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Phylogenomics reveals patterns ancient hybridization and differential diversification that contribute to phylogenetic conflict in willows, poplars, and close relatives Sanderson, Brian J.; Gambhir, Diksha; Feng, Guanqiao; Hu, Nan; Cronk, Quentin C.; Percy, Diana M.; Molina Freaner, Francisco; Johnson, Matthew G.; Smart, Lawrence B.; Keefover-Ring, Ken; Yin, Tongming; Ma, Tao; DiFazio, Stephen P.; Liu, Jianquan; Olson, Matthew S.

Description

<b>Abstract</b><br/>

Despite the economic, ecological, and scientific importance of the genera <em>Salix</em> L. (willows) and <em>Populus</em> L. (poplars, cottonwoods, and aspens) Salicaceae, we know little about the sources of differences in species diversity between the genera and of the phylogenetic conflict that often confounds estimating phylogenetic trees. <em>Salix</em> subgenera and sections, in particular, have been difficult to classify, with one recent attempt termed a ‘spectacular failure’ due to a speculated radiation of the subgenera <em>Vetrix</em> and <em>Chamaetia</em>. Here we use targeted sequence capture to understand the evolutionary history of this portion of the Salicaceae plant family. Our phylogenetic hypothesis was based on 787 gene regions and identified extensive phylogenetic conflict among genes. Our analysis supported some previously described subgeneric relationships and confirmed polyphyly of others. Using an f<sub>branch</sub> analysis we identified several cases of hybridization in deep branches of the phylogeny, which likely contributed to discordance among gene trees. In addition, we identified a rapid increase in diversification rate near the origination of the <em>Vetrix</em>-<em>Chamaetia</em> clade in <em>Salix</em>. This region of the tree coincided with several nodes that lacked strong statistical support, indicating a possible increase in incomplete lineage sorting due to rapid diversification. The extraordinary level of both recent and ancient hybridization in both <em>Salix</em> and <em>Populus</em> have played important roles in the diversification and diversity in these two genera.</p>; <b>Methods</b><br />

Sequence alignments, gene trees, VCFs, and supplementary files are found here. Details of data collection and sequencing are provided in the manuscript and in the Supplemental Methods described herein.</p>

Item Metadata

Title
Phylogenomics reveals patterns ancient hybridization and differential diversification that contribute to phylogenetic conflict in willows, poplars, and close relatives
Creator
Sanderson, Brian J.; Gambhir, Diksha; Feng, Guanqiao; Hu, Nan; Cronk, Quentin C.; Percy, Diana M.; Molina Freaner, Francisco; Johnson, Matthew G.; Smart, Lawrence B.; Keefover-Ring, Ken; Yin, Tongming; Ma, Tao; DiFazio, Stephen P.; Liu, Jianquan; Olson, Matthew S.
Date Issued
2023-06-08
Description
<b>Abstract</b><br/>

Despite the economic, ecological, and scientific importance of the genera <em>Salix</em> L. (willows) and <em>Populus</em> L. (poplars, cottonwoods, and aspens) Salicaceae, we know little about the sources of differences in species diversity between the genera and of the phylogenetic conflict that often confounds estimating phylogenetic trees. <em>Salix</em> subgenera and sections, in particular, have been difficult to classify, with one recent attempt termed a ‘spectacular failure’ due to a speculated radiation of the subgenera <em>Vetrix</em> and <em>Chamaetia</em>. Here we use targeted sequence capture to understand the evolutionary history of this portion of the Salicaceae plant family. Our phylogenetic hypothesis was based on 787 gene regions and identified extensive phylogenetic conflict among genes. Our analysis supported some previously described subgeneric relationships and confirmed polyphyly of others. Using an f<sub>branch</sub> analysis we identified several cases of hybridization in deep branches of the phylogeny, which likely contributed to discordance among gene trees. In addition, we identified a rapid increase in diversification rate near the origination of the <em>Vetrix</em>-<em>Chamaetia</em> clade in <em>Salix</em>. This region of the tree coincided with several nodes that lacked strong statistical support, indicating a possible increase in incomplete lineage sorting due to rapid diversification. The extraordinary level of both recent and ancient hybridization in both <em>Salix</em> and <em>Populus</em> have played important roles in the diversification and diversity in these two genera.</p>; <b>Methods</b><br />

Sequence alignments, gene trees, VCFs, and supplementary files are found here. Details of data collection and sequencing are provided in the manuscript and in the Supplemental Methods described herein.</p>

Subject
Other; Salicaceae; Hybridization; sequence capture; ASTRAL species tree; Concatenated tree; Populus; Salix; phylogeny; Genetics; Ecology, Evolution, Behavior and Systematics
Type
Dataset
Notes

Dryad version number: 9</p>

Version status: submitted</p>

Dryad curation status: Published</p>

Sharing link: https://datadryad.org/stash/share/7cXYngG2IfEgWmDrThjQah0GY-rmmodih6pp9Q_Qf1o</p>

Storage size: 501929576</p>

Visibility: public</p>

Date Available
2023-07-31
Provider
University of British Columbia Library
License
CC0 1.0
DOI
10.14288/1.0433090
URI
https://doi.org/10.5683/SP3/LOKN3N
Publisher DOI
https://doi.org/10.5683/SP3/LOKN3N; https://doi.org/10.5061/dryad.7h44j0zv7
Grant Funding Agency
National Natural Science Foundation of China; National Science Foundation; National Science Foundation; National Science Foundation; National Science Foundation
Aggregated Source Repository
Dataverse

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CC0 1.0