Abstract
Steepland valleys subject to debris flows incise bedrock even as episodic deposition typically covers valley bottoms. This paper's hypothesis is that, while continual fluvial processes evacuate deposits, storage of episodic deposition drives valley widening and, thereby, creation of accommodation space for sediment storage on the valley floor. Data from three headwater valleys in the Oregon Coast Range show that valley‐to‐channel width ratios and valley bottom deposit depths are variable, have little systematic variation with respect to contributing area, and are similar on average among sites. A model of valley cross‐section evolution couples soil production, nonlinear diffusion, contrasting rates of channel incision into deposits and bedrock, and stochastic valley bottom deposition. The model reproduces observed flat, deposit‐covered valley bottoms and abrupt transitions to valley sides with oversteepened toe slopes. Simulations address sensitivity of valley morphologies and incision rates to dimensionless numbers, the ratio of instantaneous bedrock and deposit erosion rates (incision number), and the ratio of deposition and evacuation rates (deposition number). For steady state simulations, increasing deposition number by <101 leads to deposit depth and valley bottom width increasing by 101 and 101.5, respectively, and valley bottom incision relative to the instantaneous rate decreasing by 10−3. For incision number increasing by 103, valley capacity (width times toe slope height) relative to mean deposit volume increases by 101.5. Simulations, consistent with field data, imply that steady state valley widths are adjusted to episodic deposition rates and respond more quickly to changes than profile gradients because of contrasting limitations by instantaneous versus long‐term lowering rates.
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