Deciphering the response of anammox process to heavy metal and antibiotic stress: Arsenic enhances the permeability of extracellular polymeric substance and aggravates the inhibition of sulfamethoxazole

Abstract

Anaerobic ammonium oxidation (anammox) process exhibits advantages in treating high-ammonium livestock wastewater, while the anammox bacteria is vulnerable to heavy metal and antibiotics. Arsenic and sulfonamides extensively existed in livestock wastewater; unfortunately, their effects on the anammox process have not yet been investigated. This work comprehensively evaluated the single and joint effects of As(III) and sulfamethoxazole (SMX) on the anammox process and revealed the related inhibitory mechanism. Anammox had extraordinary resistance to As(III) stress (0–50 mg L−1), while nitrogen removal sharply deteriorated under the stress from 50 mg L−1 As(III) and 3 mg L−1 SMX. Exogenous As(III) damaged the protection of extracellular polymeric substance (EPS) and aggravated the inhibition of SMX. As(III) had direct toxic effects on anammox bacteria, while enhanced denitrifying capacity was the reason for inhibition of anammox by SMX. Moreover, the host arsenic resistance genes were changed under SMX inhibition. The findings of this study enrich our knowledge of the anammox response to various pollutants, and provide the operational guidance for anammox process to treat wastewater containing antibiotic and heavy metal.