RATIONALE: Microbial degradation of soil organic matter (heterotrophic respiration) is a key determinant of net ecosystem exchange of carbon, but it is difficult to measure because the CO2 efflux from the soil surface is derived not only from heterotrophic respiration, but also from plant root and rhizosphere respiration (autotrophic). Partitioning total CO2 efflux can be achieved using the different natural abundance stable isotope ratios (C-13) of root and soil CO2. Successful partitioning requires very accurate measurements of total soil efflux (CO2)-C-13 and the (CO2)-C-13 of the autotrophic and heterotrophic sources, which typically differ by just 2-8 . %26lt;br%26gt;METHODSIn Scottish moorland and grass mesocosm studies we systematically tested some of the most commonly used techniques in order to identify and minimise methodological errors. Typical partitioning methods are to sample the total soil-surface CO2 efflux using a chamber, then to sample CO2 from incubated soil-free roots and root-free soil. We investigated the effect of collar depth on chamber measurements of surface efflux (CO2)-C-13 and the effect of incubation time on estimates of end-member (CO2)-C-13. %26lt;br%26gt;RESULTS(1) a 5cm increase in collar depth affects the measurement of surface efflux (CO2)-C-13 by -1.5 parts per thousand and there are fundamental inconsistencies between modelled and measured biases; (2) the heterotrophic (CO2)-C-13 changes by up to -4 parts per thousand within minutes of sampling; we recommend using regression to estimate the in situ (CO2)-C-13 values; (3) autotrophic (CO2)-C-13 measurements are reliable if root CO2 is sampled within an hour of excavation; (4) correction factors should be used to account for instrument drift of up to 3 parts per thousand and concentration-dependent non-linearity of CRDS (cavity ringdown spectroscopy) analysis. %26lt;br%26gt;CONCLUSIONSMethodological biases can lead to large inaccuracies in partitioning estimates. The utility of stable isotope partitioning of soil CO2 efflux will be enhanced by consensus on the optimum measurement protocols and by minimising disturbance, particularly during chamber measurements.

• 出版日期2014-11-15