Hostname: page-component-586b7cd67f-rcrh6 Total loading time: 0 Render date: 2024-11-25T04:01:14.031Z Has data issue: false hasContentIssue false

Ice-Sheet Glaciation of the Puget Lowland, Washington, during the Vashon Stade (Late Pleistocene)1

Published online by Cambridge University Press:  20 January 2017

Robert M. Thorson*
Affiliation:
Puget Sound Earth Science Applications Project, U.S. Geological Survey, 1107 Northeast 45th Avenue (Suite 125), Seattle, Washington 98105 and Geology Department, University of Wisconsin, Oshkosh, Wisconsin 54901

Abstract

During the Vashon Stade of the Fraser Glaciation, about 15,000–13,000 yr B.P., a lobe of the Cordilleran Ice Sheet occupied the Puget lowland of western Washington. At its maximum extent about 14,000 yr ago, the ice sheet extended across the Puget lowland between the Cascade Range and Olympic Mountains and terminated about 80 km south of Seattle. Meltwater streams drained southwest to the Pacific Ocean and built broad outwash trains south of the ice margin. Reconstructed longitudinal profiles for the Puget lobe at its maximum extent are similar to the modern profile of Malaspina Glacier, Alaska, suggesting that the ice sheet may have been in a near-equilibrium state at the glacial maximum. Progressive northward retreat from the terminal zone was accompanied by the development of ice-marginal streams and proglacial lakes that drained southward during initial retreat, but northward during late Vashon time. Relatively rapid retreat of the Juan de Fuca lobe may have contributed to partial stagnation of the northwestern part of the Puget lobe. Final destruction of the Puget lobe occurred when the ice retreated north of Admiralty Inlet. The sea entered the Puget lowland at this time, allowing the deposition of glacial-marine sediments which now occur as high as 50 m altitude. These deposits, together with ice-marginal meltwater channels presumed to have formed above sea level during deglaciation, suggest that a significant amount of postglacial isostatic and(or) tectonic deformation has occurred in the Puget lowland since deglaciation.

Type
Research Article
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.)

Footnotes

1

Publication authorized by the Director, U.S. Geological Survey.

References

Anderson, C.A., (1965). Surficial Geology of the Fall City Area, Washington. Unpublished M.S. thesis University of Washington Google Scholar
Anderson, F.E., (1968). Seaward terminus of the Vashon continental glacier in the Strait of Juan de Fuca. Marine Geology 6 419 438 Google Scholar
Armstrong, J.E. Crandell, D.R. Easterbrook, D.J. Noble, J.R., (1965). Late Pleistocene stratigraphy and chronology in southwestern British Columbia and northwestern Washington. Geological Society of America Bulletin 76 321 330 Google Scholar
Boulton, G.S., (1978). Glacier erosion, National Research Council's subcommittee on glaciers Volume of Abstracts, Symposium of Glacier Beds; the Ice-Rock Interface Ottawa, Canada, August 15–19, 1978 Natl. Res. Council Canada Ottawa Google Scholar
Bretz, J.H., (1913). Glaciation of the Puget Sound region. Washington Geological Survey Bulletin 8 1 244 Google Scholar
Carson, R.J. III (1970). Quaternary Geology of the South-Central Olympic Peninsula, Washington. Unpublished Ph.D. dissertation University of Washington Google Scholar
Carson, R.J. III (1976). Geologic map of the Brinnon area. Washington Division of Geology and Earth Science Open-File Map 76 scale 1:24,000 Google Scholar
Crandell, D.R., (1963). Surficial Geology and Geomorphology of the Lake Tapps Quadrangle, Washington U.S. Geol. Survey Prof. Paper 338-A Google Scholar
Crandell, D.R. Mullineaux, D.R. Waldron, H.H., (1958). Pleistocene sequence in the southeastern part of the Puget Sound Lowland, Washington. American Journal of Science 256 384 397 CrossRefGoogle Scholar
Crandell, D.R. Mullineaux, D.R. Waldron, H.H., (1965). Age and Origin of the Puget Sound Trough in Western Washington B132 B136 U.S. Geol. Survey Prof. Paper 525-B Google Scholar
Curran, T.A., (1965). Surficial Geology of the Issaquah Area, Washington. Unpublished M.S. thesis University of Washington Google Scholar
Easterbrook, D.J., (1963). Late Pleistocene glacial events and relative sea-level changes in the northern Puget Lowland, Washington. Geological Society of America Bulletin 74 1465 1484 CrossRefGoogle Scholar
Easterbrook, D.J., (1968). Pleistocene stratigraphy of Island County, Washington. Washington Department of Water Resources Water-Supply Bulletin 25 1 34 Part 1 Google Scholar
Easterbrook, D.J., (1969). Pleistocene chronology of the Puget Lowland and San Juan Islands, Washington. Geological Society of America Bulletin 80 2273 2286 Google Scholar
Gayer, M.J., (1977). Quaternary and Environmental Geology of Northeastern Jefferson County, Washington. Unpublished M.S. thesis North Carolina State University Google Scholar
Gustavson, T.C. Ashley, G.M. Boothroyd, J.C., (1975). Depositional sequences in glaciolacustrine sedimentation. Society of Economic Paleontologists and Mineralogists Special Publication 23 264 280 Google Scholar
Hansen, H.P. Mackin, J.H., (1949). A pre-Wisconsin forest succession in the Puget lowland, Washington. American Journal of Science 247 833 855 Google Scholar
Hansen, K.L., (1976). Geologic map of the Uncas-Port Ludlow area, Jefferson County, Washington. Washington Division of Geology and Earth Resources, Open-File Report 76-20 scale 1:24,000 Google Scholar
Heusser, C.J., (1977). Quaternary palynology of the Pacific Slope of Washington. Quaternary Research 8 282 306 CrossRefGoogle Scholar
Hughes, T., (1977). West Antarctica ice streams. Reviews of Geophysics and Space Physics 15 1 46 Google Scholar
Hughes, T. Denton, G.H. Grosswald, M.G., (1977). Was there a late Wurm ice sheet?. Nature (London) 206 596 602 Google Scholar
Kamb, B., (1964). Glacier Geophysics. Science 146 353 365 CrossRefGoogle ScholarPubMed
Knoll, K.M., (1967). Surficial geology of the Tolt River area, Washington. Unpublished M.S. thesis University of Washington Google Scholar
Macintyre, I.G. Pilkey, O.H. Stuckenrath, R., (1978). Relict oysters on the United States Atlantic continental shelf: A reconsideration of their usefulness in understanding late Quaternary sea-level histo. Geological Society of America Bulletin 89 277 282 2.0.CO;2>CrossRefGoogle Scholar
Mackin, J.H., (1941). Glacial geology of the Snoqualmie-Cedar Area, Washington. Journal of Geology 49 449 481 Google Scholar
Mercer, J.H., (1969). The Alleröd oscillation: A European climatic anomaly?. Arctic and Alpine Research 1 227 234 Google Scholar
Molenaar, D. Garling, M.E., (1965). Water resources and geology of the Kitsap Peninsula and certain adjacent islands. Washington Division of Water Resources Water-Supply Bulletin 18 24 41 Google Scholar
Molenaar, D. Noble, J.B., (1970). Geology and related ground water occurrences, southeastern Mason County, Washington. Washington Division of Water Resources Water-Supply Bulletin 24 Google Scholar
Mullineaux, D.R., (1970). Geology of the Renton, Auburn, and Black Diamond Quadrangles, King County, Washington 1 92 U.S. Geol. Survey Prof. Paper 672 Google Scholar
Mullineaux, D.R. Waldron, H.H. Rubin, Meyer, (1965). Stratigraphy and chronology of late interglacial and early Vashon glacial time in the Seattle area. Washington. U.S. Geological Survey Bulletin 1194-0 01 010 Google Scholar
Newcomb, R.C., (1952). Ground-water resources of Snohomish County, Washington. U.S. Geological Survey Water-Supply Paper 1135 1 133 Google Scholar
Noble, J.R. Wallace, F.F., (1966). Geology and ground-water resources of Thurston County, Washington, v. 2. Washington Division of Water Resources Water-Supply Bulletin 10 1 61 Google Scholar
Nye, J.F., (1959). The motion of ice sheets and glaciers. Journal of Glaciology 2 493 507 Google Scholar
Nye, J.F., (1959). A method of calculating the thickness of ice sheets. Nature (London) 169 529 530 Google Scholar
Pevear, D.R. Thorson, R.M., (1978). Distinction between till and glaciomarine drift using exchangeable sodium. Geological Society of America Abstracts with Programs 10 471 Google Scholar
Porter, S.C., (1970). Glacier recession in the southern and central Puget lowland, Washington, between 14,000 and 13,000 B.P. American Quaternary Association Bozeman, Montana 107 Amer. Quaternary Assoc Google Scholar
Porter, S.C., (1976). Pleistocene glaciation in the southern part of the North Cascade Range, Washington. Geological Society of America Bulletin 87 61 75 2.0.CO;2>CrossRefGoogle Scholar
Porter, S.C. Carson, R.J. III (1971). Problems of interpreting radiocarbon dates from dead-ice terrain, with an example from the Puget Lowland of Washington. Quaternary Research 1 410 414 CrossRefGoogle Scholar
Rigg, G.B. Gould, H.R., (1957). Age of Glacier Peak eruption and chronology of postglacial peat deposits in Washington and surrounding areas. American Journal of Science 255 341 363 Google Scholar
Rosengreen, T.E., (1965). Surficial Geology of the Maple Valley and Hobart Quadrangles, Washington. Unpublished M.S. thesis University of Washington Google Scholar
Weertman, J., (1964). The theory of glacier sliding. Journal of Glaciology 5 287 303 CrossRefGoogle Scholar
Willis, B., (1898). Drift phenemenon of Puget Sound. Geological Society of America Bulletin 9 111 162 Google Scholar