Post-glacial climatic change and variability

doi:10.1017/CBO9780511817984.007

6 - Post-glacial climatic change and variability

Published online by Cambridge University Press: 05 June 2012

Howard A. Bridgman and

John E. Oliver

Gregory A. Zielinski

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Howard A. Bridgman: Affiliation:
University of Newcastle, New South Wales
John E. Oliver: Affiliation:
Indiana State University
Gregory A. Zielinski: Affiliation:
University of Maine

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Summary

Introduction

An understanding of past climates, climate change, and variability within the Earth's climate system is essential to help understand current climate variability and to assist in the prediction of future climate change. Research over the past 50 years or so has demonstrated that changes in climate can be described for periods up to 420,000 years before present (BP). The very last few thousand years of record, the period since the end of the last major glaciation, the Holocene, is described by Petit et al. (1999) as “… the longest stable warm period recorded in Antarctica during the past 420 ky.”

Jones and Mann (2004) emphasize that the last 12,000 years BP is a short enough period so that long-term effects on climate, such as changes in the Earth's orbit and major changes in global ice mass, have no impact. Natural forces over smaller temporal scales, such as variations in solar radiation output, dust and gases from irregular volcanic eruptions, ENSO variations (Section 2.8) and changes in ocean–atmospheric circulation, become major forcing factors. After about AD 1850, human influences become much more important, associated with excess greenhouse gas emissions, global warming, land use changes, and cooling from sulfate aerosol pollution.

Thompson et al. (1993) list several reasons why the study of climate during the Holocene, and especially over the past 1000 years, can provide an important contribution to understanding of climate variability. There is enough detailed information available from a range of sources to allow climate reconstructions.

Type: Chapter
Information: The Global Climate System
Patterns, Processes, and Teleconnections
, pp. 171 - 204

DOI: https://doi.org/10.1017/CBO9780511817984.007 [Opens in a new window]

Publisher: Cambridge University Press

Print publication year: 2006

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References

Alley, R. B.et al., 1995. Changes in continental and sea-salt atmospheric loadings in central Greenland during the most recent deglaciation: Model-based estimates. Journal of Glaciology, 41, 503–514.CrossRef Google Scholar

Alley, R. B.et al., 1997a. Visual-stratigraphic dating of the GISP2 ice core: Basics, reproducibility and application. Journal of Geophysical Research, 102, 26,367–26,382.CrossRef Google Scholar

Alley, R. B., Mayewski, P. A., Sowers, T., et al., 1997b. Holocene climate instability: A large event 8000–8400 years ago. Geology, 25, 402–406.Google Scholar

American Geophysical Union, 1998. Greenland Summit Ice Cores. Reprinted from Journal of Geophysical Research, 102, 26,315–26,886.

Bond, G.et al., 1997. A pervasive millennial-scale cycle in North Atlantic Holocene and glacial climates. Science, 278, 1257–1266.CrossRef Google Scholar

Bradley, R. S., 1999. Paleoclimatology, 2nd edn. San Diego: Harcourt Academic Press, 644pp.Google Scholar

Cook, E., Buckley, B. and D'Arrigo, R., 1995. Interdecadal temperature oscillations in the Southern Hemisphere: Evidence from Tasmanian tree rings since 300 BC. In Natural Climate Variability in Decade-to-Century Time Scales. Washington DC: National Research Council, pp. 523–532.Google Scholar

Cook, E., Palmer, J. and D'Arrigo, R., 2002. Evidence for a ‘Medieval Warm Period’ in a 1,100 year old reconstruction of past Austral summer temperatures in New Zealand. Geophysical Research Letters, 29, 1667–1671.CrossRef Google Scholar

Crowley, T. J., 2000. Causes of climate change over the past 1000 years. Science, 289, 270–277.CrossRef Google Scholar PubMed

Cuffey, K. M., Clow, G. D., Alley, R. B.et al., 1995. Large Arctic temperature change at the Wisconsin-Holocene glacial transition. Science, 270, 455–458.CrossRef Google Scholar

Diaz, H. and Bradley, R., 1995. Documenting natural climate variations: How different is the climate of the twentieth century from that of previous centuries. In Natural Climate Variability in Decade-to-Century Time Scales. Washington DC: National Research Council, pp. 17–31.Google Scholar

Fisher, D. A.et al., 1998. Penny Ice Cap cores, Baffin Island, Canada, and the Wisconsin Foxe Dome connection: Two states of Hudson Bay ice cover. Science, 279, 692–695.CrossRef Google Scholar PubMed

Goodwin, I., Ommen, T., Curran, M. and Mayewski, P., 2004. Mid latitude winter climate variability in the South Indian and southwest Pacific regions since 1300. Climate Dynamics, 22, 783–794.CrossRef Google Scholar

Hughes, M. K. and Diaz, H. F., 1994. Was there a “Medieval Warm Period”, and if so, where and when? Climatic Change, 26, 109–142.CrossRef Google Scholar

IPCC, 2001. Climate Change 2001: The Scientific Basis. Contribution of Working Group I to the Third Assessment Report of the Intergovernmental Panel on Climate Change. Houghton, J., Ding, Y., Griggs, D., et al., eds., Cambridge: Cambridge University Press.Google Scholar

Jones, P. D., Briffa, K. R., Barnett, T. P. and Tett, S. F. B., 1998. High-resolution palaeoclimatic records for the last millennium: Integration, interpretation and comparison with General Circulation Model control run temperature. Holocene, 8, 455–471.CrossRef Google Scholar

Jones, P. D., Ogilvie, A. E. J., Davies, T. D. and Briffa, K. R., 2001. Unlocking the doors to the past: Recent developments in climate and climate impact research. In Jones, P. D., Ogilvie, A. E. J., Davies, T. D. and Briffa, K. R., eds., History and Climate: Memories of the Future. New York: Kluwer Academic/Plenum Publishers, pp. 1–8.CrossRef Google Scholar

Jones, P. D. and Mann, M., 2004. Climate over the past millennia. Reviews of Geophysics, 42:RG2002, doi:10.1029/2003RG00143.CrossRef Google Scholar

Koerner, R. M. and Fisher, D. A., 1990. A record of Holocene summer climate from a Canadian high-Arctic ice core. Nature, 343, 630–631.CrossRef Google Scholar

Lamb, H. H., 1995. Climate, History and the Modern World, 2nd edn. London: Routledge.Google Scholar

Lindesay, J., 1998. Past climates of Southern Africa. In Hobbs, J., Lindesay, J. and Bridgman, H., eds., Climates of the Southern Continents. Chichester, UK: Wiley, pp. 161–206.Google Scholar

Mann, M. and Jones, P., 2003. Global surface temperatures over the past two millennia. Geophysical Research Letters, 30, 1820–1824.CrossRef Google Scholar

Markgraf, V., 1998. Past climate of South America. In Hobbs, J., Lindesay, J. and Bridgman, H., eds., Climates of the Southern Continents, Chichester, UK: Wiley, pp. 151–264.Google Scholar

Mayewski, P. A. and White, F., 2002. The Ice Chronicles. Hanover, NH: University Press of New England.Google Scholar

Mayewski, P. A.et al., 1997. Major features and forcing of high latitude Northern Hemisphere atmospheric circulation over the last 110,000 years. Journal of Geophysical Research, 102, 26,345–26,366.CrossRef Google Scholar

Mayewski, P. A.et al., 2004. Holocene climate variability. Quaternary Research, 62, 243–255.CrossRef Google Scholar

Meese, D. A.et al., 1997. The Greenland Ice Sheet Project 2 depth-age scale: Methods and results. Journal of Geophysical Research, 102, 26,411–26,424.CrossRef Google Scholar

O'Brien, S. R., Mayewski, P. A., Meeker, L. D., et al., 1995. Complexity of Holocene climate as reconstructed from a Greenland ice core. Science, 270, 1962–1964.CrossRef Google Scholar

Petit, J.et al., 1999. Climate and atmospheric history of the past 420,000 years from the Vostock ice core, Antarctica. Nature, 399, 429–436.CrossRef Google Scholar

Soon, W. and Baliunas, S., 2003. Proxy climatic and environmental changes of the past 1000 years. Climate Research, 23, 89–110.CrossRef Google Scholar

Stager, J. and Meyewski, P., 1997. Abrupt early to mid-Holocene climatic transition registered at the equator and the poles. Science, 276, 1834–1835.CrossRef Google Scholar

Thompson, L.et al., 1993. “Recent Warming”: ice core evidence from tropical ice cores with emphasis on central Asia. Global and Planetary Change, 7, 145–156.CrossRef Google Scholar

Trenberth, K. and Otto-Bliesner, B., 2003. Toward integrated reconstruction of past climates. Science, 300(5619), 589–591.CrossRef Google Scholar PubMed

Tyson, P., Karlen, W., Holmgren, K. and Heiss, G., 2000. The Little Ice Age and medieval warming in Southern Africa. South African Journal of Science, 96, 121–126.Google Scholar

Williams, P., Marshall, A., Ford, D. and Jenkinson, A., 1999. Palaeoclimatic interpretation of stable isotope data from Holocene speleothems of the Waitomo District, North Island, New Zealand. Holocene, 9, 648–657.CrossRef Google Scholar

Zielinski, G. A., 1995. Stratospheric loading and optical depth estimates of explosive volcanism over the last 2100 years derived from the GISP2 Greenland ice core. Journal of Geophysical Research, 100, 20,937–20,956.CrossRef Google Scholar

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6 - Post-glacial climatic change and variability

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