The soil priming effect: Consistent across ecosystems, elusive mechanisms

Publication date: Available online 5 October 2019Source: Soil Biology and BiochemistryAuthor(s): Xiao-Jun Allen Liu, Brianna K. Finley, Rebecca L. Mau, Egbert Schwartz, Paul Dijkstra, Matthew A. Bowker, Bruce A. HungateAbstractOrganic matter input to soils can accelerate the decomposition of native soil carbon (C), a process called the priming effect. Priming is ubiquitous and exhibits some consistent patterns, but a general explanation remains elusive, in part because of variation in the response across different ecosystems, and because of a diversity of proposed mechanisms, including microbial activation, stoichiometry, and community shifts. Here, we conducted five-week incubations of four soils (grassland, piñon-juniper, ponderosa pine, mixed conifer), varying the amount of substrate added (as 13C-glucose, either 350 or 1000 μg C g−1 week−1) and either with no added nitrogen (N), or with sufficient N (as NH4NO3) to bring the C-to-N ratio of the added substrate to 10. Using four different ecosystems enabled testing the generality of mechanisms underlying the priming effect. The responses of priming to the amount and C-to-N ratio of the added substrate were consistent across ecosystems: priming increased with the rate of substrate addition and declined when the C-to-N ratio of the substrate was reduced. However, structural equation models failed to confirm intermediate responses postulated to mediate the priming effect, including responses postulated to be mediated...
Source: Soil Biology and Biochemistry - Category: Biology Source Type: research