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  • Ruegner, H  (6)
  • 1
    Article
    Article
    A parsimonious approach to estimate PAH concentrations in river sediments of anthropogenically impacted watersheds (2017)
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    Language: English
    In: Science of the Total Environment, 01 December 2017, Vol.601-602, pp.636-645
    Description: The contamination of riverine sediments and suspended matter with hydrophobic pollutants is typically associated with urban land use. However, it is rarely related to the sediment supply of the watershed, because sediment yield data are often missing. We show for a suite of watersheds in two regions of Germany with contrasting land use and geology that the contamination of suspended particles with polycyclic aromatic hydrocarbons (PAH) can be explained by the ratio of inhabitants residing within the watershed and the watershed's sediment yield. The modeling of sediment yields is based on the Revised Universal Soil Loss Equation (RUSLE2015, Panagos et al., 2015) and the sediment delivery ratio (SDR). The applicability of this approach is demonstrated for watersheds ranging in size from 1.4 to 3000 km . The approach implies that the loading of particles with PAH can be assumed as time invariant. This is indicated by additional long-term measurements from sub-watersheds of the upper River Neckar basin, Germany. The parsimonious conceptual approach allows for reasonable predictions of the PAH loading of suspended sediments especially at larger scales. Our findings may easily be used to estimate the vulnerability of river systems to particle-associated urban pollutants with similar input pathways as the PAH or to indicate if contaminant point sources such as sites of legacy pollution exist in a river basin.
    Keywords: Sediment Quality ; Particle-Facilitated Pollutant Transport ; Pah ; Sediment Yield ; Urbanization ; Environmental Sciences ; Biology ; Public Health
    ISSN: 0048-9697
    E-ISSN: 1879-1026
    DOI: 10.1016/j.scitotenv.2017.05.208
    URL: View record in ScienceDirect (Access to full text may be restricted)
    URL: View full text in ScienceDirect
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  • 2
    Article
    Article
    Bulk metal concentrations versus total suspended solids in rivers: Time-invariant & catchment-specific relationships (2018)
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    Language: English
    In: PLoS ONE, 01 January 2018, Vol.13(1), p.e0191314
    Description: Suspended particles in rivers can act as carriers of potentially bioavailable metal species and are thus an emerging area of interest in river system monitoring. The delineation of bulk metals concentrations in river water into dissolved and particulate components is also important for risk assessment. Linear relationships between bulk metal concentrations in water (CW,tot) and total suspended solids (TSS) in water can be used to easily evaluate dissolved (CW, intercept) and particle-bound metal fluxes (CSUS, slope) in streams (CW,tot = CW + CSUS TSS). In this study, we apply this principle to catchments in Iran (Haraz) and Germany (Ammer, Goldersbach, and Steinlach) that show differences in geology, geochemistry, land use and hydrological characteristics. For each catchment, particle-bound and dissolved concentrations for a suite of metals in water were calculated based on linear regressions of total suspended solids and total metal concentrations. Results were replicable across sampling campaigns in different years and seasons (between 2013 and 2016) and could be reproduced in a laboratory sedimentation experiment. CSUS values generally showed little variability in different catchments and agree well with soil background values for some metals (e.g. lead and nickel) while other metals (e.g. copper) indicate anthropogenic influences. CW was elevated in the Haraz (Iran) catchment, indicating higher bioavailability and potential human and ecological health concerns (where higher values of CSUS/CW are considered as a risk indicator).
    Keywords: Sciences (General)
    E-ISSN: 1932-6203
    DOI: 10.1371/journal.pone.0191314
    URL: View full text in DOAJ
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  • 3
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    Article
    Comparison of sedimentary PAHs in the rivers of Ammer (Germany) and Liangtan (China): differences between early- and newly-industrialized countries (2013)
    Details
    Language: English
    In: Environmental science & technology, 15 January 2013, Vol.47(2), pp.701-9
    Description: As a proxy to trace the impact of anthropogenic activity, sedimentary polycyclic aromatic hydrocarbons (PAHs) are compared between the early industrialized and newly industrialized countries of Germany and China, respectively. Surface sediment samples in the Ammer River of Germany and the Liangtan River of China were collected to compare concentration levels, distribution patterns, and diagnostic plots of sedimentary PAHs. Total concentrations of 16 PAHs in Ammer sediments were significantly higher by a factor of ~4.5 than those in Liangtan. This contrast agrees with an extensive literature survey of PAH levels found in Chinese versus European sediments. Distribution patterns of PAHs were similar across sites in the Ammer River, whereas they were highly varied in the Liangtan River. Pyrogenic sources dominated in both cases. Strong correlations of the sum of 16 PAHs and PAH groups with TOC contents in the Liangtan River may indicate coemission of PAHs and TOC. Poor correlations of PAHs with TOC in the Ammer River indicate that other factors exert stronger influences. Sedimentary PAHs in the Ammer River are primarily attributed to input of diffuse sources or legacy pollution, while sediments in the Liangtan River are probably affected by ongoing point source emissions. Providing further evidence of a more prolonged anthropogenic influence are the elevated black carbon fractions in sedimentary TOC in the Ammer compared to the Liangtan. This implies that the Liangtan River, like others in newly industrialized regions, still has a chance to avoid legacy pollution of sediment which is widespread in the Ammer River and other European waterways.
    Keywords: Geologic Sediments -- Analysis ; Polycyclic Aromatic Hydrocarbons -- Analysis ; Rivers -- Chemistry ; Water Pollutants, Chemical -- Analysis ; Water Pollution, Chemical -- Analysis
    ISSN: 0013936X
    E-ISSN: 1520-5851
    DOI: 10.1021/es3031566
    URL: View this record in MEDLINE/PubMed
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  • 4
    Article
    Article
    Desorption Kinetics of Phenanthrene in Aquifer Material Lacks Hysteresis (2004)
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    Language: English
    In: Environmental Science & Technology, 08/2004, Vol.38(15), pp.4169-4175
    Description: Desorption experiments were carried out in flow through columns following long-term sorption batch experiments (up to 1010 days at 20 degree C; Ruegner, H.; Kleineidam, S.; Grathwohl, P. Long-term sorption kinetics of phenanthrene in aquifer materials. Environ. Sci. Technol. 1999, 33, 1645-1651) to elucidate sorption/desorption hysteresis phenomena of phenanthrene in aquifer materials. Most of the sorbents employed in this study (homogeneous lithocomponents separated from aquifer sediments or fresh rock fragments) showed highly nonlinear sorption isotherms because of coal particles embedded inside the grains. Because sorption capacities were high, sorption equilibrium was not reached in most of the sorbents during the initial sorptive uptake experiments lasting up to 1010 days. Desorption was studied up to 90 days at 20 degree C. The temperature was raised after that stepwise from originally 20 to 30, 40, 50, and finally to 70 degree C for selected samples to estimate activation energies of desorption. A numerical intraparticle pore diffusion model was used to fit sorptive uptake data and subsequently for pure forward prediction of the release rates in the desorption column experiments. Desorption was initially fast followed by extended tailing which in other studies is fitted by using multirate first-order models. Our results demonstrate that the retarded intraparticle pore diffusion model can predict the desorption rates with a single diffusion rate constant obtained independently from the long-term batch sorption experiment. No evidence for hysteresis was found, suggesting that many hysteresis phenomena reported earlier are experimental artifacts resulting from nonequilibrium effects and "nonphysical" models. The different temperature steps allowed one to additionally calculate activation energies of desorption (45-59 kJ mol super(-1)), which were in reasonably good agreement with results from earlier studies for a retarded pore diffusion process. In addition, equilibrium sorption isotherms were determined at 20 and 40 degree C to compare sorption and desorption enthalpies. Both were in good agreement, confirming that desorption was not significantly different from sorption.
    Keywords: Aquifers ; Enthalpy ; Desorption ; Temperature ; Hysteresis ; Groundwater Pollution ; Coal ; Model Studies ; Pores ; Equilibrium ; Rocks ; Kinetics ; Absorption ; Mine Wastes ; Isotherms ; Aquifers ; Enthalpy ; Desorption ; Temperature ; Hysteresis ; Groundwater Pollution ; Coal ; Model Studies ; Pores ; Equilibrium ; Rocks ; Kinetics ; Absorption ; Mine Wastes ; Isotherms ; Sources and Fate of Pollution ; Water Quality;
    ISSN: 0013-936X
    E-ISSN: 1520-5851
    DOI: 10.1021/es034846p
    Source: American Chemical Society (via CrossRef)
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  • 5
    Article
    Article
    Long Term Sorption Kinetics of Phenanthrene in Aquifer Materials (1999)
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    Language: English
    In: Environmental Science & Technology, 05/1999, Vol.33(10), pp.1645-1651
    Description: Most aquifer materials are heterogeneous in terms of grain size distribution and petrography. To understand sorption kinetics, homogeneous subfractions, either separated from heterogeneous sands and gravels (lithocomponents) or fragments of fresh rocks, have to be studied. In this paper we present data on long-term sorption kinetics of phenanthrene for homogeneous samples consisting of one type of lithocomponents or fresh rock fragments in different grain sizes. Diffusion rate constants were determined in batch experiments using a numerical model for retarded intraparticle pore diffusion and correlated to grain size and intraparticle porosity of the lithocomponents. Sorption isotherms were nonlinear for all samples investigated (Kleineidam et al. (1)). The numerical model described the sorption kinetics very well for coarse sand and gravels. Tortuosity factors, which were obtained as final fitting factors, agreed with Archie's law predictions based on the intraparticle porosity. The dependency of sorptive uptake on grain size revealed that for smaller grains intrasorbent diffusion may become significant. This is attributed to relatively large particulate organic matter (POM) within the sedimentary rock fragments. Specifically, charcoal and coal particles, which were found in some of the sandstones, controlled the sorptive uptake rates.
    Keywords: Geochemistry Of Rocks, Soils, And Sediments ; Environmental Geology ; Aquifers ; Aromatic Hydrocarbons ; Charcoal ; Clastic Rocks ; Clastic Sediments ; Coal ; Coarse-Grained Materials ; Diffusion ; Experimental Studies ; Fragments ; Geochemistry ; Grain Size ; Gravel ; Ground Water ; Homogeneous Materials ; Hydrocarbons ; Kinetics ; Laboratory Studies ; Numerical Models ; Organic Compounds ; Particulate Materials ; Phenanthrene ; Physicochemical Properties ; Pollution ; Polycyclic Aromatic Hydrocarbons ; Sand ; Sandstone ; Sedimentary Rocks ; Sediments ; Sorption;
    ISSN: 0013-936X
    E-ISSN: 1520-5851
    DOI: 10.1021/es980664x
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  • 6
    Article
    Article
    Organic Matter Facies and Equilibrium Sorption of Phenanthrene (1999)
    Details
    Language: English
    In: Environmental Science & Technology, 05/1999, Vol.33(10), pp.1637-1644
    Description: Remediation of groundwater contamination in unconsolidated aquifers by dissolved hydrophobic compounds (HOC) requires detailed information on the sorption parameters present in the sediments. Equilibrium sorption isotherms were measured for phenanthrene for a wide variety of lithocomponents (constituents of sand and gravel sediments) and unweathered rock fragments (limestones and sandstones). The lithocomponents were separated based on macroscopic appearance of different lithologies (e.g. limestones, sandstones, shales, mudstones, and igneous rocks) and characterized in terms of organic carbon content and specific surface area. In addition the organic matter (OM) was characterized using coal petrography methods (white and UV light microscopy). As confirmed by heat-treated samples sorption was solely due to OM. Organic carbon normalized sorption coefficients (K sub(OC)) varied by almost 3 orders of magnitude among the samples investigated. The different origin and maturity of isolated organic matter (organic facies) is believed to be responsible. For example, extremely high K sub(OC) values were found for particulate organic matter such as charcoal and coal particles which were preserved within the sandstone and limestone grains. In a second paper we report data on sorption kinetics of the samples used in this study (1).
    Keywords: Chemical Equilibrium ; Sediment Pollution ; Particulate Organic Matter ; Pollutant Persistence ; Adsorption ; Groundwater Pollution ; Aquifers ; Sediment Pollution ; Sorption ; Limestone ; Organic Matter ; Remediation ; Groundwater Pollution ; Geology ; Aquifers ; Sorption ; Rocks ; Water Pollution Treatment ; Organic Matter ; Remediation ; Groundwater Pollution ; Isotherms ; Phenanthrene ; Hydrophobic Compounds ; Physics and Chemistry ; Characteristics, Behavior and Fate ; Sources and Fate of Pollution ; Freshwater Pollution ; Hydrophobic Compounds ; Phenanthrene;
    ISSN: 0013-936X
    E-ISSN: 1520-5851
    DOI: 10.1021/es9806635
    Source: American Chemical Society (via CrossRef)
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