The present study gave a preliminary report on the phytofiltration of iron-contaminated waters and aggravation of iron uptake by copper supplementation using Typha latifolia L. in constructed microcosms. During the experiment, Fe concentrations reduced up to 1.67 ± 0.076 mg L⁻¹ (94.43% removal efficiency) and 0.087 ± 0.013 mg L⁻¹ (97.10% removal efficiency) by 14th day from the initial concentrations of 30 mg L⁻¹ in the microcosm setups. Iron accumulation in the plant tissues was 2425.65 ± 41.01 mg kg⁻¹ (Fe with Cu) compared with 1446.00 ± 36.01 mg kg⁻¹ (without Cu), revealing that Cu addition in the microcosm setup magnifies Fe accumulation and removal. Thus, the results signify that constructed wetlands (CW) can serve as the low-cost, ecofriendly alternative for wastewater treatment.

本研究给出了关于在被构造的微观世界中铁污染水的植物滤过和通过使用香蒲对铜补充铜的铁吸收的加剧的初步报告。在实验过程中，第14天铁的浓度从最初的30 mg L ^-1浓度降低到第14天的1.67±0.076 mg L ^-1（94.43％去除效率）和0.087±0.013 mg L ^-1（97.10％去除效率）。微观世界的设置。植物组织中的铁累积为2425.65±41.01 mg kg ^-1（铁和铜），而1446.00±36.01 mg kg ^-1（不含铜），表明在微观世界中添加铜会放大铁的积累和去除。因此，结果表明人工湿地（CW）可以作为低成本，环保的废水处理替代方案。