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Indices of Soil and Plant Cover Pollution Due to Re-Introduction of Sediment Water Under the Energy Willow on Aluvisol of Ukraine

Lopushniak Vasyl, Hrytsuliak Halyna, Jakubowski Tomasz, Voloshyn Yurii, Karavanovych Krystyna, Kachala Taras

Ecological Engineering & Environmental Technology

2023

Vol. 24, iss. 3

201--211

Municipal sewage sludge is considered as an important resource for replenishing organic carbon and mineral nutrition elements in the soil. However, its widespread use in the agricultural sector is associated with the risks of soil contamination by pollutants, in particular heavy metals, and their inclusion in trophic food chains. A relatively ecologically safe way to dispose of sewage sludge is to apply it to energy crops.In order to study the influence of sewage sludge application on the ecological condition of podzolic soil and the level of heavy metal contamination of plant cover, research was carried out in the Transcarpathian region of Ukraine on a willow plantation of the second cycle of energy use and repeated application of fresh sewage sludge and its composts with coniferous sawdust and grain straw cultures in different doses.Research has established that under the influence of the application of sewage sludge, the indicators of the content of heavy metals in the roots and above-ground shoots of energy willow significantly changed. The highest doses of sewage sludge of 60–80 t/ha led to a significant increase in the content of As, Mo, and Pb compared to other research options. The content of Fe, Zn, Sr, Y in these options was at the level of the option where compost was applied (sewage sludge + straw (3:1) + cement dust 10%) – 40 t/ha. Also, the use of cement dust in this version led to the highest Nb content. Ni, Cu.An increase in the content of heavy metals in the soil led to an increase in the translocation of heavy metals in energy willow plants. Application of the highest dose of sewage sludge in the experiment –80 t/ha (option 5) caused the highest translocation coefficients of Fe, Nb, Rb, Y, Mo. And the highest values of Sr, As, Pb translocation coefficients were noted in option 10, where compost was applied (sewage sludge + straw (3:1) + cement dust 10%) ‒ 40 t/ha, which indicates a significant influx of cement dust into the accumulation of these dangerous metals in plants. The highest value of the Integral index of energy willow plant pollution ‒ 222 was recorded in the variant where fresh sewage sludge was applied at the rate of 80 t/ha, which was 17‒20 points higher than the values of the closest variants of the experiment.

Bioaccumulation and Translocation of Heavy Metals in Plants Artichoke during Sewage Sediment in Podzols Soils

Lopushnyak Vasyl, Hrytsulyak Halyna, Voloshyn Yurii, Lopushniak Halyna, Baran Bogdana

Ecological Engineering & Environmental Technology

2022

Vol. 23, iss. 6

178--187

Application of sewage sludge (SS) as a fertilizer contributes to the intensity of Zn, Ga, Y, Zr, Rh, Pb uptake by Jerusalem artichoke plants. Also, the translocation coefficients of Zn, Sr, Y, Rh, Pb vary in a wide range of values, depending on the level of use of SS. Jerusalem artichoke culture is characterized by a significant potential for biological absorption of Ni, Cu, Zn, Ga, Y, Nb and especially Rh, and the translocation coefficient of all studied heavy metals was ˃1. Jerusalem artichoke is characterized by certain features of intra-tissue pollution by heavy metals under the influence of SS application, which leads to an increase in this indicator compared to the application of mineral fertilizers in an equivalent dose of Zn, Y, Zr, as well as Ni, Cu, Ga, Sr, Nb, Pb in the highest doses (option 6). The use of SS composts with straw in the experiment leads to a significant decrease in intratissue pollution indicators compared to the application of fresh SS. Moreover, increasing the dose of compost from 20 t/ha to 30 t/ha contributes to the reduction of intra-tissue contamination of plants with Cu, Zn, Sr, Zr, Nb, Pb. The highest levels of the Integral indicator of vegetation cover pollution are determined by the application of fresh SS at the SS rate of 40 t/ha + N10P14K58. Jerusalem artichoke culture, given its significant potential for translocation of heavy metals, can be successfully used for phytoremediation of technogenically polluted areas and grown with the introduction of SS as fertilizers.