Abstract: In order to reduce chemical fertilizers in soybean production and conserve the black soil, we conducted a field experiment including following treatments: special compound fertilizer (CK), Bacillus subtilis + amino acid granular fertilizer (T₁), Bacillus subtilis + fulvic acid potassium fertilizer (T₂), Bacillus subtilis + seaweed refined powder granular fertilizer (T₃), straw Bacillus subtilis decomposed organic fertilizer (T₄), and chicken manure Bacillus subtilis decomposed organic fertilizer (T₅).The effects of various fertilizers on soybean photosynthesis and soil enzyme activities were comprehensively evaluated.The results showed that, as for photosynthetic parameters, the net photosynthetic rate of T₁, T₄, and T₅ increased by 5.0%, 0.7%, and 8% compared with CK, without significant differences among the treatments.The maximum and minimum values of transpiration rate were T₅ and T₂, which was 30% higher or 43.1% lower than that of CK, respectively.The stomatal conductance value was in the order of T₅>T₄>T₁>CK>T₃>T₂, and significant differences were found among T₂, T₃, T₅ and CK.The concentration of intercellular CO₂ in T₂ was with the smallest value, significantly lower than CK by 12.0%, while that of T₁ and T₅ was 5% and 7% higher than CK.The chlorophyll contents in T₄ and T₅ were significantly lower than that of CK; T₁ was with the maximum value of chlorophyll a content, 17.3% higher than that of CK.The chlorophyll b content in T₂ increased by 2% compared with CK, while T₃ had no effect.The soil urease activity in each treatment was significantly higher than that of CK, and T₅ was with the maximum value, 17.7% higher than that of CK.The activity of soil invertase was in the order of T₁>T₃>CK>T₅>T₄>T₂, and 18.9% increase in T₁ but 27.8% decline in T₂ compared with CK.T₃ had the minimum value of soil alkaline phosphatase with 8.55 mg · g^-1, while T₄ had the maximum value, which was 7% higher than that of CK.As environmentally friendly fertilizers, Bacillus subtilis + amino acid granular fertilizer, straw subtilis spore-decomposed organic fertilizer and chicken manure subtilis spore-decomposed organic fertilizer would replace chemical fertilizers partially, with potential application in the future.