Rimi Biswas scite author profile

High arsenic groundwater contamination causes serious health risks in many developing countries, particularly in India and Bangladesh. The arsenic fluxes in aquifers are primarily controlled by bacterial populations through biogeochemical cycle. In this present study, two gram-positive rod-shaped bacteria were isolated from shallow aquifers of Bhojpur district in Bihar during the early winter season, able to withstand arsenite (As) concentration upto 70 mM and 1000 mM of arsenate (As) concentration. They showed high resistance to heavy metals up to 30 mM and utilized some complex sugars along with different carbon sources. Growth at wide range of temperature, pH and salinity were observed. Both these isolates showed high efficiency in converting As into less toxic concentrations of As respectively from arsenic enriched culture media. Along with superior arsenic transformation and arsenic resistance abilities, the isolates showed a wide variety of metabolic capacity in terms of utilizing a variety of carbon sources under aerobic conditions, respectively. This study reports the potential As-oxidizing bacteria that can play an important role in subsurface arsenic transformation that will aid in designing future bioremediation strategy for the arsenic affected areas.

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Rimi Biswas

‘Omics’ Tools in Soil Microbiology: The State of the Art

Comparative valuation of groundwater quality parameters in Bhojpur, Bihar for arsenic risk assessment

Arsenite oxidation by a facultative chemolithotrophic Delftia spp. BAs29 for its potential application in groundwater arsenic bioremediation

Direct conversion of fruit waste to ethanol using marine bacterial strain Citrobacter sp. E4

A two-step approach for arsenic removal by exploiting an autochthonous Delftia sp. BAs29 and neutralized red mud

Advancement of Omics: Prospects for Bioremediation of Contaminated Soils

Natural polysaccharides as potential biosorbents for heavy metal removal

Characterization of arsenite-oxidizing bacteria to decipher their role in arsenic bioremediation

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