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Combined use of open-air and indoor fumigation systems to study effects of SO<sub(2)> on leaching processes in Scots pine litter.
1991
Wookey P.A. | Ineson P.
Estimating the relevance of engineered carbonaceous nanoparticle facilitated transport of hydrophobic organic contaminants in porous media
2009
Naturally occurring nanoparticles (NP) enhance the transport of hydrophobic organic contaminants (HOCs) in porous media. In addition, the debate on the environmental impact of engineered nanoparticles (ENP) has become increasingly important. HOC bind strongly to carbonaceous ENP. Thus, carbonaceous ENP may also act as carriers for contaminant transport and might be important when compared to existing transport processes. ENP bound transport is strongly linked to the sorption behavior, and other carbonaceous ENP-specific properties. In our analysis the HOC-ENP sorption mechanism, as well as ENP size and ENP residence time, was of major importance. Our results show that depending on ENP size, sorption kinetics and residence time in the system, the ENP bound transport can be estimated either as (1) negligible, (2) enhancing contaminant transport, or (3) should be assessed by reactive transport modeling. One major challenge to this field is the current lack of data for HOC-ENP desorption kinetics. Using nanoparticle size, residence time and sorption behavior, it was possible to estimate the relevance of engineered nanoparticle facilitated organic contaminant transport.
Show more [+] Less [-]Immobilization of non-point phosphorus using stabilized magnetite nanoparticles with enhanced transportability and reactivity in soils
2010
Pan, Gang | Li, Lei | Zhao, Dongye | Chen, Hao
Laboratory batch and column experiments were conducted to investigate the immobilization of phosphorus (P) in soils using synthetic magnetite nanoparticles stabilized with sodium carboxymethyl cellulose (CMC-NP). Although CMC-stabilized magnetite particles were at the nanoscale, phosphorus removal by the nanoparticles was less than that of microparticles (MP) without the stabilizer due to the reduced P reactivity caused by the coating. The P reactivity of CMC-NP was effectively recovered when cellulase was added to degrade the coating. For subsurface non-point P pollution control for a water pond, it is possible to inject CMC-NP to form an enclosed protection wall in the surrounding soils. Non-stabilized “nanomagnetite” could not pass through the soil column under gravity because it quickly agglomerated into microparticles. The immobilized P was 30% in the control soil column, 33% when treated by non-stabilized MP, 45% when treated by CMC-NP, and 73% when treated by both CMC-NP and cellulase. CMC-stabilized magnetite nanoparticles can effectively penetrate soil columns and immobilize phosphate in situ.
Show more [+] Less [-]Pesticide transport via sub-surface drains in Europe
2009
Brown, Colin D. | Van Beinum, Wendy
Transport of pesticides from point of application via sub-surface drains can contribute significantly to contamination of surface waters. Results of 23 field drainage experiments undertaken at sites across Europe were collated and analysed by residual maximum likelihood. Both maximum concentration of pesticide in drainflow (n = 167) and seasonal loss of pesticide to drains (n = 97) were significantly related to strength of pesticide sorption to soil, half-life of the pesticide in soil, the interval between application and first drainflow and the clay content of the soil. The statistical models accounted for 71% of the variability in both maximum concentration and seasonal load. Next, the dataset was used to evaluate the current methodology for assessment of aquatic exposure used in pesticide registration in Europe. Simulations for seven compounds with contrasting properties showed a good correspondence with field measurements. Finally, the review examines management approaches to reduce pesticide transport via sub-surface drains. Despite a large amount of work in this area, there are few dependable mitigation options other than to change application rate or timing or to restrict use of a compound in the most vulnerable situations. Chemical and environmental factors influence pesticide transfer to water via drains.
Show more [+] Less [-]Stability of titania nanoparticles in soil suspensions and transport in saturated homogeneous soil columns
2009
Fang, Jing | Shan, Xiao-quan | Wen, Bei | Lin, Jin-Ming | Owens, Gary
The stability of TiO2 nanoparticles in soil suspensions and their transport behavior through saturated homogeneous soil columns were studied. The results showed that TiO2 could remain suspended in soil suspensions even after settling for 10 days. The suspended TiO2 contents in soil suspensions after 24 h were positively correlated with the dissolved organic carbon and clay content of the soils, but were negatively correlated with ionic strength, pH and zeta potential. In soils containing soil particles of relatively large diameters and lower solution ionic strengths, a significant portion of the TiO2 (18.8-83.0%) readily passed through the soils columns, while TiO2 was significantly retained by soils with higher clay contents and salinity. TiO2 aggregate sizes in the column outflow significantly increased after passing through the soil columns. The estimated transport distances of TiO2 in some soils ranged from 41.3 to 370 cm, indicating potential environmental risk of TiO2 nanoparticles to deep soil layers. TiO2 nanoparticles could efficiently suspend in soil suspensions and potentially transport to deeper soil layers.
Show more [+] Less [-]Validation of predicted exponential concentration profiles of chemicals in soils
2007
Hollander, A. | Baijens, I. | Ragas, A. | Huijbregts, M. | Meent, D van de
Multimedia mass balance models assume well-mixed homogeneous compartments. Particularly for soils, this does not correspond to reality, which results in potentially large uncertainties in estimates of transport fluxes from soils. A theoretically expected exponential decrease model of chemical concentrations with depth has been proposed, but hardly tested against empirical data. In this paper, we explored the correspondence between theoretically predicted soil concentration profiles and 84 field measured profiles. In most cases, chemical concentrations in soils appear to decline exponentially with depth, and values for the chemical specific soil penetration depth (dp) are predicted within one order of magnitude. Over all, the reliability of multimedia models will improve when they account for depth-dependent soil concentrations, so we recommend to take into account the described theoretical exponential decrease model of chemical concentrations with depth in chemical fate studies. In this model the dp-values should estimated be either based on local conditions or on a fixed dp-value, which we recommend to be 10 cm for chemicals with a log Kow > 3. Multimedia mass model predictions will improve when taking into account depth dependent soil concentrations.
Show more [+] Less [-][The pesticide research in the Strategic Environment Framework]
1997
Albrechtsen, H.-J. | Hansen, J.M.
[Measuring nitrate formation and nitrate transport in organically fertilized soil using the Time Domain Reflectometry (TDR)]
1995
Moeldrup, P. | Nissen, H.H. | Jensen, C.S. | Therkildsen, I.L. | Henriksen, K. (Aalborg Univ. (Denmark). Lab. for Miljoeteknik)
Natural attenuation of xenobiotic compounds: anaerobic field injection experiment [Grindsted landfill]
1995
Ruegge, K. | Bjerg, P.L. | Mosbaek, H. | Christensen, T.H. (Danmarks Tekniske Univ., Lyngby (Denmark). Grundvandscentret)
Migration of pesticides in fractured clayey till at water saturated conditions
1995
Joergensen, P.R. | Hansen, M. | Spliid, N.H.