| Literature DB >> 25353962 |
Ana Luisa Caetano1, Catarina R Marques1, Ana Gavina2, Fernando Carvalho3, Fernando Gonçalves1, Eduardo Ferreira da Silva4, Ruth Pereira5.
Abstract
In order to regulate the management of contaminated land, many countries have been deriving soil screening values (SSV). However, the ecotoxicological data available forEntities:
Mesh:
Substances:
Year: 2014 PMID: 25353962 PMCID: PMC4212963 DOI: 10.1371/journal.pone.0108041
Source DB: PubMed Journal: PLoS One ISSN: 1932-6203 Impact factor: 3.240
Physical and chemical properties of PTRS1 soil (retrieved from Caetano et al. [49]).
| pH(H2O) | pH(KCI,1 M) | Conductivity(mS cm−1) | OM (%) | WHC (%) | Particle-size distribution (%) | [U] (mg Cu kg−1 soildw) | ||||
| Clay(<4 µm) | Silt(4–63 µm) | Sand(63 µm–2 mm) | Gravel(>2 mm) | |||||||
| PTRS1 | 5.9±0.09 | 4.3±0.02 | 4.8±0.23 | 6.5±0.004 | 23.9±1.84 | 3.3 | 22.8 | 46.9 | 23.9 | 9.0 |
pH (H2O), pH (KCI, 1 M), OM (organic matter), and WHC (water holding capacity) are represented as average ± STDEV.
Pseudo-total concentrations (mg/kg) of metals recorded in PTRS1 soil (average ± standard deviation) extracted with aqua régia, (retrieved from Caetano et al.[49]).
| Metal | PTRS1 |
| Ag | 0.1±0.0 |
| Al | 25628.5±5130.0 |
| B | 2.2±0.8 |
| Ba | 45.8±8.0 |
| Be | 1.2±0.2 |
| Cd | 0.1±0.1 |
| Co | 5.6±1.1 |
| Cr | 10.8±2.1 |
| Cu | 9.0±1.8 |
| Fe | 24921.4±4534.4 |
| Li | 124.4±22.9 |
| Hg | 5253.5±1025.5 |
| Mn | 386.8±77.9 |
| Mo | 0.9±0.2 |
| Na | 78.1±14.9 |
| Ni | 4.6±0.9 |
| Pb | 12.5±2.2 |
| Sb | 0.2±0.0 |
| Sn | 10.4±1.9 |
| U | 7.8±1.7 |
| V | 37.8±14.1 |
| Zn | 57.1±8.9 |
Figure 1Soil enzyme activities, N mineralization and potential nitrification.
Response of the arylsulphatase, dehydrogenase, cellulase urease, activity, N mineralization and potential nitrification to soils spiked with a range of uranium concentrations. The error bars indicate the standard deviation. The asterisks point out significantly differences from the control (P<0.05).
Toxicity data obtained for copper (mg U kg−1 soildw) in PTRS1 soil on soil microbial processes, invertebrates and plants.
| Biota | Endpoint | NOEC | LOEC | EC20 | EC50 |
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| Arylsulphatase | 232.5 | 279 | 155.3 (84.76–255.87) | 295.6 (216.09–375.17) | |
| Dehydrogenase | <134.5 | ≤134.5 | 34.9 (20.52–59.35) | 110.3 (83.25–137.47) | |
| Nitrogenmineralization | Enzyme activity | 694.4 | 833.3 | 152.2 (46.66–257.79) | 347.0 (211.25–482.91) |
| Celulase | ≤134.5 | ≥134.5 | n.d. | n.d. | |
| Urease | <134.5 | ≤134.5 | <134.5 | <134.5 | |
| Potencialnitrification | <134.5 | ≤134.5 | 429.5 (229.53–629.46) | 610.0 (459.07–761.11) | |
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| Rep. (56 days) | 500.0 | 550.0 | 474.8 (391.47–558.04) | 631.0 (532.78–699.21) |
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| Rep. (28 days) | 420.8 | 526.0 | 469.7 (355.47–584.04) | 518.6 (480.40–556.90) |
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| Rep. (28 days) | 675.5 | 756.1 | 343.4 (172.23–514.60) | 851.64 (606.10–1097.18) |
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| Germination | ≥1000 | >1000 | n.d. | n.d. |
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| Germination | ≥1000 | >1000 | n.d. | n.d. |
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| Germination | ≥1000 | >1000 | n.d. | n.d. |
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| Germination | ≥1000 | >1000 | n.d. | n.d. |
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| Fresh mass | ≥1000 | >1000 | n.d | n.d. |
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| Fresh mass | ≥1000 | >1000 | n.d | n.d. |
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| Fresh mass | ≥1000 | >1000 | n.d | n.d. |
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| Fresh mass | ≥1000 | >1000 | n.d | n.d. |
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| Dry mass | ≥1000 | >1000 | n.d. | n.d. |
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| Dry mass | ≥1000 | >1000 | n.d. | n.d. |
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| Dry mass | <167.4 | ≤167.4 | n.d. | n.d. |
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| Dry mass | ≥1000 | >1000 | n.d. | n.d. |
For ECx point estimates the 95% confidence limits are presented in brackets. n.d.- not determined; Rep. – reproduction.
Figure 2Reproduction of invertebrates.
Results obtained exposing Eisena andrei, Enchytraeus crypticus and Folsomia candida, to natural PTRS1 soil, contaminated with different concentrations of U. The error bars indicate the standard deviation. The asterisks point out significantly differences from the control (P<0.05).
Toxicity of copper (mg U kg−1soildw) reported in the literature for the reproduction of soil invertebrates using different soil types with different physical and chemical characteristics.
| Species | Endpoint | Soiltype | Physical-chemicalparameters | Point estimates(mg U kg−1soildw) | Reference | |||||
| pH | OM (%) | Clay (%) | NOEC | LOEC | EC20 | EC50 | ||||
| Canadian soil | 6.2 | 1.0 | 2.0 | n.d. | n.d. | >1000 | n.d. | Sheppard and Stephenson | ||
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| Rep. (56 days) | Canadian soil | 6.2 | 1.0 | 2.0 | n.d. | n.d. | >1120 | n.d. | Sheppard and Stephenson |
| Canadian soil | 7.5 | 2.2 | >838 | n.d. | n.d. | n.d. | Sheppard and sheppard | |||
| Canadian soil | 7.5 | 18.4 | >994 | n.d. | n.d. | n.d. | Sheppard and sheppard | |||
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| Rep. (28 days) | Canadian soil | 7.5 | 2.2 | 24.0 | n.d. | n.d. | 840.0 | n.d. | Sheppard and Stephenson |
| Canadian soil | 7.5 | n.d. | n.d. | n.d. | n.d. | >720 | n.d. | Sheppard and Sheppard | ||
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| Germination | Canadian soil | 6.2 | 1 | 2 | n.d. | >1000 | n.d. | n.d. | Sheppard and Stephenson |
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| Germination | Canadian soil | 7.5 | 2.2 | 24 | n.d. | >1001 | n.d. | n.d. | Sheppard and Stephenson |
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| Dry mass | European soil | 5.2 | 2.5 | n.d. | n.d. | >100 | n.d. | n.d. | Stojanović et al., |
OM - organic matter, Rep. - reproduction, n.d. - not determined., germ.- germination.
Figure 3Seed germination of plants.
Average number of emerged seeds in monocotyledonous, Avena sativa and Zea mays and in dicotyledonous species, Lycopersicon esculentum and Lactuca sativa, grown in PTRS1 soil contaminated with U. The error bars indicate the standard deviation.
Figure 4Growth of plants.
Average values of fresh mass and dry mass in monocotyledonous, Avena sativa and Zea mays and in dicotyledonous species, Lycopersicon esculentum and Lactuca sativa grown in PTRS1 soil, contaminated with U. The error bars indicate the standard deviation. The asterisks point out significantly differences from the control (P<0.05).
Soil quality guideline values derived for copper in Portugal, USA and Canada (mg U Kg−1 soildw).
| Portugal | Canada | Other reference | |||
| Backgound concentrations | PNEC | Proposed SSV | SQGE
| ||
| NOEC | EC20 | ||||
| 7.8 | 23.3 | 15.5 | 15.5 | 23 | 100 |
Caetano et al.[49];
SSV - soil screening value;
Canadian Soil Quality Guidelines for environmental health (SQGe), Scott-Fordsmand and Pedersen [116].;
Sheppard and Sheppard [98].