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12 - Surface water/groundwater/forest alluvial ecosystems: functioning of interfaces. The case of the Rhine floodplain in Alsace (France)
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- By M. Trémolières, Laboratoire de Botanique et Ecologie végétate, CEREG URA 95 CNRS, Institut de Botanique, 28 rue Goethe, F – 67083 Strasbourg cedex, France, R. Carbiener, Laboratoire de Botanique et Ecologie végétate, CEREG URA 95 CNRS, Institut de Botanique, 28 rue Goethe, F – 67083 Strasbourg cedex, France, I. Eglin, Laboratoire de Botanique et Ecologie végétate, CEREG URA 95 CNRS, Institut de Botanique, 28 rue Goethe, F – 67083 Strasbourg cedex, France, F. Robach, Laboratoire de Botanique et Ecologie végétate, CEREG URA 95 CNRS, Institut de Botanique, 28 rue Goethe, F – 67083 Strasbourg cedex, France, U. Roeck, Laboratoire de Botanique et Ecologie végétate, CEREG URA 95 CNRS, Institut de Botanique, 28 rue Goethe, F – 67083 Strasbourg cedex, France, J.-M. Sanchez-Perez, Laboratoire de Botanique et Ecologie végétate, CEREG URA 95 CNRS, Institut de Botanique, 28 rue Goethe, F – 67083 Strasbourg cedex, France
- Edited by Janine Gibert, Université Lyon I, Jacques Mathieu, Université Lyon I, Fred Fournier
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- Book:
- Groundwater/Surface Water Ecotones
- Published online:
- 07 September 2010
- Print publication:
- 28 February 1997, pp 91-101
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- Chapter
- Export citation
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Summary
ABSTRACT The Holocene Rhine floodplain in Alsace, which represents a large homogeneity of petrographical regions, is used as a model for a comparative study of the interrelation of the different compartments (water-soil-plant) of two alluvial hydrosystems. We show that the species richness of alluvial forest, as well as the diversity of the ecosystems and the geoforms, are the main factors which explain the great efficiency in the functioning of the interfaces, e.g. retention on substrate, uptake and transformation of nutrients into biomass, and hence purification of the groundwater. We studied a canalized river deprived of a floodplain, the rapid transfer of eutrophicants and micropollutants in the canalized river itself and through the channel bed leads to a worsening of both surface and groundwater quality. By contrast a river with a functional floodplain provides large quantities of good quality water to the groundwater table. In this paper, we analyse the processes which occur at the interfaces of the different compartments.
INTRODUCTION
The alluvial hydrosystems are corridors transferring water, sediment, organic matter and organisms (Décamps & Naiman, 1989). The fluxes of matter flow through the longitudinal axis of the river and also the transversal axis to the riparian zones which constitute the land-water interface (Gregory et al, 1991). These zones are characterized by a large diversity of aquatic and terrestrial ecosystems, due to the geomorphological and hydrological dynamics of the large rivers (Amoros et al, 1988). Permanent interaction exists between both ecosystems, thanks to the vector ‘water’, which allows us to define ecotones, land-water ecotone or water-water ecotone.