Potential of live Spirogyra sp. in the bioaccumulation of copper and nickel ions: A study on suitability and sustainability

Aim Various industrial and municipal wastes are the major sources of heavy metal contamination in water causing significant environmental issues. Bioremediation is an effective and affordable solution for the removal of metals and metal pollutants from industrial wastewater. This study aimed to asse...

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Bibliographic Details
Published in:Journal of applied microbiology 2022-01, Vol.132 (1), p.331-339
Main Authors: Shah, Neha, Sohani, Smruti, Thakkar, Sampark, Doshi, Hiren, Gupta, Govind
Format: Article
Language:English
Subjects:
Adsorption
Aqueous solutions
Bioaccumulation
Bioremediation
Contamination
Copper
freundlich model
Heavy metals
Hydrogen-Ion Concentration
Industrial pollution
Industrial wastes
Industrial wastewater
infrared spectroscopy
Ion adsorption
Ions
Kinetics
langmuir model
Metal industry wastewaters
Metal ions
Metals, Heavy
Municipal wastes
Nickel
Pollutant removal
Pollutants
scanning electron microscopic spectroscopy
Scanning electron microscopy
Sorption
Spirogyra
Spirogyra sp
Sustainability
Waste management
Wastewater
Wastewater management
Wastewater pollution
Water Pollutants, Chemical
Water pollution
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Summary:Aim Various industrial and municipal wastes are the major sources of heavy metal contamination in water causing significant environmental issues. Bioremediation is an effective and affordable solution for the removal of metals and metal pollutants from industrial wastewater. This study aimed to assess the efficacy of live and dead Spirogyra sp. for sorption of metals like of Cu2+ and Ni2+. Methods and Results The live Spirogyra sp. was used for the uptake of Cu2+ and Ni2+ from their aqueous solutions. The equilibrium data were fitted using a Langmuir and Freundlich isotherm model; the maximum uptakes for Cu2+ and Ni2+ were 29 and 521 mg g−1, respectively. Scanning electron microscopic (SEM) and infrared (IR) spectroscopic studies of Spirogyra sp. and treated Spirogyra sp. with specific metal ions were used to assess the bonding site and extent of sorption mechanism. Conclusion The initial study showed that this biomass takes up a significant amount of metal ions. Compared to the Langmuir model, the Freundlich model showed better sorption process. The pseudo‐second‐order rate model represented an enhanced kinetics of metal ion adsorption using live Spirogyra sp. Significance and Impact of the Study As bioaccumulation technology is environmental friendly and potentially cost‐effective, live Spirogyra sp. is expected to be a good candidate for managing industrial wastewater.
ISSN:1364-5072
1365-2672
DOI:10.1111/jam.15188