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Effects of ibuprofen and its transformation products on algal-bacterial granular sludge system.

Nie J, Ouyang R, Ge H, Cai L, Wang S

Summary

PubMed

Common painkillers like ibuprofen end up in wastewater and can disrupt treatment, but researchers found that a system combining algae and bacteria can effectively handle moderate pharmaceutical levels. This suggests waste treatment plants may be more resilient to drug pollution than previously expected.

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Key Findings

1

The algae-bacteria treatment system maintained 81.8% nutrient removal when exposed to 0.5-5 mg/L ibuprofen during Phase I

2

Ibuprofen is a ubiquitous pharmaceutical micropollutant that challenges conventional wastewater treatment processes

3

The biological system demonstrated adaptive responses to pharmaceutical stress, indicating greater resilience than previously understood

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Original Abstract

Ibuprofen (IBP), a ubiquitous pharmaceutical micropollutant, poses a significant challenge to conventional biological wastewater treatment processes. This study systematically investigated the treatment efficacy and adaptive responses of algal-bacterial granular sludge (ABGS) under IBP-induced stress. During Phase I (0.5-5 mg/L IBP), the ABGS system maintained robust nutrient removal (COD: 81.8 ± 15.1%; NH

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This connects to 8 other discoveries — 0 species, 3 topics, 5 related articles

phytoremediation bioremediation pharmaceutical-pollution

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