Improvement in water pollution control alters nutrient stoichiometry of Guanting Reservoir near Beijing, North China

Environ Sci Pollut Res Int. 2023 Apr;30(16):45924-45935. doi: 10.1007/s11356-023-25558-9. Epub 2023 Jan 30.

Abstract

Significant improvement in wastewater treatment is the most effective way for eutrophication control, especially in semiarid regions. However, its effect on the nutrient status and stoichiometry of the receiving water body has remained poorly considered and understood at broad temporal scales. Taking Guanting Reservoir (GR) in Hebei-Beijing (P. R. China) as an example, we present a study that links a continuous monitoring dataset for GR with corresponding estimates of human-induced nutrient discharges in its watershed from the year 2006 to 2019. We find that current GR belongs to strict P limitation and the faster decrease of TP than TN concentrations and continuous increase of TN/TP mass ratios in GR are attributed to the water restoration investment-induced declining of nutrient loadings. The improved municipal wastewater treatment capacity is mainly responsible for these significant changes, due to the higher removal efficiency of TP than TN in municipal wastewater. Given the potential ecological impact on aquatic biodiversity as well as ecosystem function of changes in TN/TP ratios and higher retention rate of TP (97.4%) compared with TN (93.1%) in GR, our findings highlight that future strategy for water pollution control should not only concentrate on more nutrient reduction efficiencies but attach importance to their stoichiometric balance to reduce the potential risk of phytoplankton blooms and toxin production during the water quality recovery of lakes or reservoirs.

Keywords: Guanting Reservoir; Nitrogen to phosphorus ratios; Nutrient stoichiometry; Wastewater treatment; Watershed management.

MeSH terms

  • Beijing
  • China
  • Ecosystem*
  • Environmental Monitoring*
  • Eutrophication
  • Humans
  • Lakes
  • Nitrogen / analysis
  • Nutrients
  • Phosphorus / analysis
  • Water Quality

Substances

  • Nitrogen
  • Phosphorus