Abstract
This study presents a novel strategy for cultivating anammox bacteria from tropical environments using a filter bioreactor (FtBR). Two bioreactors were inoculated with sediment sludge from an Indonesian lake and operated at different temperatures: tropical ambient (22–28 °C) in Reactor 1 and 35 °C in Reactor 2. After 106 days, Reactor 1 developed a red carmine anammox biofilm, while Reactor 2 remained similar to its initial state. Reactor 1 achieved a higher and more stable nitrogen removal rate (0.27 kg-N/m3·d) compared with Reactor 2 (0.21 kg-N/m3·d), indicating a 28.6% greater efficiency. The operational temperature significantly influenced the diversity and abundance of anammox bacteria. Candidatus Brocadia caroliensis (6.20%) was detected in Reactor 1, whereas Candidatus Anammoxoglobus propionicus (7.64%) and Candidatus Brocadia sinica (1.77%) were found only in Reactor 2. Additionally, Candidatus Brocadia fulgida was more abundant in Reactor 1 (20.04%) than in Reactor 2 (6.84%). These findings demonstrate that temperature plays a crucial role in starting the anammox process in FtBRs with a resident inoculum from tropical environments, significantly affecting bacterial growth and nitrogen removal efficiency.
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Zulkarnaini, Z., Komala, P. S., Putra, R. P., Ali, M., Matsuura, N., Koike, K., … Yamamoto-Ikemoto, R. (2025). Cultivation of anammox bacteria from a tropical lake in Indonesia using a novel filter bioreactor to enhance nitrogen removal efficiency. Water Science and Technology, 91(7), 811–826. https://doi.org/10.2166/wst.2025.050
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