Suitability of environmental indices in assessment of soil remediation with conventional and next generation washing agents

Klik, Barbara; Gusiatin, Zygmunt M.; Kulikowska, Dorota

doi:10.1038/s41598-020-77312-7

Cited by 21 publications

(11 citation statements)

References 45 publications

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“…The advantage of using TA is that it decreases metal mobility (MF), defined as the ratio of the metal concentration in the F1 fraction to the sum of the metal concentrations in the F1, F2, F3, and F4 fractions [ 20 ]. Based on the MF, metal in soil can be considered immobile (<1%), weakly mobile (1–10%), moderately mobile (11–30%), highly mobile (31–50%), or very highly mobile (>50%) [ 7 ]. On the basis of this classification, metals in the unflushed soil were highly and very highly mobile.…”

Section: Resultsmentioning

confidence: 99%

“…The distribution of the metals in the soil was determined using a modified BCR (Commission of the European Communities Bureau of Reference) procedure [ 31 ] in which metals were fractionated into four fractions using specific reagents: exchangeable and acid-soluble (mobile F1) extracted with 0.11 mol/L CH 3 COOH; reducible (potentially mobile F2) extracted with 0.5 mol/L NH 2 OH·HCl; oxidizable (potentially mobile F3) extracted with 1 mol/L CH 3 COONH 4 ; residual (immobile F4) extracted with HCl and HNO 3 mixed at a volume ratio of 3:1. Based on metal fractionation, the mobility factor (MF) was calculated [ 7 ] to compare metal mobility in soil before and after soil flushing. All physico-chemical analyses were performed in triplicate.…”

Section: Methodsmentioning

confidence: 99%

“…This may be related to the fact that soil washing usually removes pollutants more efficiently than soil flushing. Both methods differ in hydrodynamic conditions [ 7 ]. In soil washing, the soil is thoroughly mixed with the washing solution, whereas in soil flushing, the solution is percolated through the soil.…”

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Short-Term Soil Flushing with Tannic Acid and Its Effect on Metal Mobilization and Selected Properties of Calcareous Soil

Gusiatin

Kaal²,

Wasilewska

et al. 2021

IJERPH

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Cadmium, Cu, Ni, Pb, and Zn removal via soil flushing with tannic acid (TA) as a plant biosurfactant was studied. The soil was treated for 30 h in a column reactor at a constant TA concentration and pH (3%, pH 4) and at variable TA flow rates (0.5 mL/min or 1 mL/min). In the soil leachates, pH, electrical conductivity (EC), total dissolved organic carbon, and metal concentrations were monitored. Before and after flushing, soil pH, EC, organic matter content, and cation exchange capacity (CEC) were determined. To analyze the organic matter composition, pyrolysis as well as thermally assisted hydrolysis and methylation coupled with gas chromatography-mass spectrometry were used. Metal fractionation in unflushed and flushed soil was analyzed using a modified sequential extraction method. The data on cumulative metal removal were analyzed using OriginPro 8.0 software (OriginLab Corporation, Northampton, MA, USA) and were fitted to 4-parameter logistic sigmoidal model. It was found that flushing time had a stronger influence on metal removal than flow rate. The overall efficiency of metal removal (expressed as the ratio between flushed metal concentration and total metal concentration in soil) at the higher flow rate decreased in this order: Cd (86%) > Ni (44%) > Cu (29%) ≈ Zn (26%) > Pb (15%). Metals were removed from the exchangeable fraction and redistributed into the reducible fraction. After flushing, the soil had a lower pH, EC, and CEC; a higher organic matter content; the composition of the organic matter had changed (incorporation of TA structures). Our results prove that soil flushing with TA is a promising approach to decrease metal concentration in soil and to facilitate carbon sequestration in soil.

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Section: Resultsmentioning

confidence: 99%

Section: Methodsmentioning

confidence: 99%

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Short-Term Soil Flushing with Tannic Acid and Its Effect on Metal Mobilization and Selected Properties of Calcareous Soil

Gusiatin

Kaal²,

Wasilewska

et al. 2021

IJERPH

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“…In recent studies on soil washing, the I r was a useful tool to evaluate metal-binding intensity in different matrices (soil, sludge), contaminated with different metals at different concentrations, washed under different conditions with various washing agents and with different effectiveness of metals removal [ 29 ]. Tang et al [ 51 ] demonstrated that after triple washing of sewage sludge with combined rhamnolipid and saponin, the stability of Cu increased from 0.23 to 0.47, and that of Pb from 0.25 to 0.55.…”

Section: Resultsmentioning

confidence: 99%

“…Metal stability in contaminated and washed soil, based on their chemical fractionation, was calculated according to Equation (2):

where i is the index number of the BCR sequential extraction step, progressing from 1 (for F1 fraction) to 4 (for F4 fraction), k is the total number of fractions in the BCR procedure, F i is relative metal content in fraction i. The classification of metal stability based on the I r is as follows: lack of stability (I r ≤ 0.1), low stability (0.1 < I r ≤ 0.3), medium stability (0.3 < I r ≤ 0.5), elevated stability (0.5 < I r ≤ 0.7), high stability (0.7< I r ≤ 0.9) [ 29 ].…”

Section: Methodsmentioning

confidence: 99%

Remediation of Smelter Contaminated Soil by Sequential Washing Using Biosurfactants

Gusiatin

Kumpienė

Carabante

et al. 2021

IJERPH

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This paper presents experimental results from the use of biosurfactants in the remediation of a soil from a smelter in Poland. In the soil, concentrations of Cu (1659.1 mg/kg) and Pb (290.8 mg/kg) exceeded the limit values. Triple batch washing was tested as a soil treatment. Three main variants were used, each starting with a different plant-derived (saponin, S; tannic acid, T) or microbial (rhamnolipids, R) biosurfactant solution in the first washing, followed by 9 different sequences using combinations of the tested biosurfactants (27 in total). The efficiency of the washing was determined based on the concentration of metal removed after each washing (CR), the cumulative removal efficiency (Ecumulative) and metal stability (calculated as the reduced partition index, Ir, based on the metal fractions from BCR sequential extraction). The type of biosurfactant sequence influenced the CR values. The variants that began with S and R had the highest average Ecumulative for Cu and Pb, respectively. The Ecumulative value correlated very strongly (r > 0.8) with the stability of the residual metals in the soil. The average Ecumulative and stability of Cu were the highest, 87.4% and 0.40, respectively, with the S-S-S, S-S-T, S-S-R and S-R-T sequences. Lead removal and stability were the highest, 64–73% and 0.36–0.41, respectively, with the R-R-R, R-R-S, R-S-R and R-S-S sequences. Although the loss of biosurfactants was below 10% after each washing, sequential washing with biosurfactants enriched the soil with external organic carbon by an average of 27-fold (S-first variant), 24-fold (R first) or 19-fold (T first). With regard to environmental limit values, metal stability and organic carbon resources, sequential washing with different biosurfactants is a beneficial strategy for the remediation of smelter-contaminated soil with given properties.

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Heavy metal stabilization remediation in polluted soils with stabilizing materials: a review

Cui

Duan

et al. 2023

Environ Geochem Health

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Suitability of environmental indices in assessment of soil remediation with conventional and next generation washing agents

Cited by 21 publications

References 45 publications

Short-Term Soil Flushing with Tannic Acid and Its Effect on Metal Mobilization and Selected Properties of Calcareous Soil

Short-Term Soil Flushing with Tannic Acid and Its Effect on Metal Mobilization and Selected Properties of Calcareous Soil

Remediation of Smelter Contaminated Soil by Sequential Washing Using Biosurfactants

Heavy metal stabilization remediation in polluted soils with stabilizing materials: a review

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