Ice sheets and atmospheric circulation are tightly coupled, yet gaps remain in defining glacial anticyclonic wind patterns in both models and proxy data. Using high-resolution digital elevation models, we discovered 3000 relict iceberg scour marks on Late Pleistocene proglacial lake beds spanning 1000 km in the eastern Great Lakes, USA. We propose that iceberg scour marks spanning the last deglaciation (ca. 17−12 calibrated k.y. B.P.) act as paleowind proxies that record the anticyclonic wind system fronting the Laurentide Ice Sheet. Easterly winds steered iceberg drift, producing scour marks oriented WSW (258° ± 19°), the same general orientation as regional dune fields and longshore drift. Relict thermokarst lakes discovered in our study area are found to be impacted by the same wind system. Our discoveries provide the most extensive record of relict iceberg scour marks in the Great Lakes and offer evidence for sustained easterly winds driven by the Laurentide Ice Sheet glacial anticyclone fronting ∼5000 years of ice sheet recession.
Grasing et al. (Tue,) studied this question.