Responses of tree species traits to soil variation in the cerrado

Aims: The Cerrado is a rich tropical savanna in plant species and understanding how key functional traits respond to soil variables can help to understand this hotspot9s functioning. This work aimed to answer i) whether the Cerrado tree species respond to the soil by functional traits, ii) how the functional traits respond to soil variation in the Cerrado, and iii) whether the functional traits responses are interconnected. Methods: We used an RLQ method to associate soil variables to functional traits and GLMs for additional analysis. We used the nitrogen-fixing character as a categorical trait and maximum plant height, maximum stem diameter, stem elongation, leaf nitrogen, leaf carbon, leaf C/N, leaf d15N and leaf d 13C as continuous traits. Results: The RLQ showed that tree species responded to the soil variables with differences between nitrogen-fixing species and other species. The increase of CEC and decrease of aluminium saturation induced an increase in SLA and stem elongation. CEC and aluminium saturation did not influence the leaf N% and C%. The increase of soil inorganic nitrogen is associated with an increase of leaf N% and leaf C%. The C/N ratio explained negatively the d13C and the stem elongation variation. Nitrogen-fixing species presented low C/N ratios and high d13C. Conclusions: The relative disassociation of the variation of SLA and stem elongation (mostly driven by CEC and aluminium variation) from the variation of N% and C% (mostly associated with inorganic nitrogen variation) can be a result of enhanced water use efficiency in N-enriched plants.