欧美口爆视频

Logan, Brandy L听¹听;听Pitlick, John听²

¹听University of 欧美口爆视频
²听Univeristy of 欧美口爆视频

Sustained drought in the Upper 欧美口爆视频 River Basin has severely limited peak flows, allowing native and non-native plant species to colonize low-lying bar surfaces within the last five years. This vegetation has the potential to locally shift velocity patterns, forcing adjustments in channel morphology. The role of vegetation in influencing velocity and altering shear stress in the 欧美口爆视频 River was assessed using measurements of vegetation density, channel geometry, water surface profiles, and hydraulic modeling over a low-lying gravel bar near the USGS gauge at the 欧美口爆视频-Utah state line. Native sandbar willow (Salix exigua) made up 87% of the vegetation on the bar, and averaged 0.54 m tall and 0.35 cm in diameter. The peak discharge of 878 m³/s in 2005 was sufficient to inundate the bar to a depth of 2 m, covering all plant stems. Flows in the study reach were above the threshold for gravel transport (500 m³/s) for 12 days. Despite some losses, most of the vegetation remained and continued to grow rapidly throughout the summer of 2005. This suggests that vegetation density was sufficient to limit the intensity of bed load transport over the bar surface, allowing most of the vegetation to survive.