Integrated effects of cattle manure-derived biochar and soil moisture conditions on soil chemical characteristics and soybean yield

Abstract

ABSTRACTA greenhouse experiment was carried out to evaluate the effect of 0, 25, 50 and 100 ton ha−1 of cattle manure-derived biochar (BC) and soil moisture conditions (SMC) of 100%, 70% and 55% of water-holding capacity (WHC) on soybean production. Most of the macro and micronutrient, soil chemical characteristics and yield production of soybean were significantly affected by BC. Under drought, BC was more effective than that of the non-stressed conditions. Interaction effect of SMC and BC on soil iron (Fe), zinc (Zn), manganese (Mn), calcium (Ca), magnesium (Mg), phosphorus (P) and nitrogen (N) concentrations was also significant indicating that different levels of water supply might show different impact under different levels of BC. Under drought, the higher BC applied, the higher grain yield obtained. Application of 0 to 75 ton BC ha−1 under WHC caused a high grain yield but 100 ton BC ha−1 significantly decreased it as compared with the other levels of BC. Positive impacts of BC may be more pronounced under drought. High level of BC in non-stressed conditions may reduce grain yield as occurred in this study. The statistical techniques indicated that higher content of macro and micronutrients negatively associated with yield production of soybean.