Flux and turnover of fixed carbon in soil microbial biomass of limed and unlimed plots of an upland grassland ecosystem

Abstract

Summary: The influence of liming on rhizosphere microbial biomass C and incorporation of root exudates was studied in the field by in situ pulse labelling of temperate grassland vegetation with ¹³CO₂ for a 3‐day period. In plots that had been limed (CaCO₃ amended) annually for 3 years, incorporation into shoots and roots was, respectively, greater and lower than in unlimed plots. Analysis of chloroform‐labile C demonstrated lower levels of ¹³C incorporation into microbial biomass in limed soils compared to unlimed soils. The turnover of the recently assimilated ¹³C compounds was faster in microbial biomass from limed than that from unlimed soils, suggesting that liming increases incorporation by microbial communities of root exudates. An exponential decay model of ¹³C in total microbial biomass in limed soils indicated that the half‐life of the tracer within this carbon pool was 4.7 days. Results are presented and discussed in relation to the absolute values of ¹³C fixed and allocated within the plant–soil system.