Litcius/Paper detail

Stabilizing organic matter and reducing methane emissions during manure composting with biochar to strengthen the role of compost in soil health

Keiji Jindo, Tomonori Sonoki, Miguel Á. Sánchez-Monedero

2025Soil & Environmental Health13 citationsDOIOpen Access PDF

Abstract

Biochar is a promising additive for enhancing composting efficiency and long-term compost quality. This study investigated its effects on greenhouse gas emissions and organic matter stabilization during the composting of poultry (PM) and cattle manure (CM). Biochar addition significantly reduced methane emissions during the thermophilic phase—by 4.6-fold in PM amended with biochar and 3.7-fold in CM amended with biochar compared to PM and CM without biochar amendment, respectively—indicating improved aeration and microbial activity, as supported by higher CO 2 emissions. A novel aspect of this study is the focus on lignin, a recalcitrant carbon fraction. Biochar-amended composts showed 1.5-fold greater lignin degradation (29.0% in PM+B and 10.8% in CM+B) than controls, along with enhanced lignin stability, as evidenced by Nuclear Magnetic Resonance (NMR) spectroscopy and thermal analysis. We assessed labile carbon fractions (e.g., water-soluble carbon, carbohydrates), ATP, and enzymes involved in carbon and nutrient cycling. PM and CM retained more labile carbon through the final stage, showing higher ATP, dehydrogenase, and β-glucosidase than their biochar-treated counterparts. Redundancy analysis (RDA) indicated that microbial communities and structural traits influenced gas emissions during the thermophilic stage and compost stabilization at the final stage. CH 4 emissions were associated with mcrA , fungi, and total nitrogen (TN), while CO 2 correlated with bulk density and Gram-negative bacteria. In the final stage, maturity indices were linked with microbial and physicochemical variables, underscoring their combined role in compost stabilization. Biochar amendment enhanced compost quality by reducing CH 4 emission and promoting selective carbon transformation, particularly lignin. These findings support biochar-composting as a strategy for producing composts with improved agronomic and environmental value.

Topics & Concepts

CompostBiocharMethaneEnvironmental scienceOrganic matterWaste managementEnvironmental chemistrySoil organic matterChemistrySoil scienceSoil waterPyrolysisEngineeringOrganic chemistryComposting and Vermicomposting TechniquesMunicipal Solid Waste Management