4.7 Article

The roles of divergent and parallel molecular evolution contributing to thermal adaptive strategies in trees

Journal

PLANT CELL AND ENVIRONMENT
Volume 45, Issue 12, Pages 3476-3491

Publisher

WILEY
DOI: 10.1111/pce.14449

Keywords

eucalyptus; local adaptation; plasticity; reciprocal transplant; RNA-seq; transcriptomics

Categories

Funding

  1. Australian Research Council

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Local adaptation is a driver of biological diversity, with species developing analogous or alternative solutions to ecological challenges. This study found that divergent evolution dominates the adaptation of different species, even under similar ecological conditions.
Local adaptation is a driver of biological diversity, and species may develop analogous (parallel evolution) or alternative (divergent evolution) solutions to similar ecological challenges. We expect these adaptive solutions would culminate in both phenotypic and genotypic signals. Using two Eucalyptus species (Eucalyptus grandis and Eucalyptus tereticornis) with overlapping distributions grown under contrasting 'local' temperature conditions to investigate the independent contribution of adaptation and plasticity at molecular, physiological and morphological levels. The link between gene expression and traits markedly differed between species. Divergent evolution was the dominant pattern driving adaptation (91% of all significant genes); but overlapping gene (homologous) responses were dependent on the determining factor (plastic, adaptive or genotype by environment interaction). Ninety-eight percent of the plastic homologs were similarly regulated, while 50% of the adaptive homologs and 100% of the interaction homologs were antagonistical. Parallel evolution for the adaptive effect in homologous genes was greater than expected but not in favour of divergent evolution. Heat shock proteins for E. grandis were almost entirely driven by adaptation, and plasticity in E. tereticornis. These results suggest divergent molecular evolutionary solutions dominated the adaptive mechanisms among species, even in similar ecological circumstances. Suggesting that tree species with overlapping distributions are unlikely to equally persist in the future.

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