Litcius/Paper detail

Feeding regime selectively enriching acetoclastic methanogens to enhance energy production in anaerobic digestion systems

Huanhuan Chang, Qidong Yin, Kai He, Jo De Vrieze, Guangxue Wu

2025Biochemical Engineering Journal15 citationsDOIOpen Access PDF

Abstract

Applying the r/K selection theory to explore the distribution patterns of acetoclastic methanogens under varying conditions is rare, although it can offer a basis for optimizing community structure and enhancing methane production in anaerobic digestion systems. Different operating modes (sequencing batch reactors, SBRs; and continuous-flow reactors, CFRs) and solids retention times (SRTs; 15 and 50 days) were adopted to acclimate different acetoclastic methanogens in acetate-fed anaerobic reactors. SBRs exhibited a significantly higher CH 4 production rate than CFRs ( P = 0.037). Methanosarcina exhibited a higher relative abundance in SBRs (13.7 ∼ 16.1 %) than in CFRs (0.2 ∼ 0.3 %), aligning with its typical r-strategist characteristics. Methanothrix showed a higher enrichment in CFRs (33.1 ∼ 39.6 %) compared to SBRs (26.8 ∼ 29.9 %) at the same SRT, indicating K-strategist behavior. The SBRs had the potential to co-enrich both types of methanogens. Feeding regimes played a more pivotal role in the distribution of methanogens than SRT. The dominant bacteria, such as Desulfococcus and Mesotoga , as well as the archaeon Methanothrix , were auxotrophic in some essential amino acids, implying potential cross-feeding interactions. This study provides key insights into ecological strategies by linking microbiology with environmental technologies to enrich target methanogenic communities and enhance methane production. • Methanosarcina exhibited a higher relative abundance in SBRs than in CFRs. • Methanothrix showed a higher enrichment in CFRs compared to SBRs. • SBRs tended to enrich both Methanosarcina and Methanothrix. • Methanothrix might engage in cross-feeding of essential amino acids.

Topics & Concepts

Anaerobic digestionProduction (economics)Biochemical engineeringDigestion (alchemy)Biogas productionAnaerobic exerciseFood scienceChemistryBiotechnologyBiologyPulp and paper industryMethaneEcologyEngineeringChromatographyEconomicsMacroeconomicsPhysiologyAnaerobic Digestion and Biogas ProductionAgriculture Sustainability and Environmental ImpactWater-Energy-Food Nexus Studies