The haunting of the Soul’s hill: Uncoupled responses of plant functional traits and soil microbes to serpentine soils lead to Bonsai effect in the Neotropics
Aretha Franklin Guimaraes, Gabriela Siewerding Meirelles, Luciano Carramaschi Alagao Querido, Kaline Miranda Fernandes, William Ribeiro, Rafaella Teixeira Maciel Oliveira, Elias Roma Silva, Monica Canaan, Marines Ferreira Pires Lira, Nick Ostle, Eduardo BergAbstract
Purpose
We investigated the plant–soil linkages of C. Langsdorffii, a widely distributed species in the Neotropics, and how the serpentine syndrome leads to dwarfism by comparing soil microbes, soil properties and tree functional traits in serpentine and non-serpentine soils. For that we evaluated the presence of heavy metals in the soils and how it affects plant functional traits; differences of C:N ratio between serpentine and non-serpentine sites as well as soil microbiome by using PLFA technique approach to assess microbial functional groups.
Methods
We explored the relations between soil microbes (by using phospholipid fatty acid, i.e., components of cell membranes in microbes used as an indicator of microbial biomass), soil properties, vegetation attributes, leaf nutrients and leaf functional traits.
Results
We found correlation between soil gram-positive bacteria and iron in the plant leaves.; the C:N ratios are higher in serpentine sites, but the two areas are similar to the non-serpentine area; there was no difference between the soil microbes in our study areas and finally; there’s a tendency to dwarfism and xeromorphism in the functional traits of C. Langsdorffii in serpentine soils.
Conclusions
We found that even though we have differences when comparing C. langsdorffii plants in serpentine and non-serpentine sites regarding the functional traits analysed in our study, the only soil microbe that seems to be interacting with the heavy metals is the gram-positive bacteria, possibly due to chelating mechanisms.