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Use of Alternative Soil Amendments to Enhance the Phytoremediation Capacity of Heavy Metal Hyperaccumulator Plants
Use of Alternative Soil Amendments to Enhance the Phytoremediation Capacity of Heavy Metal Hyperaccumulator Plants
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Use of Alternative Soil Amendments to Enhance the Phytoremediation Capacity of Heavy Metal Hyperaccumulator Plants
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Use of Alternative Soil Amendments to Enhance the Phytoremediation Capacity of Heavy Metal Hyperaccumulator Plants
Use of Alternative Soil Amendments to Enhance the Phytoremediation Capacity of Heavy Metal Hyperaccumulator Plants

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Use of Alternative Soil Amendments to Enhance the Phytoremediation Capacity of Heavy Metal Hyperaccumulator Plants
Use of Alternative Soil Amendments to Enhance the Phytoremediation Capacity of Heavy Metal Hyperaccumulator Plants
Journal Article

Use of Alternative Soil Amendments to Enhance the Phytoremediation Capacity of Heavy Metal Hyperaccumulator Plants

2025
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Overview
The current investigation involved preliminary laboratory research regarding the accumulation capacity of three types of hyperaccumulator plants when specific soil factors are altered during their cultivation. Three different plants participated in this experiment, namely, milk thistle (Silybum marianum (L.) Gaerth), industrial hemp (Cannabis sativa L.), and tobacco (Nicotiana tabacum L.), which were cultivated in two soils with different pH values, yet containing similar levels of metal pollutants. ABC fire extinguisher powder (FP), which had been tested in the past and found to cause a significant change in nutrient availability, was added to the soils. The FP was added at 1% v/v and, in order to facilitate its fast incorporation into the soil, the soil moisture was maintained at 60–65%. The experiment was conducted in pots where the plants were grown in contaminated soils, with and without the FP addition. The pseudo-total (after extraction with Aqua Regia), available (after extraction with DTPA), and water-soluble concentrations (after extraction with CaCl2 solution) of Cd, Cr, and Cu were determined in the soils. The plants completed their growth cycle (in 112, 128, and 139 days, respectively), were harvested, and the metal concentrations were assessed after extraction with Aqua Regia, both in the underground and above-ground parts. FP addition caused a significant decrease in the availability of each of the three metals, yet mainly Cr, as it caused a maximum reduction of 19.6% and 16.0% in the rate of water-soluble and available (after extraction with DTPA) Cr, respectively, in relation to the total Cr concentration in acidic soil, revealing the decisive role played by soil reaction in metal availability. FP addition caused a significant Cd reduction in accumulation in the above-ground parts of cultivated plants in the order of hemp > thistle > tobacco. FP use appears to significantly alter the plant-to-soil metal transfer, affecting the plants’ ability to accumulate Cd, Cr, and Cu. Apparently, this material, disposed of in the environment, could be a useful and low-cost soil conditioner, in line with the principles of the circular economy.