Soil microbial biomass phosphorus can serve as an index to reflect soil phosphorus fertility

The effect and relative contributions of C and P inputs on soil microbial biomass P (MBP) accumulation were studied in three long-term soil fertility experiments with various soil and climate characteristics at Qiyang, Yangling, and Wulumuqi. The maximum of soil MBP in all three sites was 47.8 mg P kg(-1). The MBP accumulated per unit in soil (mg P kg(-1) soil) was correlated with a 4.91 mg kg(-1) increase in Olsen P. For each unit increase in P surplus (kg P ha(-1)), manure C (kg C ha(-1)), and stubble C (kg C ha(-1)), MBP accumulation increased by 330, 3.7, and 13 units (mu g P kg(-1) soil), respectively. The soil MBP was positively correlated with crop yield and P uptake, making the soil MBP a useful soil P fertility index. The critical levels of the soil MBP pool were 140 kg ha(-1), 57-62 kg ha(-1), and 33-35 kg ha(-1) in acidic red soil, loessial soil, and grey desert soil, respectively. This is the first report to establish a quantitative index of soil fertility based on the soil MBP pool. Our findings demonstrate that C input is a good driver of soil MBP accumulation. Integration of the soil MBP as an index of soil P fertility into agricultural P management is useful to help manage mineral P fertilizers as part of sustainable agricultural practices.

Automated summary

This study investigated the effect and relative contributions of C and P inputs on the accumulation of soil microbial biomass P (MBP), finding that C input is a significant driver of soil MBP accumulation. The soil MBP was found to be positively correlated with crop yield and P uptake, and can serve as a useful index of soil P fertility in agricultural practices.