Acquisition pattern of nitrogen by microorganisms and plants affected by gravel mulch in a semiarid Tibetan grassland

As an important coarse inorganic fraction of soil, gravel may regulate the effects of the interaction between above- and belowground communities and affect the relationship between microorganisms and plants in alpine ecosystems. However, comparatively little is known about the effects of gravel on the acquisition pattern of nitrogen (N) by microorganisms and plants in alpine ecosystems. In this study, a N-15-labelling experiment was conducted to investigate the acquisition pattern of organic (N-15-glycine) and inorganic N (N-15-NO3- and N-15-NH4+) by microorganisms and plants under three particle sizes of gravel mulch (fine: 2-10 mm, medium: 10-20 mm, coarse: 20-40 mm) on a semiarid Ti-betan grassland. Gravel mulch significantly improved the N-15 recovery of Stipa purpurea, but had no significant impacts on A. nanschanica. Therefore, gravel mulch decreased the ratio of microbial biomass N-15 recovery to plant biomass N-15 recovery for S. purpurea, but caused little effect on the state of N competition between plants and soil microbes for A. nanschanica. The N absorption preference of plants from both species shifted from an individual preference for N-15-NO3- in the natural (i.e., control) microplots to a common preference for N-15-NO3- and N-15-NH4+ in the fine-and medium-sized gravel mulch microplots, while there were no significant differences in microbial N recovery between N-15-NO3- and N-15-NH4+ across all treatments. The results helped to improve the understanding of the acquisition pattern of N by microorganisms and plants under the influence of gravel mulch in alpine ecosystems, and provide theoretical support for revegetation in alpine ecosystems in the future.

Automated summary

Explored the effects of gravel mulch on the acquisition pattern of nitrogen by microorganisms and plants in alpine ecosystems. The results showed that gravel mulch significantly improved the nitrogen recovery rate for Stipa purpurea, while having no significant impacts on A. nanschanica. In addition, the nitrogen absorption preference of plants shifted under the influence of gravel mulch.