Dear Colleagues,

The rapid development of techniques for the analysis of microbial community structures enables us to better understand many microbial systems (e.g., wastewater treatment processes). These molecular biology-based methods (e.g., studies of DNA, RNA, and proteins) provide a high resolution of information compared to traditional ways of studying wastewater with microscopic examination and culture-based methods. In this way, a comprehensive understanding of qualitative, quantitative, and microorganism population dynamics will improve wastewater treatment efficiency and process stability. Moreover, various bioinformatic tools have been developed to categorize bacterial functions within the systems. The use of these techniques has opened our eyes to the complexity of our full-scale wastewater treatment systems and the variations in time and space, and between geographical regions of their microbial community.

A deeper understanding of microbial community dynamics and microbial interactions provides practical implications, such as sustainable case-specific nutrient removal and emerging pollutants degradation. These topics are closely related with the role of wastewater treatment plants in maintenance of the environmental water quality. One significant issue is the spread of antibiotic resistance due to horizontal gene transfer between pathogenic and non-pathogenic bacteria in urban wastewater treatment. Such investigations can not only optimize current wastewater treatment processes, but also innovate emerging technologies.

This Special Issue seeks to highlight recent findings demonstrating the strengths, challenges, and opportunities we are facing when we enter the new era of microbial ecology in wastewater treatment engineering.

Prof. Riku Vahala
Dr. Anna Mikola
Dr. Antonina Kruglova
Prof. Alejandro Gonzalez-Martinez
Guest Editors

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• microbial communities of wastewater
• activated sludge
• microbial ecology
• wastewater genomics
• biological wastewater treatment
• biofilm
• biodegradation
• nutrient removal
• micropollutants removal
• antibiotic resistance
• microbial population
• molecular biology
• full-scale
• RNA
• DNA