In-channel woody vegetation control on flow and sedimentary processes: the example of an anabranch of the River Loire (France)
Résumé
A multidisciplinary approach was used to analyse the role of pioneer trees
(
Populus nigra
) on bar formation in the modern fluvial system of the River
Loire (France). Data were collected on seven plots located on a secondary
channel, chosen for their vegetation cover and their sedimentary context.
Physical features of vegetation, topographical evolution, sediment grain size
and flow velocity were investigated during and after floods between 2001 and
2003. Woody vegetation responds morphologically to fast-flowing waters and
sediment deposition. These adaptations influence the role played by trees on
local sedimentary processes. Some morphological types of trees exert a strong
influence during flood events by deflecting, reducing or increasing the flow
energy. As a consequence, the evolution of bedforms, distribution of sediment
grain size and slopes are controlled by the flood type, the morphological
context (i.e. high- or low-energy zones), the morphology of the vegetated bar
and the characteristics of vegetation. Conceptual models are proposed to
account for local processes and evolution of tree groves. The first model, which
describes the behaviour of groves during a single flood, underlines the
sediment deposition downstream of the trees and the trapping of bedload
sediments. During the falling stage of the flood, the reorientation of current
streams, constrained by both local bed topography and woody vegetation,
induces transverse sediment fluxes. For these water levels, the control exerted
by trees on small-scale sedimentary processes becomes significant. The second
model shows the evolution of vegetation bands over several flood events. In
particular, it describes the influence of vegetation on the fixing and reworking
of bedload sediments during the falling limb of the hydrograph. The
coalescence of vegetation-induced bedforms and the resulting morphological
changes increase the deflection power of the vegetated bar, inducing the
deposition of finer sediments.