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Using gradient forest to predict climate response and adaptation in Cork Oak
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Orientador(es)
Resumo(s)
Climate change is impacting locally adapted species such as the keystone tree species
cork oak (Quercus suber L.). Quantifying the importance of environmental variables in
explaining the species distribution can help build resilient populations in restoration
projects and design forest management strategies. Using landscape genomics, we
investigated the population structure and ecological adaptation of this tree species
across the Mediterranean Basin. We applied genotyping by sequencing and derived
2,583 single nucleotide polymorphism markers genotyped from 81 individuals across
17 sites in the studied region. We implemented an approach based on the nearest
neighbour haplotype ‘coancestry’ and uncovered a weak population structure
along an east–west
climatic gradient across the Mediterranean region. We identified
genomic regions potentially involved in local adaptation and predicted differences
in the genetic composition across the landscape under current and future climates.
Variants associated with temperature and precipitation variables were detected, and
we applied a nonlinear multivariate association method, gradient forest, to project
these gene–environment
relationships across space. The model allowed the identification
of geographic areas within the western Mediterranean region most sensitive
to climate change: south-western
Iberia and northern Morocco. Our findings provide
a preliminary assessment towards a potential management strategy for the conservation
of cork oak in the Mediterranean Basin
Descrição
Palavras-chave
climate change Gradient Forest landscape genomics local adaptation Quercus suber L
Contexto Educativo
Citação
Vanhove M, Pina‐Martins F, Coelho AC, Branquinho C, Costa A, Batista D, Silva A, Sousa P, Henriques A, Marques I, Belkadi B, Knowles LL, Paulo OS (2021). Using gradient forest to predict climate response and adaptation in Cork Oak. Journal of Evolutionary Biology 34: 910-923
Editora
Wiley