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Mississippi Valley Regional Source of Loess on the Southern Green Bay Lobe Land Surface, Wisconsin—Comment to the paper published by Jacobs et al., Quaternary Research 75 (3), 574–583, 2011

Published online by Cambridge University Press:  20 January 2017

Randall Schaetzl*
Affiliation:
Department of Geography, Michigan State University, East Lansing, MI 48824, USA
*
Fax: + 1 517 432 1671. Email Address:[email protected]

Abstract

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Type
Articles
Copyright
University of Washington

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References

Clayton, L. Pleistocene Geology of Waukesha County, Wisconsin. Wisc. Geol. Nat. Hist. Survey Bulletin 99, (1986). 33 pp Google Scholar
Clayton, L., and Attig, J.W. Glacial Lake Wisconsin. Geol. Soc. Am. Memoir 173, (1989). 80 pp Google Scholar
Hooyer, T.S. Evolution of glacial Lake Oshkosh and the Fox River lowland. Hooyer, T.S. Late-Glacial History of East-Central Wisconsin. Guide Book for the 53rd Midwest Friends of the Pleistocene Field Conference, Oshkosh, WI (2007). 116.Google Scholar
Jacobs, P.M., Mason, J.A., and Hanson, P.R. Mississippi Valley regional source of loess on the southern Green Bay Lobe land surface, Wisconsin. Quaternary Research 75, (2011). 574583.Google Scholar
Mason, J.A., Nater, E.A., and Hobbs, H.C. Transport direction of Wisconsinan loess in Southeastern Minnesota. Quaternary Research 41, (1994). 4451.Google Scholar
Mason, J.A., Nater, E.A., Zanner, C.W., and Bell, J.C. A new model of topographic effects on the distribution of loess. Geomorphology 28, (1999). 223236.CrossRefGoogle Scholar
Rawling, J.E. III, Hanson, P.R., Young, A.R., and Attig, J.W. Late Pleistocene dune construction in the central sand plain of Wisconsin, USA. Geomorphology 100, (2008). 494505.Google Scholar
Schaetzl, R.J., and Loope, W.L. Evidence for an eolian origin for the silt-enriched soil mantles on the glaciated uplands of eastern Upper Michigan, USA. Geomorphology 100, (2008). 285295.Google Scholar
Scull, P., and Schaetzl, R.J. Using PCA to characterize and differentiate the character of loess deposits in Wisconsin and Upper Michigan, USA. Geomorphology 127, (2011). 143155.Google Scholar
Stanley, K.E., and Schaetzl, R.J. Characteristics and paleoenvironmental significance of a thin, dual-sourced loess sheet, North-Central Wisconsin. Aeolian Research 2, (2011). 241251.CrossRefGoogle Scholar
Sweeney, M.R., Busacca, A.J., Gaylord, D.R., and Gaylord, A. Topographic and climatic influences on accelerated loess accumulation since the last glacial maximum in the Palouse, Pacific Northwest, USA. Quaternary Research 63, (2005). 261273.Google Scholar
Sweeney, M.R., Gaylord, D.R., and Busacca, A.J. Evolution of Eureka Flat: a dust-producing engine of the Palouse loess, USA. Quaternary International 162, (2007). 7696.Google Scholar