Abstract
Eryngium is the largest and arguably the most taxonomically complex genus in the family Apiaceae. Infrageneric relationships within Eryngium were inferred using sequence data from the chloroplast DNA trnQ-trnK 5'-exon and nuclear ribosomal DNA ITS regions to test previous hypotheses of subgeneric relationships, explain distribution patterns, reconstruct ancestral morphological features, and elucidate the evolutionary processes that gave rise to this speciose genus. In total, 157 accessions representing 118 species of Eryngium, 15 species of Sanicula (including the genus Hacquetia that was recently reduced to synonymy) and the monotypic Petagnaea were analyzed using maximum parsimony and Bayesian methods. Both separate and simultaneous analyses of plastid and nuclear data sets were carried out because of the prevalence of polyploids and hybrids within the genus. Eryngium is confirmed as monophyletic and is divided into two redefined subgenera: Eryngium subgenus Eryngium and E. subgenus Monocotyloidea. The first subgenus includes all examined species from the Old World (Africa, Europe, and Asia), except Eryngium tenue, E. viviparum, E. galioides, and E. corniculatum. Eryngium subgenus Monocotyloidea includes all examined species ...Continue Reading
References
Jan 27, 1999·Bioinformatics·D Posada, K A Crandall
Jan 3, 2001·Molecular Phylogenetics and Evolution·K DolphinD L Quicke
Feb 13, 2001·American Journal of Botany·Aslaug R. HagenChristian Brochmann
Aug 29, 2001·Bioinformatics·J P Huelsenbeck, F Ronquist
Jan 22, 2003·Molecular Ecology·Richard J Abbott, Christian Brochmann
Nov 15, 2003·Molecular Phylogenetics and Evolution·I Alvarez, J F Wendel
Apr 6, 2004·Hereditas·Nataly O'LearyLidia Poggio
May 17, 2006·Trends in Ecology & Evolution·Ole Seehausen
Jul 15, 2006·Trends in Plant Science·Kim McBreen, Peter J Lockhart
Feb 1, 2007·Evolution; International Journal of Organic Evolution·John J WiensPaul T Chippindale
Feb 16, 2007·Trends in Ecology & Evolution·James B Whitfield, Peter J Lockhart
Feb 27, 2007·Molecular Phylogenetics and Evolution·Carolina I Calviño, Stephen R Downie
Sep 4, 2007·Bioinformatics·Johan A A NylanderDavid L Swofford
Feb 1, 2008·American Journal of Botany·Carolina I CalviñoStephen R Downie
Dec 1, 2006·American Journal of Botany·Carolina I CalviñoStephen R Downie
Oct 1, 2003·American Journal of Botany·Max ColemanRichard J Abbott
Citations
Sep 12, 2014·Fungal Biology·Georgios I ZervakisGiuseppe Venturella
Sep 16, 2011·BMC Evolutionary Biology·Xiaoyan ZhengYuanwen Teng
Jan 27, 2016·Pharmaceutical Biology·Luiz Carlos Klein-JúniorAmélia Teresinha Henriques
Feb 16, 2010·Molecular Phylogenetics and Evolution·Christian BräuchlerGünther Heubl
Dec 17, 2015·Daru : Journal of Faculty of Pharmacy, Tehran University of Medical Sciences·Sinem Aslan ErdemSeyed Mohammad Nabavi
May 27, 2015·BMC Evolutionary Biology·Ying TangHua Peng
Mar 31, 2015·Molecular Phylogenetics and Evolution·Zhang-Ming ZhuMarie Fougère-Danezan
Feb 6, 2014·Molecular Phylogenetics and Evolution·Melanie GrudinskiAlexandra N Muellner-Riehl
Apr 17, 2015·PhytoKeys·Jorge O Chiapella, Pablo H Demaio
Mar 19, 2014·Natural Product Research·Mariusz KowalczykWiesław Oleszek
Oct 23, 2010·Annals of Botany·Qin-Qin LiXian-Qin Wei
Jul 6, 2014·Mycologia·Kyrylo G SavchenkoEviatar Nevo
Apr 17, 2015·American Journal of Botany·Qiang ZhangAlexandre Antonelli
Feb 1, 2008·American Journal of Botany·Carolina I CalviñoStephen R Downie
Jul 18, 2019·Molecules : a Journal of Synthetic Chemistry and Natural Product Chemistry·Ali MedbouhiAlain Muselli
Oct 22, 2010·Genome Génome / Conseil National De Recherches Canada·Gisèle Yvonne PerthuyLidia Poggio
Nov 28, 2019·PeerJ·Lu KangXingjin He
Oct 12, 2017·Molecular Phylogenetics and Evolution·Clark A DandersonMichael Hermann
Apr 24, 2021·Molecular Phylogenetics and Evolution·Jun WenXing-Jin He
Jun 25, 2021·Journal of Ethnopharmacology·Fernanda Espinoza-HernándezRachel Mata
Aug 10, 2021·Microscopy Research and Technique·Vijayasankar RamanIkhlas Ahmed Khan
Aug 29, 2021·Pathogens·Ugo PicciottiFrancesca Garganese