Late-Quaternary Landscape Response to Environmental Change in South-Central Kansas Alan F. Arbogast* and William C. Johnson** *Department of Geography, Michigan State University **Department of Geography, University of Kansas The central Great Plains is an excellent place to study late-Quaternary geomorphic responses to climatic fluctuations because the landscape is easily disturbed and deposits contain abundant paleoenvironmental information. Although much research has already been conducted, studies are needed that correlate a variety of geomorphic responses to environmental change at specific sites. This paper presents a paleoenvironmental and geomorphic reconstruction for the Great Bend Sand Prairie, a mosaic of sand sheets and dune fields in south-central Kansas. Results indicate that two stratigraphic units dominate the upland geology. Late-Wisconsin deposits consist of poorly sorted sand, silt, and clay thatprobably accumulated in a low-energy fluvial environment. Eolian deposition of loess also occurred, but most silt was integrated with the alluvium. Intact deposits of loess are widely scattered. All sediments contain well developed soils, indicating extended surface stability. Macrofossil and isotopic (δ 13 C) evidence suggest a mesic environment. Where eolian sedimentation did occur, northwest winds were responsible for mobilization. Although late-Wisconsin strata crop out intermittently, eolian sand is the common surficial deposit. Radiocarbon dating indicates that most dunes are Holocene landforms. In comparison to late-Wisconsin deposits, dune sands are well sorted, δ 13 C values infer a relatively warm climate, and the orientation of parabolic dunes indicate mobilizing southwesterly winds. Dunes usually contain one or two weakly developed buried soils, indicating episodic mobilization of eolian sand in the latest Holocene. Surface soils are generally poorly developed, suggesting that dunes can easily be mobilized if vegetation is reduced, perhaps due to C02 warming. Key Words: alluvium, central Great Plains, eolian sand, Holocene, late-Wisconsin. A region of North America receiving in- creased attention from geomorphologists is the central Great Plains (Figure 1). Given the semiarid to subhumid climate, the landscape is sensitive to disturbance, which can be rapid and dramatic (e.g., Dust Bowl, 1993 Flood). Thus the central Great Plains is an excel- lent laboratory for the observation and measure- ment of geomorphic responses to climatic fluctuations. In alluvial settings, for example, cy- cles of cutting and filling have been linked to climate change, with a variety of terraces being preserved in most stream valleys (e.g., Hall 1990; Johnson and Martin 1987; May 1992; Arbogast and Johnson 1994). When more arid conditions transpire, eolian processes dominate, with wide- spread mobilization of loess (e.g., Frye and Leonard 1951; Johnson et al. 1990, 1993; Feng et al. 1994) and eolian sand (e.g., Ahlbrandt et al. 1983; Muhs 1985; Holliday 1995a, 1995b; Madole 1995; Arbogast 1996a) being well docu- mented. Landscapes consisting of unconsolidated sand are especially sensitive, with local reworking of dunes frequently occurring (e.g., Ahlbrandt et al. 1983; Madole 1995; Arbogast 1996a). Given that relief over most of the central Great Plains is relatively low, and equilibrium can re- turn quickly, much of the mobilized sediment is redistributed within the region. This is highly significant because thick deposits of loess (e.g., Frye and Leonard 1951; Johnson et al. 1990, 1993; Feng et al. 1994), alluvium (e.g., Schultz and Stout 1948; Hall 1990; Johnson and Logan 1990; May 1992; Arbogast and Johnson 1994) and other valley fill (Holliday 1995c), and eolian sand (e.g., Ahlbrandt et al. 1983; Muhs 1985; Muhs et al., 1996; Holliday 1995a, 1995b; Madole 1995) mantle much of the area. Most important, these deposits chronologically span significant portions of the Quaternary period Annals of the Association of American Geographers, 88(1), 1998, pp. 126–145 ©1998 by Association of American Geographers Published by Blackwell Publishers, 350 Main Street, Malden, MA 02148, and 108 Cowley Road, Oxford, OX4 1JF, UK.