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Late Pleistocene Glacial Equilibrium-Line Altitudes in the Colorado Front Range: A Comparison of Methods

Published online by Cambridge University Press:  20 January 2017

Thomas C. Meierding
Thomas C. Meierding*
Affiliation:
Department of Geography and Center For Climatic Research, University of Delaware, Newark, Delaware 19711
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Abstract

Six methods for approximating late Pleistocene (Pinedale) equilibrium-line altitudes (ELAs) are compared for rapidity of data collection and error (RMSE) from first-order trend surfaces, using the Colorado Front Range. Trend surfaces computed from rapidly applied techniques, such as glaciation threshold, median altitude of small reconstructed glaciers, and altitude of lowest cirque floors have relatively high RMSEs (97–186 m) because they are subjectively derived and are based on small glaciers sensitive to microclimatic variability. Surfaces computed for accumulation-area ratios (AARs) and toe-to-headwall altitude ratios (THARs) of large reconstructed glaciers show that an AAR of 0.65 and a THAR of 0.40 have the lowest RMSEs (about 80 m) and provide the same mean ELA estimate (about 3160 m) as that of the more subjectively derived maximum altitudes of Pinedale lateral moraines (RMSE = 149 m). Second-order trend surfaces demonstrate low ELAs in the latitudinal center of the Front Range, perhaps due to higher winter accumulation there. The mountains do not presently reach the ELA for large glaciers, and small Front Range cirque glaciers are not comparable to small glaciers existing during Pinedale time. Therefore, Pleistocene ELA depression and consequent temperature depression cannot reliably be ascertained from the calculated ELA surfaces.

Type
Research Article
Information
Quaternary Research , Volume 18 , Issue 3 , November 1982 , pp. 289 - 310
Copyright
University of Washington

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References

Ahlmann, H.W. (1948). Glaciological research on the north Atlantic coast. Royal Geographical Society Research Series No. 1.Google Scholar
Alford, D.L. (1973). Cirque Glaciers of the Colorado Front Range: Mesoscale Aspects of a Glacier Environment. Ph.D. dissertation. University of Colorado.Google Scholar
Anderson, B.C. (1968). Glacial geology of western Thoms, north Norway. Norges Geologiske Undersokelse No. 256.Google Scholar
Andrews, J.T. (1975). Glacial Systems. Duxbury Press, North Scituate, Mass.Google Scholar
Andrews, J.T. Barry, R.G. Drapier, L. (1970). An inventory of the present and past glacierization of Home Bay and Okoa Bay, East Baffin Island, N.W.T., Canada, and some climatic and paleoclimatic considerations. Journal of Glaciology 9. 337362.CrossRefGoogle Scholar
Andrews, J.T. Miller, G.H. (1972). Quaternary history of northern Cumberland Peninsula, Baffin Island, N.W.T., Canada. Part IV: Maps of the present glaciation limits and lowest equilibrium line altitude for south Baffin Island. Arctic and Alpine Research 4. 4559.CrossRefGoogle Scholar
Antevs, E. (1954). Climate of New Mexico during the last glacio-pluvial. Journal of Geology 62. 182191.CrossRefGoogle Scholar
Baker, R.G. (1976). Late Quaternary vegetation history of the Yellowstone Lake Basin, Wyoming. U.S. Geological Survey Professional Paper 729-E.Google Scholar
Barry, R.G. (1973). A climatological transect on the east slope of the Front Range, Colorado. Arctic and Alpine Research 5. 89110.CrossRefGoogle Scholar
Benedict, J.B. (1973). Chronology of cirque glaciation, Colorado Front Range. Quaternary Research 3. 584599.CrossRefGoogle Scholar
Bonnett, R.B. (1970). Glacial Sequence of the Upper Boulder Creek Drainage Basin in the Colorado Front Range. Ph.D. dissertation. Ohio State University.Google Scholar
Carver, G.A. (1972). Glacial Geology of the Mountain Lakes Wilderness and Adjacent Parts of the Cascade Range, Oregon. Ph.D. dissertation. University of Washington, Seattle.Google Scholar
Charlesworth, J.K. (1957). The Quaternary Era. Arnold, London.Google Scholar
Dahl, E. (1964). Present-day distribution of plants and past climates. Symposium on Paleoecology. Hester, J.J. Museum of New Mexico Press, Santa Fe. 6675.Google Scholar
Dougenik, J.A. Sheehan, D.E. (1975). SYMAP Users Reference Manual. Laboratory for Computer Graphics and Spatial Analysis, Cambridge, Mass.Google Scholar
Eschman, D.F. (1955). Glaciation of the Michigan River basin, North Park, Colorado. Journal of Geology 63. 197213.CrossRefGoogle Scholar
Flint, R.F. (1971). Glacial and Quaternary Geology. Wiley, New York.Google Scholar
Gable, D.J. Madole, R.F. (1976). Geologic map of the Ward Quadrangle, Boulder County, Colorado. U.S. Geological Survey Geological Quadrangle 1277.Google Scholar
Galloway, R.W. (1970). The full-glacial climate in the southwestern United States. American Association of Geographers Annals 60. 245256.CrossRefGoogle Scholar
Gilbert, J.R. (1968). Late Pleistocene History of the Caribou Creek Valley, Boulder County, Colorado. M. S. thesis. University of Colorado.Google Scholar
Graf, W.L. (1976). Cirques as glacier locations. Arctic and Alpine Research 8. 7990.CrossRefGoogle Scholar
Gross, V.G. Kerschner, H. Patzelt, G. (1977). Methodische untersuchungen über die Schneegrenze in alpinen Gletschergebieten. Zeitschrift für Gletsherkunde und Glazialgeologie 12. 223251.Google Scholar
Grosval'd, M.G. Kotlyakov, V.M. (1969). Present-day glaciers in the U.S.S.R. and some data on their mass balance. Journal of Glaciology 8. 922.CrossRefGoogle Scholar
Haeffner, A.D. (1971). Daily temperatures and precipitation for subalpine forest, central Colorado. U.S. Department of Agriculture Research Paper R.M.-80.Google Scholar
Hawkins, F.F. (1980). Glacial Geology and Late Quaternary Paleoenvironment in the Merchants Bay Area, Baffin Island, N.W.T., Canada. M.A. thesis. University of Colorado.Google Scholar
Ives, R.L. (1938). Glacial geology of the Monarch Valley, Grand County, Colorado. Geological Society of America Bulletin 49. 10451066.CrossRefGoogle Scholar
Ives, R.L. 1953a. Anomalous glacial deposits in the Colorado Front Range area, Colorado. Transactions of the American Geophysical Union 34. 220226.Google Scholar
Ives, R.L. 1953b. Later Pleistocene glaciation in the Silver Lake Valley, Colorado. Geographical Review 43. 229252.CrossRefGoogle Scholar
Kiver, E.P. (1972). Two late Pinedale advances in the southern Medicine Bow Mountains, Colorado. University of Wyoming Contributions to Geology 11. 18.Google Scholar
Kreibich, V.H. (1966). Precipitation Climatology of the Front Range in Colorado. M.A. thesis. University of Colorado.Google Scholar
Legg, T.E. Baker, R.G. (1980). Palynology of Pinedale sediments, Devlins Park, Boulder County, Colorado. Arctic and Alpine Research 12. 319333.CrossRefGoogle Scholar
Leopold, L.B. (1951). Pleistocene climate in New Mexico. American Journal of Science 249. 152168.CrossRefGoogle Scholar
Madole, R.F. (1969). Pinedale and Bull Lake glaciation in upper St. Vrain drainage basin, Boulder County, Colorado. Arctic and Alpine Research 1. 279287.CrossRefGoogle Scholar
Madole, R.F. 1976a. Bog stratigraphy, radiocarbon dates, and Pinedale to Holocene glacial history in the Front Range, Colorado. U.S. Geological Survey Journal of Research 4. 163169.Google Scholar
Madole, R.F. 1976b. Glacial Geology of the Front Range, Colorado. Quaternary Stratigraphy of North America. Mahaney, W.C. Dowden, Hutchinson, and Ross, Stroudsburg, Pa. 297318.Google Scholar
Madole, R.F. 1980a. Lake Devlin and the time of maximum expansion of Pinedale glaciation in the Front Range, Colorado. U.S. Geological Survey Open-File Report.CrossRefGoogle Scholar
Madole, R.F. 1980b. Time of Pinedale deglaciation in north-central Colorado: Further considerations. Geology 8. 118122.2.0.CO;2>CrossRefGoogle Scholar
Madole, R.F. Shroba, R.F. (1979). Till sequence and soil development in the North St. Vrain drainage basin, east slope, Front Range, Colorado. Field Guide, Northern Front Range and Northwest Denver Basin, Colorado. Ethbridge, F.G. Geological Society of America, Rocky Mountain Section 123178.Google Scholar
Maher, L.J. Jr.. (1961). Pollen Analysis and Postglacial Vegetation History in the Animas Valley Region, Southern San Juan Mountains, Colorado. Ph.D. dissertation. University of Minnesota.Google Scholar
Manley, G. (1959). The late-glacial climate of northwest England. Liverpool and Manchester Geological Journal 2. 188215.CrossRefGoogle Scholar
Martin, P.S. Mehringer, P.J. (1965). Pleistocene pollen analysis and biogeography of the southwest. The Quaternary of the United States. Wright, H.E. Jr., Frey, D.G. Princeton Univ. Press, Princeton, N.J. 433452.Google Scholar
Meier, M.F. Post, A.S. (1962). Recent variations in mass net budgets in western North America. IUGG/IASH Committee on Snow and Ice, General Assembly, Obergurl, International Association of Science and Hydrology 58. 6377.Google Scholar
Meierding, T.C. (1977). Age Differentiation of Till and Gravel Deposits in the Upper Colorado River Basin. Ph.D. dissertation. University of Colorado.Google Scholar
Meierding, T.C. Birkeland, P.W. (1980). Quaternary glaciation of Colorado. Colorado Geology. Kent, H.C. Porter, K.W. Rocky Mountain Geological Association, Denver. 165173.Google Scholar
Miller, G.H. Bradley, R.S. Andrews, J.T. (1975). The glaciation level and lowest equilibrium line altitude in the high Canadian Arctic: maps and climatic interpretation. Arctic and Alpine Research 7. 155168.CrossRefGoogle Scholar
Millington, A.C. (1980). Late Quaternary Paleoenvironmental History of the Mary Jane Creek Valley, Grand County, Colorado. M.A. thesis. University of Colorado.Google Scholar
Nelson, A.R. Millington, A.C. Andrews, J.T. Nichols, H. (1979). Radiocarbon-dated upper Pleistocene glacial sequence, Fraser Valley, Colorado Front Range. Geology 7. 410414.2.0.CO;2>CrossRefGoogle Scholar
Oldfield, F. Schoenwetter, F. (1964). Late Quaternary environment and early man on the southern high plains. Antiquity 38. 226229.Google Scholar
Østrem, G. (1964). Ice-cored moraines in Scandinavia. Geografiska Annaler 46. 282337.Google Scholar
Østrem, G. (1966). The height of the glaciation limit in southern British Columbia and Alberta. Geografiska Annaler 48 A. 126138.CrossRefGoogle Scholar
Østrem, G. (1973). The transient snowline and glacier mass balance in southern British Columbia and Alberta, Canada. Geografiska Annaler 55 A. 93106.CrossRefGoogle Scholar
Outcalt, S.I. MacPhail, D.D. (1965). A Survey of Neoglaciation in the Front Range of Colorado. Univ. of Colorado Press, BoulderUniversity of Colorado Studies Series in Earth Science No. 4.Google Scholar
Paterson, W.S.B. (1969). The Physics of Glaciers. Pergamon, London.Google Scholar
Peterson, J.A. Robinson, G.F. (1969). Trend surface mapping of cirque floor levels. Nature (London) 222. 7576.CrossRefGoogle Scholar
Peterson, G.M. Webb, T. Kutzbach, J.E. Van Der Hammen, T. Wijmstra, T.A. Street, F.A. (1979). The continental record of environmental conditions at 18,000 yr B.P.: An initial evaluation. Quaternary Research 12. 4782.CrossRefGoogle Scholar
Péwé, T.L. Reger, R.D. (1972). Modern and Wisconsinan snowlines in Alaska. Proceedings of the 24th International Geologic Congress, Section 12. 187197.Google Scholar
Pierce, K.L. Obradovich, J.D. Friedman, I. (1976). Obsidian hydration dating and correlation of Bull Lake and Pinedale glaciations near West Yellowstone, Montana. Geological Society of America Bulletin 87. 703710.2.0.CO;2>CrossRefGoogle Scholar
Porter, S.C. (1964). Composite Pleistocene snowline of Olympic Mountains and Cascade Range, Washington. Geological Society of America Bulletin 75. 477482.CrossRefGoogle Scholar
Porter, S.C. (1970). Quaternary glacial record in Swat Kohistan, West Pakistan. Geological Society of America Bulletin 81. 14211446.CrossRefGoogle Scholar
Porter, S.C. 1975a. Equilibrium-line altitudes of late Quaternary glaciers in the Southern Alps, New Zealand. Quaternary Research 5. 2747.CrossRefGoogle Scholar
Porter, S.C. 1975b. Glaciation limit in New Zealand's Southern Alps. Arctic and Alpine Research 7. 3337.CrossRefGoogle 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. 101116.CrossRefGoogle Scholar
Porter, S.C. (1979). Hawaiian glacial ages. Quaternary Research 12. 161187.CrossRefGoogle Scholar
Ray, L.L. (1940). Glacial chronology of the southern Rocky Mountains. Geological Society of America Bulletin 51. 18511918.CrossRefGoogle Scholar
Richmond, G.M. (1960). Glaciation of the east slope of Rocky Mountain National Park, Colorado. Geological Society of America Bulletin 71. 13711382.CrossRefGoogle Scholar
Richmond, G.M. (1965). Glaciation of the southern Rocky Mountains. The Quaternary of the United States. Wright, H.E. Jr., Frey, D.G. Princeton Univ. Press, Princeton, N.J. 217230.Google Scholar
Richmond, G.M. (1974). Raising the Roof of the Rockies. Rocky Mountain Nature Association, Estes Park.Google Scholar
Scott, W.E. (1977). Quaternary glaciation and volcanism, Metolius River area, Oregon. Geological Society of America Bulletin 88. 113124.2.0.CO;2>CrossRefGoogle Scholar
Trenhaile, A.S. (1975). Cirque elevation in the Canadian Cordillera. Association of American Geographers Annals 65. 517529.CrossRefGoogle Scholar
Waddington, J.C.B. Wright, H.E. Jr.. (1974). Late Quaternary vegetational changes on the east side of Yellowstone Park, Wyoming. Quaternary Research 4. 175184.CrossRefGoogle Scholar
Wahrhaftig, C. Birman, J. (1965). The Quaternary of the Pacific Mountain system in California. The Quaternary of the United States. Wright, H.E. Jr., Frey, D.G. Princeton, Univ. Press, Princeton, N.J. 299340.Google Scholar
Weidick, A. (1968). Observations on some Holocene glacier fluctuations in West Greenland. Meddeleser om Grønland 165 6. 0194.Google Scholar
Wendorf, F. (1961). An interpretation of late Pleistocene environments of the Llano Estacado. Paleoecology of the Llano Estacado. Museum of New Mexico Press, Santa Fe. 115133.Google Scholar
Wright, H.E. Jr., Bent, A.M. Hansen, B.S. Maher, L.J. Jr.. (1973). Present and past vegetation of the Chuska Mountains, northwestern New Mexico. Geological Society of America Bulletin 84. 11551180.2.0.CO;2>CrossRefGoogle Scholar