Litcius/Paper detail

Effect of rice straw and swine manure biochar on N2O emission from paddy soil

Zhanbiao Yang, Yi Yu, Rujing Hu, Xiaoxun Xu, Junren Xian, Yuanxiang Yang, Lixia Liu, Cheng Zhang

2020Scientific Reports33 citationsDOIOpen Access PDF

Abstract

Abstract We analyzed the effects of rice straw biochar (RSBC) and swine manure biochar (SMBC) on N 2 O emission from paddy soil. The biochars were added to soil at the rates of 1% and 5% (w/w), and N 2 O emission, soil properties and soil enzyme activities were determined at the elongation, heading and maturation stages of rice growth. The N 2 O flux started within 2 h of adding the biochar, and decreased significantly thereafter during the three growth stages. The cumulative N 2 O emission was suppressed by 45.14–73.96% following biochar application, and 5% SMBC resulted in the lowest cumulative emission. In addition, biochar application significantly increased soil pH, soil organic carbon (SOC), NO 3 − levels and urease activity, and decreased soil NH 4 + and nitrate reductase activity. Regression analysis indicated that cumulative N 2 O emission was correlated positively to NH 4 + , and negatively to soil pH, SOC and NO 3 − . SEM further revealed that biochar application weakened the denitrification process, and the NH 4 + level had the most significant impact on N 2 O emission. Taken together, RSBC and SMBC regulated the nitrogen cycle in paddy soil and mitigated N 2 O emission by increasing soil pH, decreasing nitrate reductase activity and NH 4 + content.

Topics & Concepts

BiocharStrawRice strawManureAgronomyEnvironmental scienceBiologyChemistryPyrolysisOrganic chemistryAgriculture, Soil, Plant ScienceSoil Carbon and Nitrogen Dynamics