Effects of water pulses and climatic conditions on microbial biomass kinetics and microbial activity in a yermosol of the central Negev

Abstract

Microbial biomass and respiration kinetics were monitored in a soil from the central Negev Desert, Israel. The chloroform‐fumigation‐incubation (CFI) and the substrate‐induced respiration (SIR) method were used to estimate microbial biomass carbon (C_mic). Detectable soil microbial biomass estimates as revealed by CFI were found after the first rain that occurred following the dry summer period. CFI as well as SIR biomass figures increased during the rainy period to maximum values of 300 ßg C_mic g^‐1 soil and decreased rapidly toward the end of the rainy season. Under dry soil conditions no reproducible results were obtained for CFI, but SIR figures decreased to 70 μg C_mic g^‐1 soil during the hot summer period. Soil respiration in the upper 10‐cm soil layer fluctuated significantly on a monthly timescale, whereas the metabolic quotient for CO₂ (qCO₂) stabilized at low rates only during the rainy season, indicating that microbial activity is rapidly becoming balanced, when climatic conditions allow microbial growth.