Phylogenomics and the rise of the angiosperms
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Author
Zuntini, Alexandre R.
Carruthers, Tom
Maurin, Olivier
Bailey, Paul C.
Leempoel, Kevin
Brewer, Grace E.
Epitawalage, Niroshini
Françoso, Elaine
Gallego-Paramo, Berta
McGinnie, Catherine
Negrão, Raquel
Roy, Shyamali R.
Simpson, Lalita
Toledo Romero, Eduardo
Barber, Vanessa M. A.
Botigué, Laura
Clarkson, James J.
Cowan, Robyn S.
Dodsworth, Steven
Johnson, Matthew G.
Kim, Jan T.
Pokorny, Lisa
Wickett, Norman J.
Antar, Guilherme M.
DeBolt, Lucinda
Gutierrez, Karime
Hendriks, Kasper P.
Hoewener, Alina
Hu, Ai-Qun
Joyce, Elizabeth M.
Kikuchi, Izai A. B. S.
Larridon, Isabel
Larson, Drew A.
de Lírio, Elton John
Liu, Jing-Xia
Malakasi, Panagiota
Przelomska, Natalia A. S.
Shah, Toral
Viruel, Juan
Allnutt, Theodore R.
Ameka, Gabriel K.
Andrew, Rose L.
Appelhans, Marc S.
Arista, Montserrat
Ariza, María Jesús
Arroyo, Juan
Arthan, Watchara
Bachelier, Julien B.
Bailey, C. Donovan
Barnes, Helen F.
Barrett, Matthew D.
Barrett, Russell L.
Bayer, Randall J.
Bayly, Michael J.
Biffin, Ed
Biggs, Nicky
Birch, Joanne L.
Bogarín, Diego
Borosova, Renata
Bowles, Alexander M. C.
Boyce, Peter C.
Bramley, Gemma L. C.
Briggs, Marie
Broadhurst, Linda
Brown, Gillian K.
Bruhl, Jeremy J.
Bruneau, Anne
Buerki, Sven
Burns, Edie
Byrne, Margaret
Cable, Stuart
Calladine, Ainsley
Callmander, Martin W.
Cano, Ángela
Cantrill, David J.
Cardinal-McTeague, Warren M.
Carlsen, Mónica M.
Carruthers, Abigail J. A.
de Castro Mateo, Alejandra
Chase, Mark W.
Chatrou, Lars W.
Cheek, Martin
Chen, Shilin
Christenhusz, Maarten J. M.
Christin, Pascal-Antoine
Clements, Mark A.
Coffey, Skye C.
Conran, John G.
Cornejo, Xavier
Couvreur, Thomas L. P.
Cowie, Ian D.
Csiba, Laszlo
Darbyshire, Iain
Davidse, Gerrit
Davies, Nina M. J.
Davis, Aaron P.
van Dijk, Kor-jent
Downie, Stephen R.
Duretto, Marco F.
Duvall, Melvin R.
Edwards, Sara L.
Eggli, Urs
Erkens, Roy H. J.
Escudero, Marcial
de la Estrella, Manuel
Fabriani, Federico
Fay, Michael F.
Ferreira, Paola de L.
Ficinski, Sarah Z.
Fowler, Rachael M.
Frisby, Sue
Fu, Lin
Fulcher, Tim
Galbany-Casals, Mercè
Gardner, Elliot M.
German, Dmitry A.
Giaretta, Augusto
Gibernau, Marc
Gillespie, Lynn J.
González, Cynthia C.
Goyder, David J.
Graham, Sean W.
Grall, Aurélie
Green, Laura
Gunn, Bee F.
Gutiérrez, Diego G.
Hackel, Jan
Haevermans, Thomas
Haigh, Anna
Hall, Jocelyn C.
Hall, Tony
Harrison, Melissa J.
Hatt, Sebastian A.
Hidalgo, Oriane
Hodkinson, Trevor R.
Holmes, Gareth D.
Hopkins, Helen C. F.
Jackson, Christopher J.
James, Shelley A.
Jobson, Richard W.
Kadereit, Gudrun
Kahandawala, Imalka M.
Kainulainen, Kent
Kato, Masahiro
Kellogg, Elizabeth A.
King, Graham J.
Klejevskaja, Beata
Klitgaard, Bente B.
Klopper, Ronell R.
Knapp, Sandra
Koch, Marcus A.
Leebens-Mack, James H.
Lens, Frederic
Leon, Christine J.
Léveillé-Bourret, Étienne
Lewis, Gwilym P.
Li, De-Zhu
Li, Lan
Liede-Schumann, Sigrid
Livshultz, Tatyana
Lorence, David
Lu, Meng
Lu-Irving, Patricia
Luber, Jaquelini
Lucas, Eve J.
Luján, Manuel
Lum, Mabel
Macfarlane, Terry D.
Magdalena, Carlos
Mansano, Vidal F.
Masters, Lizo E.
Mayo, Simon J.
McColl, Kristina
McDonnell, Angela J.
McDougall, Andrew E.
McLay, Todd G. B.
McPherson, Hannah
Meneses, Rosa I.
Merckx, Vincent S. F. T.
Michelangeli, Fabián A.
Mitchell, John D.
Monro, Alexandre K.
Moore, Michael J.
Mueller, Taryn L.
Mummenhoff, Klaus
Munzinger, Jérôme
Muriel, Priscilla
Murphy, Daniel J.
Nargar, Katharina
Nauheimer, Lars
Nge, Francis J.
Nyffeler, Reto
Orejuela, Andrés
Ortiz, Edgardo M.
Palazzesi, Luis
Peixoto, Ariane Luna
Pell, Susan K.
Pellicer, Jaume
Penneys, Darin S.
Perez-Escobar, Oscar A.
Persson, Claes
Pignal, Marc
Pillon, Yohan
Pirani, José R.
Plunkett, Gregory M.
Powell, Robyn F.
Prance, Ghillean T.
Puglisi, Carmen
Qin, Ming
Rabeler, Richard K.
Rees, Paul E. J.
Renner, Matthew
Roalson, Eric H.
Rodda, Michele
Rogers, Zachary S.
Rokni, Saba
Rutishauser, Rolf
de Salas, Miguel F.
Schaefer, Hanno
Schley, Rowan J.
Schmidt-Lebuhn, Alexander
Shapcott, Alison
Al-Shehbaz, Ihsan
Shepherd, Kelly A.
Simmons, Mark P.
Simões, André O.
Simões, Ana Rita G.
Siros, Michelle
Smidt, Eric C.
Smith, James F.
Snow, Neil
Soltis, Douglas E.
Soltis, Pamela S.
Soreng, Robert J.
Sothers, Cynthia A.
Starr, Julian R.
Stevens, Peter F.
Straub, Shannon C. K.
Struwe, Lena
Taylor, Jennifer M.
Telford, Ian R. H.
Thornhill, Andrew H.
Tooth, Ifeanna
Trias-Blasi, Anna
Udovicic, Frank
Utteridge, Timothy M. A.
Del Valle, Jose C.
Verboom, G. Anthony
Vonow, Helen P.
Vorontsova, Maria S.
de Vos, Jurriaan M.
Al-Wattar, Noor
Waycott, Michelle
Welker, Cassiano A. D.
White, Adam J.
Wieringa, Jan J.
Williamson, Luis T.
Wilson, Trevor C.
Wong, Sin Yeng
Woods, Lisa A.
Woods, Roseina
Worboys, Stuart
Xanthos, Martin
Yang, Ya
Zhang, Yu-Xiao
Zhou, Meng-Yuan
Zmarzty, Sue
Zuloaga, Fernando O.
Antonelli, Alexandre
Bellot, Sidonie
Crayn, Darren M.
Grace, Olwen M.
Kersey, Paul J.
Leitch, Ilia J.
Sauquet, Hervé
Smith, Stephen A.
Eiserhardt, Wolf L.
Forest, Félix
Baker, William J.
Attention
2299/27913
Abstract
Angiosperms are the cornerstone of most terrestrial ecosystems and human livelihoods1,2. A robust understanding of angiosperm evolution is required to explain their rise to ecological dominance. So far, the angiosperm tree of life has been determined primarily by means of analyses of the plastid genome3,4. Many studies have drawn on this foundational work, such as classification and first insights into angiosperm diversification since their Mesozoic origins5–7. However, the limited and biased sampling of both taxa and genomes undermines confidence in the tree and its implications. Here, we build the tree of life for almost 8,000 (about 60%) angiosperm genera using a standardized set of 353 nuclear genes8. This 15-fold increase in genus-level sampling relative to comparable nuclear studies9 provides a critical test of earlier results and brings notable change to key groups, especially in rosids, while substantiating many previously predicted relationships. Scaling this tree to time using 200 fossils, we discovered that early angiosperm evolution was characterized by high gene tree conflict and explosive diversification, giving rise to more than 80% of extant angiosperm orders. Steady diversification ensued through the remaining Mesozoic Era until rates resurged in the Cenozoic Era, concurrent with decreasing global temperatures and tightly linked with gene tree conflict. Taken together, our extensive sampling combined with advanced phylogenomic methods shows the deep history and full complexity in the evolution of a megadiverse clade.