Development of phosphorus composite biochar for simultaneous enhanced carbon sink and heavy metal immobilization in soil

As a porous and carbon material, biochar is focused on respectively in sequestrating carbon and stabilizing metals in soil, while few studies attempted to design biochar for simultaneously achieving these two targets. This study proposed to produce phosphorus-composite biochar for synchronously enhancing carbon sequestration and heavy metals immobilization. Two phosphorus materials from tailings, Ca(H2PO4)(2) and Ca-5(PO4)(3)(OH), were selected as modifier to load into biomass prior to pyrolysis. Results showed that incorporating P not only increased pyrolytic C retention in biochar by 36.1-50.1%, but also obtained biochar with higher stability by chemically formation of COP, C-PO3 and C-2-PO2. After 90-day incubation with soil, more C was sequestrated in the P-biochar amended soil (59.6-67.0%) than those pristine biochar (43.2-46.6%). Highly soluble Ca(H2PO4)(2) was more efficient than Ca-5(PO4)(3)(OH) in this regard. Meanwhile, these P-composite biochar exhibited more Pb/Cd immobilization (31.3-92.3%) compared with the pristine biochar (9.5-47.2%), which was mainly due to the formation of stable precipitates Pb-5(PO4)(3)Cl and Cd-3(PO4)(2), especially for Ca-5(PO4)(3)(OH) modification. Additionally, P-composite biochar intelligently altered soil microbial community, i.e., they suppressed Actinobacteria proliferation, which is correlated to carbon degradation, while promoted Proteobacteria growth, facilitating phosphate dissolution for ready reaction with heavy metals to form precipitate, benefiting the Pb and Cd immobilization. A dual functions biochar was engineered via simply loading phosphorous prior to pyrolysis and simultaneously enhanced carbon sequestration and heavy metal immobilization.

Automated summary

This study proposes the production of phosphorus-composite biochar to enhance carbon sequestration and heavy metals immobilization. Results show that incorporating phosphorus increases the retention of pyrolytic carbon in biochar and enhances its stability. After incubation with soil, the phosphorus-composite biochar demonstrated higher carbon sequestration and heavy metals immobilization compared to pristine biochar. Additionally, the phosphorus-composite biochar intelligently alters soil microbial community, promoting the immobilization of heavy metals.