Phytoremediation of electroplating wastewater by vetiver grass (Chrysopogon zizanoides L.)

The electroplating industry generates wastewater containing a variety of heavy metals which potentially contaminate water ecosystems. The available and well-known electroplating wastewater treatments are considered as an expensive and less effective method, therefore phytoremediation was used as an...

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Bibliographic Details
Published in:Scientific reports 2021-07, Vol.11 (1), p.14482-14482, Article 14482
Main Authors: Nugroho, Andhika Puspito, Butar, Erni Saurmalinda Butar, Priantoro, Ekaputra Agung, Sriwuryandari, Lies, Pratiwi, Zulfa Berliana, Sembiring, Tarzan
Format: Article
Language:English
Subjects:
704/172/169/896
704/844
Absorption
Atomic absorption spectroscopy
Bioaccumulation
Biological magnification
Chromium
Chrysopogon
Electroplating
Heavy metals
Humanities and Social Sciences
Industrial wastewater
Metals
multidisciplinary
Nickel
Phytoremediation
Science
Science (multidisciplinary)
Shoots
Spectral analysis
Spectrometry
Translocation
Wastewater treatment
Water pollution
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Summary:The electroplating industry generates wastewater containing a variety of heavy metals which potentially contaminate water ecosystems. The available and well-known electroplating wastewater treatments are considered as an expensive and less effective method, therefore phytoremediation was used as an alternative friendly solution. This study aims to evaluate the uptake and elimination rate of heavy metals by vetiver ( Chrysopogon zizanoides L.) on metal-polluted water. Vetiver was planted in artificial electroplating wastewater containing different levels (low, medium, high) of chromium (Cr) and nickel (Ni). Water, roots, and shoots were collected periodically to determine Cr and Ni contents using Atomic Absorption Spectrometry (AAS). Metal accumulation and elimination rate, Bioconcentration Factor (BCF), Biological Absorption Coefficient (BAC), and Translocation Factor (TF) were calculated to evaluate plant’s effectiveness in metal remediation processes. The results showed that vetiver ( C. zizanoides L. ) was able to remove 61.10% Cr and 95.65% Ni on metal-contaminated water. The highest uptake rates for Cr and Ni are 127.21 mg/kg/day and 15.60 mg/kg/day respectively, while the elimination rates for Cr and Ni tend to slow 1.09 mg/kg/day and 12.24 mg/kg/day respectively. Vetiver BCF, BAC, and TF values on Cr and Ni contaminated water were greater than 1, which indicates that vetiver work through phytoextraction and phytostabilization to treat metals. The findings showed that vetiver has promise as a phytoremediation agent thus providing implication for electroplating wastewater treatment.
ISSN:2045-2322
2045-2322
DOI:10.1038/s41598-021-93923-0