Vinay Dwivedi scite author profile

Heavy metals from various natural and anthropogenic sources are becoming a chief threat to the aquatic system owing to their toxic and lethal effect. The treatment of such contaminated wastewater is one of the prime concerns in this field. For decades, a huge array of innovative biosorbents is used for heavy metal removal. Though extensive microbes and their biomolecules have been experimented and have showed great potential but most of them have failed to have the substantial breakthrough for the practical application. The present review emphasis on the potential utilization of the cyanobacteria for the heavy metal removal along with the toxic effect imposed by the pollutant. Furthermore, the effect of significant parameters, plausible mechanistic insights of the heavy metal toxicity imposed onto the cyanobacteria is also discussed in detail. The role of extrapolymeric substances and metallothionein secreted by the microbes are also elaborated. The review was evident that the cyanobacterial species have a huge potential towards the heavy metal removal from the aqueous system ranging from very low to very high concentrations.

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Leveraging the biosorption potential of Leptolyngbya boryana for Cr (VI) removal from aqueous solution

Yadav

Goswami

Dwivedi³

et al. 2021

Cleaner Engineering and Technology

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Life cycle assessment and techno-economic analysis of algae-derived biodiesel: current challenges and future prospects

Kushwaha

Yadav

Singh³

et al. 2022

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Morphological Distinction of Cyanodermatium (Hydrococcaceae) and Radaisia (Hyellaceae) of Chroococcales (Cyanoprokaryota)

Tandon

Kant²,

Dwivedi

et al. 2014

Proc. Natl. Acad. Sci., India, Sect. B Biol. Sci.

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Polymorphic stages of the fresh water blue-green alga, Gomphosphaeria aponina

Dwivedi¹,

Tandon²,

Tiwari³

2010

ALGAE

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The natural growth of a population of Gomphosphaeria aponina Kützing (Chroococcales, Cyanoprocaryota) was studied in a cemented freshwater tank in Allahabad, India. This population appeared to be a polymorphic species. Different species of the genus Gomphosphaeria have been segregated based on morphological features of colonies, cells and mucilage. However, these features are not well defined for different species. Our observations revealed many feature variations and, interestingly, certain features that have been described for different Gomphosphaeria species were seen in a single population. In this study, records of such variable morphological features were possible due to the availability of numerous specimens and continuous observations for more than two years. Further, this study revealed two points: (i) more detailed morphological studies are required both from nature as well as in culture to identify critical differences among the species, and (ii) molecular characterization of taxa appears to be necessary for final species settlement.

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Vinay Dwivedi

Cyanobacterial Extracellular Polymeric Substances for Heavy Metal Removal: A Mini Review

Leveraging the biosorption potential of Leptolyngbya boryana for Cr (VI) removal from aqueous solution

Life cycle assessment and techno-economic analysis of algae-derived biodiesel: current challenges and future prospects

Morphological Distinction of Cyanodermatium (Hydrococcaceae) and Radaisia (Hyellaceae) of Chroococcales (Cyanoprokaryota)

Polymorphic stages of the fresh water blue-green alga, Gomphosphaeria aponina

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