Hostname: page-component-8448b6f56d-m8qmq Total loading time: 0 Render date: 2024-04-24T14:22:19.825Z Has data issue: false hasContentIssue false
  • English
  • Français

Climatic Variation and Changes in the Wind and Ocean Circulation: The Little Ice Age in the Northeast Atlantic

Published online by Cambridge University Press:  20 January 2017

Hubert H. Lamb
Hubert H. Lamb*
Affiliation:
Climatic Research Unit, University of East Anglia, Norwich, NR4 7TJ, England
Get access Rights & Permissions [Opens in a new window]

Abstract

Variations must take place in the ocean circulation when the general wind circulation varies. There are hints even within recent years that the variations in the ocean between Iceland and Scotland and Norway can be big: The area has been regarded as the main path of the warm, saline North Atlantic Drift water heading towards the Arctic; but, when the polar water occasionally intrudes from the north, sea-surface temperature is liable to fall by 3 to 5°C and presumably by more than this when, as in 1888, the ice advanced to near the Faeroe Islands. The long series of sea-surface temperature observations at that point, starting in 1867, and earlier observations covering the area in 1789, are studied. Various kinds of proxy data—notably the CLIMAP Atlantic ocean-bed core analysis results for the last Ice Age climax and cod fishery and sea-ice reports from the Little Ice Age in the 17th century AD —are then used to indicate the variability in this part of the ocean on longer time scales. The reconstruction of the situation between ad 1675 and 1705 resulting from this study suggests a probable mean departure of the sea surface temperature from modern values between the Faeroes and southeast Iceland amounting to about −5°C; and at the climax in 1695 the polar water seems to have spread all around Iceland, across the entire surface of the Norwegian Sea to Norway, and south to near Shetland. Support for this diagnosis is found in a considerable variety of reports of environmental conditions existing at the time in Scotland, south Norway and elsewhere. The enhanced thermal gradient between approximately latitudes 55 and 65°N during the Little Ice Age, which this result indicates, offers an explanation for the occurrence in that period of a number of windstorms which changed the coasts in various places and seem to have surpassed in intensity the worst experienced in the region in more recent times.

Type
Original Articles
Information
Quaternary Research , Volume 11 , Issue 1 , January 1979 , pp. 1 - 20
Copyright
University of Washington

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

Aagard, K., 1969. The wind-driven circulation of the Greenland and Norwegian Seas and its variability. I.C.E.S. Dublin 1969 Symposium on Physical Variability in the North Atlantic. International Council for the Exploration of the Sea, Copenhagen. Google Scholar
Bain , G., (undated).“History of Nairnshire,”. Chap. 13, pp. 225226. Nairn, , Scotland. .Google Scholar
Bell, W.T., Ogilvie, A.E.J., 1978. Weather compilations as a source of data for the reconstruction of climate during the medieval period. Climatic Change. 1, 331-348.CrossRefGoogle Scholar
Betin, 173.174., Preobazensky, Ju.175., 1959. Variations in the state of the ice on the Baltic Sea and in the Danish Sound. Trudy Gosudarstvennogo Okeanograficheskogo Instituta. 37, 3-13 (in Russian).Google Scholar
Beverton, R.J.H., Lee, A.J., 1965. Hydrographic fluctuations in the North Atlantic Ocean and some biological consequences. Johnson, C.G., Smith, L.P., The Biological Significance of Climatic Changes in Britain. Institute of Biology and Academic Press, London, 79-107.Google Scholar
Brooks, C.E.P., 1949. Climate through the Ages. 2nd ed. Ernest Benn, London. Google Scholar
Crawford, I., Switzur, R., 1977. Sandscaping and C 14: the Udal, N. Uist. Antiquity. 51, 124-136.CrossRefGoogle Scholar
Defant, A., 1961 Physical Oceanography. Pergamon, London, Vol. 1.Google Scholar
Dietrich, G., Kalle, K., 1957 Allgemeine Meereskunde. Borntraeger, Berlin. Google Scholar
Douglas, K.S., Lamb, H.H., Loader, C., 1977. A meteorological study of July to October 1588: the Spanish Armada storms. CRU RP 6. University of East Anglia, Climatic Research Unit Research Publications, Norwich. Google Scholar
Gunnarsson, G., 1978. The limitations of climatology as an explanatory factor of human institutions. Frydendahl, K., Proceedings of the Nordic Symposium on Climatic Changes and Related Problems. Danish Meteorological Institute, Climatological Papers No. 4. 27-34 Copenhagen.Google Scholar
Kirch, R., 1966. Temperaturverhältnisse in der Arktis während der letzten 50 Jahre. Meteorologische Abhandlungen. 69, 3.Google Scholar
Koch, L., 1945. The East Greenland ice. Meddelelser om Grønland. 130, No. 3.Google Scholar
Kristjansson, L., 1971. Úr heimildahanra a seytjándu og atjándu aldar. “Saga” Reykjavik. .Google Scholar
Lamb, H.H., 1967. Britain's changing climate. Geographical Journal. 133, 4 445-468.CrossRefGoogle Scholar
Lamb, H.H., 1972 Climate: Present, Past and Future. Fundamentals and Climate Now. Methuen, London, Vol. 1.Google Scholar
Lamb, H.H., 1977 Climate: Present, Past and Future. Climatic History and the Future. Methuen, London, Vol. 2.Google Scholar
Lamb, H.H., Johnson, A.I., 1959. Climatic variation and observed changes in the general wind circulation, I, II. Geografiska Annaler. 41, 94-134.Google Scholar
Lamb, H.H., Johnson, A.I., 1961. Climatic variation and observed changes in the general wind circulation, III. Geografiska Annaler. 43, 363-400.Google Scholar
Lamb, H.H., Johnson, A.I., 1966 Secular Variations of the Atmospheric Circulation since 1750. Her Majesty's Stationery Office for Meteorological Office, London, Geophysical Memoir 110.Google Scholar
Ljungman, A., 1882. Contribution towards solving the question of the secular periodicity of the great herring fisheries. United States Commission on Fish and Fisheries. 7, 7 497-503.Google Scholar
McIntyre, A., Kipp, N.G., , A.W.H., Crowley, T., Kellogg, T., Gardner, J.176., Prell, W., Ruddiman, W.F., 1976. Glacial North Atlantic 18,000 years ago: A CLIMAP reconstruction. Cline, R.M., Hays, J.D., Investigation of Late Quaternary Paleoceanography and Paleoclimatology. Geological Society of America Memoir 145. Boulder, Colo, 43-76.Google Scholar
McIntyre, A., Ruddiman, W.F., Jantzen, R., 1972. Southward penetrations of the North Atlantic polar front: Faunal and floral evidence of largescale surface water mass movements over the last 225,000 years. Deep-Sea Research. 19, 61-77.Google Scholar
Mackenzy, Sir G., 1675. Report and notes. Philosophical Transactions of the Royal Society of London. 10, No. 114 307.Google Scholar
in “Hutton's Abridgment of the Philosophical Transactions of the Royal Society,”. Vol. II, , 16721685..Google Scholar
Malmberg, Sv.-A, Gade, H.G., Sweers, H.E., 1972. Current velocities and volume transports in the East Greenland Current off Cape Nordenskjöld in August-September 1965. Sea Ice Conference Proceedings. Reykjavik 1972 130-139 Reykjavik.Google Scholar
Malmberg, Sv.-A., Stefansson, U., 1969. Recent changes in the watermasses of the East Icelandic Current. I.C.E.S. Dublin 1969 Symposium on Physical Variability in the North Atlantic. International Council for the Exploration of the Sea, Copenhagen. Google Scholar
Manley, G., 1949. The snowline in Britain. Geografiska Annaler. 36, 179-193.Google Scholar
Manley, G., 1974. Central England temperatures: Monthly means 1659 to 1973. Quarterly Journal of the Royal Meteorological Society. 100, 389-405.Google Scholar
Matthews, J.A., 1977. Glacier and climatic fluctuations inferred from tree-growth variations over the last 250 years, central southern Norway. Boreas. 6, 13-24.Google Scholar
Olausson, E., 1967. Marine sediments. Encyclopaedia of Oceanography. Reinhold, New York, memorandum, Marine Geological Laboratory, Göteborg, Sweden.Google Scholar
Ottestad, P., 1942. On periodical variations in the yield of the great sea fisheries and the possibility of establishing yield prognoses. Fiskeridirektoratets skrifter Serie Havundersøkelser. 7, 5.Google Scholar
Pfister, C., 1978. Fluctuations in the duration of snow-cover in Switzerland since the late seventeenth century. Frydendahl, K., Proceedings of the Nordic Symposium on Climatic Changes and Related Problems. Danish Meteorological Institute, Climatological Papers No. 4. 1-8 Copenhagen.Google Scholar
Pickett, R.L., Athey, G.L., 1968 Iceland Sea-Surface Temperature Survey, April 1968. Naval Oceanographic Office: IR 68-46), Washington, D.C..Google Scholar
Ruddiman, W.F., Glover, L.K., 1973. Counterclockwise circulation in the North Atlantic subpolar gyre during the Quaternary. Mapping the Atmospheric and Oceanic circulations and other climatic Parameters at the time of the last glacial Maximum about 17,000 years ago. Climatic Research Unit, CRU RP 2. Norwich.Google Scholar
Ruddiman, W.F., Glover, L.K., 1975. Subpolar North Atlantic circulation at 9300 years B.P.: Faunal evidence. Quaternary Research. 5, 361-389.CrossRefGoogle Scholar
Smed, J., 1978. Fluctuatios of the temperature of the surface water in areas of the northern North Atlantic, 1876–1975. Proceedings of the Nordic Symposium on Climatic Changes and Related Problems. Danish Meteorological Institute. Climatological Papers No. 4. 205-211 Copenhagen.Google Scholar
Steers, J.A., 1937. The Culbin Sands and Burghead Bay. Geographical Journal. 90, 498-528.CrossRefGoogle Scholar
Stolle, H.J., 1975. Climatic change and the Gulf Stream. University of Wisconsin, Madison, Memorandum.Google Scholar
Svabo, J.C., 1782 Indberetninger fra en Reise i Faerøe 1781 og 1782. Copenhagen (republished 1959 by Selskabet til Udgivelse af Faerøiske Kildeskrifter og Studier).Google Scholar
Sverdrup, H.U., 1945 Oceanography for Meteorologists. Allen and Unwin, London. Google Scholar
Vangeng'ejm, G.Ja., Rolotinskaya, M.Š., Ryzakov, L.Ju., 'ejm, 1964. Catalogue of Macroscopic Processes According to the Classification of G. Ja. Vangeng'ejm. Arctic and Antarctic Institute, Leningrad, 1891-1962 (in Russian).Google Scholar
Vonder Haar, T.H., Oort, A.H., 1973. New estimate of annual poleward energy transport by northern hemisphere oceans. Journal of Physical Oceanography. 3, 2 169-172.Google Scholar
West, J.F., 1970 The Journals of the Stanley Expedition to the Faroe Islands and Iceland in 1789. Føroya Frodskaparfelag, Torshavn, Introduction and Diary of James Wright.Google Scholar