John D. McVay scite author profile

SummaryOaks (Quercus, Fagaceae) are the dominant tree genus of North America in species number and biomass, and Mexico is a global center of oak diversity. Understanding the origins of oak diversity is key to understanding biodiversity of northern temperate forests.A phylogenetic study of biogeography, niche evolution and diversification patterns in Quercus was performed using 300 samples, 146 species. Next-generation sequencing data were generated using the restriction-site associated DNA (RAD-seq) method. A timecalibrated maximum likelihood phylogeny was inferred and analyzed with bioclimatic, soils, and leaf habit data to reconstruct the biogeographic and evolutionary history of the American oaks.Our highly resolved phylogeny demonstrates sympatric parallel diversification in climatic niche, leaf habit, and diversification rates. The two major American oak clades arose in what is now the boreal zone and radiated, in parallel, from eastern North America into Mexico and Central America.Oaks adapted rapidly to niche transitions. The Mexican oaks are particularly numerous, not because Mexico is a center of origin, but because of high rates of lineage diversification associated with high rates of evolution along moisture gradients and between the evergreen and deciduous leaf habits. Sympatric parallel diversification in the oaks has shaped the diversity of North American forests.

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Genomic landscape of the global oak phylogeny

Hipp

et al. 2019

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The tree of life is highly reticulate, with the history of population divergence emerging from populations of gene phylogenies that reflect histories of introgression, lineage sorting and divergence. In this study, we investigate global patterns of oak diversity and test the hypothesis that there are regions of the oak genome that are broadly informative about phylogeny.We utilize fossil data and restriction-site associated DNA sequencing (RAD-seq) for 632 individuals representing nearly 250 Quercus species to infer a time-calibrated phylogeny of the world's oaks. We use a reversible-jump Markov chain Monte Carlo method to reconstruct shifts in lineage diversification rates, accounting for among-clade sampling biases. We then map the > 20 000 RAD-seq loci back to an annotated oak genome and investigate genomic distribution of introgression and phylogenetic support across the phylogeny.Oak lineages have diversified among geographic regions, followed by ecological divergence within regions, in the Americas and Eurasia. Roughly 60% of oak diversity traces back to four clades that experienced increases in net diversification, probably in response to climatic transitions or ecological opportunity.The strong support for the phylogeny contrasts with high genomic heterogeneity in phylogenetic signal and introgression. Oaks are phylogenomic mosaics, and their diversity may in fact depend on the gene flow that shapes the oak genome.

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A genetic legacy of introgression confounds phylogeny and biogeography in oaks

2017

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Oaks ( L.) have long been suspected to hybridize in nature, and widespread genetic exchange between morphologically defined species is well documented in two- to six-species systems, but the phylogenetic consequences of hybridization in oaks have never been demonstrated in a phylogenetically diverse sample. Here, we present phylogenomic analyses of a 30 Myr clade that strongly support morphologically defined species and the resolution of novel clades of white oaks; however, historical hybridization across clade boundaries is detectable and, undiagnosed, would obscure the imprint of biogeographic history in the phylogeny. Phylogenetic estimation from restriction-site-associated DNA sequencing data for 156 individuals representing 81 species supports two successive intercontinental disjunctions of white oaks: an early vicariance between the Eurasian and American white oaks, and a second, independent radiation represented by two relictual species. A suite of subsampled and partitioned analyses, however, supports a more recent divergence of the Eurasian white oaks from within the American white oaks and suggests that historic introgression between the Eurasian white oaks and a now-relictual lineage biases concatenated phylogenetic estimates. We demonstrate how divergence and reticulation both influence our understanding of the timing and nature of diversification and global colonization in these ecologically and economically important taxa.

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Genomic landscape of the global oak phylogeny

Hipp

Manos

Hahn

et al. 2019

Preprint

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41• The tree of life is highly reticulate, with the history of population divergence buried amongst 42 phylogenies deriving from introgression and lineage sorting. In this study, we test the 43 hypothesis that there are regions of the oak (Quercus, Fagaceae) genome that are broadly 44 informative about phylogeny and investigate global patterns of oak diversity. 45• We utilize fossil data and restriction-site associated DNA sequencing (RAD-seq) for 632 46 individuals representing ca. 250 oak species to infer a time-calibrated phylogeny of the world's 47• The support we find for the phylogeny contrasts with high genomic heterogeneity in 56 phylogenetic signal and introgression. Oaks are phylogenomic mosaics, and their diversity may 57 in fact depend on the gene flow that shapes the oak genome. 58 59

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John D. McVay

Sympatric parallel diversification of major oak clades in the Americas and the origins of Mexican species diversity

Genomic landscape of the global oak phylogeny

A genetic legacy of introgression confounds phylogeny and biogeography in oaks

Genomic landscape of the global oak phylogeny

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