Insights into the multiple interactions between mineralizing microorganisms and Portland cement hydration products

Microbial mineralization has been extensively studied for the modification of Portland cement-based materials. To investigate the coexistence of mineralizing microorganisms with hydration products of Portland cement, microorganisms were separately co-cultured with each individual hydration product. The results revealed a mutually exclusive relationship between the mass of microbially induced CaCO₃ and the conversion efficiency of calcium sources. Hydration products such as calcium silicate hydrate (C-S-H), calcium aluminate hydrate (C-A-H), and Ca(OH)₂ (CH) significantly inhibited spore germination, while ettringite (AFt) and monosulfate (AFm) exhibited a retarding effect. C-S-H and CH had an inhibitory effect on growth of vegetative cells, while C-A-H, AFt and AFm had a promoting effect. The hydration products can improve the mineralization capacity of vegetative cells. Trace amounts of Ca^2 + positively influenced microbial growth, whereas Al(OH)₄^- and SiO₂(aq) had negative impacts, with SO₄^2- showing negligible effects. High concentrations of OH^- demonstrated significant inhibitory effects. Additionally, C-S-H induced spore agglomeration and adsorption, thereby preventing germination. However, C-S-H and vegetative cells were found to coexist stably over extended periods. The influence of hydration products on microorganisms was attributed to two mechanisms: physical adsorption and chemical inhibition by dissolved ions. These findings provide insights into the interference mechanisms affecting microbial mineralization in cement-based materials.