Climatic Interpretation of Alpine Snowline Variations on Millennial Time Scales

Geoffrey O. Seltzer

doi:10.1006/qres.1994.1017

Abstract

The depression of snowlines, or equilibrium-line altitudes, of alpine glaciers is often used by glacial geologists to infer variations in mass balance. The climatic interpretation of snowline depression, however, is complicated by the number of factors that control glacier mass balance. The simple lapse-rate method of temperature interpretation ignores the effects of changes in radiation and snow accumulation. The statistical approach to temperature interpretation, which regresses precipitation and temperature against snowline altitude, neglects the effect of radiation. The most comprehensive approach for the climatic interpretation of snowline depression couples the heat and mass balances of a glacier surface. A sensitivity analysis that utilizes the coupled heat- and mass-balance approach indicates that the ∼1000-m variation in snowline of alpine glaciers on glacial-to-interglacial time scales could be a result of significant changes in temperature, and to a lesser extent changes in insolation. Snowline variations are sensitive only to relatively large changes in annual accumulation, which should also be evident in other proxy records of moisture change. The approaches outlined here provide glacial geologists with a summary of how various climatic forcings associated with glaciation may be quantified from snowline data.

References

Berger, A. L. (1978). Long-term variations of caloric insolation resulting from the Earth’s orbital elements. Quaternary Research 9, 139–167.Google Scholar

Braithwaite, R. J., and Olesen, O. B. (1990). A simple energy-balance model to calculate ice ablation at the margin of the Greenland ice sheet. Journal of Glaciology 36, 222–228.Google Scholar

Hastenrath, S. (1971). On the Pleistocene snow-line depression in the arid regions of the South American Andes. Journal of Glaciology 10, 255–267.CrossRef Google Scholar

Kuhn, M. (1979). On the computation of heat transfer coefficients from energy-balance gradients on a glacier. Journal of Glaciology 22, 263–272.Google Scholar

Kuhn, M. (1989). The response of the equilibrium line altitude to climate fluctuations: Theory and observations. In “Glacier Fluctuations and Climatic Change” (Oerlemans, J., Ed.), pp. 407–417. Kluwer Academic, Dordrecht.Google Scholar

Leonard, E. M. (1989). Climatic change in the Colorado Rocky Mountains: Estimates based on modem climate at late Pleistocene equilibrium lines, Arctic and Alpine Research 21, 245–255 CrossRef Google Scholar

Mears, B. Jr., (1981). Periglacial wedges and the late Pleistocene environment of Wyoming’s intermontane basins. Quaternary Research 15, 171–198.CrossRef Google Scholar

Miller, G. H., and de Vernal, A. (1992). Will greenhouse warming lead to Northern Hemisphere ice-sheet growth? Nature 355, 244–246.Google Scholar

Ohmura, A. Kasser, P., and Funk, M, (1992). Climate at the equilibrium line of glaciers. Journal of Glaciology 38, 397–411.CrossRef Google Scholar

Porter, S. C. (1977). Present and past glaciation threshold in the Cascade Range, Washington, U.S.A.: Topographic and climatic controls, and paleoclimatic implications. Journal of Glaciology 18, 101–116.Google Scholar

Porter, S. C. Pierce, K. L., and Hamilton, T. D. (1983). Late Wisconsin mountain glaciation in the western United States. In “Late Qua-ternary Environments of the United States. Vol. 1. The Late Pleistocene” (Porter, S. C., Ed.), pp. 71–111. Univ. of Minnesota Press, Minneapolis.Google Scholar

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Stute, Martin Clark, Jordan F. Schlosser, Peter Broecker, Wallace S. and Bonani, Georges 1995. A 30,000 yr Continental Paleotemperature Record Derived from Noble Gases Dissolved in Groundwater from the San Juan Basin, New Mexico. Quaternary Research, Vol. 43, Issue. 2, p. 209.

Aa, Asbjørn Rune 1996. Topographic control of equilibrium-line altitude depression on reconstructed 'Little Ice Age' glaciers, Grovabreen, western Norway. The Holocene, Vol. 6, Issue. 1, p. 82.

Brugger, Keith A. 1996. Implications of till-provenance studies for glaciological reconstructions of the paleoglaciers of Wildhorse Canyon, Idaho, U.S.A.. Annals of Glaciology, Vol. 22, Issue. , p. 93.

Duncan, Christopher C. Klein, Andrew J. Masek, Jeffrey G. and Isacks, Bryan L. 1998. Comparison of Late Pleistocene and Modern Glacier Extents in Central Nepal Based on Digital Elevation Data and Satellite Imagery. Quaternary Research, Vol. 49, Issue. 3, p. 241.

Benn, Douglas I and Lehmkuhl, Frank 2000. Mass balance and equilibrium-line altitudes of glaciers in high-mountain environments. Quaternary International, Vol. 65-66, Issue. , p. 15.

Phillips, William M. Sloan, Valerie F. Shroder, John F. Sharma, Pankaj Clarke, Michèle L. and Rendell, Helen M. 2000. Asynchronous glaciation at Nanga Parbat, northwestern Himalaya Mountains, Pakistan. Geology, Vol. 28, Issue. 5, p. 431.

Porter, Stephen C 2000. Snowline depression in the tropics during the Last Glaciation. Quaternary Science Reviews, Vol. 20, Issue. 10, p. 1067.

Markgraf, Vera Baumgartner, T.R Bradbury, J.P Diaz, H.F B. Dunbar, R Luckman, B.H Seltzer, G.O Swetnam, T.W and Villalba, R 2000. Paleoclimate reconstruction along the Pole–Equator–Pole transect of the Americas (PEP 1). Quaternary Science Reviews, Vol. 19, Issue. 1-5, p. 125.

Seltzer, Geoffrey O. 2000. Late Quaternary glaciation in the tropics: future research directions. Quaternary Science Reviews, Vol. 20, Issue. 10, p. 1063.

Munroe, Jeffrey S. and Mickelson, David M. 2002. Last Glacial Maximum equilibrium-line altitudes and paleoclimate, northern Uinta Mountains, Utah, U.S.A.. Journal of Glaciology, Vol. 48, Issue. 161, p. 257.

Munroe, J. S. 2002. Timing of Postglacial Cirque Reoccupation in the Northern Uinta Mountains, Northeastern Utah, U.S.A.. Arctic, Antarctic, and Alpine Research, Vol. 34, Issue. 1, p. 38.

Leonard, Katherine C. and Fountain, Andrew G. 2003. Map-based methods for estimating glacier equilibrium-line altitudes. Journal of Glaciology, Vol. 49, Issue. 166, p. 329.

Tapia, Pedro M Fritz, Sherilyn C Baker, Paul A Seltzer, Geoffrey O and Dunbar, Robert B 2003. A Late Quaternary diatom record of tropical climatic history from Lake Titicaca (Peru and Bolivia). Palaeogeography, Palaeoclimatology, Palaeoecology, Vol. 194, Issue. 1-3, p. 139.

Plummer, Mitchell A. and Phillips, Fred M. 2003. A 2-D numerical model of snow/ice energy balance and ice flow for paleoclimatic interpretation of glacial geomorphic features. Quaternary Science Reviews, Vol. 22, Issue. 14, p. 1389.

Smith, Jacqueline A. Seltzer, Geoffrey O. Farber, Daniel L. Rodbell, Donald T. and Finkel, Robert C. 2005. Early Local Last Glacial Maximum in the Tropical Andes. Science, Vol. 308, Issue. 5722, p. 678.

Mark, B.G. Harrison, S.P. Spessa, A. New, M. Evans, D.J.A. and Helmens, K.F. 2005. Tropical snowline changes at the last glacial maximum: A global assessment. Quaternary International, Vol. 138-139, Issue. , p. 168.

Benn, Douglas I. Owen, Lewis A. Osmaston, Henry A. Seltzer, Geoffrey O. Porter, Stephen C. and Mark, Bryan 2005. Reconstruction of equilibrium-line altitudes for tropical and sub-tropical glaciers. Quaternary International, Vol. 138-139, Issue. , p. 8.

Stansell, Nathan D. Abbott, Mark B. Polissar, Pratigya J. Wolfe, Alexander P. Bezada, Maximiliano and Rull, Valentí 2005. Late Quaternary deglacial history of the Mérida Andes, Venezuela. Journal of Quaternary Science, Vol. 20, Issue. 7-8, p. 801.

Munroe, Jeffrey S. Laabs, Benjamin J.C. Shakun, Jeremy D. Singer, Brad S. Mickelson, David M. Refsnider, Kurt A. and Caffee, Marc W. 2006. Latest Pleistocene advance of alpine glaciers in the southwestern Uinta Mountains, Utah, USA: Evidence for the influence of local moisture sources. Geology, Vol. 34, Issue. 10, p. 841.

Download full list

Article contents

Climatic Interpretation of Alpine Snowline Variations on Millennial Time Scales

Abstract

Access options

References

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Article contents

Climatic Interpretation of Alpine Snowline Variations on Millennial Time Scales

Abstract

Access options

References

Save article to Kindle

Save article to Dropbox

Save article to Google Drive

Reply to: Submit a response

Your details

You have entered the maximum number of contributors

Conflicting interests