Abstract
The Medieval Warm Period is an interval of purportedly warm climate during the early part of the past millennium. The duration, areal extent, and even existence of the Medieval Warm Period have been debated; in some areas the climate of this interval appears to have been affected more by changes in precipitation than in temperature. Here, we provide new evidence showing that several glaciers in western North America advanced during Medieval time and that some glaciers achieved extents similar to those at the peak of the Little Ice Age, many hundred years later. The advances cannot be reconciled with a climate similar to that of the twentieth century, which has been argued to be an analog, and likely were the result of increased winter precipitation due to prolonged La Niña-like conditions that, in turn, may be linked to elevated solar activity. Changes in solar output may initiate a response in the tropical Pacific that directly impacts the El Niño/Southern Oscillation and associated North Pacific teleconnections.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Ammann CM, Joos F, Schimel DS, Otto-Bliesner BL, Tomas RA (2007) Solar influence on climate during the past millennium: results from transient simulations with NCAR climate system model. Proc Natl Acad Sci USA 104:3713–3718
Bakke J, Lie Ø, Nesje A, Dahl SO, Paasche Ø (2005) Utilizing physical sediment variability in glacier-fed lakes for continuous glacier reconstructions during the Holocene, northern Folgefonna, western Norway. Holocene 15:161–176
Barclay DJ, Wiles GC, Calkin PE (1999) 1119-year tree-ring-width chronology from western Prince William Sound, southern Alaska. Holocene 9:79–84
Barclay DJ, Calkin PE, Wiles GC (2001) Holocene history of Hubbard Glacier in Yakutat Bay and Russell Fiord, southern Alaska. Geol Soc Am Bull 113:388–402
Barclay DJ, Barclay JL, Calkin PE, Wiles GC (2006) A revised and extended Holocene glacial history of Icy Bay, southern Alaska, U.S.A. Arct Antarct Alp Res 38:153–162
Barclay DJ, Wiles GC, Calkin PE (2009) Holocene glacier fluctuations in Alaska. Quat Sci Rev 28:2034–2048
Bard E, Raisbeck G, Yiou F, Jouzel J (2000) Solar irradiance during the last 1200 years based on cosmogenic nuclides. Tellus 52B:985–992
Binford MW, Kolata AL, Brenner M, Janusek JW, Seddon MT, Abbott M, Curtis JH (1997) Climate variation and the rise and fall of an Andean civilization. Quat Res 47:235–248
Bitz CM, Battisti DS (1999) Interannual to decadal variability in climate and the glacier mass balance in Washington, western Canada, and Alaska. J Clim 12:3187–3196
Bond G, Kromer B, Beer J, Muscheler R, Evans MN, Showers W, Hoffman S, Lotti-Bond R, Hajdas I, Bonani G (2001) Persistent solar influence on North Atlantic climate during the Holocene. Science 294:2130–2136
Bradley RS, Jones PD (1993) ‘Little Ice Age’ summer temperature variations: their nature and relevance to recent global warming trends. Holocene 3:367–376
Bradley RS, Hughes MK, Diaz HF (2003) Climate in Medieval time. Science 302:404–405
Broecker WS (2001) Was the Medieval Warm Period global? Science 291:1497–1499
Castillo LJ, Uceda S (2008) The Mochicas. In: Silverman H, Isbell WH (eds) Handbook of South American archaeology. Springer, New York, pp 707–729
Clague JJ, Menounos B, Osborn G, Luckman BH, Koch J (2009) Nomenclature and resolution in holocene glacial chronologies. Quat Sci Rev 28:2231–2238
Clague JJ, Koch J, Geertsema M (2010) Expansion of outlet glaciers of the Juneau Icefield in northwest British Columbia during the past two millennia. Holocene 20:447–461
Cobb KM, Charles CD, Cheng H, Edwards RL (2003) El Nino/Southern Oscillation and tropical Pacific climate during the last millennium. Nature 424:271–276
Cook ER, Esper J, D’Arrigo RD (2004a) Extra-tropical Northern Hemisphere land temperature variability over the past 1000 years. Quat Sci Rev 23:2063–2074
Cook ER, Woodhouse CA, Eakin CM, Meko DM, Stahle DW (2004b) Long-term aridity changes in the western United States. Science 306:1015–1018
Cook ER, Seager R, Cane MA, Stahle DW (2007) North American drought: reconstructions, causes, and consequences. Earth-Sci Rev 81:93–134
Crane HR, Griffin JB (1968) University of Michigan radiocarbon dates XII. Radiocarbon 10:61–114
Crowley TJ (2000) Causes of climate change over the past 1000 years. Science 289:270–277
Crowley TJ, Kim K-Y (1996) Comparison of proxy records of climate change and solar forcing. Geophys Res Lett 23:359–362
Crowley TJ, Lowery TS (2000) How warm was the Medieval Warm Period? Ambio 29:51–54
D’Arrigo R, Mashig E, Frank D, Wilson R, Jacoby G (2005) Temperature variability over the past millennium inferred from northwestern Alaska tree rings. Clim Dyn 24:227–236
Davis OK (1994) The correlation of summer precipitation in the southwestern U.S.A. with isotopic records of solar activity during the Medieval Warm Period. Clim Change 26:271–287
DeMenocal PB (2001) Cultural responses to climate change during the Late Holocene. Science 292:667–673
Denton GH, Karlén W (1973) Holocene climatic variations—their pattern and possible cause. Quat Res 3:155–205
Denton GH, Karlén W (1977) Holocene glacial and tree-line variations in the White River Valley and Skolai Pass, Alaska and Yukon Territory. Quat Res 7:63–111
Depetris PJ, Pasquini AI (2000) The hydrological signal of the Perito Moreno Glacier damming of Lake Argentino (southern Andean Patagonia): the connection to climate anomalies. Glob Planet Change 26:367–374
Desloges JR, Ryder JM (1990) Neoglacial history of the Coast Mountains near Bella Coola, British Columbia. Can J Earth Sci 27:281–290
Dillehay T, Kolata AL, Pino M (2004) Pre-industrial human and environment interactions in northern Peru during the late Holocene. Holocene 14:272–281
Eddy JA (1977) Climate and the changing sun. Clim Change 1:173–190
Emerson TE, Lewis RB (eds) (1991) Cahokia and the hinterlands: middle Mississippian cultures of the Midwest. University of Illinois Press, Chicago
Esper J, Cook ER, Schweingruber FH (2002) Low-frequency signals in long tree-ring chronologies for reconstructing past temperature variability. Science 295:2250–2253
Fitzhugh W, Ward E (2000) Vikings: the North Atlantic saga. Smithsonian Institution Press, Washington
Gellatly AF, Chinn TJH, Röthlisberger F (1988) Holocene glacier variations in New Zealand: a review. Quat Sci Rev 7:227–242
Glasser NF, Harrison S, Winchester V, Aniya M (2004) Late Pleistocene and Holocene paleoclimate and glacier variations in Patagonia. Glob Planet Change 43:79–101
Graham NE, Hughes MK (2007) Reconstructing the Mediaeval low stands of Mono Lake, Sierra Nevada, California, USA. Holocene 17:1197–1210
Graham NE, Hughes MK, Ammann CM, Cobb KM, Hoerling MP, Kennett DJ, Kennett JP, Rein B, Stott L, Wigand PE, Xu T (2007) Tropical Pacific—mid-latitude teleconnections in medieval times. Clim Change 83:241–285
Grove JM (1988) The Little Ice Age. Methuen, London
Grove JM, Switsur R (1994) Glacial geological evidence for the Medieval Warm Period. Clim Change 26:143–169
Hallett DJ, Mathewes RW, Walker RC (2003) A 1000-year record of forest fire, drought and lake-level change in southeastern British Columbia, Canada. Holocene 13:751–761
Haug GH, Günther D, Peterson LC, Sigman DM, Hughen KA, Aeschlimann B (2003) Climate and the collapse of Maya civilization. Science 299:1731–1735
Hendy EJ, Gagan MK, Alibert CA, McCulloch MT, Lough JM, Isdale PJ (2002) Abrupt decrease in tropical Pacific sea surface salinity at the end of Little Ice Age. Science 295:1511–1514
Herweijer C, Seager R, Cook ER (2006) North American droughts of the mid to late nineteenth century: a history, simulation and implication for Mediaeval drought. Holocene 16:159–171
Herweijer C, Seager R, Cook ER, Emile-Geay J (2007) North American droughts of the last millennium from a gridded network of tree-ring data. J Clim 20:1353–1376
Hodell DA, Curtis JH, Brenner M (1995) Possible role of climate in the collapse of Classic Maya civilization. Nature 375:391–394
Hodell DA, Brenner M, Curtis JH, Guilderson T (2001) Solar forcing of drought frequency in the Maya Lowlands. Science 292:1367–1370
Hoerling MP, Kumar A (2003) The perfect ocean for drought. Science 299:691–699
Holzhauser H, Magny M, Zumbühl HJ (2005) Glacier and lake-level variations in west-central Europe over the last 3500 years. Holocene 15:789–801
Hormes A, Müller BU, Schlüchter C (2001) The Alps with little ice: evidence for eight Holocene phases of reduced glacier extent in the Central Swiss Alps. Holocene 11:255–265
Hughes MK, Diaz HF (1994) Was there a ‘Medieval Warm Period’, and if so, where and when? Clim Change 26:109–142
Intergovernmental Panel on Climate Change (2007) Climate change 2007—the physical science basis. Cambridge University Press, New York
Jirikowic JL, Damon PE (1994) The Medieval solar activity maximum. Clim Change 26:309–316
Joerin UE, Stocker TF, Schlüchter C (2006) Multicentury glacier fluctuations in the Swiss Alps during the Holocene. Holocene 16:697–704
Jones PD, Briffa KR, Barnett TP, Tett SFB (1998) High-resolution paleoclimatic records for the last millennium. Holocene 8:467–483
Jones PD, Osborn TJ, Briffa KR (2001) The evolution of climate over the last millennium. Science 292:662–667
Karlén W (1998) Climate variations and the enhanced greenhouse effect. Ambio 27:270–274
Karlén W, Kuylenstierna J (1996) On solar forcing of Holocene climate: evidence from Scandinavia. Holocene 6:359–365
Karlén W, Källén E, Rodhe H, Backman J (1999) Man-made versus natural climate change. Ambio 28:376–377
Kiladis GN, Diaz HF (1989) Global climatic anomalies associated with extremes in the Southern Oscillation. J Clim 2:1069–1090
Koch J, Clague JJ (2006) Are insolation and sunspot activity the primary drivers of global Holocene glacier fluctuations? Pages Newsletter 14(3):20–21
Koch J, Kilian R (2005) ‘Little Ice Age’ glacier fluctuations, Gran Campo Nevado, southernmost Chile. Holocene 15:20–28
Koch J, Clague JJ, Osborn G (2007a) Glacier fluctuations during the last millennium in Garibaldi Provincial Park, southern Coast Mountains, British Columbia. Can J Earth Sci 44:1215–1233
Koch J, Osborn G, Clague JJ (2007b) Pre-Little Ice Age glacier fluctuations in Garibaldi Provincial Park, southern Coast Mountains, British Columbia, Canada. Holocene 17:1069–1078
Koch J, Menounos BP, Clague JJ (2009) Glacier change in Garibaldi Provincial Park, Southern Coast Mountains, British Columbia, since the Little Ice Age. Glob Planet Change 66:161–178
Kuylenstierna JL, Rosqvist GC, Holmlund P (1996) Late-Holocene glacier variations in the Cordillera Darwin, Tierra del Fuego, Chile. Holocene 6:353–358
Lacher S (1999) Dendrochronologische Untersuchungen moderner und historischer Gletscherstände in den Vorfeldern von Mendenhall und Herbert Gletscher (Juneau Icefield, Alaska). Diplomarbeit, Geografisches Institut der Universität Zürich, Birmensdorf, Switzerland
Lamb HH (1965) The early Medieval warm epoch and its sequel. Palaeogeogr, Palaeoclimatol, Palaeoecol 1:13–37
Lamb HH (1995) Climate, history, and the modern world, 2nd ed. Routledge, London
Larocque SJ, Smith DJ (2003) Little Ice Age glacial activity in the Mt. Waddington area, British Columbia Coast Mountains, Canada. Can J Earth Sci 40:1413–1436
Lawrence DB (1950) Glacier fluctuations for six centuries in southeastern Alaska and its relation to solar activity. Geogr Rev 40:191–222
Lean J, Beer J, Bradley R (1995) Reconstruction of solar irradiance since 1610: implications for climate change. Geophys Res Lett 22:3195–3198
Leavitt SW (1994) Major wet interval in White Mountains medieval warm period evidenced in \(\partial ^{13}\)C of bristlecone pine tree rings. Clim Change 26:299–307
Loso MG, Anderson RS, Anderson SP, Reimer PJ (2006) A 1500-year record of temperature and glacial response inferred from varved Iceberg Lake, southcentral Alaska. Quat Res 66:12–24
Luckman BH (1986) Reconstruction of Little Ice Age events in the Canadian Rocky Mountains. Geogr Phys Quat 40:17–28
Luckman BH (1994) Evidence for climatic conditions between ca. 900–1300 A.D. in the Southern Canadian Rockies. Clim Change 26:171–182
Luckman BH (1996) Reconciling the glacial and dendrochronological records for the last millenium in the Canadian Rockies. In: Jones PD, Bradley RS, Jouzel J (eds) Climatic variations and forcing mechanisms of the last 2000 years. NATO ASI Series I 41:85–108
Luckman BH (2000) Little Ice Age in the Canadian rockies. Geomorphology 32:357–384
Luckman BH (2004) Neoglaciation. In: Goudie A (ed) Dictionary of geomorphology. Routledge, London, pp 711–713
Luckman BH (2006) The neoglacial history of Peyto Glacier. In: Demuth MN, Munro DS, Young GJ (eds) Peyto glacier: One century of science. Nat Hydrol Res Inst Rep 8:25–58
Luckman BH, Villalba R (2001) Assessing the synchroneity of glacier fluctuations in the western Cordillera of the Americas during the last millenium. In: Markgraf V (ed) Interhemispheric climate linkages. Academic, New York, pp 119–140
Luckman BH, Wilson RJS (2005) Summer temperatures in the Canadian Rockies during the last millennium; a revised record. Clim Dyn 24:131–144
Luckman BH, Holdsworth G, Osborn GD (1993) Neoglacial glacier fluctuations in the Canadian Rockies. Quat Res 39:144–153
Mann ME, Bradley RS, Hughes MK (1998) Global-scale temperature patterns and climate forcing over the past six centuries. Nature 392:779–787
Mann ME, Bradley RS, Hughes MK (1999) Northern Hemisphere temperatures during the past millennium: inferences, uncertainties, and limitations. Geophys Res Lett 26:759–762
Mann ME, Cane MA, Zebiak SE, Clement A (2005) Volcanic and solar forcing of the tropical Pacific over the past 1000 years. J Clim 18:447–456
Mann ME, Zhang Z, Hughes MK, Bradley RS, Miller SK, Rutherford S, Ni F (2008) Proxy-based reconstructions of hemispheric and global surface temperature variations over the past two millennia. Proc Natl Acad Sci USA 105:13252–13257
Mauquoy D, van Geel B, Blaauw M, Speranza A, van der Plicht J (2004) Changes in solar activity and Holocene climatic shifts derived from 14C wiggle-match dated peat deposits. Holocene 14:45–52
Meko DM, Woodhouse CA, Baisan CA, Knight T, Lukas JJ, Hughes MK, Salzer MW (2007) Medieval drought in the upper Colorado River Basin. Geophys Res Lett 34:L10705
Moberg A, Sonechkin DM, Holmgren K, Datsenko NM, Karlén W (2005) Highly variable Northern Hemisphere temperatures reconstructed from low- and high-resolution proxy data. Nature 433:613–617
Moore RD, Demuth MN (2001) Mass balance and streamflow variability at Place Glacier, Canada, in relation to recent climate fluctuations. Hydrol Process 15:3473–3486
Motyka RJ, Beget JE (1996) Taku Glacier, southwest Alaska, U.S.A.: late Holocene history of a tidewater glacier. Arct Alp Res 28:42–51
Nesje A, Dahl SO (2003) The ‘Little Ice Age’—only temperature?. Holocene 13:139–145
Nesje A, Bakke J, Dahl SO, Lie Ø, Matthews JA (2008) Norwegian mountain glaciers in the past, present and future. Glob Planet Change 60:10–27
Nicolussi K, Patzelt G (2000) Untersuchungen zur Holozänen Gletscherentwicklung von Pasterze und Gepatschferner (Ostalpen). Z Gletsch Glaz 36:1–87
Oerlemans J (2005) Extracting a climate signal from 169 glacier records. Science 308:675–677
Osborn G (1986) Lateral-moraine stratigraphy and Neoglacial history of Bugaboo Glacier, British Columbia. Quat Res 26:171–178
Osborn GD, Robinson BJ, Luckman BH (2001) Holocene and latest Pleistocene fluctuations of Stutfield Glacier, Canadian Rockies. Can J Earth Sci 28:1141–1155
Owen LA (2009) Latest Pleistocene and Holocene glacier fluctuations in the Himalaya and Tibet. Quat Sci Rev 28:2150–2164
Petersen KL (1994) A warm and wet Little Climatic Optimum and a cold and dry Little Ice Age in the Southern Rocky Mountains, U.S.A. Clim Change 26:243–269
Porter SC (1989) Late Holocene fluctuations of the fiord glacier system in Icy Bay, Alaska, U.S.A. Arct Alp Res 21:364–379
Preston RS, Person E, Deevey ES (1955) Yale natural radiocarbon measurements II. Science 122:954–960
Proulx DA (2008) Paracas and Nasca: regional cultures on the south coast of Peru. In: Silverman H, Isbell WH (eds) Handbook of South American Archaeology. Springer, New York, pp 563–585
Quilter J (2002) Moche politics, religion, and warfare. J World Prehist 16:145–195
Rampton VN, Denton GH, Karlén W (1978) Holocene glacial and tree-line variations in the White River valley and Skolai Pass, Alaska and Yukon Territory: discussion and reply. Quat Res 10:130–134
Reimer PJ (2004) Spots from rings. Nature 431:1047–1048
Reyes AV, Clague JJ (2004) Stratigraphic evidence for multiple Holocene advances of Lillooet Glacier, Southern Coast Mountains, British Columbia. Can J Earth Sci 40:903–918
Ropelewski CF, Halpert MS (1986) North American precipitation and temperature patterns associated with the El Nino/Southern Osillation (ENSO). Monthly Weather Rev 114:2352–2362
Röthlisberger F (1986) 10 000 Jahre Gletschergeschichte der Erde. Verlag Sauerländer, Aarau
Ryder JM (1987) Neoglacial history of the Stikine-Iskut area, Northern Coast Mountains, British Columbia. Can J Earth Sci 24:1294–1301
Ryder JM, Thomson B (1986) Neoglaciation in the southern Coast Mountains of British Columbia: chronology prior to the late Neoglacial maximum. Can J Earth Sci 23:273–287
Seager R, Harnik N, Kushnir Y, Robinson W, Miller J (2003) Mechanisms of hemispherically symmetric climate variability. J Clim 16:2960–2978
Seager R, Harnik N, Robinson WA, Kushnir Y, Ting M, Huang H-P, Velez J (2005a) Mechanisms of ENSO-forcing of hemispherically symmetric precipitation variability. Quart J Roy Met Soc 131:1501–1527
Seager R, Kushnir Y, Herweijer C, Naik N, Velez J (2005b) Modeling of tropical forcing of persistent droughts and pluvials over western North America: 1856–2000. J Clim 18:4065–4088
Shabbar A, Khandekar M (1996) The impact of El Nino-Southern oscillation on the temperature field over Canada. Atm-Ocean 34:401–461
Shabbar A, Bonsal B, Khandekar M (1997) Canadian precipitation patterns associated with the Southern Oscillation. J Clim 10:3016–3027
Shimada I, Schaaf CB, Thompson LG, Mosley-Thompson E (1991) Cultural impacts of severe droughts in the prehistoric Andes: application of a 1,500-year ice core precipitation record. World Archaeol 22:247–270
Solanki SK, Usoskin IG, Kromer B, Schüssler M, Beer J (2004) Unusual activity of the Sun during recent decades compared to the previous 11,000 years. Nature 431:1084–1087
Stahle DW, Cook ER, Cleaveland MK, Therrell MD, Meko DM, Grissino-Mayer HD, Watson E, Luckman BH (2000) Tree-ring data document 16th century megadrought over North America. Eos 81:121
Stine S (1994) Extreme and persistent drought in California and Patagonia during Mediaeval time. Nature 369:546–549
Strelin J, Casassa G, Rosqvist G, Holmlund P (2008) Holocene glaciations in the Ema Glacier valley, Monte Sarmiento Massif, Tierra del Fuego. Palaeogeogr, Palaeoclimatol, Palaeoecol 260:299–314
Stuiver M (1961) Variations in radiocarbon concentration and sunspot activity. J Geophys Res 66:273–276
U.S. Department of Energy (1989) Atmospheric carbon dioxide and the greenhouse effect. NTIS, Springfield
Villalba R (1994) Tree-ring and glacial evidence for the Medieval Warm Epoch and the Little Ice Age in Southern South America. Clim Change 26:183–197
Villalba R, D’Arrigo RD, Cook ER, Wiles G, Jacoby GC (2001) Decadal-scale climatic variability along the extratropical western coast of the Americas: evidence from the tree-ring records. In: Markgraf V (ed) Interhemispheric climate linkages. Academic, New York, pp 155–172
Wang H, Ting M (2000) Covariabilities of winter U.S. precipitation and Pacific sea surface temperatures. J Clim 13:3711–3719
Watson E, Luckman BH, Yu B (2006) Long-term relationships between reconstructed seasonal mass balance at Peyto Glacier, Canada, and Pacific sea surface temperatures. Holocene 16:783–790
Weber G (2006) Dendrochronologische Untersuchungen moderner und historischer Gletscherstände in den Vorfeldern von Eagle, Herbert und Mendenhall Gletscher (Juneau Icefield, Südost Alaska). Diplomarbeit, Geografisches Institut der Universität Zürich, Birmensdorf, Switzerland
Wiles GC, Calkin PE (1994) Late Holocene, high-resolution glacial chronologies and climate, Kenai Mountains, Alaska. Geol Soc Am Bull 106:281–303
Wiles GC, Barclay DJ, Calkin PE (1999) Tree-ring dated ‘Little Ice Age’ histories of maritime glaciers from western Prince William Sound, Alaska. Holocene 9:163–173
Wiles GC, Jacoby GC, Davi NK, McAllister RP (2002) Late Holocene glacier fluctuations in the Wrangell Mountains, Alaska. Geol Soc Am Bull 114:896–908
Wiles GC, D’Arrigo RD, Villalba R, Calkin PE, Barclay DJ (2004) Century-scale solar variability and Alaskan temperature change over the past millennium. Geophys Res Lett 31:L15203
Wiles GC, Barclay DJ, Calkin PE, Lowell TV (2008) Century to millennial-scale temperature variations for the last two thousand years indicated from glacial geologic records of Southern Alaska. Glob Planet Change 60:115–125
Winkler S, Matthews JA, Shakesby RA, Dresser PQ (2003) Glacier variations in Breheimen, Southern Norway: dating Little Ice Age moraine sequences at seven low-altitude glaciers. J Quat Sci 18:395–413
Woodhouse CA, Overpeck JT (1998) 2000 years of drought variability in the central United States. Bull Am Meteorol Soc 79:2693–2714
Yalcin K, Wake CP, Kreutz KJ, Whitlow SI (2006) A 1000-yr record of forest fire activity from Eclipse Icefield, Yukon, Canada. Holocene 16:200–209
Yang B, Bräuning A, Dong Z, Zhang Z, Keqing J (2008) Late Holocene monsoonal temperate glacier fluctuations on the Tibetan Plateau. Glob Planet Change 60:126–140
Yuan F, Linsley BK, Howe SS, Lund SP, McGeehin JP (2006) Late Holocene lake-level fluctuations in Walker Lake, Nevada, USA. Palaeogeogr, Palaeoclimatol, Palaeoecol 240:497–507
Author information
Authors and Affiliations
Corresponding author
Rights and permissions
About this article
Cite this article
Koch, J., Clague, J.J. Extensive glaciers in northwest North America during Medieval time. Climatic Change 107, 593–613 (2011). https://doi.org/10.1007/s10584-010-0016-2
Received:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s10584-010-0016-2