Joel B. Sankey 2019 <p>&nbsp;Glen Canyon Dam has reduced downstream sediment supply to the Colorado River by about&nbsp;95% in the reach upstream of the Little Colorado River confluence and by about 85% below the&nbsp;confluence (Topping and others, 2000). Operation of the dam for hydropower generation has&nbsp;additionally altered the flow regime of the river in Grand Canyon, largely eliminating pre-dam&nbsp;low flows (i.e., below 8,000 ft3/s) that historically exposed large areas of bare sand (U.S.&nbsp;Department of the Interior, 2016a; Kasprak and others, 2018). At the same time, the&nbsp;combination of elevated low flows coupled with the elimination of large, regularly-occurring&nbsp;spring floods in excess of 70,000 ft3/s has led to widespread riparian vegetation encroachment&nbsp;along the river, further reducing the extent of bare sand (U.S. Department of the Interior,&nbsp;2016a, Sankey and others, 2015). Kasprak and others (2018) report that the areal coverage of&nbsp;bare sand has decreased by 45% since 1963 due to vegetation expansion and inundation by&nbsp;river flows. Kasprak and others (2018) forecast that the areal coverage of bare sand in the river&nbsp;corridor will decrease by an additional 12% by 2036, due to further vegetation encroachment&nbsp;and erosion.&nbsp;</p> application/pdf en US Bureau of Reclamation Glen Canyon Dam Adaptive Management Program High elevation sand/cultural Sites: The response of source-bordering aeolian dunefields to the 2012-2016 high flow experiments of the Colorado River in Grand Canyon (Extended Abstract) text