Unraveling mechanisms of N2O emissions and nitrogen cycling: The role of biochar C:N ratios in loamy and sandy soils

The influence of biochar on N cycle is well-known, but specific biological and chemical mechanisms under biochar with different C:N ratios and soil types, remain inadequately unclear. This study aimed to explore the changes in N cycle after adding N-enriched biochar (NB) with varying C:N ratios to loamy and sandy soils. Experiment included nine treatments: three NB treatments (NB1, NB2, and NB3) and a pristine biochar (PB), applied at 20 t ha(-1) (L1) and 40 t ha(-1) (L2), along with a control (CK). NB significantly increased N fractions, nitrification, ammonification, mineralization, and soil enzymatic activities in loamy soil than in sandy soil. NH4+-N and NO3--N were maximum in NB treatments during first 15 days, while NO3--N levels were higher in CK at later stages. NB effectively increased soil TN, SOM, AK, and AP compared to PB and CK in both soil types. In loamy soil, NB increased cumulative N2O emissions by 157.3 % to 229.5 %, while PB reduced emissions by 14.7 % at L2. In sandy soil, PB and NB significantly reduced cumulative N2O emissions, with the greatest decrease (39.2 % to 86.1 %) at L2. Structural analysis showed that N fractions significantly influence N transformation in loamy soil, whereas soil properties and N fractions affect N pathways in sandy soil. We thus demonstrate biochar's C:N ratio and soil type are crucial in influencing N transformations and N2O emissions. These findings are crucial for developing targeted biochar application strategies to enhance soil fertility and reduce greenhouse gas impacts with potential applications across global agroecosystems.