Environmental Research Communications (Jan 2024)

Management of eutrophication using combined the ‘flock & sink’ mitigation technique and submerged plants restoration: a mesocosm study

  • Yutian Liu,
  • Jinfu Liu,
  • Yuwei Chen,
  • Taotao Dai,
  • Wei Li,
  • Jinying Xu,
  • Xiaoliang Zhang,
  • Linsen Tang,
  • Fangwen Zheng,
  • Jiayou Zhong

DOI
https://doi.org/10.1088/2515-7620/ad45c0
Journal volume & issue
Vol. 6, no. 5
p. 055012

Abstract

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Currently, the issue of eutrophication and cyanobacterial blooms persists in water bodies worldwide, prompting the exploration of various treatment methods. This study conducted a comparative analysis of eutrophic water bodies using ferric chloride-modified zeolite (FMZ) and calcium hydroxide-modified zeolite (CMZ) combined with Elodea nuttallii ( E. nuttallii ) for removal and purification effects. The results revealed that the addition of E. nuttallii had a sustained inhibitory effect on phosphorus release, maintaining stability with lower Turbidity(Tur) and stabilized pH within the range of 8.5–9. FMZ demonstrated rapid reduction in dissolved phosphorus concentration, achieving a removal rate of 96% within 3 days. The combined plant group of CMZ and FMZ exhibited synergistic effects with E. nuttallii , achieving an impressive total phosphorus (TP) removal rate of 80.13% and a total nitrogen (TN) removal rate of 48.77%. Additionally, chlorophyll a (Chl a ) concentration decreased from 100.74 ± 24.72 μ g l ^−1 to 49.96 ± 2.08 μ g l ^−1 . The phytoplankton community composition indicated that diatoms thrived in low temperatures and high NH _4 conditions. Under the same low Total Nitrogen to Total Phosphorus (TN:TP) ratio, high TP concentrations were associated with cyanobacteria dominance, while green algae dominated in other scenarios. This comprehensive approach demonstrates the potential efficacy of CMZ and FMZ combined with E. nuttallii in addressing eutrophic water bodies and mitigating cyanobacterial blooms.

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