James R. Budahn Daniel R. Muhs 2019 <p><span>The&nbsp;Nebraska&nbsp;Sand&nbsp;Hills region is the largest&nbsp;dune field&nbsp;in&nbsp;North America&nbsp;and has diverse aeolian&nbsp;landforms. It has been active during both the&nbsp;late Pleistocene&nbsp;and late&nbsp;Holocene. Despite decades of study, the source of&nbsp;sediment&nbsp;for this large sand sea is still controversial. Here we report new&nbsp;trace element&nbsp;compositions of aeolian sand that are compared to four hypothesized sediment sources,&nbsp;Tertiary&nbsp;rocks of the Arikaree Group and Ogallala Group, unconsolidated sands of&nbsp;Pliocene&nbsp;age, and Platte&nbsp;River system&nbsp;sands. All four potential sources have a&nbsp;mineralogy&nbsp;that is similar to the Nebraska Sand Hills. K/Rb, K/Ba, Sc-Th-La, Eu/Eu*, La</span>_N<span>/Yb</span>_N<span>, As/Sb, and Fe/Sc values show, however, that Pliocene sediments and sands from the Platte River system are not likely sources. The Arikaree Group could be a minor contributor, but sands from the Ogallala Group appear to have the best compositional fit to the Nebraska Sand Hills. Although past studies have proposed the Ogallala Group as an important sand source, the&nbsp;hypothesis&nbsp;has been questioned, because the unit is well cemented by&nbsp;calcrete&nbsp;in its upper part. However, examination of the landscape upwind of the Nebraska Sand Hills shows that the Ogallala Group, where it occurs at the&nbsp;land surface, is highly dissected in much of this region, which makes sand-sized particles available for aeolian entrainment whenever&nbsp;drought conditions&nbsp;diminish a protective&nbsp;vegetation cover.</span></p> application/pdf 10.1016/j.geomorph.2019.02.023 en Elsevier New geochemical evidence for the origin of North America's largest dune field, the Nebraska Sand Hills, central Great Plains, USA article