An investigation into remote sensing techniques and field observations
for modeling of dynamic hydraulic roughness from riparian vegetation
Abstract
Riparian vegetation provides many noteworthy functions in river and
floodplain systems including its influence on hydrodynamic processes.
Traditional methods for predicting hydrodynamic characteristics in the
presence of vegetation involve the application of static roughness (
ns) values, which neglect changes in roughness
due to local flow characteristics. The objectives of this study were to:
(1) implement numerical routines for simulating dynamic hydraulic
roughness ( nd) in a two-dimensional (2D)
hydrodynamic model; (2) evaluate the performance of two dynamic
roughness approaches; and (3) compare vegetation parameters and
hydrodynamic model results based on field-based and remote sensing
acquisition methods. A coupled vegetation-hydraulic solver was developed
for a 2D hydraulics model using two dynamic approaches, which required
vegetation parameters to calculate spatially distributed, dynamic
roughness coefficients. Vegetation parameters were determined by field
survey and using airborne LiDAR data. Water surface elevations modeled
using conventional and the proposed dynamic approaches produced similar
profiles. The method demonstrates the suitability in modeling the system
where there is no calibration data. Substantial spatial variations in
both n and hydraulic parameters were observed when comparing the
static and dynamic approaches. Thus, the method proposed here is
beneficial for describing the hydraulic conditions for the area having
huge variation of vegetation. The proposed methods have the potential to
improve our ability to simulate the spatial and temporal heterogeneity
of vegetated floodplain surfaces with an approach that is more
physically-based and reproducible than conventional “look up”
approaches. However, additional research is needed to quantify model
performance with respect to spatially distributed flow properties and
parameterization of vegetation characteristics.