – TATÜ, 13: 3, 225–246.
Van Strydonck, M. 2016. Radiocarbon dating of cremated bones: an overview. – Isotopic Landscapes of Bioarchaeology: Proceedings of the International Workshop ‘A Critical Look at the Concept of Isotopic Landscapes and its Application in Future Bioarchaeological Research’, Munich, October 13–15, 2014. Eds G. Grupe & G. C. McGlynn. Springer, 69–89.
https://doi.org/10.1007/978-3-662-48339-8_4
Van Strydonck, M., Boudin, M. & De Mulder, G. 2009. 14C dating of cremated bones: the issue of sample contamination. – Radiocarbon, 51: 2, 553–568.
https://doi.org/10.1017/S0033822200055922
Vassar, A. 1936. Kivikalme Nehatus. – Eesti Rahvuslaste Klubid, 7/8, 190–195.
Vassar, A. 1959. Väo kivikirstkalme kaevamine 3.–28. juulil 1959. (Manuscript in the archive of the Archaeological Research Collection of Tallinn University.)
Vassar, A. 1966. Loode-Eesti hõimudest meie ajaarvamise I aastatuhande algupoolel. – TATÜ, 15: 2, 190–203.
Warner, R. B. 1990. A proposed adjustment for the ‘old-wood effect’. – Proceedings of the Second International Symposium 14C and Archaeology, Groningen 1987. Eds W. G. Mook & H. T. Waterbolk. (PACT, 29.) Council of Europe, Parliamentary Assembly, Strasbourg, 159–172.