2005
DOI: 10.1016/j.limno.2005.05.001
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Physico-chemical and biological sediment properties determining erosion resistance of contaminated riverine sediments – Temporal and vertical pattern at the Lauffen reservoir/River Neckar, Germany

Abstract: In order to contribute to a reliable, easy-to-handle and economically viable erosion risk assessment of contaminated riverine sites, the present study aims to implement master-variables best characterising the sediment stability. Thus, a wide range of sediment properties was related to the critical shear stress for mass erosion, determined in the SETEG (Stroemungskanal zur Ermittlung der tiefenabhaengigen Erosionsstabilitaet von Gewaessersedimenten) pressurised channel, with special emphasis on vertical and te… Show more

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Cited by 55 publications
(33 citation statements)
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“…Firstly, EPS proteins have been measured in higher concentrations in the nutrient-enriched assemblages compared to nutrientdepleted treatments, but the stability of the substratum was higher in the latter. This suggests that the EPS quantity alone is not decisive for binding forces between particles as stated earlier (Gerbersdorf et al 2005). Presumably, the proteins originating from microalgal cell lysis show very different features than bacterial EPS secreted as extracellular enzymes or for attachment.…”
Section: Discussionmentioning
confidence: 62%
“…Firstly, EPS proteins have been measured in higher concentrations in the nutrient-enriched assemblages compared to nutrientdepleted treatments, but the stability of the substratum was higher in the latter. This suggests that the EPS quantity alone is not decisive for binding forces between particles as stated earlier (Gerbersdorf et al 2005). Presumably, the proteins originating from microalgal cell lysis show very different features than bacterial EPS secreted as extracellular enzymes or for attachment.…”
Section: Discussionmentioning
confidence: 62%
“…There is now a consensus that biology, and in particular organic material such as EPS, plays a crucial role in sediment stability since it acts like a "glue" by permeating the pore space between the sediment grains and enhancing their interparticle forces (Underwood and Paterson 2003;Gerbersdorf et al 2008bGerbersdorf et al , 2009a. Today, we have a much better understanding of the importance of the interactions between physics, chemistry and biology in influencing the stability of cohesive sediments (Gerbersdorf et al 2005(Gerbersdorf et al , 2008a(Gerbersdorf et al , 2009b. Still, whilst the number of publications on biostabilisation is steadily increasing, academic sediment transport models, as well as commercially available software, consider the process of incipient motion as primarily being governed via equations describing the physical processes; if biostabilisation is considered at all, it is included by empirical relations.…”
Section: Sediment Stabilitymentioning
confidence: 99%
“…For instance, Haag et al [34] measured in a backwater area of the River Neckar (Germany) a range of 0.6 N/m 2 to 8.5 N/m 2 with a mean value of 4.5 N/m 2 including surface and depth-dependent analyses. Gerbersdorf et al [14] measured in the same river a range of 2.5 to 4.5 N/m 2 in deeper layers and values lower than 2.0 N/m 2 in upper horizons. Consequently, these erosion thresholds seem consistently higher than in the present samples from Rivers Elbe and Saale which might be reasoned by the higher clay contents (20%-46%) in the River Neckar samples [14,33].…”
Section: Discussionmentioning
confidence: 84%
“…Gerbersdorf et al [14] measured in the same river a range of 2.5 to 4.5 N/m 2 in deeper layers and values lower than 2.0 N/m 2 in upper horizons. Consequently, these erosion thresholds seem consistently higher than in the present samples from Rivers Elbe and Saale which might be reasoned by the higher clay contents (20%-46%) in the River Neckar samples [14,33].…”
Section: Discussionmentioning
confidence: 84%
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