Varenyam Achal scite author profile

Phenotypic mutants of Sporosarcina pasteurii (previously known as Bacillus pasteurii) (MTCC 1761) were developed by UV irradiation to test their ability to enhance urease activity and calcite production. Among the mutants, Bp M-3 was found to be more efficient compared to other mutants and wild-type strain. It produced the highest urease activity and calcite production compared to other isolates. The production of extracellular polymeric substances and biofilm was also higher in this mutant than other isolates. Microbial sand plugging results showed the highest calcite precipitation by Bp M-3 mutant. Scanning electron micrography, energy-dispersive X-ray and X-ray diffraction analyses evidenced the direct involvement of bacteria in CaCO3 precipitation. This study suggests that calcite production by the mutant through biomineralization processes is highly effective and may provide a useful strategy as a sealing agent for filling the gaps or cracks and fissures in any construction structures.

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Microbial Concrete: Way to Enhance the Durability of Building Structures

Achal

Mukherjee

Reddy

2011

J. Mater. Civ. Eng.

297

131

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Natural processes, such as weathering, faults, land subsidence, earthquakes, and human activities create fractures and fissures in concrete structures which can reduce the service life of the structures. A novel strategy to restore or remediate such structures is biomineralization of calcium carbonate using microbes such as Bacillus species. In the present study, Bacillus sp. CT-5, isolated from cement, was used to study compressive strength and water absorption tests. The results showed 36% increase in compressive strength of cement mortar with the addition of bacterial cells. Calcite deposition on treated cubes absorbed nearly six times less water than the control cubes. The current work demonstrates that production of "microbial concrete" by Bacillus sp. on constructed facilities enhanced the durability of building materials.

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Lactose mother liquor as an alternative nutrient source for microbial concrete production by Sporosarcina pasteurii

Achal

Mukherjee

Basu

et al. 2008

J Ind Microbiol Biotechnol

281

120

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Microbiologically induced calcite precipitation by the bacterium Sporosarcina pasteurii (NCIM 2477) using the industrial effluent of the dairy industry, lactose mother liquor (LML) as growth medium was demonstrated for the first time in this study. The urease activity and the calcite precipitation by the bacterium was tested in LML and compared with the standard media like nutrient media and yeast extract media. Calcite constituted 24.0% of the total weight of the sand samples plugged by S. pasteurii and urease production was found to be 353 U/ml in LML medium. The compressive strength of cement mortar was increased by S. pasteurii in all the media used compared to control. No significant difference in the growth, urease production and compressive strength of mortar among the media suggesting LML as an alternative source for standard media. This study demonstrates that microbial calcite acts as a sealing agent for filling the gaps or cracks and fissures in constructed facilities and natural formations alike.

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Biomineralization based remediation of As(III) contaminated soil by Sporosarcina ginsengisoli

Achal

Pan

et al. 2012

Journal of Hazardous Materials

320

111

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Varenyam Achal

Strain improvement of Sporosarcina pasteurii for enhanced urease and calcite production

Microbial Concrete: Way to Enhance the Durability of Building Structures

Lactose mother liquor as an alternative nutrient source for microbial concrete production by Sporosarcina pasteurii

Biomineralization based remediation of As(III) contaminated soil by Sporosarcina ginsengisoli

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