Climate and Soil Microsite Conditions Determine Local Adaptation in Declining Silver Fir Forests.
Isabel García-GarcíaBelén Méndez-CeaEster González de AndrésAntonio GazolRaúl Sánchez-SalgueroDavid Manso-MartínezJose Luis HorreoJesus Julio CamareroJuan Carlos LinaresFrancisco Javier GallegoPublished in: Plants (Basel, Switzerland) (2023)
Ongoing climatic change is threatening the survival of drought-sensitive tree species, such as silver fir ( Abies alba ). Drought-induced dieback had been previously explored in this conifer, although the role played by tree-level genetic diversity and its relationship with growth patterns and soil microsite conditions remained elusive. We used double digest restriction-site-associated DNA sequencing (ddRADseq) to describe different genetic characteristics of five silver fir forests in the Spanish Pyrenees, including declining and non-declining trees. Single nucleotide polymorphisms (SNPs) were used to investigate the relationships between genetics, dieback, intraspecific trait variation (functional dendrophenotypic traits and leaf traits), local bioclimatic conditions, and rhizosphere soil properties. While there were no noticeable genetic differences between declining and non-declining trees, genome-environment associations with selection signatures were abundant, suggesting a strong influence of climate, soil physicochemical properties, and soil microbial diversity on local adaptation. These results provide novel insights into how genetics and diverse environmental factors are interrelated and highlight the need to incorporate genetic data into silver fir forest dieback studies to gain a better understanding of local adaptation.