Shifts in soil and plant functional diversity along an altitudinal gradient in the French Alps

ObjectivesAltitude integrates changes in environmental conditions that determine shifts in vegetation, including temperature, precipitation, solar radiation and edaphogenetic processes. In turn, vegetation alters soil biophysical properties through litter input, root growth, microbial and macrofaunal interactions. The belowground traits of plant communities modify soil processes in different ways, but it is not known how root traits influence soil biota at the community level. We collected data to investigate how elevation affects belowground community traits and soil microbial and faunal communities. This dataset comprises data from a temperate climate in France and a twin study was performed in a tropical zone in Mexico.Data descriptionThe paper describes soil physical and chemical properties, climatic variables, plant community composition and species abundance, plant community traits, soil microbial functional diversity and macrofaunal abundance and diversity. Data are provided for six elevations (1400-2400 m) ranging from montane forest to alpine prairie. We focused on soil biophysical properties beneath three dominant plant species that structure local vegetation. These data are useful for understanding how shifts in vegetation communities affect belowground processes, such as water infiltration, soil aggregation and carbon storage. Data will also help researchers understand how plant communities adjust to a changing climate/environment.

Automated summary

This study examines how changes in elevation impact belowground community traits and soil microbial and faunal communities in temperate and tropical climates. Data includes soil properties, climate variables, plant community composition, microbial diversity, and macrofauna abundance at various elevations, providing insights into the effects of vegetation shifts on belowground processes. The dataset aids in understanding how plant communities adapt to a changing climate.