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Kristine B. Pedersen Pernille E. Jensen Beata Sternal Lisbeth M. Ottosen Mie Vesterskov Henning Manja Marie Kudahl Juho Junttila Kari Skirbekk Marianne Frantzen 《Environmental science and pollution research international》2018,25(33):32901-32912
Mining of Cu took place in Kvalsund in the Arctic part of Norway in the 1970s, and mine tailings were discharged to the inner part of the fjord, Repparfjorden. Metal speciation analysis was used to assess the historical dispersion of metals as well as their potential bioavailability from the area of the mine tailing disposal. It was revealed that the dispersion of Ba, Cr, Ni, Pb and Zn from the mine tailings has been limited. Dispersion of Cu to the outer fjord has, however, occurred; the amounts released and dispersed from the mine tailing disposal area quantified to be 2.5–10 t, less than 5% of Cu in the original mine tailings. An estimated 80–390 t of Cu still remains in the disposal area from the surface to a depth of 16 cm. Metal partitioning showed that 56–95% of the Cu is bound in the potential bioavailable fractions (exchangeable, reducible and oxidisable) of the sediments, totalling approximately 70–340 t, with potential for continuous release to the pore water and re-precipitation in over- and underlying sediments. Surface sediments in the deposit area were affected by elevated Cu concentrations just above the probable effect level according to the Norwegian sediment quality criteria, with 50–80% Cu bound in the exchangeable, reducible and oxidisable fractions, potentially available for release to the water column and/or for uptake in benthic organisms. 相似文献
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We evaluated a simple bioassessment method based on a priori river typology to predict benthic macroinvertebrate fauna in
riffle sites of rivers in the absence of human influence. Our approach predicted taxon lists specific to four river types
differing in catchment area with a method analogous to the site-specific RIVPACS-type models. The reference sites grouped
in accordance with their type in NMS ordination, indicating that the typology efficiently accounted for natural variation
in macroinvertebrate assemblages. Compared with a null model, typology greatly increased the precision of prediction and sensitivity
to detect human impairment and strengthened the correlation of the ratio of observed-to-expected number of predicted taxa
(O/E) with the measured stressor variables. The performance of the typology-based approach was equal to that of a RIVPACS-type
predictive model that we developed. Exclusion of rarest taxa with low occurrence probabilities improved the performance of
both approaches by all criteria. With an increasing inclusion threshold of occurrence probability, especially the predictive
model sensitivity first increased but then decreased. Many common taxa with intermediate type-specific occurrence probabilities
were consistently missing from impacted sites, a result suggesting that these taxa may be especially important in detecting
human disturbances. We conclude that if a typology-based approach such as that suggested by the European Union’s Water Framework
Directive is required, the O/E ratio of type-specific taxa can be a useful metric for assessment of the status of riffle macroinvertebrate
communities. Successful application of the approach, however, requires biologically meaningful river types with a sufficient
pool of reference sites for each type. 相似文献
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Liljaniemi P Vuori KM Tossavainen T Kotanen J Haapanen M Lepistö A Kenttämies K 《Environmental management》2003,32(5):602-613
Forestry is the largest scale human impact affecting catchments in Finland and a prominent source of diffuse pollution in many water courses. Among the forestry activities, draining of wetlands had the most pronounced impacts on sediment, nutrient, and metal loading in the past. At present, renovation of old ditches and fertilization of peatlands constitute the major risk of forestry-induced diffuse pollution. Contemporary forestry aims at decreasing this risk with various riparian buffer strip designs. Among such designs, creation of overland flow areas by plugging the outlet ditches is increasingly used. Our objectives were to evaluate the potential of constructed overland flow areas to function as riparian buffers and estimate the quality and quantity of diffuse pollution from old versus recent forest drainages. We studied retention and release of pollutants from 20 constructed, 2- to 10-m-wide overland flow areas receiving drainage water from forested peatlands. Drainage waters were sampled above and below the plugged ditches three times per year from 1998 to 1999. Chemical oxygen demand and nutrient and metal loads and concentrations varied strongly between seasons, years, and drainage areas. Areas subjected to recent ditch renovations and fertilizations had clearly elevated seasonal loads and concentrations of total phosphorus (TP), PO4, Fe, and Al in comparison to old treatment areas. Especially TP loads were high above the national average values measured for forestry-induced diffuse pollution. In general, water quality above and below the buffer strips did not differ significantly. Our results indicate that plugged outlet ditches and associated narrow overland flow areas do not function as proper buffers in peatland areas. We suggest that wider buffers with extensive overland flow areas are needed in order to control diffuse pollution from forested and drained peatlands. 相似文献
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Quantifying dispersal is crucial both for understanding ecological population dynamics, and for gaining insight into factors that affect the genetic structure of populations. The role of dispersal becomes pronounced in highly fragmented landscapes inhabited by spatially structured populations. We consider a landscape consisting of a set of habitat patches surrounded by unsuitable matrix, and model dispersal by assuming that the individuals follow a random walk with parameters that may be specific to the habitat type. We allow for spatial variation in patch quality, and account for edge-mediated behavior, the latter meaning that the individuals bias their movement towards the patches when close to an edge between a patch and the matrix. We employ a diffusion approximation of the random walk model to derive analytical expressions for various characteristics of the dispersal process. For example, we derive formulae for the time that an individual is expected to spend in its current patch i, and for the time that it will spend in the matrix, both conditional on the individual hitting next a given patch j before hitting any of the other patches or dying. The analytical formulae are based on the assumptions that the landscape is infinitely large, that the patches are circularly shaped, and that the patches are small compared to interpatch distances. We evaluate the effect of these assumptions by comparing the analytical results to numerical results in a real patch network that violates all of the three assumptions. We then consider a landscape that fulfills the assumptions, and show that in this case the analytical results are in a very good agreement with the numerical results. The results obtained here allow the construction of computationally efficient dispersal models that can be used as components of metapopulation models. 相似文献
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Kinnunen Paivo Yliniemi Juho Talling Bob Illikainen Mirja 《Journal of Material Cycles and Waste Management》2017,19(3):1220-1227
Journal of Material Cycles and Waste Management - Mineral wool waste is often considered unrecyclable, due to its difficult-to-process physical composition, and potential microbial contamination in... 相似文献
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