尼日利亚卡杜纳Panteka河水葫芦植物修复指数

Victoria Moltong Yilwa, Nwankwo Cornelius Tochukwu, Emere Matthew Chika, Adejo Peter Ojodale, Danfulloh Tundeno Barde
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摘要

水生环境不断受到高毒性重金属的污染,这些重金属在自然界中具有生物蓄积性和持久性。本调查旨在评估生长在卡杜纳州潘特卡河的水葫芦(Eichhornia crassipes)的植物修复潜力,该河流进行机械和农业活动。有三个采样点(A, B和C)和池塘水,其中农业为主,使用植物修复指数作为对照点(D)。采用原子吸收分光光度法(AAS)测定了在A、B、C采样点和对照点生长的葡萄根、茎部样品中镉(Cd)、铬(Cr)、铜(Cu)、镍(Ni)、铅(Pb)和锌(Zn)的浓度。通过生物积累系数和转运因子计算植物修复指数。结果表明,根样重金属积累量高于茎样。在B点,重金属Zn在根和芽中的累积量最高,分别为335.32±23.6和256.52±30.82 mg/kg。在本研究中,重金属迁移效率高,生物积累系数和迁移因子均大于1。镍的生物积累系数和易位因子最高,锌的易位因子小于1。这表明,十字花科植物是一种潜在的超积累植物。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Phytoremediation Indices of Water Hyacinth (Eichhornia crassipes) Growing in Panteka Stream, Kaduna, Nigeria
The aquatic environment is incessantly polluted by the release of high toxic concentrations of heavy metals which are bio-accumulative and persistent in nature. This investigation was conducted to assess the phytoremediation potential of water hyacinth (Eichhornia crassipes) growing in Panteka stream, Kaduna where mechanic and farming activities are carried out. Having three sampling points (A, B and C) and pond water, where farming is predominant served as the control site (D) using phytoremediation indices. The root and shoot samples of E. crassipes grown at the sampling points (A, B, C) and the control were analyzed to determine heavy metal concentrations of cadmium (Cd), chromium (Cr), copper (Cu), nickel (Ni), lead (Pb), and zinc (Zn) through Atomic Absorption Spectrophotometry (AAS). The phytoremediation indices were calculated via bioaccumulation coefficient and translocation factor. The results showed that the root samples had higher accumulation of heavy metals than the shoot samples. During the analysis the heavy metal Zn was noted to be accumulated the highest in roots and shoots (335.32 ± 23.6 and 256.52 ± 30.82) mg/kg at sampling point B respectively. In this present analysis heavy metals were translocated efficiently and had bioaccumulation coefficient and translocation factor greater than one. Nickel had the highest bioaccumulation coefficient and translocation factor, and Zn had a translocation factor that was less than one across all samples. This implies that E. crassipes is a potential hyperaccumulator plant for phytoremediation.
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