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The Interactions Between Sediments and Water

Brian Kronvang ; Jadran Faganeli ; Nives Ogrinc (eds.)

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Palabras clave – provistas por la editorial

Geomorphology; Environmental Management; Applied Ecology; Freshwater & Marine Ecology; Ecosystems; Geochemistry

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Institución detectada Año de publicación Navegá Descargá Solicitá
No detectada 2006 SpringerLink

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Tipo de recurso:

libros

ISBN impreso

978-1-4020-5477-8

ISBN electrónico

978-1-4020-5478-5

Editor responsable

Springer Nature

País de edición

Reino Unido

Fecha de publicación

Información sobre derechos de publicación

© Springer 2006

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Interactions Between Sediment and Water: Perspectives on the 10th International Association for Sediment Water Science Symposium

Ellen L. Petticrew; Ian G. Droppo; Nives Ogrinc; Brian Kronvang; Jadran Faganeli

The 10 International Symposium on Interactions Between Sediment and Water was held in Lake Bled, Slovenia from August 28 to September 3, 2005. Approximately 155 delegates, attended the symposium where talks and posters addressed five themes incorporating the physical, chemical, biological, and/or management aspects of lacustrine, riverine, estuarine, and/or marine sediment were presented. A review of the symposium themes and plenary talks was provided. As well, this symposiums’ focus is put into context with respect to historical changes noted over the 29 years that the International Association for Sediment Water Science (IASWS) has been meeting.

Section 1: - Sediment and Water Interactions in Streams | Pp. 1-5

Phosphorus Storage in Fine Channel Bed Sediments

Deborah J. Ballantine; Desmond E. Walling; Adrian L. Collins; Graham J. L. Leeks

Deposition and storage of fine sediment on channel beds represents an important component of a catchment’s sediment budget and can have important implications for sediment-associated P fluxes, due to storage and remobilisation, and for P concentrations through water-sediment interactions. Spatial and temporal variations in P content and storage in fine bed sediment have been studied in two UK lowland catchments, the Rivers Frome and Piddle in Dorset. Fine bed sediment was sampled in representative reaches on a bi-monthly basis using a re-suspension cylinder, and the resulting samples were analysed for total P, a range of P fractions and particle size. The results demonstrate significant spatial and temporal variability in PP concentrations and storage, with maximum and minimum P concentrations and storage occurring in late summer and winter, respectively. Temporal variations in concentrations reflect residence times of the sediment and ambient P concentrations, while variations in storage are mainly due to hydrological regimes. Spatial variations reflect catchment characteristics, the location of inputs and local variations in hydrological and channel bed conditions.

Section 1: - Sediment and Water Interactions in Streams | Pp. 7-16

Quantification of the Erosion Resistance of Undisturbed and Remoulded Cohesive Sediments

Robert Banasiak; Ronny Verhoeven

Cohesive sediments besides their typical heterogeneity are characterised by structural discontinuity. Particularly, organic consolidated muds are a good example of sediments that consist of vast aggregates, pore water and gaseous products. The texture of a cohesive sediment bed is a result of a number of mutually affecting factors, such as deposition history, mineral and organic composition, kind of biota and oxygen uptake. The presented work attempts to quantify the effect of sediment physical properties and sediments structure on the sediment erosion potential, considering incipient motion and erosion rate. This quantification is made on the basis of comparative testing of both unremoulded and remoulded samples of a river mud. Due attention is paid to sediment handling to preserve the delicate structure of the sediment for the laboratory experiments. Mud with two degrees of consolidation has been examined in a tilting flume under different flow situations. The test results show a typical increase of erosion strength with dry matter concentration of the mud. It has also been found that the structural properties increase the erosion strength for the less consolidated mud. An opposite effect has been recorded for a more consolidated deposit. As a consequence, due to the sediment structure, the original beds differ much less in erosion resistance in relation to the dry mass concentration than their disturbed analogues. Finally, the erosion resistance of the examined mud is compared with data from the literature.

Section 1: - Sediment and Water Interactions in Streams | Pp. 17-27

Spatial and Temporal Variations in the Sediment Habitat Of spp. in Lowland Chalk Streams — Implications for Ecological Status?

Stewart J. Clarke; Geraldene Wharton; Jacqueline A. Cotton

spp. are the dominant plants of lowland chalk stream habitats in England. The spatial variability of sediment characteristics (silt-clay, organic matter, total phosphorus and total nitrogen content) within stands of spp. was investigated in 12 rivers in lowland England. Variability was found to be high and there were no discernible differences between samples taken from within and a limited number of samples from bare substrate. For two of these rivers, comparisons were also made between reaches upstream and downstream of waste water treatment works outfalls in terms of the characteristics of the sediments within stands. In one river a clear increase in sediment nutrient, fine and organic material content was observed downstream but in the other there was no consistent difference. Temporal variability was considered for two rivers in the Frome catchment, Dorset, by analysing the monthly variability in sediment organic matter and silt-clay content beneath stands over an annual cycle of growth and die-back. Whilst a clear pattern of fine and organic material retention consistent with seasonal plant growth patterns was evident at one site, the three sites displayed different temporal patterns. This inconsistency is believed to reflect differences in sediment supply at the three sites.

Section 1: - Sediment and Water Interactions in Streams | Pp. 29-37

Can Nutrient Spiralling be Used to Detect Seasonal Nutrient Uptake in A Forested Stream?

Sulfikar Hanafi; Michael R. Grace; Barry T. Hart

Nutrient spiralling measurements were conducted in Lyrebird Creek, a forested stream in the Dandenong Ranges, Victoria, Australia. Spiralling indices from several nutrient (NH, PO) enrichment experiments were correlated with seasonal variation in factors thought to control nutrient uptake, i.e., temperature, light and algal biomass. It was hypothesized that nutrient uptake would be higher in summer as increased temperatures would promote both biotic and abiotic processes and higher light levels in summer would stimulate photosynthesis. However, results did not support this hypothesis. Uptake length for NH-N and PO-P and uptake velocity were not correlated with chlorophyll-a, light or temperature (<0.30, >0.1) despite the seasonality of these biophysical factors (>0.42, <0.02). Lyrebird Creek might had no seasonal trend in nutrient uptake and/or nutrient spiraling measurements only appears suitable for contrasting streams with large differences in biophysical factors that supports biotic and abiotic nutrient processing. In addition, small errors in measuring a nutrient concentration can result in a large range in the estimated and increased difficulty in determining significant differences in nutrient spiralling indices.

Section 1: - Sediment and Water Interactions in Streams | Pp. 39-47

Dissolved Oxygen and Nutrient Fluxes Across the Sediment-Water Interface of the Neckar River, Germany: Measurements and Simulations

Ingo Haag; Gerhard Schmid; Bernhard Westrich

A benthic flume and a 1D biogeochemical sediment model to evaluate solute fluxes across the sediment-water interface have been developed. The flume was successfully used to determine oxygen and nutrient fluxes at various locations of the Neckar River in Germany. The experimental results were linked with vertical pore water concentration profiles and independently verified with the model. By combining experimental and model results we assessed the influence of dissolved oxygen concentrations in the water column and the availability of degradable organic matter on sediment oxygen demand. The results and the derived relations can be used to parameterize the sediment module of large scale water quality models, allowing one to assess the influence of sediment-water interactions on various aspects of river water quality. Moreover, the biogeochemical sediment model can help to improve the general understanding of the processes governing solute concentrations and fluxes in sediments and across their interfaces.

Section 1: - Sediment and Water Interactions in Streams | Pp. 49-58

Occurrence of Sediment-Bound Pyrethroids in Danish Streams and Their Impact on Ecosystem Function

Rasmus B. Lauridsen; Brian Kronvang; Nikolai Friberg

In a total of 189 water samples collected from Danish streams no traces of the pyrethroid esfenvalerate were detected. However, pyrethroids have previously been found in sediments in 9 out of 30 streams investigated. We found that the shredding activity of the Trichopteran and the amphipod was significantly reduced with increased concentration of the pyrethroid lambda-cyhalohtrin adsorbed to the leaves on which they fed. Predation rate on the Plecopteran by the leech increased significantly with increasing concentration of lambda-cyhalothrin on the leaves on which was fed. Our results clearly indicate that the ongoing monitoring of pesticides is likely to underestimate pyrethroid occurrence and that sediment-bound pyrethroids have a potential negative impact on ecosystem function and biotic interactions in streams.

Section 1: - Sediment and Water Interactions in Streams | Pp. 59-68

Development of Layered Sediment Structure and its Effects on Pore Water Transport and Hyporheic Exchange

Aaron I. Packman; Andrea Marion; Mattia Zaramella; Cheng Chen; Jean-François Gaillard; Denis T. Keane

Hyporheic exchange is known to provide an important control on nutrient and contaminant fluxes across the stream-subsurface interface. Similar processes also mediate interfacial transport in other permeable sediments. Recent research has focused on understanding the mechanics of these exchange processes and improving estimation of exchange rates in natural systems. While the structure of sediment beds obviously influences pore water flow rates and patterns, little is known about the interplay of typical sedimentary structures, hyporheic exchange, and other transport processes in fluvial/alluvial sediments. Here we discuss several processes that contribute to local-scale sediment heterogeneity and present results that illustrate the interaction of overlying flow conditions, the development of sediment structure, pore water transport, and stream-subsurface exchange. Layered structures are shown to develop at several scales within sediment beds. Surface sampling is used to analyze the development of an armor layer in a sand-and-gravel bed, while innovative synchrotron-based X-ray microtomography is used to observe patterns of grain sorting within sand bedforms. We show that layered bed structures involving coarsening of the bed surface increase interfacial solute flux but produce an effective anisotropy that favors horizontal pore water transport while limiting vertical penetration.

Section 1: - Sediment and Water Interactions in Streams | Pp. 69-78

Streambed Sediment Geochemical Controls on In-Stream Phosphorus Concentrations During Baseflow

Marcel van der Perk; Philip N. Owens; Lynda K. Deeks; Barry G. Rawlins

A spatially extensive geochemical data set of stream water and bed sediment composition across the Tamar catchment in south-west England was analysed to identify the key bed sediment properties that control the in-stream dissolved reactive phosphorus (DRP) concentrations during baseflow conditions. Linear regression analysis of the streamwater DRP concentrations and the distribution coefficient for DRP revealed that the former is positively correlated with total SiO and AlO, and negatively correlated with KO. The primary control on these major element distributions is the dominant bedrock geology. The data suggest that streamwater DRP concentrations are mainly controlled by adsorption to clay minerals. Where P concentrations in streamwater were considerably elevated by inputs from point sources, DRP concentrations are also controlled by precipitation of hydroxyapatite.

Section 1: - Sediment and Water Interactions in Streams | Pp. 79-87

An Overview of Sediment Organic Matter Records of Human Eutrophication in the Laurentian Great Lakes Region

Philip A. Meyers

The isotopic and molecular compositions of organic matter buried in lake sediments provide information that helps to reconstruct past environmental conditions and to assess impacts of humans on local ecosystems. This overview of sedimentary records from the North American Great Lakes region describes examples of applications of organic geochemistry to paleolimnological reconstructions. These lakes experienced a succession of human-induced environmental changes that started after completion of the Erie Canal in 1825. Agricultural deforestation in the mid-nineteenth century released soil nutrients that increased algal productivity and caused an associated increase in algal biomarkers in sediment records. Eutrophication that accompanied magnified delivery of municipal nutrients to the lakes in the 1960s and 1970s created excursions to less negative δC values in sediment organic matter. Increased organic carbon mass accumulation rates mirror the isotopic evidence of eutrophication in the Great Lakes.

Section 2: - Sediment and Water Interactions in Lakes | Pp. 89-99