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Article Dans Une Revue Hydrological Processes Année : 2000

Channel instability as a control factor of silting dynamics and vegetation pattern within perifluvial aquatic zones.

H. Piegay
A. Citterio
  • Fonction : Auteur
E. Herouin
  • Fonction : Auteur
B. Moulin
  • Fonction : Auteur
C. Stratiotis
  • Fonction : Auteur

Résumé

Many authors have shown that the sedimentology of former channels and subsequent vegetation changes are controlled by temporal (flood events and successional processes) and spatial (e.g. distance to the main channel) factors. River channel instability can disrupt these associations. The Ain River, France, has undergone a fluvial metamorphosis during the past 100 years, its braided pattern being replaced by a sinuous single-thread pattern. As a consequence, former channels have different geometrical characteristics and sediment trap efficiencies. Former meandering channels experience more frequent backflows and are more rapidly silted than the older former braided channels. The recently abandoned channels are characterized by the development of large-sized vegetation species with a relatively slow colonization rate, whereas the older channels are colonized predominantly by flood-tolerant aquatic plants. The locally derived discharge of former channels (from groundwater or from their own basin) may reduce or prevent sediment entry during flood events and thus may decrease the sedimentation rate. In such cases, the oligotrophic component of the water from the hillslope aquifer is high and the former channel is usually nutrient-poor, characterized by oligotrophic species. The main river channel also has experienced local incision, aggradation and horizontal displacement during recent decades, so that the dynamics of the former channels strongly depend on the dynamics of the reach in which they are located. In degraded reaches, former channels are often dry, and helophyte species have been replaced by mesophytes. The frequency and magnitude of flow connection between the river channel and the former channel can increase or decrease owing to the movement of the active river channel within the fluvial corridor, inducing varying modifications of former channel vegetation patterns. River channel instability at various time-scales is a key-factor controlling process diversity and thus biodiversity in the fluvial corridor. It can modify the geometry of abandoned channels, groundwater fluxes, the amount, mobilization and deposition of sediment within the corridor, and consequently the vegetation community patterns. This increases the complexity of successional patterns, because an old former channel may be characterized by pioneer species whereas a younger one can become quickly filled and colonized by terrestrial species. Copyright (C) 2000 John Wiley & Sons, Ltd.
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Dates et versions

halsde-00152309 , version 1 (06-06-2007)

Identifiants

  • HAL Id : halsde-00152309 , version 1

Citer

H. Piegay, Gudrun Bornette, A. Citterio, E. Herouin, B. Moulin, et al.. Channel instability as a control factor of silting dynamics and vegetation pattern within perifluvial aquatic zones.. Hydrological Processes, 2000, 14, pp.3011-3029. ⟨halsde-00152309⟩
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