A data-based mechanistic modelling (DBM) approach to understanding dynamic sediment transmission through Wyresdale Park Reservoir, Lancashire, UK

This paper outlines the application of a new data-based mechanistic (DBM) modelling methodology to the characterization of the sediment transmission dynamics in a small upland reservoir, Wyresdale Park, Lancashire. The DBM modelling strategy exploits advanced statistical procedures to infer the dynamic model structure and its associated parameters directly from the instrumented data, producing a parametrically ecient, continuous time, transfer function model which relates suspended sediment load at the reservoir in¯ow to the out¯ow at the event scale. The associated dierential equation model parameters have physical attributes which can be interpreted in terms of sediment transmission processes and associated reservoir trap eciency. Sedigraph analysis suggests that wind-induced resuspension episodically supplies an additional load to the reservoir outlet. The stochastic nature of the DBM model makes it ideal for evaluating the eects of uncertainty through Monte Carlo simulations (MCS) for discharge and sediment transmission.