The applicability of compost, zeolite and calcium oxide in assisted remediation of acidic soil contaminated with Cr(III) and Cr(VI)

Radziemska, Maja; Wyszkowski, Mirosław; Bęś, Agnieszka; Mazur, Zbigniew; Jeznach, Jerzy; Brtnický, Martin

doi:10.1007/s11356-019-05221-y

Cited by 23 publications

(15 citation statements)

References 43 publications

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“…Comparable conclusions were presented by Malinowska and Jankowski [ 84 ], who indicated a stronger negative correlation between the application of lime (in the form of CaCO 3 ) than sewage sludge and the cobalt content in the soil. The suitability of the liming process in the immobilisation of trace elements in the soil was also demonstrated by Cui et al [ 85 ], Kosiorek and Wyszkowski [ 86 ], and Radziemska et al [ 87 ]. The competition between Ca 2+ and the trace element ions and their reduced mobility in soils with elevated pH reduces the contents of bioavailable forms of these elements and their rate of translocation to plant organs [ 88 ].…”

Section: Discussionmentioning

confidence: 79%

Trace Element Contents in Petrol-Contaminated Soil Following the Application of Compost and Mineral Materials

Wyszkowski

Kordala

2022

Materials

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The global use of petroleum hydrocarbons as raw materials and an energy source in industry results in serious environmental, health, and ecological problems. Consequently, there is growing interest in the development of technologies for the rehabilitation of contaminated areas. This study was undertaken in order to determine the effect of different phytostabilising materials (compost, bentonite, and CaO) on the trace element content in soil contaminated with unleaded petroleum 95 (0, 2.5, 5, and 10 cm3 kg−1 of soil). The doses of petroleum applied to the soil were based on the previously conducted preliminary experiment. The highest petroleum dose (10 cm3 kg−1 of soil) significantly reduced the chromium, zinc, and cobalt contents in the soil. Petroleum increased the cadmium, lead, nickel, and copper contents in the soil. The materials used for phytostabilisation (compost, bentonite, calcium oxide) had a significant effect on the trace element content in the soil. The application of mineral materials (bentonite and calcium oxide) was more effective than the application of compost, compared to the control series (without soil amendments) as they reduced the contents of cadmium, chromium, nickel, and cobalt in the soil to the greatest extent. The reduction effect of bentonite and calcium oxide on the content of these trace elements in the soil was stronger than compost.

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Section: Discussionmentioning

confidence: 79%

Trace Element Contents in Petrol-Contaminated Soil Following the Application of Compost and Mineral Materials

Wyszkowski

Kordala

2022

Materials

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“…In the current study, soils contaminated with high levels of PTE were effectively remediated through the combined application of L. luteus and mineral-based amendments. In other studies, mineral-based amendments such as zeolite, CaO, bentonite, and dolomite effectively immobilized PTE in soil and increased the yields of the tested plants [37]. The mechanism by which plant roots absorb PTE is highly complex and involves several processes, including cation exchange across cell walls, intracellular transport and rhizosphere processes [38,39].…”

Section: Discussionmentioning

confidence: 91%

Immobilization of Potentially Toxic Elements (PTE) by Mineral-Based Amendments: Remediation of Contaminated Soils in Post-Industrial Sites

et al. 2020

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In many post-industrial sites, the high contents and high mobility of different potentially toxic elements (PTEs) make the soils unsuitable for effective management and use. Therefore, immobilization of PTE seems to be the best remediation option for such areas. In the present study, soil samples were collected in post-industrial areas in Northeastern Poland. The analyzed soil was characterized by especially high contents of Cd (22 mg·kg−1), Pb (13 540 mg·kg−1), and Zn (8433 mg·kg−1). Yellow lupine (Lupinus luteus L.) and two types of mineral-based amendments were used to determine their combined remediation effect on PTE immobilization. A greenhouse pot experiment was conducted to evaluate the influence of chalcedonite and halloysite on plant growth, chlorophyll a fluorescence, the leaf greenness index (SPAD), PTE uptake, and the physicochemical properties and toxicity of soil. The application of chalcedonite resulted in the greatest increase in soil pH, whereas halloysite contributed to the greatest reduction in the contents of Ni, Pb, Zn, and Cr in soil, compared with the control treatment. The addition of halloysite significantly increased plant biomass. The application of mineral-based amendments increased the ratio of variable fluorescence to maximum chlorophyll fluorescence (Fv/Fm) in yellow lupine leaves. The leaf greenness index was highest in plants growing in soil amended with chalcedonite. The results of this study suggest that mineral-based amendments combined with yellow lupine could potentially be used for aided phytostabilization of multi-PTE contaminated soil in a post-industrial area.

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“…In addition to analyzing the amount of yield, the levels of CaO compounds in the sample can also be analyzed. Calculation of the levels of CaO compounds was analyzed using equation (3). The results of the calculation of the CaO content are shown in Figure 3.…”

Section: Resultsmentioning

confidence: 99%

“…CaO compounds were obtained from the content of CaCO3. in the dominant shellsThis compound has many applications including as a source of green catalysts, as a raw material for making hydroxyapatite, as a material to increase the power of hydrogen (PH) in both water and soil, and many others [1]- [3]. From the results of research on the processing of clam shells , p. maxima produces green catalysts that are alkaline, heterogeneous, and environmentally friendly.…”

Section: Introductionmentioning

confidence: 99%

Characteristics of Calcium Oxide from Pearl Shells (Pinctada Maxima) based on Calcination Te

Handayana

Kurniawidi²,

Rahayu³

et al. 2022

Konstan

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Pearl clam shell waste can be decomposed as a result of CaO compounds. CaO is a compound that can be applied in various fields such as biomaterials, electronics, agricultural industries, and others, for example as a source of biological calcium which plays a role in the growth and survival of shrimp, lobsters, and fish. This study aims to examine the effect of Calcination Temperature on calcium oxide (CaO) characteristics of pearl clam shells (Pinctada Maxima). The procedures carried out in this study include the preparation of pearl clam shells (pinctada maxima), the formation of Calcium Oxide (CaO) using the calcination method which is then continued with the characterization of the test sample. The CaO characteristics studied include CaO characteristics such as CaO compound content, powder size, powder density, bulk density and porosity. The results of measuring the CaO characteristics of pearl clam shells with variations in calcination temperature get an increase in calcination temperature resulting in the CaO yield value tending to decrease with an increase in CaO levels. Bulk density is not particularly affected by calcination temperature, but powder density tends to increase with temperature increase, whereas, porosity and particle size have smaller values. Interestingly, the values of density and porosity are inversely proportional which is closely related to empty cavities or pores formed as a result of differences in calcination temperature.

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The applicability of compost, zeolite and calcium oxide in assisted remediation of acidic soil contaminated with Cr(III) and Cr(VI)

Cited by 23 publications

References 43 publications

Trace Element Contents in Petrol-Contaminated Soil Following the Application of Compost and Mineral Materials

Trace Element Contents in Petrol-Contaminated Soil Following the Application of Compost and Mineral Materials

Immobilization of Potentially Toxic Elements (PTE) by Mineral-Based Amendments: Remediation of Contaminated Soils in Post-Industrial Sites

Characteristics of Calcium Oxide from Pearl Shells (Pinctada Maxima) based on Calcination Te

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