Thursday, August 9, 2007 - 2:30 PMOOS 44-4: Geomorphic responses to dam removal: New insights from flume and field experiments
Gordon Grant, US Department of Agriculture Forest Service, Greg Stewart, Northwest Indian Fisheries Commission, Chris Bromley, University of Nottingham, and Sarah Lewis, Oregon State University.
Faced with an aging national infrastructure of thousands of dams and reservoirs, dam removal is emerging as an option for restoring some semblance of natural fluxes of water, sediment, and organisms to rivers. Predicting geomorphic and ecologic response to dam removal is both an exciting research topic and important management and policy question. Until quite recently, however, scientific studies addressing the consequences of dam removal were rare. New field and flume studies are providing the foundation for an analytical framework that predicts the geomorphic response of rivers to dam removal. A critical component of this framework is the distinction between reservoirs that are partially as opposed to fully filled with sediment. For completely filled reservoirs, dam removal initiates a cascade of geomorphic processes including knickpoint retreat, incision, and lateral migration within the former reservoir, leading to a rapid release of a sediment pulse downstream. Downstream migration of this pulse promotes other geomorphic adjustments, including pool filling and bar and bed sedimentation and fining. Longevity of these changes is scaled to both the volume of sediment released and post-removal sequence of flows. For reservoirs only partially filled with sediment at the time of removal, a very different suite of geomorphic processes occur in the upstream reservoir: delta incision and downstream progradation of accumulated sediment. Grain sorting of the migrating sediment front, stranding and isolation of residual sediment as terraces, and armoring of the newly exposed channel bed, make prediction of sediment efflux from the former reservoir difficult. This efflux is further influenced by both the dam removal scenario employed (i.e., instantaneous versus staged removal) and flow sequence. A different downstream response is predicted than in the case of filled reservoirs, notably an initially fine sediment pulse followed by supply of progressively coarser bedload as the delta migrates downstream.