Anaerobic microbial core for municipal wastewater treatment — the sustainable platform for resource recovery

Conall Holohan, B.; Trego, Anna; Keating, Ciara; Bressani-Ribeiro, Thiago; Chernicharo, Carlos L; Daigger, Glen; Galdi, Stephen M; Knörle, Ulrich; Paissoni, Eleonora; Robles, Angel; Rogalla, Frank; Shin, Chungheon; Soares, Ana; Smith, Adam L; Szczuka, Aleksandra; Hughes, Dermot; O’Flaherty, Vincent

doi:10.1016/j.copbio.2025.103317

Anaerobic microbial core for municipal wastewater treatment — the sustainable platform for resource recovery

Conall Holohan, B.; Trego, Anna; Keating, Ciara; Bressani-Ribeiro, Thiago; Chernicharo, Carlos L; Daigger, Glen; Galdi, Stephen M; Knörle, Ulrich; Paissoni, Eleonora; Robles, Angel; Rogalla, Frank; Shin, Chungheon; Soares, Ana; Smith, Adam L; Szczuka, Aleksandra; Hughes, Dermot; O’Flaherty, Vincent

Authors

B. Conall Holohan

Anna Trego

Dr Ciara Keating ciara.keating@durham.ac.uk
Assistant Professor

Thiago Bressani-Ribeiro

Carlos L Chernicharo

Glen Daigger

Stephen M Galdi

Ulrich Knörle

Eleonora Paissoni

Angel Robles

Frank Rogalla

Chungheon Shin

Ana Soares

Adam L Smith

Aleksandra Szczuka

Dermot Hughes

Vincent O’Flaherty

Abstract

The requirement for carbon neutrality and bioresource recovery has shifted our views on water treatment from health and pollution avoidance to one of sustainability with water and nutrient circularity. Despite progress, the current process of wastewater treatment is linear, based on core aerobic microbiology, which is unlikely to be carbon neutral due to its large use of energy and production of waste sludge. Here, we outline a shift from aerobic to anaerobic microbiology at the core of wastewater treatment and resource recovery, illustrating the state-of-the-art technologies available for this paradigm shift. Anaerobic metabolism primarily offers the benefit of minimal energy input (up to 50% reduction) and minimal biomass production, resulting in up to 95% less waste sludge compared with aerobic treatment, which is increasingly attractive, given dialogue surrounding emerging contaminants in biosolids. Recent innovative research solutions have made ambient (mainstream) anaerobic treatment a ready substitute for the aerobic processes for municipal wastewater in temperate regions. Moreover, utilising anaerobic treatment as the core carbon removal step allows for more biological downstream resource recovery with several opportunities to couple the process with (anaerobic) nitrogen and phosphorus recovery, namely, potential mainstream anaerobic ammonium oxidation (anammox) and methane oxidation (N-DAMO). Furthermore, these technologies can be mixed and matched with membranes and ion-exchange systems, high-value biochemical production, and/or water reuse installations.
As such, we propose the reconfiguration of the wastewater treatment plant of the futurewith anaerobic microbiology. Mainstream anaerobic treatment at the core of a truly sustainable platform for modern municipal wastewater treatment, facilitating circular economy and net-zero carbon goals.

Citation

Conall Holohan, B., Trego, A., Keating, C., Bressani-Ribeiro, T., Chernicharo, C. L., Daigger, G., Galdi, S. M., Knörle, U., Paissoni, E., Robles, A., Rogalla, F., Shin, C., Soares, A., Smith, A. L., Szczuka, A., Hughes, D., & O’Flaherty, V. (2025). Anaerobic microbial core for municipal wastewater treatment — the sustainable platform for resource recovery. Current Opinion in Biotechnology, 94, Article 103317. https://doi.org/10.1016/j.copbio.2025.103317

Journal Article Type	Review
Acceptance Date	Apr 22, 2025
Online Publication Date	May 22, 2025
Publication Date	2025-08
Deposit Date	Jun 6, 2025
Publicly Available Date	Jun 6, 2025
Journal	Current Opinion in Biotechnology
Print ISSN	0958-1669
Publisher	Elsevier
Peer Reviewed	Peer Reviewed
Volume	94
Article Number	103317
DOI	https://doi.org/10.1016/j.copbio.2025.103317
Public URL	https://durham-repository.worktribe.com/output/3967810