Photodegradation-induced biological degradation of treated wastewater effluent organic matter in receiving waters

Hailong Yin; Yue Wang; Jingshui Huang

doi:10.1016/j.watres.2021.117567

Photodegradation-induced biological degradation of treated wastewater effluent organic matter in receiving waters

Water Res. 2021 Oct 1:204:117567. doi: 10.1016/j.watres.2021.117567. Epub 2021 Aug 15.

Authors

Hailong Yin¹, Yue Wang², Jingshui Huang³

Affiliations

¹ State Key Laboratory of Pollution Control and Resource Reuse, College of Environmental Science and Engineering, Tongji University, Shanghai 200092, China; Key Laboratory of Yangtze River Water Environment, Ministry of Education, Tongji University, Shanghai 200092, China.
² Rays Computational Intelligence Laboratory, Beijing Inteliway Environmental Science & Technology, Ltd., Beijing 100191, China.
³ Chair of Hydrology and River Basin Management, Technical University of Munich, Arcisstrasse 21, 80333 Munich, Germany. Electronic address: jingshui.huang@tum.de.

PMID: 34464744
DOI: 10.1016/j.watres.2021.117567

Abstract

Effluent organic matter (EfOM) from wastewater treatment plants (WWTP) constitutes an important source of dissolved organic matter in receiving waters. Photodegradation may alter the properties of WWTP EfOM, thereby impacting its biodegradability and microbial respiration. However, whether and how natural sunlight exposure of EfOM affects its biodegradability and microbial oxygen consumption in the receiving waters are unclear. To address these knowledge gaps, incubation experiments of biodegradation, photodegradation, and bio-photodegradation were conducted with the effluent samples from a tertiary WWTP in Heifei, China. The quantity and quality of the EfOM were examined during the incubations to interpret changes in its lability and composition. The results showed that photodegradation facilitated and accelerated the EfOM biodegradation. After natural sunlight exposure, the EfOM degradation rate was significantly enhanced from 0.004 d^-1 to 0.065 d^-1 measured by dissolved organic carbon (DOC). Correspondingly, the DOC concentration of EfOM was reduced by 64.2% (26.6% by photodegradation and 37.5% by bio-photodegradation), while the concentration was only reduced by 5.3% in the direct biodegradation. Sunlight exposure of EfOM resulted in lower molecular weight, less aromatic, lower humified, more bleached photoproducts. These substances could be readily metabolized by the native microbial community in the receiving water, stimulating microbial respiration. Correspondingly, the oxygen consumption rate of EfOM increased from almost 0.11 mg L^-1 d^-1 in the direct biodegradation to 2.17 mg L^-1 d^-1 in the bio-photodegradation. This study highlights that after EfOM is discharged to the receiving water, its post-processing by sunlight can enhance biodegradability. The existence of the coupled photochemical and biological process is suggested to be considered when determining EfOM fate and managing effluent discharge in receiving waters.

Keywords: Biodegradability; Dissolved organic matter; Photodegradation; Wastewater treatment plant effluent.

MeSH terms

Biodegradation, Environmental
Photolysis
Waste Disposal, Fluid
Wastewater / analysis
Water Pollutants, Chemical* / analysis
Water Purification*

Substances

Waste Water
Water Pollutants, Chemical