Hostname: page-component-586b7cd67f-g8jcs Total loading time: 0 Render date: 2024-11-22T04:27:50.510Z Has data issue: false hasContentIssue false

Bronze Age myths? Volcanic activity and human response in the Mediterranean and North Atlantic regions

Published online by Cambridge University Press:  02 January 2015

Paul C. Buckland
Affiliation:
Department of Archaeology & Prehistory, University of Sheffield, Sheffield S1 4ET, England
Andrew J. Dugmore
Affiliation:
Department of Geography, University of Edinburgh, Edinburgh EH8 9XP, Scotland
Kevin J. Edwards
Affiliation:
Department of Archaeology & Prehistory, University of Sheffield, Sheffield S1 4ET, England

Extract

A first rule of statistics is that the existence of a correlation does not itself prove a causal connection. This is the heart of the recurrent question in later European prehistory — whether in the Mediterranean or in the Atlantic northwest — about volcanic eruptions, their impact on climate, and then of the climatic impact on human populations. The burial under tephra of the Late Bronze Age settlement of Santorini is proof of a particular catastrophe: but is there the evidence to prove wider European calamity?

Type
Papers
Copyright
Copyright © Antiquity Publications Ltd. 1997

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

Abel, W. 1980. Agricultural fluctuations in Europe from the thirteenth to the twentieth centuries. London: Methuen.Google Scholar
Amorosi, T. 1996. Animal bone assemblages from Norse and later Iceland: an archaeozoological study. Unpublished Ph.D dissertation, City University of New York.Google Scholar
Baillie, M.G.L. 1989a. Do Irish bog oaks date the Shang Dynasty?, Current Archaeology 117: 310–13.Google Scholar
Baillie, M.G.L. 1989b. Hekla 3: how big was it?, Endeavour 13: 7881.Google Scholar
Baillie, M.G.L. 1990. Irish tree rings and an event in 1628 BC, in Hardy, (ed.): 3: 160–66.Google Scholar
Baillie, M.G.L. 1993. Dark Ages and dendrochronology, Emania 11: 512.Google Scholar
Baillie, M.G.L. 1994. Dendrochronology raises questions about the nature of the AD 536 dust-veil event, The Holocene 4: 212–17.Google Scholar
Baillie, M.G.L. 1995. A slice through time: dendrochronology and precision dating. Loudon: Batsford.Google Scholar
Baillie, M.G.L. 1996. Extreme environmental events and the linking of the tree-ring and ice-core records, in Dean, J.S. et al. (ed.), Tree rings, environment and humanity, Radiocarbon 38: 703–11.Google Scholar
Baillie, M.G.L. & Munro, M.A.R.. 1988. Irish tree rings, Santorini and volcanic dust veils, Nature 322: 344–6.Google Scholar
Baker, A., Smart, P.L., Barnes, W.L., Edwards, L.R. & Farrant, A.. 1995. The Hekla 3 volcanic eruption recorded in a Scottish speleotherm?, The Holocene 5: 336–42.CrossRefGoogle Scholar
Barlow, L.K. 1994. Evaluation of seasonal to decadal scale deuterium and deuterium excess signals, GISP2 Ice Core, Summit, Greenland, AD 1270–1985. Unpublished Ph.D dissertation, INSTAAR, University of Colorado, Boulder (CO).Google Scholar
Barnatt, J. 1994. Excavation of a Bronze Age unenclosed cemetery, cairns, and field boundaries at Egglestone Flat, Curbar, Derbyshire, 1984, 1989–1990, Proceedings of the Prehistoric Society 60: 287370.Google Scholar
Beresford, M.W. 1954. The lost villages of England. London: Batsford.Google Scholar
Bernard, A., Demaiffe, D., Matielli, N. & Punongbayan, R.S.. 1991. Anhydrite-bearing pumices from Mount Pinatuho: further evidence for the existence of sulphur-rich silicic magmas, Nature 354: 139—40.Google Scholar
Bietak, M. 1996. Avaris: the capital of the Hyksos. London: British Museum Press.Google Scholar
Birks, H.J.B. 1994. Did Icelandic volcanic eruptions influence the Post-glacial vegetation history of the British Isles?, Trends in Ecology and Evolution 9: 312–14.Google Scholar
Blackford, J.J., Edwards, K.J., Dugmore, A.J., Cook, G.T. & Buckland, P.C.. 1992. Icelandic volcanic ash and the mid-Holocene Scots pine (Pinus sylvestris) in northern Scotland, The Holocene 2: 260–65.Google Scholar
Bogaard, C., Dorfler, W., Sandgren, P. & Schminke, H.-U.. 1994. Correlating the Holocene records: Icelandic tephra found in Schleswig-Holstein (northern Germany), Naturwissenschaften 81: 15.Google Scholar
Braitseva, O.A., Sulerzhitsky, L.D., Litasova, S.N., Melekestev, I.V. & Ponomareva, V.V.. 1993. Radiocarbon dating and tephrochronology in Kamchatka, Radiocarbon 35: 463–76.Google Scholar
Buckland, P.C., Amorosi, T., Barlow, L., Dugmore, A.J., Mayewski, P., Mcgovern, T.H., Ogilvie, A., Sadler, J.P. & Skidmore, P.. 1996. Bioarchaeological and climatological evidence for the fate of Norse farmers in medieval Greenland, Antiquity 70: 8896.Google Scholar
Burgess, C. 1974. The Bronze Age, in Renfrew, C. (ed.), British prehistory, a new outline: 165223. London: Duckworth.Google Scholar
Burgess, C. 1980a. The age of Stonehenge. London: Dent.Google Scholar
Burgess, C. 1980b. Excavations at Houseledge, Black Law, Northumberland, Northern Archaeology 1: 514.Google Scholar
Burgess, C. 1984. The prehistoric settlement of Northumberland: a speculative survey, in Miket, R. & Burgess, C. (ed.), Between and beyond the Walls: essays on the prehistory and history of north Britain in honour of George Jobey: 126–75. Edinburgh: John Donald.Google Scholar
Burgess, C. 1985. Population, climate and upland settlement, in Spratt, & Burgess, (ed.): 195229.Google Scholar
Burgess, C. 1988. Britain at the time of the Rhine-Swiss Group, in Brun, P. & Mordant, C. (ed.), Le Groupe Rhin-Suisse-France orientale et la notion de civilisation des Champs d’Urnes,: 559–73. Paris: Musée de Préhistoire d’Ile-de-France. Mémoires 1.Google Scholar
Burgess, C. 1989. Volcanoes, catastrophe and the global crisis of the late 2nd millennium BC, Current Archaeology 117: 325—9.Google Scholar
Charman, D.J. 1994. Lateglacial and Holocene vegetation history of the Flow Country, northern Scotland, New Phytologist 127: 155–68.Google Scholar
Collingwood, R.G. & Myres, J.N.L.. 1936. Roman Britain and the English settlements. Oxford: Oxford University Press.Google Scholar
Crosby, A.W. 1994 [1976]. Virgin soil epidemics as a factor in the Aboriginal depopulation of America, in Crosby, A.W., Germs, seeds & animals; studies in ecological history: 97108. London: M.E. Sharpe.Google Scholar
Dugmore, A.J. 1989. Icelandic volcanic ash in Scotland, Scottish Geographical Magazine 105: 168–72.Google Scholar
Dugmore, A.J., Larsen, G. & Newton, A.J.. 1995. Seven tephra isochrones in Scotland, The Holocene 5: 257–66.Google Scholar
Dugmore, A.J., Newton, A.J., Edwards, K.J., Larsen, G., Blackford, J.J. & Cook, G.T.. 1996. Long-distance marker horizons from small-scale eruptions: British tephra deposits from the AD 1510 eruption of Hekla, Iceland, Journal of Quaternary Science 11: 511–16.Google Scholar
Edwards, K.J. & Whittington, G.. 1990. Palynological evidence for the growing of Cannabis sativa L. (hemp) in medieval and historical Scotland, Transactions of the Institute of British Geographers n.s. 15: 6069.Google Scholar
Esmonde Cleary, S. 1989. The ending of Roman Britain. London: Batsford.Google Scholar
Fiacco, R.J. JR, Palais, J.M., Germani, M.S., Zielinski, G. & Mayewski, P.A.. 1993. Characteristics and possible source of a 1479 AD volcanic ash layer in a Greenland ice core, Quaternary Research 39: 267–73.Google Scholar
Fiacco, R.J. JR, Thordarson, TH., Germani, M.S., Self, S., Palais, J.M., Whitlow, S. & Grootes, P.M.. 1994. Atmospheric aerosol loading and transport due to the 1783–84 Laki eruption in Iceland, interpreted from ash particles and acidity in the GISP2 Ice Core, Quaternary Research 42: 231–40.Google Scholar
Galloway, R.B. & Liritzis, Y.. 1992. Provenance of Aegean volcanic tephras by high-resolution gamma-ray spectrometry, Nuclear Geophysics 6: 405–11.Google Scholar
Gates, T., 1983. Upland agriculture in Northumberland, in Chapman, J.C & Mytum, H.C. (ed.), Settlement in north Britain 1000 BC–AD 1000: 103–48. Oxford: British Archaeo-logical Reports. British series 118.Google Scholar
Grattan, J.P. & Charman, D.J.. 1994. Non-climatic factors and the environmental impact of volcanic volatiles: implications of the Laki fissure eruption of AD 1783, The Holocene 4: 101–6.Google Scholar
Grattan, J.P. & Gilbertson, D.D.. 1995. Acid-loading from Icelandic tephra falling on acidified ecosystems as a key to understanding archaeological environmental stress in northern and western Britain, Journal of Archaeological Science 21: 851–9.Google Scholar
Grove, J. 1988. The Little Ice Age. London: Methuen.Google Scholar
Hammer, C.U. 1977. Past volcanism revealed by Greenland ice sheet impurities, Nature 270: 482–6.Google Scholar
Hammer, C.U., Clausen, H.B. & Dansgaard, W.. 1980. Greenland ice sheet evidence of post-glacial volcanism and its climatic impact, Nature 288: 230–35.Google Scholar
Hammer, C.U., Clausen, H.B., Friedrich, W.L. & Taubert, H.H.. 1987. A Minoan eruption of Santorini in Greece dated to 1645 BC, Nature 328: 517–19.Google Scholar
Hardy, D.A. (ed.). 1990. Thera and the Aegean world 3. London: Thera Foundation.Google Scholar
Hinton, D. 1990. Archaeology, economy and society: England from the 5th to the 15th century. Cambridge: Cambridge University Press.Google Scholar
Housley, R.A., Hedges, R.E.M., Law, I.A. & Bronk, C.R.. 1990. Radiocarbon dating by AMS of the destruction of Akrotiri, in Hardy, (ed.): 207–15.Google Scholar
Hughes, M.K. 1988. Ice-layer dating of the eruption of Santorini, Nature 335: 211–12.Google Scholar
Jobey, G. 1985. The unenclosed settlements of Tyne-Forth: a summary, in Spratt, & Burgess, (ed.): 177–94.Google Scholar
Keys, R. 1988. Cloud of volcanic dust blighted north Britain 3000 years ago, Independent (16 August).Google Scholar
Kuniholm, P.I. 1990. Overview and assessment of the evidence for the date of the eruption of Thera, in Hardy, (ed.): 1318.Google Scholar
Kuniholm, P.I. 1995. Dendrochronology, American Journal of Archaeology 99: 99102.Google Scholar
Kuniholm, P.I., Kromer, B., Manning, S.W., Newton, M., Latini, C.E. & Bruce, M.J.. 1996. Anatolian tree rings and the absolute chronology of the eastern Mediterranean, 2220–718 BC, Nature 381: 780–82.Google Scholar
Lamarche, V.C. & Hirschboeck, K.. 1984. Frost rings in trees as records of major volcanic eruptions, Nature 307: 121—6.Google Scholar
Lamb, H.H. 1970. Volcanic dust in the atmosphere: with a chronology and assessment of its meteorological significance, Philosophical Transactions of the Royal Society of London A266: 425533.Google Scholar
Lamb, H.H. 1988. Volcanoes and climate: an updated assessment, in Lamb, H.H., Weather, climate and human affairs: 301–28. London: Methuen.Google Scholar
Manning, S.W. 1988. Dating of the Santorini eruption, Nature 332: 401.Google Scholar
Marinatos, S.P. 1939. The volcanic destruction of Minoan Crete, Antiquity 13: 425–39.CrossRefGoogle Scholar
Mass, C.F. & Portman, D.A.. 1989. Major volcanic eruptions and climate: a critical evaluation, Journal of Climate 2: 566–93.Google Scholar
Mass, C.F. 1990. Reply, Journal of Climate 3: 589–90.Google Scholar
Michael, H.N. & Betancourt, P.P. 1988. The Theran eruption II: further arguments for an early date, Archaeometry 30: 169–75.Google Scholar
Monzier, M., Robin, C. & Eissen, J.P.. 1994. Kuwae (approximate to 1425 AD) — the forgotten caldera, Journal ofVol-canology and Geothermal Research 59: 207–18.Google Scholar
Moreland, J. 1993. Wilderness, wasteland, depopulation and the end of the Roman Empire?, Accordio Research Papers 4: 89110.Google Scholar
Newhall, G.C. & Self, S.. 1982. The volcanic explosivity index (VEI): an estimate of explosive magnitude of volcanism, Journal of Geophysical Research 87 (C2): 1231–8.Google Scholar
Palais, J.M., Germani, M.S. & Zielinski, G.A.. 1992. Interhemi-spheric transport of volcanic ash from a 1259 AD volcanic eruption to the Greenland and Antarctic ice sheets, Geophysical Research Letters 19: 801–4.Google Scholar
Palais, J.M., Taylor, K., Mayewski, P.A. & Grootes, P.. 1991. Volcanic ash from the 1362 AD Orsefajökull eruption (Iceland) in the Greenland Ice-Sheet, Geophysical Research Letters 18: 1241–4.CrossRefGoogle Scholar
Pang, K.D. & Chou, H.-H.. 1985. Three very large volcanic eruptions in antiquity and their effects on the climate of the ancient world, Eos 66: 816.Google Scholar
Parker Pearson, M. 1993. The Bronze Age. London: Batsford.Google Scholar
Parry, M.L. 1978. Climatic change, climate and agriculture. Folkestone: Dawson.Google Scholar
Peglar, S.M. 1979. A radiocarbon-dated pollen diagram from Loch of Winless, Caithness, northeast Scotland, New Phytologist 82: 245–63.Google Scholar
Pilcher, J.R., Hall, V.A. & Mccormac, F.G.. 1995. Dates of Holocene Icelandic volcanic eruptions from tephra in Irish peats, The Holocene 5: 103–10.Google Scholar
Pyle, D.M. 1989. Ice core acidity peaks, retarded tree growth and putative eruptions, Archaeometry 31: 8891.Google Scholar
Pyle, D.M. 1990a. New estimates for the volume of the Minoan eruption, in Hardy, (ed.): 113–21.Google Scholar
Pyle, D.M. 1990b. The application of tree-ring and ice core studies to the dating of the Minoan eruption, in Hardy, (ed.): 167–73.Google Scholar
Ramsey, C.B. 1994. OxCal. v.2.14: radiocarbon calibration and statististical analysis program. Oxford: Research Laboratory for Archaeology.Google Scholar
Reece, R. 1980. Town and country: the end of Roman Britain, World Archaeology 12: 7792.Google Scholar
Renfrew, C. 1990a. Introductory remarks, in Hardy, (ed.): 1113.Google Scholar
Renfrew, C. 1990b. Summary of the progress of the chronology, in Hardy, (ed.): 242.Google Scholar
Renfrew, C. 1996. Kings, tree rings and the Old World, Nature 381: 733–4.Google Scholar
Ritchie, A. 1995. Prehistoric Orkney. London: Batsford.Google Scholar
Salmi, M. 1948. The Hekla ashfalls in Finland, Suomen Geologinen Seura 21: 8796.Google Scholar
Sear, C.B., Kelley, P.M., Jones, P.D. & Goddess, C.M.. 1987. Global surface temperature responses to major volcanic eruptions, Nature 330: 365–67.Google Scholar
Simkin, T. & Siebert, L.. 1994. Volcanoes of the world. 2nd edition. Tucson (AZ): Geoscience Press.Google Scholar
Spratt, D. & Burgess, C. (ed.). 1985. Upland settlement in Britain: the 2nd millennium and after. Oxford: British Archaeological Reports. British series 143.Google Scholar
Stothers, R.B. & Rampino, M.R.. 1983. Historic volcanism, European dry fogs, and Greenland acid precipitation, 1500 BC to AD 1500, Science 222: 411–13.Google Scholar
Thorarinsson, S. 1979. Damage caused by volcanic eruptions with special reference to tephra and gases, in Sheets, P.D. & Grayson, D.K. (ed.): Volcanic activity and human ecology: 125–59. New York (NY): Academic Press.Google Scholar
Thorarinsson, S. 1981. Creetings from Iceland, Geografiska Annalen 63A: 109–18.Google Scholar
Vogel, J.S., Cornell, W., Nelson, D.E. & Southon, J.R.. 1990. Vesuvius/Avellino, one possible source of 17th century BC climatic disturbances, Nature 344: 534–7.Google Scholar
Warren, P. 1984. Absolute dating of the Bronze Age eruption of Thera (Santorini), Nature 308: 492–3.Google Scholar
Warren, P. 1988. The Thera eruption III: further arguments against an early date, Archaeometry 30: 176–9.Google Scholar
White, R.S. & Humphreys, C.J.. 1994. Famines and cataclysmic volcanism, Geology Today 5: 181–5.Google Scholar
Whittington, G., & Edwards, K.J.. 1995. A Scottish broad: historical, stratigraphie and numerical studies associated with polleniferous deposits at Kilconquhar Loch, in Butlin, R.A. & Roberts, N. (ed.). Ecological relations in historical times: 6887. Oxford: Institute of British Geographers & Blackwell.Google Scholar
Young, R. & Slmmonds, T.. 1996. Marginality and the nature of later prehistoric upland settlement in the north of England, Landscape History 17: 516.Google Scholar
Ziecler, P. 1970. The Black Death. Harmondsworth: Penguin.Google Scholar
Zielinski, G.A. 1995. Stratospheric loading and optical depth estimates of explosive volcanism over the last 2100 years derived from the Greenland Ice Sheet Project 2 ice core, Journal of Geophysical Research 100: 20.937–20.955.Google Scholar
Zielinski, G.A. & Germani, M.S.. In press. New ice core evidence opposing a 1620s BC age for the Santorini ‘Minoan’ eruption, Journal of Archaeological Science.Google Scholar
Zielinski, G.A., Mayewski, P.A., Meeker, L.D., Whitlow, S. & Twickler, M.S.. 1996. A 110,000-yr record of explosive volcanism from the GISP2 (Greenland) ice core, Quaternary Research 45: 109–18.Google Scholar
Zielinski, G.A., Mayewski, P.A., Meeker, L.D., Whitlow, S., Twickler, M.S., Morrison, M., Meese, D.A., Gow, A.J. & Alley, R.B.. 1994. Record of volcanism since 7000 BC from the GISP2 Greenland ice core and implications for the volcano-climate system, Science 264: 948–52.Google Scholar
Zielinski, G.A. 1995. The GISP Ice Core record of volcanism since 7000 BC response, Science 267: 257–8.Google Scholar