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Dutch title: Landgebruik en het transport van silicium doorheen het Scheldebekken|
Parent project: Science for a Sustainable Development, more
Reference no: SD/NS/05A
Period: December 2006 till January 2011
Geographical term: ANE, Netherlands, Schelde estuary [gazetteer]
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- Universiteit Antwerpen; Faculteit Wetenschappen; Departement Biologie; Onderzoeksgroep Ecosysteembeheer (ECOBE), more, co-ordinator
- Katholieke Universiteit Leuven; Departement Aard- en Omgevingswetenschappen; Afdeling Fysische en regionale geografie, more, sponsor
- Université Catholique de Louvain; Département de Géologie et Géographie; Unité de Géographie (UCL), more, sponsor
- Belgian Science Policy (BELSPO), more, sponsor
This project refers directly to the objective of the domain 'Terrestric and marine ecosystems of the North Sea', and to the European Water Framework Directive 2000/60/EU. The study includes an integrated approach combining a process study of Si-release and transfer to the North Sea with the construction of a policy supporting framework to quantify the effect of land use towards eutrophication remediation.
Several national and internationally funded research projects and networks focus on the risks of eutrophication posed by excess N and/or P input into freshwater ecosystems. However, there is until now, no integrated research project focusing on the potential role of changes in Si fluxes in the dynamics of freshwater ecosystems. It is precisely this gap that this research project, integrating the know-how of three Belgian research groups, attempts to fill.
This project aims to answer the question if Si fluxes through a river basin, and ultimately towards the sea, can change because of land use changes. These changes will be budgeted for the Scheldt basin, taking into account surface runoff, subsurface drainage and storage and cycling through vegetation. The results will be used to evaluate the effect of land use changes over historical times on Si fluxes. Moreover, it is the aim to formulate recommendations towards land planning with respect to the reduction of eutrophication, working from the viewpoint of Si in the nutrient ratios. As such, this study of Si can provide a mirror image for the N and P side of the eutrophication problem, and provide invaluable, new insights in our evolving concept of eutrophication.
Habitat scale research towards surface erosion and subsurface transport of dissolved Si (DSi), and biogenic Si (BSi) and sediments (as an indicator for transport of mineral Si) will be conducted in different landscape types. On a Scheldt basin scale, rivers draining sub-basins, will be sampled on a regular basis for all BSi and DSi. The sampled sub-basins will represent a gradient from still largely forested to largely covered by cropland and grassland. The integration of results from both site-specific experiments and basin scale sampling will for the first time allow an estimate, based on both historical and recent land use maps, of the extent to which Si fluxes towards the coastal zone have been altered by human land use, and how this change has been triggered by changes in erosion processes, changes in vegetation type and cover, and hydrology.
Habitat scale research towards surface erosion and subsurface transport of dissolved Si (DSi), biogenic Si (BSi) and sediments (as an indicator for transport of mineral Si) will be conducted in different landscape types. On a larger scale, rivers draining individual sub-basins within the Scheldt watershed will be sampled on a regular basis for both BSi and DSi. The sampled sub-basins will represent a gradient from still largely forested to largely cultivated farmland. The integration of results from both site-specific experiments and basin scale sampling will allow to estimate, based on both historical and recent land use maps, the extent to which Si fluxes towards the coastal zone have been altered by human land use, and how this change has been triggered by changes in erosion processes, vegetation and hydrology.
Through the coupling of experimental results with existing models for sediment transport and subsurface hydrology, the results will be extrapolated to the scale of individual catchments. The model is then validated by data from a detailed survey of Si and sediment transport in individual river basins throughout the whole Scheldt basin. The results will show if Si release can enhance resilience against N and P enrichment of the river continuum, and as such, counter this threat of riverine, estuarine and coastal diversity. The sustainable management of the
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- Struyf, E.; Clymans, W.; Smis, A.; Vandevenne, F.; Govers, G.; Van Wesemael, B.; Meire, P. (2011). Land use and silica fluxes through the Scheldt river basin "LUSI": final report. Belgian Science Policy Office: Brussels. 89 pp., more
- Van Damme, S.; Govers, G.; Struyf, E.; Van Wesemael, B.; Clymans, W.; Frot, E.; Cardinal, D.; Smis, A.; Meire, P. (2009). The effect of land use changes on silica transport through river basins, in: (2009). ASLO Aquatic Sciences Meeting 2009: A Cruise Through Nice Waters, 25-30 January 2009, Nice, France. pp. 272, more