ABSTRACT
As known so far,Sporosarcina pasteurii,or formally termed as Bacillus pasteurii,was considered as one of the most efficient biosystem which is capable of inducing biological mineralization through breaking down urea.Taking advantage of the ‘super power’ of bio-mineralization,Sporosarcina pasteurii has been successfully utilized in application of solidifying sand as a novel biological construction technology,termed as ‘bio-cementation’ Due to the nature of Sporosarcina pasteurii isolated from soil,non-pathogenicity has been observed,it was considered as a very environmentally friendly method.Recently,Sporosarcina pasteurii has been further applied into fields including environmental improvement and biomedicine.However,the mechanism under the strong Sporosarcina pasteurii mediated bio-mineralization is still not well understood.Here,the knowledge and the up-to-date studies about the biological mechanism of Sporosarcina pasteurii mediated bio-mineralization,and the utilization in construction,environment,and biomedicine are reviewed.
ABSTRACT
Aims: Microbial induced calcite precipitation (MICP) is a natural occurring biological process that employs the usage of ureolytic bacteria for a wide range of applications such as improving the mechanical properties of soils. The aim of this study was to isolate and identify local urease-producing bacteria from the limestone caves of Sarawak and characterise their specific urease activities. Methodology and results: Enrichment culture technique was used to isolate urease-producing bacteria. These local isolates were identified using phenotypic and molecular characterisation. Conductivity method and biomass (OD600) measurements were conducted to analyze and determine the specific urease activities of the local isolates. 16S rRNA gene sequence analysis identified the bacterial isolates as Sporosarcina pasteurii, Sporosarcina luteola and Bacillus lentus. Conclusion, significance and impact of study: This is the first study reporting the isolation and identification of urease-producing bacteria from Fairy and Wind Caves situated in Bau, Sarawak, Malaysia. The findings in this study suggest the bacterial isolates are capable of inducing calcite precipitation and serve as alternative microbial ureolytic agents.