Effects of pH and concentration on the capability of E. coli and S. epidermidis with bentonite clay as biosorbent for the removal of Copper, Nickel and Lead from polluted water

Remediation of heavy metal-contaminated soils has been drawing our attention toward it for quite some time now and a need for developing new methods toward reclamation has come up as the need of the hour. Conventional methods of heavy metal-contaminated soil remediation have been in use for decades and have shown great results, but they have their own setbacks. The chemical and physical techniques when used singularly generally generate by-products (toxic sludge or pollutants) and are not cost-effective, while the biological process is very slow and time-consuming. Hence to overcome them, an amalgamation of two or more techniques is being used. In view of the facts, new methods of biosorption, nanoremediation as well as microbial fuel cell techniques have been developed, which utilize the metabolic activities of microorganisms for bioremediation purpose. These are cost-effective and efficient methods of remediation, which are now becoming an integral part of all environmental and bioresource technology. In this contribution, we have highlighted various augmentations in physical, chemical, and biological methods for the remediation of heavy metal-contaminated soils, weighing up their pros and cons. Further, we have discussed the amalgamation of the above techniques such as physiochemical and physiobiological methods with recent literature for the removal of heavy metals from the contaminated soils. These combinations have showed synergetic effects with a many fold increase in removal efficiency of heavy metals along with economic feasibility.

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Recent advances in conventional and contemporary methods for remediation of heavy metal-contaminated soils

Sharma

et al. 2018

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ICP-OES: An Advance Tool in Biological Research

Sharma¹

2020

Open J Environ Biol

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Spectroscopic analysis has been considered as a promising tool for the quantitative detection of elements in a biological sample. Inductively coupled plasma optical emission spectrometry (ICP-OES) is an advanced trace element analysis technique that uses the emission spectrum of an excited atom to detect and quantify the element present in the sample. The samples are introduced in the instrument in a fi ne liquid form and the conversion and extraction of pure inorganic components of a solid sample is known as sample preparation. The method of sample preparation is determined on the basis of chemical and structural differences between non-biotic and biotic samples. The environmental safety, bio-remediation, food quality check, diagnostic and biological research laboratories have been frequently using ICP-OES techniques because comparatively high throughput, simultaneous multi-element analysis, high precision, massive dynamic linear range, high throughput and low cost are major advantages of the technique. Many reports are available considering the use of ICP-OES in the fi eld of environmental, petrochemical, metallurgical, geological and nano-technological studies but a collective review report is unavailable on the applications of ICP-OES specifi cally in biological samples.Present review is a collection of reports available on types of biological samples, variation in sample preparation and advantages of ICP-OES over other methods. The report will develop a detailed understanding of the applications of ICP-OES in element analysis of biological samples.

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Effects of pH and concentration on the capability of E. coli and S. epidermidis with bentonite clay as biosorbent for the removal of Copper, Nickel and Lead from polluted water

Cited by 2 publications

References 13 publications

Recent advances in conventional and contemporary methods for remediation of heavy metal-contaminated soils

Recent advances in conventional and contemporary methods for remediation of heavy metal-contaminated soils

ICP-OES: An Advance Tool in Biological Research

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