one publication added to basket [121144] | Human and environmental effects on the top of the mud layer in the entrance of the Zeebrugge harbour [POSTER]
Dujardin, A.; Vanlede, J.; Meersschaut, Y. (2008). Human and environmental effects on the top of the mud layer in the entrance of the Zeebrugge harbour [POSTER], in: NCK-Days 2008: book of abstracts, March, 2008. In: (2008). NCK-Days 2008: book of abstracts, March, 2008. Netherlands Centre for Coastal Research (NCK): Delft. 62 pp., more Related to:Dujardin, A.; Vanlede, J.; Meersschaut, Y. (2008). Human and environmental effects on the top of the mud layer in the entrance of the Zeebrugge harbour [POSTER], in: Mees, J. et al. (Ed.) VLIZ Young Scientists' Day, Brugge, Belgium, 29 February 2008: book of abstracts. VLIZ Special Publication, 40: pp. 46, more Related to:Dujardin, A.; Vanlede, J.; Meersschaut, Y. (2008). Human and environmental effects on the top of the mud layer in the entrance of the Zeebrugge harbour [POSTER]. Waterbouwkundig Laboratorium: Antwerpen. 1 poster pp., more |
Available in | Authors | | Document type: Poster
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Keywords | Benthic layer Dredging Man-induced effects Nautical bottom Sediments > Clastics > Mud Siltation ANE, Belgium, Brugge, Zeebrugge Harbour [Marine Regions] Marine/Coastal |
Abstract | Navigation in the port of Zeebrugge can be hindered by the presence of a high concentrated benthic suspension (hcbs). Depth averaged suspended sediment concentrations (including the hcbs layer) range from 10mg.l-1 up to 4,OOOmg.l-1. The suspended sediment concentration within the benthic layer can reach several tens of grams per litre. The top of this hcbs layer is identified by the 210kHz acoustic reflection surface. The Nautical Bottom, a site-specific upper limit for the bulk density, above which navigation is concerned to be safe, is defined at l,200kg.m-3. A better understanding of the human and environmental effects on the hcbs layer could result in countermeasures reducing siltation and maintenance dredging.A statistical analysis of parameters such as weekly dredging intensity, location of the top of the mud layer, growth rate of the mud layer, fresh water input from the Leie by-pass channel, wind force and wave height in the period from 1999 till 2005 resulted in poor correlation coefficients. Three interpretations are given. Week averaged hydro-meteo data masks the occurrence of short-time events such as storms. The mud layers calculated growth rate can be levelled out due to the variable time span between soundings. Finally , dredging works are not planned solely based on the level of nautical depth, which reduces the correlation between environmental conditions and dredged volumes. However, seasonally trends are clearly visible in both human and environmental effects. |
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