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Synchronization of late-glacial vegetation changes at Crystal Lake, Illinois, USA with the North Atlantic Event Stratigraphy

Published online by Cambridge University Press:  20 January 2017

Leila M. Gonzales*
Affiliation:
Department of Geography, University of Wisconsin-Madison, 550 North Park Street, Madison, WI 53706, USA
Eric C. Grimm
Affiliation:
Illinois State Museum, Research & Collections Center, 1011 East Ash Street, Springfield, IL 62703, USA
*
Corresponding author. Fax: +1 240 477 8086.

E-mail address:[email protected] (L.M. Gonzales).

Abstract

Late-glacial (17–11 cal ka BP) pollen records from midwestern North America show similar vegetation trends; however, poor dating resolution, wide-interval pollen counts, and variable sedimentation rates have prevented the direct correlation with the North Atlantic Event Stratigraphy as represented in the Greenland ice-core records, thus preventing the understanding of the teleconnections and mechanisms of late-Quaternary events in the Northern Hemisphere. The widespread occurrence of late-glacial vegetation and climates with no modern analogs also hinders late-glacial climate reconstructions. A high-resolution pollen record with a well-controlled age model from Crystal Lake in northeastern Illinois reveals vegetation and climate conditions during the late-glacial and early Holocene intervals. Late-glacial Crystal Lake pollen assemblages, dominated by Picea mariana and Fraxinus nigra with lesser amounts of Abies and Larix, suggest relatively wet climate despite fluctuations between colder and warmer temperatures. Vegetation changes at Crystal Lake are coeval with millennial-scale trends in the NGRIP ice-core record, but major shifts in vegetation at Crystal Lake lag the NGRIP record by 300–400 yr. This lag may be due to the proximity of the Laurentide ice sheet, the ice sheet's inherent slowness in response to rapid climate changes, and its effect on frontal boundary conditions and lake-effect temperatures.

Type
Research Article
Copyright
University of Washington. Published by Elsevier Inc.

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References

Anderson, R.C. Prairies in the prairie state. Transactions of the Illinois State Academy of Science 63, (1970). 214221.Google Scholar
Andersen, K.K., Svensson, A., Johnsen, S.J., Rasmussen, S.O., Bigler, M., Röthlisberger, R., Ruth, U., Siggard-Andersen, M-L., Steffensen, J.P., Dahl-Jensen, D., Vinther, B.M., and Clausen, H.B. The Greenland ice core chronology 2005, 15–42 ka. Part 1: Constructing the timescale. Quaternary Science Reviews 25, (2006). 32463257.CrossRefGoogle Scholar
Bartlein, P.J., and Prentice, I.C. Orbital variations, climate and paleoecology. Trends in Ecology and Evolution 4, (1989). 195199.CrossRefGoogle ScholarPubMed
Bartlein, P.J., Anderson, K.H., Anderson, P.M., Edwards, M.E., Mock, C.J., Thompson, R.S., Webb, R.S., Webb, T. III, and Whitlock, C. Paleoclimate simulations for North America over the past 21,000 years: features of the simulated climate and comparisons with paleoenvironmental data. Quaternary Science Reviews 17, (1998). 549585.CrossRefGoogle Scholar
Björck, S., Walker, M.J.C., Cwynar, L.C., Johnsen, S., Knudsen, K.-L., Lowe, J.J., Wohlfarth, B., and Members, I. An event stratigraphy for the last termination in the North Atlantic region based on the Greenland ice-core record: a proposal by the INTIMATE group. Journal of Quaternary Science 13, (1998). 283292.3.0.CO;2-A>CrossRefGoogle Scholar
Björck, J., Andrén, T., Wastegård, S., Possnert, G., and Schoning, K. An event stratigraphy for the last glacial-Holocene transition in eastern middle Sweden: results from investigations of varved clay and terrestrial sequences. Quaternary Science Reviews 21, (2002). 14891501.CrossRefGoogle Scholar
Bromwich, D.H., Toracinta, E.R., Wei, H., Oglesby, R.J., Fastook, J.L., and Hughes, T.J. LGM summer climate on the southern margin of the Laurentide Ice Sheet: wet or dry?. Journal of Climate 18, (2005). 33173338.CrossRefGoogle Scholar
Bryson, R.A., and Wendland, W.M. Tentative climatic patterns for some late-glacial and post-glacial episodes in central North America. Mayer-Oakes, W.J. Life, Land and Water: Proceedings of the 1966 Conference on Environmental Studies of the Glacial Lake Agassiz Region. (1967). University of Manitoba Press, Winnipeg. 271298.Google Scholar
Buck, C.E., Christen, J.A., James, G.N., (1999). BCal: an on-line Bayesian radiocarbon calibration tool. Internet Archaeology.CrossRefGoogle Scholar
Buell, M.F., and Martin, W.E. Competition between maple-basswood and fir-spruce communities in Itasca Park, Minnesota. Ecology 42, (1961). 428429.CrossRefGoogle Scholar
Changnon, S.A., Angel, J.R., Kunkel, K.E., Lehmann, C.M.B., (2004). Climate atlas of Illinois. Illinois State Water Survey, Champaign, Illinois.Google Scholar
Critchfield, W.B., Little, E.L. Jr., (1966). Geographic distribution of the pines of the world.: U.S. Department of Agriculture Miscellaneous Publication 991, p. 197.Google Scholar
Curry, B.B., (2005). Surficial geology of Crystal Lake quadrangle, McHenry and Kane Counties, Illinois. Illinois Geological Quadrangle Map, IGQ-Crystal Lake-SG. Illinois State Geological Survey, Champaign, Illinois, USA. Scale 1:24,000, 3 sheets.Google Scholar
Curry, B.B., and Yansa, C.H. Evidence for stagnation of the Harvard sublobe (Lake Michigan lobe) in northeastern Illinois, U.S.A., from 24 000 to 17 600 BP and subsequent tundra-like ice-marginal paleoenvironments from 17 600 to 15 700 BP. Géographie physique et Quaternaire 58, (2004). 305321.CrossRefGoogle Scholar
Curry, B. B., Grimm, E.C., Slate, J.E., Hansen, B.C.S., Konen, M.E., (2007). The late-glacial and early Holocene geology, paleoecology, and paleohydrology of the Brewster Creek site, a proposed wetland restoration site, Pratt's Wayne Woods Forest Preserve, and James “Pate” Philip State Park, Bartlett, Illinois. Circular 571, Illinois State Geological Survey, Champaign, IL, USA.Google Scholar
Cushing, E.J. Late-Wisconsin pollen stratigraphy in the glacial sequence in Minnesota. Cushing, EJ, Wright, HE Jr. Quaternary Paleoecology. (1967). Yale University Press, New Haven. 5988.Google Scholar
Dean, W.E. Jr Determination of carbonate and organic matter in calcareous sediments and sedimentary rocks by loss on ignition: comparison with other methods. Journal of Sedimentary Petroleum 44, (1974). 242248.Google Scholar
Drexler, C.W., Farrand, W.R., and Hughes, J.D., (1983). Correlation of glacial lakes in the Superior Basin with eastward discharge events from Lake Agassiz. Pages 309329. in Teller, J. T. and Clayton, L., editors. Glacial Lake Agassiz. Special Paper 26. Geological Association of Canada, .Google Scholar
Dyke, A.S., Moore, A., Robertson, L., (2003). Deglaciation of North America. Open File 1574 [CD-ROM], Geological Survey of Canada, .CrossRefGoogle Scholar
Farrand, W.R., and Drexler, C.W. Late Wisconsinan and Holocene history of the Lake Superior basin. Karrrow, P.F., and Calkin, P.E. Quaternary Evolution of the Great Lakes. Geological Association of Canada Special Paper 30. (1985). 1732.Google Scholar
Fægri, K., and Iverson, J. Textbook of Pollen Analysis. 4th Edition (1989). Hafner, New York. 1989 Google Scholar
Flora of North America Editorial Committee, (1993). +. Flora of North America north of Mexico. 14+ volumes, . Oxford University Press, New York, New York, USA.Google Scholar
Gavin, D.G., Oswald, W.W., Wahl, E.R., and Williams, J.W. A statistical approach to evaluating distance metrics and analog assignments for pollen records. Quaternary Research 60, (2003). 356367.CrossRefGoogle Scholar
Gleason, H.A., and Cronquist, A. Manual of Vascular Plants of Northeastern United States and Adjacent Canada. second edition (1991). New York Botanical Garden, Bronx, New York, USA, CrossRefGoogle Scholar
Grimm, E.C. CONISS: a FORTRAN 77 program for stratigraphically constrained cluster analysis by the method of incremental sum of squares. Computers & Geosciences 13, (1987). 1335.CrossRefGoogle Scholar
Grimm, E.C., and Jacobson, G.L. Late Quaternary vegetation history of the eastern United States. Gillespie, A.R., Porter, S.C., and Atwater, B.F. The Quaternary Period in the United States. (2004). Elservier, Boston. 381402.Google Scholar
Grimm, E.C., and Maher, L.J. AMS radiocarbon dating documents climate events in the upper Midwest coeval with the Bølling/Allerød and Younger Dryas episodes. Geological Society of America Abstracts with Programs 34, 6 (2002). 352 Google Scholar
Hansel, A.K., Mickelson, D.M., Schneider, A.F., Larsen, C.E., (1985). Late Wisconsinan and Holocene history of the Lake Michigan basin. Pages 3953. in Karrow, P. F. and Calkin, P. E., editors. Quaternary evolution of the Great Lakes. Geological Association of Canada Special Paper 30, St. John's, Newfoundland, Canada.Google Scholar
Hansen, B.C.S, and Engstrom, D.R. A comparison of numerical and qualitative methods of separating pollen of black and white spruce. Canadian Journal of Botany 63, (1985). 21592163.CrossRefGoogle Scholar
Hostetler, S.W., Bartlein, P.J., Clark, P.U., Small, E.E., and Solomon, A.M. Simulated influences of Lake Agassiz on the climate of central North America 11,000 years ago. Nature 405, (2000). 334338.CrossRefGoogle Scholar
Jackson, S.T., and Williams, J.W. Modern analogs in Quaternary paleoecology: here today, gone yesterday, gone tomorrow. Annual Review of Earth and Planetary Sciences 32, (2004). 495537.CrossRefGoogle Scholar
Jacobson, G.L., Webb, T., and Grimm, E.C. Patterns and rates of vegetation change during the deglaciation of eastern North America. Wright, H.E. North America and Adjacent Oceans during the Last Deglaciation. (1987). The Geology of North America. Geological Society of America, Boulder, 277288.Google Scholar
Janssen, C.R. Recent pollen spectra from the deciduous and coniferous-deciduous forests of northeastern Minnesota: a study in pollen dispersal. Ecology 47, (1966). 804825.CrossRefGoogle Scholar
King, J.E. Late Quaternary vegetation history of Illinois. Ecological Monographs 51, (1981). 4362.CrossRefGoogle Scholar
Larson, G., and Schaetzl, R. Origin and evolution of the Great Lakes. Journal of Great Lakes Research 27, (2001). 518546.CrossRefGoogle Scholar
Laws, R.M. Elephants as agents of habitat and landscape change in East Africa. Oikos 21, (1970). 115.CrossRefGoogle Scholar
Levesque, A.J., Cwynar, L.C., and Walker, I.R. Exceptionally steep north–south gradients in lake temperatures during the last deglaciation. Nature 385, (1997). 423426.CrossRefGoogle Scholar
Lindbladh, M., O'Connor, R., and Jacobson, G.L. Morphometric analysis of pollen grains for paleoecological studies: classification of Picea from eastern North America. American Journal of Botany 89, (2002). 14591467.CrossRefGoogle ScholarPubMed
Little, E.L. Jr., (1971). Atlas of United States trees. Volume 1, Conifers and important hardwoods: U.S. Department of Agriculture Miscellaneous Publication 1146, 9 p., 200 maps.Google Scholar
Little, E.L. Jr., (1976). Atlas of United States trees. Volume 3, Minor Western Hardwoods: U.S. Department of Agriculture Miscellaneous Publication 1314, 13 p., 290 maps.Google Scholar
Little, E.L. Jr., (1977). Atlas of United States trees. Volume 4, Minor Eastern Hardwoods: U.S. Department of Agriculture Miscellaneous Publication 1342, 17 p., 230 maps.Google Scholar
Little, E.L. Jr., (1978). Atlas of United States trees. Volume 5, Florida: U.S. Department of Agriculture Miscellaneous Publication 1361, 262 maps.Google Scholar
Logan, J.A., Régnière, J., and Powell, J.A. Assessing the impacts of global warming on forest pest dynamics. Frontiers in Ecology and the Environment 1, (2003). 130137.CrossRefGoogle Scholar
Lowe, J.J., Rasmussen, S.O., Björck, S., Hoek, W.Z., Steffensen, J.P., Walker, M.J.C., Yu, Z.C. the INTIMATE group Synchronisation of palaeoenvironmental events in the North Atlantic region during the Last Termination: a revised protocol recommended by the INTIMATE group. Quaternary Science Reviews 27, (2008). 617.CrossRefGoogle Scholar
Lowell, T.V., Larson, G.J., Hughes, J.D., and Denton, G.H. Age verification of the Lake Gribben forest bed and the Younger Dryas advance of the Laurentide Ice Sheet. Canadian Journal of Earth Sciences 36, (1999). 383393.CrossRefGoogle Scholar
MacDonald, G.M., Beukens, R.P., and Kieser, W.E. Radiocarbon dating of limnic sediments: a comparative analysis and discussion. Ecology 72, (1991). 11501155.CrossRefGoogle Scholar
McNaughton, S.J., Ruess, R.W., and Seagle, S.W. Large mammals and process dynamics in African ecosystems. Bioscience 38, (1988). 794800.CrossRefGoogle Scholar
Nienstaedt, H., and Zasada, J.C., (1990). Picea glauca (Moench) Voss white spruce. Pages 204226. in Burns, R. M. and Honkala, B. H., editors. Silvics of North America. Volume 1, . Conifers. U.S. Department of Agriculture, Forest Service, Agriculture Handbook 654, Washington, D.C..Google Scholar
Overpeck, J.T., Webb, T., and Prentice, I.C. Quantitative interpretation of fossil pollen spectra: dissimilarity coefficients and the method of modern analogs. Quaternary Research 23, (1985). 87108.CrossRefGoogle Scholar
Owen-Smith, R.N. Megaherbivores: The Influence of Very Large Body Size on Ecology. (1988). Cambridge University Press, Cambridge, United Kingdom.CrossRefGoogle Scholar
Pan, Y., and Brugam, R. Human disturbance and trophic status changes in Crystal Lake, McHenry County, Illinois, USA. Journal of Paleolimnology 17, (1997). 369376.CrossRefGoogle Scholar
Pasenko, M.R., and Schubert, B.W. Mammuthus jeffersonii (Proboscidea, Mammalia) from northern Illinois. PaleoBios 24, 3 (2004). 1924.Google Scholar
Penalba, M.C., and Payette, S. Late-Holocene expansion of eastern larch (Larix laricina [Du Roi] K. Koch) in northwestern Quebec. Quaternary Research 48, (1997). 114121.CrossRefGoogle Scholar
Prentice, I.C., Bartlein, P.J., Webb, T. III Vegetation and climate change in eastern North America since the last glacial maximum. Ecology 72, (1991). 20382056.CrossRefGoogle Scholar
Rasmussen, S.O., Andersen, K.K., Svensson, A.M., Steffensen, J.P., Vinther, B.M., Clausen, H.B., Siggard-Andersen, M-L., Johnsen, S.J., Larsen, L.B., Dahl-Jensen, D., Bigler, M., Röthlisberger, R., Fischer, H., Goto-Azuma, K., Hansson, M.E., and Ruth, U. A new Greenland ice core chronology for the last glacial termination. Journal of Geophysical Research 111, (2006). D06102 http://dx.doi.org/10.1029/2005JD006079CrossRefGoogle Scholar
Reimer, P.J., Baillie, M.G., Bard, E., Bayliss, A., and Beck, J.W. IntCal04 terrestrial radiocarbon age calibration, 0–26 cal kyr BP. Radiocarbon 46, (2004). 10291058.Google Scholar
Ritchie, J.C. Postglacial Vegetation of Canada. (1987). Cambridge University Press, Cambridge.Google Scholar
Sasman, R.T., (1957). The water level problem at Crystal Lake, McHenry County. Illinois State Water Survey, Champaign, IL., ISWS RI-32.Google Scholar
Saunders, J.J., Campbell, G., McCullum, J., and Treworgy, J. “A new land of the eye”: paradigms and proboscideans in the southern Great Lakes region, USA. Journal of Vertebrate Paleontology 27, 3 Supplement (2007). 140A141A.Google Scholar
Schweger, C.E. Pollen analysis of iola bog and paleoecology of the Two Creeks forest bed, Wisconsin. Ecology 50, (1969). 859868.CrossRefGoogle Scholar
Shane, L., and Anderson, K. Intensity, gradients and reversals in late-glacial environmental change in east-central North America. Quaternary Science Reviews 12, (1993). 307320.CrossRefGoogle Scholar
Southon, J.R. A first step to reconciling the GRIP and GISP2 ice-core chronologies, 0–14,500 yr B.P. Quaternary Research 57, (2002). 3237.CrossRefGoogle Scholar
Stuiver, M., and Reimer, P. Extended 14C data base and revised CALIB 3.0 14C Age calibration program. Radiocarbon 35, (1993). 215230.CrossRefGoogle Scholar
Viereck, L.A., Johnston, W.F., (1990). Picea mariana (Mill.) B.S.P black spruce. Pages 227237. in Burns, R. M. and Honkala, B. H., editors. Silvics of North America. Volume 1, . Conifers. U.S. Department of Agriculture, Forest Service, Agriculture Handbook 654, Washington, D.C..Google Scholar
Webb, T. III, Cushing, E.J., Wright, H.E. Jr Holocene changes in the vegetation of the Midwest. Pages 142–165. Wright, H.E. Jr. The Holocene. Late-Quaternary environments of the United States 2. (1983). University of Minnesota Press, Minneapolis, USA.Google Scholar
Webb, T. III, Bartlein, P.J., Harrison, S.P., Anderson, K.H., (1993). Vegetation, lake levels, and climate in eastern North America for the past 18,000 years. Pages 415467. in Wright, H. E. Jr., Kutzbach, J. E., Webb, T. III, Ruddiman, W. F., Street-Perrott, F. A., and Bartlein, P. J., editors. Global climates since the last glacial maximum. University of Minnesota, .Google Scholar
Western, D., and Maitumo, D. Woodland loss and restoration in a savanna park: a 20-yr experiment. African Journal of Ecology 42, (2004). 111121.CrossRefGoogle Scholar
Whitmore, J., Gajewski, K., Sawada, M., Williams, J.W., Shuman, B., Bartlein, P.J., Minckley, T., Viau, A.E., Webb,, T., Anderson, P.M., and Brubaker, L.B. North American and Greenland modern pollen data for multi-scale paleoecological and paleoclimatic applications. Quaternary Science Reviews 24, (2005). 18281848.CrossRefGoogle Scholar
Williams, J., Shuman, B., and Webb, T. Dissimilarity analyses of late Pleistocene and Holocene vegetation and climate in eastern North America. Ecology 82, (2001). 33463362.Google Scholar
Williams, J. W., Shuman, B., Bartlein, P.J., Whitmore, J., Gajewski, K., Sawada, M., Minckley, T., Shafer, S., Viau, A.E., Webb, T. III, Anderson, P., Brubaker, L., Whitlock, C., Davis, O.K., (2006). An atlas of pollen–vegetation–climate relationships for the United States and Canada. Contribution Series 43. American Association of Stratigraphic Palynologists, Dallas, Texas, USA.Google Scholar
Wright, H.E. Aspects of the early postglacial forest succession in the Great Lakes region. Ecology 45, (1964). 439448.CrossRefGoogle Scholar
Wright, J. W., Rauscher, H.M., (1990). Fraxinus nigra Marsh. black ash. Pages 344347. in Burns, R. M. and Honkala, B. H., editors. Silvics of North America. Volume 2, . Hardwoods Agriculture Handbook 654. U. S. Depertment of Agriculture, Forest Service, Washington, D.C..Google Scholar
Wright, H.E., Mann, D.H., and Glaser, P.H. Piston corers for peat and lake sediments. Ecology 65, (1984). 657659.CrossRefGoogle Scholar
Yansa, C.H. The timing and nature of late Quaternary vegetation changes in the northern Great Plains, USA and Canada: a re-assessment of the spruce phase. Quaternary Science Reviews 25, (2006). 263281.CrossRefGoogle Scholar
Yu, Z. Ecosystem response to late-glacial and early Holocene climate oscillations in the Great Lakes region of North America. Quaternary Science Reviews 19, (2000). 17231747.CrossRefGoogle Scholar
Yu, Z., and Wright, H.E. Response of interior North America to abrupt climate oscillations in the North Atlantic region during the last deglaciation. Earth-Science Reviews 52, (2001). 333369.CrossRefGoogle Scholar