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Late Quaternary Temporal and Event Classifications, Great Lakes Region, North America

Published online by Cambridge University Press:  20 January 2017

W. Hilton Johnson ,
Ardith K. Hansel ,
E. Arthur Bettis III ,
Paul F. Karrow ,
Grahame J. Larson ,
Thomas V. Lowell  and
Allan F. Schneider
W. Hilton Johnson
Affiliation:
Department of Geology, University of Illinois, Urbana, Illinois, 61801
Ardith K. Hansel
Affiliation:
Illinois State Geological Survey, Champaign, Illinois, 61820
E. Arthur Bettis III
Affiliation:
Geological Survey Bureau, Iowa City, Iowa, 52242
Paul F. Karrow
Affiliation:
Department of Earth Sciences and Quaternary Sciences Institute, University of Waterloo, Waterloo, Ontario, N2L 3G1, Canada
Grahame J. Larson
Affiliation:
Department of Geological Sciences, Michigan State University, East Lansing, Michigan, 48824
Thomas V. Lowell
Affiliation:
Department of Geology, University of Cincinnati, Cincinnati, Ohio, 45221
Allan F. Schneider
Affiliation:
Department of Geology, University of Wisconsin-Parkside, Kenosha, Wisconsin, 53141
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Abstract

Several temporal and event classifications are used for the Quaternary glacial and interglacial record in the Great Lakes region of North America. Although based on contrasting principles, the classifications, as practiced, are similar to one another in most respects and they differ little from the classification proposed by Chamberlin a century ago. All are based on stratigraphic units having time-transgressive boundaries; thus the associated time spans and events are diachronous. Where application of geochronologic classification based on isochronous boundaries is not practical or useful, we advocate the use of diachronic principles to establish local and regional temporal and event classifications. Diachronic and event classifications based on such principles are proposed herein for the Great Lakes region. Well-established names, including Wisconsin, Sangamon, and Illinois, are used at the episode (or glaciation/interglaciation) rank without significant redefinition. The Hudson Episode (Interglaciation) is introduced for postglacial time, the current interglacial interval. The Wisconsin Episode is divided into the Ontario, Elgin, and Michigan Subepisodes in the eastern and northern parts of the Great Lakes region and into the Athens and Michigan Subepisodes in the southern and western parts of the Great Lakes region.

Type
Research Article
Information
Quaternary Research , Volume 47 , Issue 1 , January 1997 , pp. 1 - 12
Copyright
University of Washington

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References

American Commission on Stratigraphic Nomenclature (1961). Code of Stratigraphic Nomenclature. American Association of Petroleum Geologists Bulletin 45, 645665.Google Scholar
Ashley, G. H.et al.(1933). Classification and nomenclature of rock units. Geological Society of America Bulletin 44, 423459.CrossRefGoogle Scholar
Attig, J. W. Clayton, L. Mickelson, D. M.(1985). Correlation of late Wisconsin glacial phases in the western Great Lakes area. Geological Society of America Bulletin 96, 15851593.2.0.CO;2>CrossRefGoogle Scholar
Bettis, E. A. III Quade, D. J.andKemmis, T. J.(1996). "Hogs, Bogs, & Logs: Quaternary Deposits and Environmental Geology of the Des Moines Lobe." Geological Survey Bureau Guidebook 18, Iowa Department of Natural Resources.Google Scholar
Birks, H. J. B.(1982). Holocene (Flandrian) chronostratigraphy of the British Isles: A review. Striae 16, 99105.Google Scholar
Black, R. F.(1976). Quaternary geology of Wisconsin and contiguous Upper Michigan. In "Quaternary Stratigraphy of North America" (Mahaney, W. C.Ed.), pp. 93117, Dowden, Hutchinson & Ross, Inc., Strouds-burg, PA.Google Scholar
Boellstorff, J. D.(1978). North American Pleistocene stages reconsidered in light of probable Pliocene-Pleistocene continental glaciation. Science 202, 305307.CrossRefGoogle ScholarPubMed
Bretz, J. H.(1939). "Geology of the Chicago Region. I. General.” Illinois State Geological Survey Bulletin 65.Google Scholar
Bretz, J. H.(1955). “Geology of the Chicago Region. II. The Pleistocene.” Illinois State Geological Survey Bulletin 65.Google Scholar
Chamberlin, T. C.(1878). On the extent and significance of the Wisconsin Kettle Moraine. Wisconsin Academy of Science Arts and Letters Transactions 4, 201234.Google Scholar
Chamberlin, T. C.(1883). Preliminary paper on the terminal moraines of the second glacial epoch. U.S. Geological Survey 34th Annual Report, 291402.Google Scholar
Chamberlin, T. C.(1894). Glacial phenomena of North America. In “The Great Ice Age” (James Geikie), 3rd ed., pp. 724774. Appleton, New York.Google Scholar
Chamberlin, T. C.(1895). The classification of American glacial deposits. Journal of Geology 3, 270277.CrossRefGoogle Scholar
Chamberlin, T. C.(1896). Nomenclature of glacial formations. Journal of Geology 4, 872876.Google Scholar
Clark, P. U.(1992). The last interglacial-glacial transition in North America: Introduction. In “The Last Interglacial-Glacial transition in North America” (Clark, P. U. and Lea, P. D.Eds.), pp. 111. Special Paper 270, Geological Society of America.Google Scholar
Clark, P. U.(1994). Unstable behavior of the Laurentide Ice Sheet over deforming sediment and its implications for climate change. Quaternary Research 41, 1925.Google Scholar
Clayton, Lee.(1966). “Notes on Pleistocene Stratigraphy of North Dakota.” North Dakota Geological Survey Report of Investigation, Vol. 44.Google Scholar
Clayton, Lee, Attig, J. W. Mickelson, D. M.andJohnson, M. D.(1992). “Glaciation of Wisconsin.” Wisconsin Geological and Natural History Survey Educational Series, Vol. 36.Google Scholar
Curry, B. B.andFollmer, L. R.(1992). The last interglacial-glacial transition in Illinois. In “The last interglacial transition in North America” (Clark, P. U.andLea, P. D.Eds.), pp. 7188. Special Paper 270, Geological Society of America.Google Scholar
Dredge, L. A.andCowan, W. R.(1989). Quaternary geology of the southwestern Canadian Shield. In “Quaternary geology of Canada and Greenland, Vol. K-1” (Fulton, R. J.Ed.), pp. 214249. Geological Society of Amer., Boulder, CO.Google Scholar
Dreimanis, , Aleksis, (1960). Pre-classical Wisconsin in the eastern portion of the Great Lakes region, North America. In “Report of the 21st International Geological Congress, pt. 4," pp. 108119. Copenhagen.Google Scholar
Dreimanis, , Aleksis, (1987). The Port Talbot interstadial site, southwestern Ontario. In “Geological Society of America Centennial Field Guide" Northeastern Section v. 5” (Roy, D. C.Ed.), pp. 345389. Geological Society of America, Boulder, CO.Google Scholar
Dreimanis, Aleksis, andKarrow, P. F.(1972). Glacial history of the Great Lakes"St. Lawrence region, the classification of the Wisconsin(an) Stage, and its correlatives. In “International Geological Congress Proceedings, Quaternary Geology, Sect. 12," pp. 515. Montreal.Google Scholar
Emiliani, C.(1955). Pleistocene paleotemperatures. Science 63, 538578.Google Scholar
Evenson, E. B. Farrand, W. R. Eschman, D. F. Mickelson, D. M.andMaher, L. J.(1976). Greatlakean Substage: A replacement for Valderan Substage in the Lake Michigan Basin. Quaternary Research 6, 411424.CrossRefGoogle Scholar
Flint, R. F.(1957). “Glacial and Pleistocene Geology.” Wiley, New York.Google Scholar
Flint, R. F.(1965). Introduction: historical perspectives. In “The Quaternary of the United States” (Wright, H. E. Jr.andFrey, D. G.Eds.), pp. 311. Princeton Univ. Press, Princeton, NJ.Google Scholar
Flint, R. F.(1971). “Glacial and Quaternary Geology.” Wiley, New York.Google Scholar
Follmer, L. R. McKay, E. D. Lineback, J. A.andGross, D. L.(1979). “Wisconsinan, Sangamonian, and Illinoian stratigraphy in central Illinois.” Illinois State Geological Survey Guidebook 13.Google Scholar
Forsyth, J. L.(1957). “Early" Wisconsin drift in Ohio. Geological Society of America Bulletin 68, 1728. [Abstract]Google Scholar
Frye, J. C.andLeonard, A. B.(1952). “Pleistocene Geology of Kansas.” Kansas Geological Survey Bulletin 99. Frye, J. C.andWillman, H. B.(1960). “Classification of the Wisconsinan Stage in the Lake Michigan Glacial Lobe.” Circular 285, Illinois Stage Geological Survey.Google Scholar
Frye, J. C, Willman, H. B. Rubin, Meyer.andBlack, R. F.(1968). “Definition of Wisconsinan Stage.” United States Geological Survey Bulletin 1274-E, pp. E16E17.Google Scholar
Fulton, R. J.(1989). Forward. In “Quaternary geology of Canada and Greenland” (Fulton, R. J.Ed.), Vol. K-1, pp. 111. Geological Society of America, Boulder, CO.Google Scholar
Fulton, R. J.andPrest, V. K.(1987). Introduction, The Laurentide Ice Sheet and its significance. G"ographie physique et Quaternaire 41, 181 186.CrossRefGoogle Scholar
Goldthwait, R. P.(1992). Historical overview of early Wisconsin glaciation. In “The last interglacial-glacial transition in North America” (Clark, P. U.andLea, P. D.Eds.), pp. 1318. Special Paper 270, Geological Society of America.Google Scholar
Goldthwait, R. P. Dreimanis, Aleksis, Forsyth, J. L. Karrow, P. F.andWhite, G. W.(1965). Pleistocene deposits of the Erie Lobe. In “The Quaternary of the United States” (Wright, H. E. Jr.andFrey, D. G.Eds.), pp. 8597. Princeton University Press, Princeton.Google Scholar
Gooding, A. M.(1963). Illinoian and Wisconsin glaciations in the Whitewater basin, southeastern Indiana and adjacent areas. Journal of Geology 71, 665682.Google Scholar
Hallberg, G. R.(1986). Pre-Wisconsin glacial stratigraphy of the Central Plains region in Iowa, Nebraska, Kansas, and Missouri. Quaternary Science Reviews 5, 1115.CrossRefGoogle Scholar
Hansel, A. K.andJohnson, W. H.(1992). Fluctuations of the Lake Michigan lobe during the late Wisconsin subepisode. In “Quaternary Stratigraphy, Glacial Morphology, and Environmental Changes” (Robertson, A Ringberg, B. Miller,, U.andBrunnberg, L.Eds.), pp. 133144. Sveriges Geologiska Undersokning Series Ca 81, Uppsala, Sweden.Google Scholar
Hansel, A. K.andJohnson, W. H.(1996). “Wedron and Mason Groups: Lithostratigraphic Reclassification of Deposits of the Wisconsin Episode.” Illinois State Geological Survey Bulletin 104.Google Scholar
Heckel, P. H.(1986). Sea-level curve for Pennsylvanian eustatic marine transgressive-regressive depositional cycles along midcontinent outcrop belt, North America. Geology 14, 330334.2.0.CO;2>CrossRefGoogle Scholar
Imbrie, J.et al.(1984). The orbital theory of Pleistocene climate: Support from a revised chronology of the marine d18 O record. In “Milankovitch and Climate, Part I” ( Berger, J. Imbrie, J. Hayes, G. Kukla, A.and Salzman, B.Eds.), pp. 269305. Reidel, Dordrecht.Google Scholar
Johnson, W. H.(1989). Quaternary glacial stratigraphic classifications: Chamberlin's legacy, their evolution, and the need for reform. Geological Society of America Abstracts with Programs 21(6), A123.Google Scholar
Johnson, W. H. Hansel, A. K. Follmer, L. R.andCurry, B. B.(1991). Late Quaternary temporal classification in Illinois: Geochronologic or diachronic? Geological Society of America Abstracts with Programs 23(3), 19.Google Scholar
Karrow, P. F.(1959). “Pleistocene Geology of the Hamilton Map-Area.” Geological Circular 8, Ontario Department of Mines.Google Scholar
Karrow, P. F.(1991). Ontario Quaternary events and time subdivision. Geological Society of America Abstracts with Programs 23(3), 20.Google Scholar
Karrow, P. F.andOcchietti, S.(1989). Quaternary geology of the St. Lawrence Lowlands. In “Quaternary Geology of Canada and Greenland, v. K-1” ( Fulton, R. J.Ed.), pp. 320389. Geological Society of America, Boulder, CO.Google Scholar
Kukla, G. Heller, F. Ming, Lie Xiu Chun, Xu Tong Sheng, Liu Tung.andSheng, An Zhi(1988). Pleistocene climates in China dated by magnetic susceptibility. Geology 16, 811814.2.3.CO;2>CrossRefGoogle Scholar
Larson, G. L. Winters, H. A.andRieck, R. L.(1991). The Late Quaternary record in Michigan. Geological Society of America Abstracts with Programs 23(3), 2324.Google Scholar
Larson, G. L. Lowell, T. V.andOstrom, N. E.(1994). Evidence for the Two Creeks interstade in the Lake Huron Basin. Canadian Journal of Earth Science 31, 793795.Google Scholar
Lee, H. A.(1960). Late glacial and post glacial Hudson Bay sea episode. Science 131, 16091611.Google Scholar
Leighton, M. M.(1960). The classification of the Wisconsin glacial stage of the north-central United States. Journal of Geology 68, 529552.CrossRefGoogle Scholar
Leighton, M. M.andWillman, H. B.(1950). Loess formations of the Mississippi Valley. Journal of Geology 58, 599623.Google Scholar
Leverett,, Frank (1898). The weathered zone (Sangamon) between the Iowan loess and Illinoian till sheet. Journal of Geology 6, 171181.Google Scholar
Leverett,, Frank Frank (1899). “The Illinois glacial lobe.” U.S. Geological Survey Monograph 38.Google Scholar
Logan, Sir, W. E. Muray, A. Hunt, T. S.andBillings, E.(1863). “Report of Progress from Its Commencement to 1863.” Geological Survey of Canada.Google Scholar
Lowell, T. V. Heusser, C. J. Andersen, B. G. Moreno, P. I. Hauser, A. Heusser, L. E. Schl"chter, C, Marchant, D. R.andDenton, G. H.(1995). Interhemispheric correlation of late Pleistocene glacial events. Science 269, 15411549.Google Scholar
Lowell, T. V. Miller, B. B.andSzabo, J. P.(1991). Chronologic constraints on late Quaternary events in Ohio. Geological Society of America Abstracts with Programs 23(3), 26.Google Scholar
Martinson, D. G. Piasas, N. G. Hayes, J. D. Imbrie, J. Moore, T. C, Jr.andShackleton, N. J.(1987). Age dating and the orbital theory of the ice ages: Development of a high resolution 0 to 300,000-year chronostrat-igraphy. Quaternary Research 27, 129.Google Scholar
Mickelson, D. M. Clayton, Lee, Baker, R. W. Mode, W. H.andSchneider, A. F.(1984). “Pleistocene stratigraphic units of Wisconsin.” Wisconsin Geological and Natural History Survey Miscellaneous Paper 841.Google Scholar
Moran, S. R.and11 others (1976). Quaternary stratigraphy and history of North Dakota, southern Manitoba, and northwestern Minnesota. In Quaternary Stratigraphy of North America ( Mahaney, W. C.Ed.), pp. 133158. Dowden, Hutchinson and Ross, Inc., Stroudsburg, PA.Google Scholar
Muller, E. H.andCalkin, P. E.(1993). Timing of Pleistocene glacial events in New York State. Canadian Journal of Earth Science 30, 18291845.Google Scholar
North American Commission on Stratigraphic Nomenclature (1983). North American Stratigraphic Code. American Association of Petroleum Geologists Bulletin 67, 41875.Google Scholar
Richmond, G. M.andFullerton, D. S.(1986). Introduction to Quaternary glaciations in the United States of America. Quaternary Science Reviews 5, 310.Google Scholar
Rose, J.andMenzies, J.(1996). Glacial stratigraphy. In “Past Glacial Environments: Sediments, Forms and Techniques” ( Menzies, J.Ed.), Glacial Environments, Vol. 2, pp. 239284. Butterworth-Heinemann, Oxford.Google Scholar
Schneider, A. F.(1956). Pleistocene geology of central Minnesota. In “Geological Society of America Minneapolis Meeting Guidebook for Field Trips, Part 3," pp. 2552.Google Scholar
Schneider, A. F.(1961). “Pleistocene Geology of the Randall Region, Central Minnesota.” Minnesota Geological Survey Bulletin 40.Google Scholar
Schneider, A. F.(1991). Viewpoints on the classification of the late Quaternary in Wisconsin. Geological Society of America Abstracts with Programs 23(3), 58.Google Scholar
Shackleton, N. J.andOpdyke, N. D.(1973). Oxygen isotopes and paleo-magnetic stratigraphy of equatorial Pacific core V28–238; Oxygen isotope temperatures and ice volumes on a 105 and 106 year scale. Quaternary Research 3, 3955.CrossRefGoogle Scholar
Shaffer, P. R.(1954). Farmdale drift. Science 119, 693694.Google Scholar
Shepps, V. C, White, G. W. Droste, J. B.andSitler, R. F.(1959). “Glacial Geology of Northwestern Pennsylvania.” Pennsylvania Geological Survey Bulletin G32.Google Scholar
Shilts, W. W.(1984). Quaternary events"Hudson Bay Lowland and southern District of Keewatin. In “Quaternary Stratigraphy of Canada"A Canadian contribution to IGCP Project 24" ( Fulton, R. J.Ed.), pp. 117126. Geological Survey of Canada Paper 84–10, Ottawa.Google Scholar
"ibrava, V. Bowen, D. Q.andRichmond, G. M.(Eds) (1986). Quaternary glaciations in the Northern Hemisphere. Quaternary Science Reviews 5, 1514.Google Scholar
Sloss, L. L.(1963). Sequences in the cratonic interior of North America. Geological Society of America Bulletin 74, 93114.Google Scholar
Watson, R. A.andWright, H. E. Jr.(1980). The end of the Pleistocene: A general critique of chronostratigraphic classification. Boreas 3, 153 163.Google Scholar
Wayne, W. J.(1963). “Pleistocene formations in Indiana.” Indiana Geological Survey Bulletin 25.Google Scholar
White, G. W.(1960). Classification of Wisconsin glacial deposits in northeastern Ohio. In “U.S. Geological Survey Bulletin 1121-A," pp. AlA12.Google Scholar
White, G. W.(1961). “Classification of glacial deposits in the Killbuck lobe, northeast-central Ohio.” U.S. Geological Survey Professional Paper 424 C, 7173.Google Scholar
White, G. W.(1973). History of investigations and classification of Wiscon-sinan drift in north-central United States. In “The Wisconsinan Stage” ( Black, R. F. Goldthwait,, R. P.and Willman, H. B.Eds.), pp. 334. Memoir 136, Geological Society of America.CrossRefGoogle Scholar
White, G. W.(1982). “Glacial Geology of Northeastern Ohio.” Ohio Geological Survey Bulletin 68.Google Scholar
White, G. W. Totten, S. M.andGross, D. L.(1969). “Pleistocene Stratigraphy of Northwestern Pennsylvania.” Pennsylvania Geological Survey General Geology Report G55.Google Scholar
Willman, H. B.andFrye, J. C.(1970). “Pleistocene Stratigraphy of Illinois.” Illinois State Geological Survey Bulletin 94.Google Scholar
Wright, H. E. Jr.(1964). The classification of the Wisconsin glacial stage. Journal of Geology 72, 628637.Google Scholar
Wright, H. E. Jr.(1972). Quaternary history of Minnesota. In “Geology of Minnesota: A Centennial Volume” ( Sims, P. K.and Morey, G. B.Eds.), pp. 515547. Minnesota Geological Survey.Google Scholar
Wright, H. E. Jr.andMatsch, C. L.andCushing, E. J.(1973). Superior and Des Moines Lobes. In “The Wisconsinan Stage” ( Black, R. F. Goldthwait, R. P.and Willman, H. B. Eds.), pp. 153185. Memoir 136, Geological Society of America.Google Scholar
Young, R. A.(1996). Middle Wisconsin glaciation, Genessee Valley, west-central NY. Geology Society of America Abstracts with Programs 28(3), 111.Google Scholar