Add to ORKGNatural stone tends to have high porosity and is easily eroded by environmental weathering. In recent years, industrialisation has caused an acceleration of stone decay due to the toxic by-products of industry breaking down the stones’ constituents. This paper investigates the effect of microbial induced calcite precipitation as a natural treatment for the surface preservation and restoration of historic buildings. Sporosarcina pasteurii has been proven as a bacterium that can perform microbial induced calcite precipitation (MICP) effectively in extreme conditions making it the preferred bacterium for the MICP process within this study. The surface treatment experiment was analysed by measuring the mass increase and surface changes using...
Different microorganisms in addition to lichens and algae, can cause problems to the conservation of...
This paper investigates the sealing and healing properties of micro-induced calcite precipitation wi...
International audienceLimestone buildings in urban areas are weathered due to climatic factors, to p...
A novel technique in remediating cracks and fissures in concrete by utilizing microbiologically indu...
Calcite is one of the most common and wide spread mineral on Earth constituting 4 wt% of the Earth’s...
The particular bacterium under investigation here (S. pasteurii) is unique in its ability, under the...
The biological colonization of stone buildings and artefacts is responsible of aesthetic deteriorati...
AbstractThe microbes can hydrolyze urea by urease enzyme to produce ammonium as well as carbonate io...
Microbially induced carbonate precipitation has been explored by several researchers for the protect...
The microbes can hydrolyze urea by urease enzyme to produce ammonium as well as carbonate ions and i...
Microbially Induced Carbonate Precipitation (MICP) is currently viewed as one of the potential promi...
Surface treatment is a frequently used method for conservation and restoration of building materials...
Carbonate precipitation is considered to be a natural activity across a wide range of bacterial spec...
Abstract Aims Bacterially induced calcium carbonate precipitation from various isolates was investi...
Abstract Monumental stone decay is a consequence of the weathering action of physical, chemical and ...
Different microorganisms in addition to lichens and algae, can cause problems to the conservation of...
This paper investigates the sealing and healing properties of micro-induced calcite precipitation wi...
International audienceLimestone buildings in urban areas are weathered due to climatic factors, to p...
A novel technique in remediating cracks and fissures in concrete by utilizing microbiologically indu...
Calcite is one of the most common and wide spread mineral on Earth constituting 4 wt% of the Earth’s...
The particular bacterium under investigation here (S. pasteurii) is unique in its ability, under the...
The biological colonization of stone buildings and artefacts is responsible of aesthetic deteriorati...
AbstractThe microbes can hydrolyze urea by urease enzyme to produce ammonium as well as carbonate io...
Microbially induced carbonate precipitation has been explored by several researchers for the protect...
The microbes can hydrolyze urea by urease enzyme to produce ammonium as well as carbonate ions and i...
Microbially Induced Carbonate Precipitation (MICP) is currently viewed as one of the potential promi...
Surface treatment is a frequently used method for conservation and restoration of building materials...
Carbonate precipitation is considered to be a natural activity across a wide range of bacterial spec...
Abstract Aims Bacterially induced calcium carbonate precipitation from various isolates was investi...
Abstract Monumental stone decay is a consequence of the weathering action of physical, chemical and ...
Different microorganisms in addition to lichens and algae, can cause problems to the conservation of...
This paper investigates the sealing and healing properties of micro-induced calcite precipitation wi...
International audienceLimestone buildings in urban areas are weathered due to climatic factors, to p...