Litcius/Paper detail

Environment and pathogens shape local and regional adaptations to climate change in the chocolate tree, <i>Theobroma cacao</i> L.

Joel T. Nelson, Juan Carlos Motamayor, Omar E. Cornejo

2020Molecular Ecology22 citationsDOI

Abstract

Predicting the potential fate of a species in the face of climate change requires knowing the distribution of molecular adaptations across the geographic range of the species. In this work, we analysed 79 genomes of Theobroma cacao, an Amazonian tree known for the fruit from which chocolate is produced, to evaluate how local and regional molecular signatures of adaptation are distributed across the natural range of the species. We implemented novel techniques that incorporate summary statistics from multiple selection scans to infer selective sweeps. The majority of the molecular adaptations in the genome are not shared among populations. We show that ~71.5% of genes under selection also show significant associations with changes in environmental variables. Our results support the interpretation that these genes contribute to local adaptation of the populations in response to abiotic factors. We also found strong patterns of molecular adaptation in a diverse array of disease resistance genes (6.5% of selective sweeps), suggesting that differential adaptation to pathogens also contributes significantly to local adaptations. Our results are consistent with the interpretation that local selective pressures are more important than regional selective pressures in explaining adaptation across the range of a species.

Topics & Concepts

Local adaptationBiologyAdaptation (eye)TheobromaAbiotic componentEvolutionary biologyRange (aeronautics)EcologyBiological dispersalSelection (genetic algorithm)Natural selectionBotanyPopulationArtificial intelligenceMaterials scienceSociologyDemographyComposite materialComputer scienceNeuroscienceCocoa and Sweet Potato AgronomyOil Palm Production and SustainabilityGenomics and Phylogenetic Studies