Stringent control of Mn is critical for drinking water safety. However, conventional rapid sand filters exhibit slow biological maturation for Mn(II) removal, limiting their performance in engineered Mn(II) removal. This study examined the effectiveness of partially replacing sand with natural manganese ore (NMO) to enhance Mn(II) removal and elucidated the underlying mechanisms. The results showed that replacing only 1/8 of sand with NMO enabled consistently effective Mn(II) removal (residual x-mediated chemical processes rapidly diminished, after which MnOx-enhanced biological processes promptly took over. Compared with sand columns, 1/8 NMO columns biologically matured nearly 100 days earlier, and biomass on the rough, porous MnOx surface was 1-2 orders of magnitude higher than that on sand. Although NMO partly altered microbial communities, the relative abundance of Mn(II)-oxidizing bacteria did not increase; the larger absolute biofilm biomass primarily drove sustained efficient Mn(II) removal. These findings highlighted the important but previously overlooked role of MnOx in promoting biofilm accumulation and accelerating the maturation of biological Mn(II) removal systems and provided a practical and cost-effective upgrade for conventional sand filtration.
Liu et al. (Wed,) studied this question.