A simple automated system for measuring soil respiration by gas chromatography

An automated dynamic closed chamber system for CO2 sampling and analysis was developed for the measurement of soil respiration under laboratory conditions. The system is composed by a gas chromatograph linked to a fully computerised sampling system composed by 16 sample jars and 2 multiposition valves. Besides CO2, the system can automatically and simultaneously measure CH4, N2O and other gases of environmental interest. tection limits of the system for CO2, N2O and CH4 were 2, 1 and 4 ppmv, respectively. The accuracy of the system, expressed as percent bias, was −0.88, −0.94 and −3.17% for CO2, N2O and CH4, respectively, with relative standard deviation of 0.42, 0.68 and 0.61%. Measurement of CO2 evolved following acidification of a known amount of reagent grade CaCO3 showed a standard recovery of 96.8 ± 2.5% reached within 30 s after acidification. ar response of CO2 respiration was obtained for a wide range of operative conditions (5–60 min accumulation time, 10–80 g soil sample size, 10–60 mL min−1 air flow rate, 15–25 °C temperature of incubation) demonstrating the flexibility of the system, which allows for the measurement of soil samples characterised by different rates of gas evolution. Moreover, the results obtained with soil samples showed that within the above conditions the proposed system is not affected by potential limitations of static closed chamber systems such as CO2 dissolution in the soil solution, reduced rate of CO2 diffusion from soil to headspace and CO2 inhibition of microbial activity. The system was also capable to detect significant changes in N2O emissions from soil amended with different amounts of glutamic acid. tomatic and frequent measurements provided by the system make possible an accurate description of the dynamics of gas evolution from soil samples under laboratory conditions.