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Biochar-bacteria partnership based on microbially induced calcite precipitation improves Cd immobilization and soil function

Min Xu, Jing Ma, Xiaohong Zhang, Gang Yang, Lulu Long, Chao Chen, Chun Song, Jun Wu, Peng Gao, Dong‐Xing Guan

2023Biochar57 citationsDOIOpen Access PDF

Abstract

Abstract Microbially induced calcite precipitation (MICP) technique utilizes ureolytic bacteria to decompose urea and generate carbonate ions for metal combination. MICP can remediate heavy metal (e.g., Cd) contaminated soils while maintaining or even improving soil functions, but its efficiency in agricultural soil practical application still needs to be enhanced. Here, we constructed a biochar-bacteria (2B) partnership in which biochar provides high nutrition and diverse sorption sites. Using the 2B system, Cd immobilization effectiveness and the underlying mechanism were examined along with the soil properties and soil functions. Results showed that compared to the single biochar and ureolytic bacteria systems, soil Cd mobility was reduced by 23.6% and 45.8% through co-precipitating with CaCO 3 as otavite (CdCO 3 ) in the 2B system, whereas soil fertility, bacterial diversity, and richness increased by 11.7–90.2%, 5.4–16.1%, and 6.8–54.7%, respectively. Moreover, the abundances of Proteobacteria and Firmicutes were enhanced in the 2B system. Notably, Sporosarcina and Bacillus ( Firmicutes genus) that carry the ure C gene were boosted in the system, further implicating the microbiological mechanism in reducing Cd migration and its bioavailability in soil. Overall, the constructed 2B system was efficient in soil Cd immobilization by strengthening the ureolytic bacteria growth and their nutrient supply in the bacteria-rich soil ecosystem.

Topics & Concepts

BiocharFirmicutesEnvironmental chemistryProteobacteriaChemistrySoil waterBacteriaSoil fertilityEnvironmental scienceBiologySoil scienceOrganic chemistry16S ribosomal RNAPyrolysisGeneticsMicrobial Applications in Construction MaterialsMicrobial Fuel Cells and BioremediationMine drainage and remediation techniques
Biochar-bacteria partnership based on microbially induced calcite precipitation improves Cd immobilization and soil function | Litcius