P
Pamela S. Soltis
Researcher at Florida Museum of Natural History
Publications - 585
Citations - 70172
Pamela S. Soltis is an academic researcher from Florida Museum of Natural History. The author has contributed to research in topics: Phylogenetic tree & Population. The author has an hindex of 120, co-authored 543 publications receiving 61080 citations. Previous affiliations of Pamela S. Soltis include Washington State University & American Museum of Natural History.
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An update of the Angiosperm Phylogeny Group classification for the orders and families of flowering plants: APG II
TL;DR: A revised and updated classification for the families of the flowering plants is provided in this paper, which includes Austrobaileyales, Canellales, Gunnerales, Crossosomatales and Celastrales.
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Ancestral polyploidy in seed plants and angiosperms
Yuannian Jiao,Norman J. Wickett,Saravanaraj Ayyampalayam,André S. Chanderbali,Lena Landherr,Paula E. Ralph,Lynn P. Tomsho,Yi Hu,Haiying Liang,Pamela S. Soltis,Douglas E. Soltis,Sandra W. Clifton,Scott E. Schlarbaum,Stephan C. Schuster,Hong Ma,Jim Leebens-Mack,Claude W. dePamphilis +16 more
TL;DR: Comprehensive phylogenomic analyses of sequenced plant genomes and more than 12.6 million new expressed-sequence-tag sequences from phylogenetically pivotal lineages are used to elucidate two groups of ancient gene duplications, implicating two WGDs in ancestral lineages shortly before the diversification of extant seed plants and extant angiosperms.
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Angiosperm phylogeny inferred from 18S rDNA, rbcL, and atpB sequences
Douglas E. Soltis,Pamela S. Soltis,Mark W. Chase,Mark E. Mort,Dirk C. Albach,Michael J. Zanis,Vincent Savolainen,William H. Hahn,Sara B. Hoot,Michael F. Fay,Michael J. Axtell,Susan M. Swensen,Linda M. Prince,W. John Kress,Kevin C. Nixon,James S. Farris +15 more
TL;DR: A phylogenetic analysis of a combined data set for 560 angiosperms and seven outgroups based on three genes, 18S rDNA, rbcL, and atpB representing a total of 4733 bp is presented, resulting in the most highly resolved and strongly supported topology yet obtained for angiosPerms.
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Three keys to the radiation of angiosperms into freezing environments
Amy E. Zanne,David C. Tank,William K. Cornwell,Jonathan M. Eastman,Stephen A. Smith,Richard G. FitzJohn,Daniel J. McGlinn,Brian C. O'Meara,Angela T. Moles,Peter B. Reich,Dana L. Royer,Douglas E. Soltis,Peter F. Stevens,Mark Westoby,Ian J. Wright,Lonnie W. Aarssen,Robert I. Bertin,Andre Calaminus,Rafaël Govaerts,Frank A. Hemmings,Michelle R. Leishman,Jacek Oleksyn,Pamela S. Soltis,Nathan G. Swenson,Laura Warman,Jeremy M. Beaulieu +25 more
TL;DR: It is shown that woody clades successfully moved into freezing-prone environments by either possessing transport networks of small safe conduits and/or shutting down hydraulic function by dropping leaves during freezing.
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The Role of Hybridization in Plant Speciation
TL;DR: The time is therefore right for a review of the role of hybridization in plant speciation, demonstrating that perhaps all angiosperms have likely undergone at least one round of polyploidization and that hybridization has been an important force in generating angiosperm species diversity.