Revisiting the Distribution and Geomorphology of Sand Stringers Beyond the Ice Margin

“…Based on the distribution of sand dunes and loess, Schaetzl et al (2018) concluded that strong westnorthwesterly winds were a common occurrence in the Chippewa Valley in the immediate postglacial period. OSL ages on several of the hundreds of parabolic dunes, sand sheets, sand ramps, and sand stringers in the Chippewa Valley roughly bracket the OSL date from the Henning site, indicating that aeolian activity was ongoing between c. 13 and 9 ka (Schaetzl et al 2014(Schaetzl et al , 2018Millett et al 2018;Mataitis et al 2019;Millett 2019). Recall that the OSL ages of these sandy aeolian landforms represent the waning phase and stabilization of sand transport, as climate warmed and vegetation cover and soil moisture increased across the Chippewa Valley.…”

“…2018; Mataitis et al . 2019; Millett 2019). Recall that the OSL ages of these sandy aeolian landforms represent the waning phase and stabilization of sand transport, as climate warmed and vegetation cover and soil moisture increased across the Chippewa Valley.…”

“…Recent work on extensive sandy aeolian deposits, e.g. sand stringers, parabolic dunes, sand ramps, climbing dunes and sand sheets, throughout the Chippewa Valley and neighbouring landscapes corroborates this interpretation (Millett et al 2018;Mataitis et al 2019;Shandonay et al 2020). In the lee of these large ridges, loess deposits are protected from erosion, and/ or loess from sites farther west has been secondarily deposited on top of them (Schaetzl et al 2014).…”

“…A variety of aeolian sediments mantle much of the study area. Loess data from sites in southeastern Minnesota support the notion of westerly and northwesterly winds for the primary period of loess deposition in the region, between c. 26 and 20 ka (Mason et al, 1994a,b;Zanner 1999;Mataitis et al 2019). Loess, derived from these western sources, including the Mississippi River Valley, still covers many of the broad, stable uplands here (Hole 1950;Scull & Schaetzl 2011), but is usually absent from many areas in the central Chippewa Valley, where it appears to have been transported out of the valley by west-northwesterly winds (Schaetzl et al 2018).…”

“…2018; Mataitis et al . 2019). Because the Driftless Area was at times almost surrounded by ice, cold conditions during the last glaciation (Late Wisconsin, Marine Isotope Stage, MIS 2) must have been persistent here, hence its nickname ‘Up in the refrigerator’ (Mason 2015).…”

Luminescence dating of sand wedges constrains the Late Wisconsin (MIS 2) permafrost interval in the upper Midwest, USA

“…Based on the distribution of sand dunes and loess, Schaetzl et al (2018) concluded that strong westnorthwesterly winds were a common occurrence in the Chippewa Valley in the immediate postglacial period. OSL ages on several of the hundreds of parabolic dunes, sand sheets, sand ramps, and sand stringers in the Chippewa Valley roughly bracket the OSL date from the Henning site, indicating that aeolian activity was ongoing between c. 13 and 9 ka (Schaetzl et al 2014(Schaetzl et al , 2018Millett et al 2018;Mataitis et al 2019;Millett 2019). Recall that the OSL ages of these sandy aeolian landforms represent the waning phase and stabilization of sand transport, as climate warmed and vegetation cover and soil moisture increased across the Chippewa Valley.…”

“…2018; Mataitis et al . 2019; Millett 2019). Recall that the OSL ages of these sandy aeolian landforms represent the waning phase and stabilization of sand transport, as climate warmed and vegetation cover and soil moisture increased across the Chippewa Valley.…”

“…Recent work on extensive sandy aeolian deposits, e.g. sand stringers, parabolic dunes, sand ramps, climbing dunes and sand sheets, throughout the Chippewa Valley and neighbouring landscapes corroborates this interpretation (Millett et al 2018;Mataitis et al 2019;Shandonay et al 2020). In the lee of these large ridges, loess deposits are protected from erosion, and/ or loess from sites farther west has been secondarily deposited on top of them (Schaetzl et al 2014).…”

“…A variety of aeolian sediments mantle much of the study area. Loess data from sites in southeastern Minnesota support the notion of westerly and northwesterly winds for the primary period of loess deposition in the region, between c. 26 and 20 ka (Mason et al, 1994a,b;Zanner 1999;Mataitis et al 2019). Loess, derived from these western sources, including the Mississippi River Valley, still covers many of the broad, stable uplands here (Hole 1950;Scull & Schaetzl 2011), but is usually absent from many areas in the central Chippewa Valley, where it appears to have been transported out of the valley by west-northwesterly winds (Schaetzl et al 2018).…”

“…2018; Mataitis et al . 2019). Because the Driftless Area was at times almost surrounded by ice, cold conditions during the last glaciation (Late Wisconsin, Marine Isotope Stage, MIS 2) must have been persistent here, hence its nickname ‘Up in the refrigerator’ (Mason 2015).…”

Luminescence dating of sand wedges constrains the Late Wisconsin (MIS 2) permafrost interval in the upper Midwest, USA