Bioelectrochemical Enhancement of Anaerobic Digestion Under Heavy Metal Stress: A Comparative Study of Ad and Ad-Mec Systems

Bioelectrochemical Enhancement of Anaerobic Digestion Under Heavy Metal Stress: A Comparative Study of Ad and Ad-Mec Systems Publisher Pubmed

Arvin A ; Rezaalizadeh F ; Amin MM ; Hosseini M ; Darzi GN ; Ghasemi Y

Source: Biodegradation Published:2026

Abstract

Anaerobic digestion (AD) is a widely used technology for treating organic waste and producing renewable energy; however, environmental stresses, such as heavy-metal contamination, can significantly affect its stability. This study examines the potential of an integrated anaerobic digestion–microbial electrolysis cell (AD-MEC) system to enhance process resilience to heavy-metal toxicity. The performance of the AD-MEC was evaluated using cadmium (Cd2⁺), copper (Cu2⁺), nickel (Ni2⁺), iron (Fe2⁺), chromium (Cr2⁺), and zinc (Zn2⁺), and compared with that of a conventional AD system. The AD-MEC system exhibited greater resistance to heavy-metal inhibition, achieving higher maximum chemical oxygen demand (COD) removal efficiency and methane content than the conventional AD system. The order of heavy-metal inhibition was Zn2⁺ > Cu2⁺ > Cr2⁺ > Ni2⁺ > Cd2⁺ > Fe2⁺ for the traditional AD and Cu2 > Cr2+ for the AD-MEC. These results highlight the potential of bioelectrochemical integration to enhance the robustness of anaerobic digestion under heavy-metal stress. © The Author(s), under exclusive licence to Springer Nature B.V. 2026.

Style	Citing Format
MLA	Arvin A, et al.. "Bioelectrochemical Enhancement of Anaerobic Digestion Under Heavy Metal Stress: A Comparative Study of Ad and Ad-Mec Systems." Biodegradation, vol. 37, no. 2, 2026, pp. -.
APA	Arvin A, Rezaalizadeh F, Amin MM, Hosseini M, Darzi GN, Ghasemi Y (2026). Bioelectrochemical Enhancement of Anaerobic Digestion Under Heavy Metal Stress: A Comparative Study of Ad and Ad-Mec Systems. Biodegradation, 37(2), -.
Chicago	Arvin A, Rezaalizadeh F, Amin MM, Hosseini M, Darzi GN, Ghasemi Y. "Bioelectrochemical Enhancement of Anaerobic Digestion Under Heavy Metal Stress: A Comparative Study of Ad and Ad-Mec Systems." Biodegradation 37, no. 2 (2026): -.
Harvard	Arvin A et al. (2026) 'Bioelectrochemical Enhancement of Anaerobic Digestion Under Heavy Metal Stress: A Comparative Study of Ad and Ad-Mec Systems', Biodegradation, 37(2), pp. -.
Vancouver	Arvin A, Rezaalizadeh F, Amin MM, Hosseini M, Darzi GN, Ghasemi Y. Bioelectrochemical Enhancement of Anaerobic Digestion Under Heavy Metal Stress: A Comparative Study of Ad and Ad-Mec Systems. Biodegradation. 2026;37(2):-.
BibTex	@article{ author = {Arvin A and Rezaalizadeh F and Amin MM and Hosseini M and Darzi GN and Ghasemi Y}, title = {Bioelectrochemical Enhancement of Anaerobic Digestion Under Heavy Metal Stress: A Comparative Study of Ad and Ad-Mec Systems}, journal = {Biodegradation}, volume = {37}, number = {2}, pages = {-}, year = {2026} }
RIS	TY - JOUR AU - Arvin A AU - Rezaalizadeh F AU - Amin MM AU - Hosseini M AU - Darzi GN AU - Ghasemi Y TI - Bioelectrochemical Enhancement of Anaerobic Digestion Under Heavy Metal Stress: A Comparative Study of Ad and Ad-Mec Systems JO - Biodegradation VL - 37 IS - 2 SP - EP - PY - 2026 ER -

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