Copper Availability in an Acidic and Limed Zeolite-Amended Soil

Antoniadis, Vasileios; Damalidis, K.

doi:10.1080/00103624.2014.882351

Cited by 4 publications

(6 citation statements)

References 13 publications

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“…As a result, the authors showed that zeolite used with lime reduced the Cu concentration by 43.0%. In the present study, the soil was characterized by much higher pH (pH KCl = 6.44), at which the effect demonstrated by Antoniadis and Damalidis [61] was not observed after the application of zeolite.…”

Section: Chemical Composition Of Plantscontrasting

confidence: 53%

“…In the case of lime, a particularly significant mitigating effect of copper is observed in acidic soils. Antoniadis and Damalidis [61] showed that 100 days after the application of 6.6 Mg of lime ha −1 to soil with pH = 3.8, the Cu concentration in plants was 21.0% lower compared to the objects without liming. At the same time, the authors emphasize the significant influence of zeolite, which, when applied at a dose of 3.3-10.0% of the soil mass on the 50th day of the research, was more effective than lime in reducing copper uptake.…”

Section: Chemical Composition Of Plantsmentioning

confidence: 99%

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Mineral Materials as a Neutralizing Agent Used on Soil Contaminated with Copper

et al. 2021

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The aim of the investigation was to evaluate the response of plants, using black mustard (Brassica nigra L. Koch) as a model plant, to soil contamination with copper (0, 200, 400, 600 mg Cu kg−1 of soil), and to determine the effectiveness of the Cu immobilization with mineral neutralizing materials, such as lime, clay and zeolite. The plant yield depended on soil contamination and mineral amendments. In the series without neutralizing materials, the level of 600 mg Cu kg−1 reduced the yield and increased leaf greenness. Lime alleviated the toxicity of Cu in objects with 200 mg Cu kg−1. Zeolite slightly mitigated the harmful effects of Cu at the level of 400 and 600 mg kg−1. Zeolite lowered the SPAD index. In the chemical composition of plants, the content of Cu, K, Mg, Na and Ca in plants increased to 400 mg Cu kg−1, while the content of P decreased to 600 mg Cu kg−1. Among the materials, lime reduced the Cu accumulation in plants the most, followed by clay. Cu narrowed the majority of ratios and widened the Ca:P and K:Ca ratios in plants. The applied mineral materials, except lime, did not significantly affect the formation of these indicators.

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Section: Chemical Composition Of Plantscontrasting

confidence: 53%

Section: Chemical Composition Of Plantsmentioning

confidence: 99%

Mineral Materials as a Neutralizing Agent Used on Soil Contaminated with Copper

et al. 2021

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“…The adsorption behaviour of zeolite in acidic Cu-polluted soil was investigated by Antoniadis and Damalidis [25]. The authors used clinoptilolite, with a cation-exchange capacity of 226 cmol c kg −1 as the availability-reduction method.…”

Section: Natural Zeolites and Soil Pollutionmentioning

confidence: 99%

“…Along the others, potential toxic metals can pose long-term health risks to both ecosystems and human beings [19][20][21][22][23][24]. Some of these elements naturally occur at low concentrations in soils, and they are essential micronutrients for plants, but high amounts also have toxic effects, because metals are generally not degradable [25][26][27][28][29]. A well-known example is represented by Cu, a heavy metal of both geogenic and anthropogenic origin.…”

Section: Introductionmentioning

confidence: 99%

Zeolite for Potential Toxic Metal Uptake from Contaminated Soil: A Brief Review

Belviso

2020

Processes

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Soil pollution is an increasingly urgent problem for the global environment. Soil can be contaminated with potential toxic metals from many anthropogenic activities, besides fossil fuel combustion and crude oil production, ranging from industry to mining and agriculture. Many technologies have been analysed to solve this type of environmental pollution and methods involving the use of minerals (e.g., clay minerals, zeolites, and natural silica adsorbents) are widely described in the literature. This article provides a summary of studies concerning the use of zeolites in soil remediation. A considerable number of these experiments were conducted using natural zeolites, while fewer concerned the utilization of synthetic zeolites. The mechanism controlling the successful application of these minerals was analysed through referring to global data published on this topic over the last few decades. This review also briefly discusses the limitations on zeolite applications and the drawbacks of the approaches analysed.

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“…Applications of various substances to the soil are much less frequent. Some of them are compost [14], bentonite [15] and zeolite [16]. In the above studies, they were used separately.…”

Section: _________________________mentioning

confidence: 99%

Effect Of Contamination With Copper And Mineral Or Organic Amendments On The Content Of Trace Elements In Soil

Wyszkowski

2017

Environ. Protect. Eng.

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Copper Availability in an Acidic and Limed Zeolite-Amended Soil

Cited by 4 publications

References 13 publications

Mineral Materials as a Neutralizing Agent Used on Soil Contaminated with Copper

Mineral Materials as a Neutralizing Agent Used on Soil Contaminated with Copper

Zeolite for Potential Toxic Metal Uptake from Contaminated Soil: A Brief Review

Effect Of Contamination With Copper And Mineral Or Organic Amendments On The Content Of Trace Elements In Soil

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