Control of sediment dynamics by vegetation as a key function driving biogeomorphic succession within fluvial corridors |
| |
Authors: | Dov Corenblit Johannes Steiger Angela M. Gurnell Eric Tabacchi Lydie Roques |
| |
Affiliation: | 1. King's College London, Department of Geography, Strand London WC2R 2LS, UK;2. Clermont Université, GEOLAB – Laboratoire de géographie physique et environnementale, UMR 6042 CNRS/Université Blaise Pascal, Maison des Sciences de l'Homme, 4 rue Ledru, 63057 Clermont‐Ferrand Cedex 1, France;3. Université de Toulouse III, ECOLAB – Laboratoire d'écologie fonctionnelle, UMR 5245, CNRS/UPS/INPT, 29 rue Jeanne Marvig, 31055 Toulouse Cedex 04, France |
| |
Abstract: | Riparian vegetation responds to hydrogeomorphic disturbances and environmental changes and also controls these changes. Here, we propose that the control of sediment erosion and deposition by riparian vegetation is a key geomorphological and ecological (i.e. biogeomorphic) function within fluvial corridors. In a 3 year study, we investigated the correlations between riparian vegetation and hydrogeomorphic dynamics along a transverse gradient from the main channel to the floodplain of the River Tech, France. Sediment erosion and deposition rates varied significantly along the transverse gradient as a function of the vegetation biovolume intercepting water flow. These effects, combined with the extremely strong mechanical resistance of pioneer woody structures and strong resilience of pioneer labile herbaceous communities, Populus nigra and Salix spp., explain the propensity of biogeomorphic succession (i.e. the synergy between vegetation succession and landform construction) to progress between destructive floods. This geomorphological function newly identified as an ‘ecosystem function’ per se encompasses the coupling of habitat and landform creation, maintenance and change with fundamental ecosystem structural changes in space and in time. Three different biogeomorphic functions, all related to the concept of ecosystem engineering, were identified: (i) the function of pioneer herbaceous communities to retain fine sediment and diaspores in the exposed zones of the active tract near the water resource, facilitating recruitment of further herbaceous and Salicacea species; (ii) the function of woody vegetation to drive the construction of forested islands and floodplains; and (iii) the function of stabilised riparian forests to act as ‘diversity reservoirs’ which can support regeneration after destructive floods. Overall, this study based on empirical data points to the fundamental importance of sediment flow control by pioneer riparian vegetation in defining fluvial ecosystem and landform organisation in time and in space. Copyright © 2009 John Wiley & Sons, Ltd. |
| |
Keywords: | biogeomorphic function ecological function riparian vegetation ecosystem engineers seed bank fluvial landforms biogeomorphic succession sediment dynamics |
|
|