The role of vegetation in the retention of fine sediment and associated metal contaminants in London's rivers

Gibbs, Helen; Gurnell, Angela M.; Heppell, Catherine M.; Spencer, Kate L.

doi:10.1002/esp.3575

Cited by 7 publications

(6 citation statements)

References 68 publications

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“…Similarly, Gibbs et al . () observed no significant difference in Cr, Cu, Ni, Pb, or Zn concentration between restored and un‐restored reaches because of the variety of restoration approaches used.…”

Section: Discussionmentioning

confidence: 93%

“…Heavy metals adsorb preferentially to the fine‐grained fraction of the sediment (<63 µm), and significant correlations (using non‐parametric analysis) were observed between percentage of sediment <63 µm and pollutant content (for various pollutants). Therefore granulometric correction was performed by calculation of a dilution factor for each sample (similarly to Horowitz, and Gibbs et al ., ):

Dilution factor : 100 true/ ((), Percentage of sediment < 63 normalµm)

…”

Section: Methodsmentioning

confidence: 99%

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The Impacts of Natural Flood Management Approaches on In‐Channel Sediment Quality

Janes

Grabowski

Mant

et al. 2016

River Research & Apps

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Natural Flood Management (NFM) techniques aim to reduce downstream flooding by storing and slowing the flow of stormwater to river channels. These techniques include a range of measures, including setback stormwater outfalls and the physical restoration of channels and floodplains, to improve the natural functioning of catchments. An additional benefit of NFM measures is the potential reduction in sediment and pollutant delivery to the channel. Urban development releases a variety of heavy metal and nutrient pollutants that enter rivers through stormwater outfalls with adverse effects on the aquatic ecosystem. In this study, the influence of channel modification and quality of the river habitat on the sediment quality surrounding stormwater outfalls was assessed. Sediment samples were taken at several outfalls within the Johnson Creek catchment, Oregon, USA, and analysed for a variety of urban pollutants. The level of river habitat quality and modification at each site were assessed using a semi‐quantitative scoring methodology. Significant increases in pollutant levels were observed at outfalls, with a greater and more variable increase at direct compared to setback outfalls. Removal efficiency of certain pollutants was found to be significantly correlated to the level of habitat quality or modification (for Fe, Ba, Sn, Mg, P, K) indicating that more natural reaches had greater potential for pollutant removal. The findings highlight the multiple benefits associated with NFM and river restoration approaches in relation to sediment quality and pollutant content. © 2016 The Authors River Research and Applications Published by John Wiley & Sons, Ltd.

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Section: Discussionmentioning

confidence: 93%

Dilution factor : 100 true/ ((), Percentage of sediment < 63 normalµm)

…”

Section: Methodsmentioning

confidence: 99%

The Impacts of Natural Flood Management Approaches on In‐Channel Sediment Quality

Janes

Grabowski

Mant

et al. 2016

River Research & Apps

View full text Add to dashboard Cite

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“…1) were selected on the basis of water depths (Table S1 in the Supplementary material) and the surficial grain size distribution reported by El-Alami et al (1998). In this way the sampling of fine sediment was favoured, as silt and clay fractions are acknowledged to interact preferentially with contaminants (Frignani et al, 2001;Ünlü and Alpar, 2006;Bellucci et al, 2012;Gibbs et al, 2014). In addition, fine-grained materials deposited under low-energy conditions do not favour mixing and resuspension and are more suited for retaining chronological information (Cochran et al, 2005;Mendes et al, 2010;Bellucci et al, 2012).…”

Section: Sediment Collection and Subsamplingmentioning

confidence: 99%

Recognizing different impacts of human and natural sources on the spatial distribution and temporal trends of PAHs and PCBs (including PCB-11) in sediments of the Nador Lagoon (Morocco)

Giuliani

Piazza

Moumni

et al. 2015

Science of The Total Environment

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“…Most riverbanks in the NNP are now lined with reed (75%; Próchnicki, 2005) which can extend laterally from the floodplain into the channel and root into sediment deposits (Best et al, 1981). The aquatic vegetation blocks the channel physically and increases flow resistance (Nepf et al, 2007;Gibbs et al, 2014;Gurnell, 2014). This in turn results in turbulent energy dissipation, creating zones of low velocity and low bed shear stress that encourages deposition of fine organic and inorganic particles.…”

Section: Extinction Causesmentioning

confidence: 99%

Controls on anastomosis in lowland river systems: Towards process-based solutions to habitat conservation

Marcinkowski

Grabowski

Okruszko

2017

Science of The Total Environment

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Anastomosing rivers were historically common around the world before extensive agricultural and industrial development in river valleys. Few lowland anastomosing rivers remain in temperate zones, and the protection of these river-floodplain systems is an international conservation priority. However, the mechanisms that drive the creation and maintenance of multiple channels, i.e. anabranches, are not well understood, particularly for lowland rivers, making it challenging to identify effective management strategies. This study uses a novel multi-scale, process-based hydro-geomorphological approach to investigate the natural and anthropogenic controls on anastomosis in lowland river reaches. Using a wide range of data (hydrologic, cartographic, remote-sensing, historical), the study (i) quantifies changes in the planform of the River Narew, Poland over the last 100years, (ii) documents changes in the natural and anthropogenic factors that could be driving the geomorphic change, and (iii) develops a conceptual model of the controls of anastomosis. The results show that 110km of anabranches have been lost from the Narew National Park (6810ha), a 42% reduction in total anabranch length since 1900. The rates of anabranch loss have increased as the number of pressures inhibiting anabranch creation and maintenance has multiplied. The cessation of localized water level and channel management (fishing dams, water mills and timber rafting), the loss of traditional floodplain activities (seasonal mowing) and infrastructure construction (embanked roads and an upstream dam) are contributing to low water levels and flows, the deposition of sediment at anabranch inlets, the encroachment of common reed (Phragmites australis), and the eventual loss of anabranches. By identifying the processes driving the loss of anabranches, this study provides transferable insights into the controls of anastomosis in lowland rivers and the management solutions needed to preserve the unique anastomosing river pattern and diverse wet grasslands that are central to the conservation value of lowland floodplains.

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The role of vegetation in the retention of fine sediment and associated metal contaminants in London's rivers

Cited by 7 publications

References 68 publications

The Impacts of Natural Flood Management Approaches on In‐Channel Sediment Quality

The Impacts of Natural Flood Management Approaches on In‐Channel Sediment Quality

Recognizing different impacts of human and natural sources on the spatial distribution and temporal trends of PAHs and PCBs (including PCB-11) in sediments of the Nador Lagoon (Morocco)

Controls on anastomosis in lowland river systems: Towards process-based solutions to habitat conservation

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