Summary
Climate and grazing have a significant effect on vegetation structure and soil organic carbon (SOC) distribution, particularly in mountain ecosystems that are highly susceptible to climate change. However, we lack a systematic understanding of how vegetation structure reacts to long-term grazing disturbances, as well as the processes that influence SOC distribution. This study uses multiple sets of data spanning 20 years from a typical alpine grassland in the Qilian Mountains to investigate the effects of climate and grazing on various root-type grasses as well as the mechanisms that drive SOC distribution. We found that grazing increases the biomass of annual, biennial and perennial taproots while decreasing that of perennial rhizomes. We also found that various root-type grasses have dif
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