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作者机构:Botany and Microbiology Department Faculty of Science Helwan University Helwan Egypt Molecular Biotechnology Program Chemistry Department Faculty of Science Helwan University Helwan Egypt
出 版 物:《BMC Plant Biology》
年 卷 期:2025年第25卷第1期
页 面:1-18页
摘 要:One of the primary challenges that the expanding population faces is water scarcity. Thus, a global imperative has been established to safeguard extant water resources and optimize their utility through sustainable practices and efficient management. In the present investigation, Azolla pinnata, a pteridophyte (fern), was employed to phytoremediate Cr (VI) from chromium-polluted water. The potential of this treated water for agricultural purposes was verified through the use of Vicia faba plants. In vitro, A. pinnata effectively remediates Cr (VI) from an array of liquid concentrations (0.05 to 90 ppm) in a ratio of 25:1 {volume (mL): fresh weight of Azolla (g)} after 2 days incubation period at room temperature. At low concentrations (0.1 ppm), the phytoremediation capacity peaked at 70%, falling to 19.53% at a high concentration (90 ppm). Upon continuous irrigation with Cr-polluted water (0.05 to 50 ppm), the in vivo pot experiment on Vicia faba plants revealed high Cr accumulation in the roots reached 52.5 mg Kg-1 dry weight (Dwt) at the 50 ppm Cr treatment. Nevertheless, a reduced Cr content of 19.5 mg Kg-1 Dwt was observed when the plants were irrigated with 50 ppm Cr-polluted water that had been treated with Azolla. At 50 ppm of Cr, Azolla s treatment significantly increased shoot length, fresh weight, and Chl a content to 25.25 cm, 3.4 g, and 6.5 mg g-1 Dwt, respectively, up from 10.25, 1.8, and 4.7 in untreated plants. The chromosomal aberrations were significantly induced in the dividing cells of all Cr treatments, with the highest value of 4.8% at 50 ppm. This value was reduced to 2.88% at the same concentration when treated with Azolla. At a concentration of 10 ppm Cr, the mitotic index was significantly improved to 6.99% when combined with Azolla, as opposed to 3.63% when the same concentration was used without Azolla. The DNA degradation assay showed partial DNA degradation at 50 ppm Cr, which the Azolla treatment eliminated. Furthermore, the