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Feasibility Study on Phytoremediation of Malachite Green Dye from Contaminated Aqueous Solutions Using Watercress (Nasturtium Officinale)
S Torbati,
Volume 9, Issue 4 (3-2017)
Abstract

Background and Objective: Malachite green dye is used in many industries including textile industries. Disposal of wastewaters containing the dye to the environment, can lead to many environmental problems. Currently, many physico-chemical approaches are used for wastewater treatment. Because of limitations and difficulties of these methods, biological treatment is considered as an economic and effective treatment method. The aim of the present study was to study the feasibility of phytoremediation of malachite green dye using watercress and investigate the effect of some environmental factors in removal efficiency.

Materials and Methods: After collection, the plants were kept in the laboratory, and they were treated with different concentrations of malachite green. During the experiments, decolorization extent was determined by UV-Vis spectrophotometry. Intermediate compounds generated during the biodegradation of the pollutant were identified using GC-MS method.

Results: After 7 days, the ability of watercress in removal and biodegradation of 10 mg/L of malachite green solution was more than 90%. Five intermediate compounds were identified in the biodegradation pathway of the pollutant. It was also found that increasing dye concentration up to 20 mg/L led to the increase of the plant photosynthetic pigment contents and activities of antioxidant enzymes.

Conclusion: Our results showed that watercress has high ability in the dye removal of malachite green. The reusability of the plant for decolorization confirmed the biological degradation process. Moreover, an increase in the plant biomass, temperature and pH led to the increased decolorization efficiency.


Determining the concentration of Ag, Pb and Zn elements in some indigenous plant species grown in Zarshouran mining area, northwestern Iran
Samaneh Torbati, Shokouh Esmailbegi Kermani,
Volume 15, Issue 3 (12-2022)
Abstract
Background and Objective: Phytoremediation is one of the eco-friendly treatment methods that can play important role in removing heavy metals. In the present research that was done in 2021, the potential of 20 plant species for treatment of silver, lead, and zinc elements from the soil of Zarshouran mine area was evaluated.  
Materials and Methods: Sampling of the soil and plants were done following the selection of 20 sampling points. After preparing the samples, the amount of the studied elements were determined by inductively coupled plasma mass spectrometry (ICP-MS). Metal pollution levels in the soil were assessed using the enrichment factor (EF). Moreover, the enrichment coefficient of root (ECR) and shoot (ECS), translocation factor (TF) and metal accumulation index (MAI) were calculated.
Results: A high contamination of Ag, Pb and Zn elements were determined in the soil of the studied area. Two plant species Astragalus rostratus and Prangos ferulacea had ECS and TF higher than one for Ag. Also, only Eryngium billaridieri and Scrozonera latifolia had ECS/ECR >1 and TF <1 for the three elements. The highest amount of MAI in root and shoot belonged to E. billardieri with values ​​of 29.7 and 16.2, respectively.
Conclusion: A. rostratus and P. ferulacea had the potential for phytoextraction of Ag from the soil. Also, only two species E. billaridieri and S. latifolia were able to phytostabilization all three elements. Based on MAI values, E. billardieri had the greatest ability to bioaccumulate Ag, Pb and Zn elements.

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