Chromium Bioremediation + Thesis

Chromium Bioremediation + Thesis-28
Furthermore, this article discussed the biosorption capacity with respect to the use of bacteria, fungi, biofilm, algae, genetically engineered microbes, and immobilized microbial cell for the removal of heavy metals.The use of biofilm has showed synergetic effects with many fold increase in the removal of heavy metals as sustainable environmental technology in the near future.Several inorganic metals like magnesium (Mg), nickel (Ni), chromium (Cr), copper (Cu), calcium (Ca), manganese (Mn), and sodium (Na) as well as zinc (Zn) are vital elements needed in small quantity for metabolic and redox functions.

Furthermore, this article discussed the biosorption capacity with respect to the use of bacteria, fungi, biofilm, algae, genetically engineered microbes, and immobilized microbial cell for the removal of heavy metals.The use of biofilm has showed synergetic effects with many fold increase in the removal of heavy metals as sustainable environmental technology in the near future.Several inorganic metals like magnesium (Mg), nickel (Ni), chromium (Cr), copper (Cu), calcium (Ca), manganese (Mn), and sodium (Na) as well as zinc (Zn) are vital elements needed in small quantity for metabolic and redox functions.

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For instance, the use of microbial fuel cell (MFC) to degrade recalcitrant heavy metals has been explored.

Biofilm-mediated bioremediation can be applied for cleaning up of heavy metal contaminated environment.

The direct use of microorganisms with distinctive features of catabolic potential and/or their products such as enzymes and bio surfactant is a novel approach to enhance and boost their remediation efficacy [15, 16].

Different alternatives have also been anticipated to widen the applications of microbiological techniques towards the remediation of heavy metals.

Industrial tannery wastewater is a major source of heavy metal contamination in our environment.

Heavy metals are of economic significance in industrial use and the most important pollutants in the environment.

Several microorganisms have evolved to develop detoxification mechanisms to counter the toxic effects of these inorganic metals.

This present review offers a critical evaluation of bioremediation capacity of microorganisms, especially in the context of environmental protection.

Microbial-metal interactions is primarily focused on metals removal, i.e., remediation and depollution.

The recent revival of the use of solid-state electrodes as electron donors or acceptors for microbial growth has brought innovative prospects, resulting to microbial-electrochemical technologies (METs) [18].

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