Comparison of Cronquist and Phylogeneticalt

Total Page:16

File Type:pdf, Size:1020Kb

Comparison of Cronquist and Phylogeneticalt Phylogenetic System Comparison of Classification Systems Cronquist's System Lines Show Corresponding Positions of the 60 Families Reviewed in Class Flowring Plants Biology 211 - Fall 2002 (Phillips) Magnoliophyta Nymphaeales Liliopsida - Monocots Nymphaeaceae Alismatidae (unnamed major clade) Alismatales MAGNOLIIDS Alismataceae Magnoliales Arecidae Magnoliaceae Arecales MONOCOTS Arecaceae Alismatales Arales Alismataceae Araceae Araceae (incl. Lemnaceae) Lemnaceae Asparagales Commelinidae Iridaceae Commelinales Orchidaceae Commelinaceae Liliales Juncales Liliaceae Juncaceae COMMELINIDS Cyperales Arecales Cyperaceae Arecaceae Poaceae Commelinales Typhales Commelinaceae Sparganiaceae Poales Typhaceae Bromeliaceae Zingiberidae Cyperaceae Bromeliales Juncaceae Bromeliaceae Poaceae Lilidae Sparganiaceae Liliales Typhaceae Liliaceae EUDICOTS Iridaceae Ranunculales Orchidales Ranunculaceae Orchidaceae Papaveraceae Magnoliopsida - Dicots CORE EUDICOTS Magnoliidae Caryophyllid Clade Magnoliales Caryophyllales Magnoliaceae Amaranthaceae (incl. Chenopodiaceae) Nymphaeales Cactaceae Nymphaeaceae Caryophyllaceae Ranunculales Polygonales Ranunculaceae Droseraceae Papaverales Polygonaceae Papaveraceae Santalales Hamamelididae Viscaceae Urticales ROSIDS Ulmaceae Saxifragales Fagales Crassulaceae Fagaceae Saxifragaceae Betulaceae Vitales Caryophyllidae Vitaceae Caryophyllales Geraniales Cactaceae Geraniaceae Chenopodiaceae Myrtales Caryophyllaceae Onagraceae Polygonales EUROSIDS I Polygonaceae Cucurbitales Dilleniidae Cucurbitaceae Malvales Fabales Tiliaceae Fabaceae Malvaceae Fagales Nepenthales Betulaceae Sarraceniceae Fagaceae Droseraceae Malpighiales Violales Euphorbiaceae Violaceae Salicaceae Cucurbitaceae Violaceae Salicales Oxalidales Salicaceae Oxalidaceae Capparales Rosales Brassicaceae Rosaceae Ericales Ulmaceae Ericaceae EUROSIDS II Rosidae Brassicales Rosales Brassicaceae Crassulaceae Malvales Saxifragaceae Malvaceae (incl. Tiliaceae) Rosaceae Sapindales Fabales Anacardiaceae Fabaceae Sapindaceae (incl. Aceraceae) Myrtales ASTERIDS Onagraceae Ericales Santalales Ericaceae Viscaceae Sarraceniaceae Euphorbiales EUASTERIDS I Euphorbiaceae Gentianales Rhamnales Apocynaceae (incl. Asclepiadaceae) Vitaceae Gentianaceae Sapindales Rubiaceae Aceraceae Lamiales Anacardiaceae Lamiaceae Geraniales Oleaceae Oxalidaceae Plantaginaceae Geraniaceae Scrophulariaceae Apiales Solanales Apiaceae Convolvulaceae (incl. Cuscutaceae) Asteridae Solanaceae Gentianales EUASTERIDS II Gentianaceae Apiales Asclepiadaceae Apiaceae Solanales Dipsacales Solanaceae Caprifoliaceae Convolvulaceae Asterales Cuscutaceae Campanulaceae Lamiales Asteraceae Lamiaceae Plantaginales Plantaginaceae Scrophulariales Oleaceae Scrophulariaceae Campanulales Campanulaceae Rubiales Rubiaceae Dipsacales Caprifoliaceae Asterales Asteraceae.
Recommended publications
  • Toward a Resolution of Campanulid Phylogeny, with Special Reference to the Placement of Dipsacales
    TAXON 57 (1) • February 2008: 53–65 Winkworth & al. • Campanulid phylogeny MOLECULAR PHYLOGENETICS Toward a resolution of Campanulid phylogeny, with special reference to the placement of Dipsacales Richard C. Winkworth1,2, Johannes Lundberg3 & Michael J. Donoghue4 1 Departamento de Botânica, Instituto de Biociências, Universidade de São Paulo, Caixa Postal 11461–CEP 05422-970, São Paulo, SP, Brazil. [email protected] (author for correspondence) 2 Current address: School of Biology, Chemistry, and Environmental Sciences, University of the South Pacific, Private Bag, Laucala Campus, Suva, Fiji 3 Department of Phanerogamic Botany, The Swedish Museum of Natural History, Box 50007, 104 05 Stockholm, Sweden 4 Department of Ecology & Evolutionary Biology and Peabody Museum of Natural History, Yale University, P.O. Box 208106, New Haven, Connecticut 06520-8106, U.S.A. Broad-scale phylogenetic analyses of the angiosperms and of the Asteridae have failed to confidently resolve relationships among the major lineages of the campanulid Asteridae (i.e., the euasterid II of APG II, 2003). To address this problem we assembled presently available sequences for a core set of 50 taxa, representing the diver- sity of the four largest lineages (Apiales, Aquifoliales, Asterales, Dipsacales) as well as the smaller “unplaced” groups (e.g., Bruniaceae, Paracryphiaceae, Columelliaceae). We constructed four data matrices for phylogenetic analysis: a chloroplast coding matrix (atpB, matK, ndhF, rbcL), a chloroplast non-coding matrix (rps16 intron, trnT-F region, trnV-atpE IGS), a combined chloroplast dataset (all seven chloroplast regions), and a combined genome matrix (seven chloroplast regions plus 18S and 26S rDNA). Bayesian analyses of these datasets using mixed substitution models produced often well-resolved and supported trees.
    [Show full text]
  • I Scope and Importance of Taxonomy. Classification of Angiosperms- Bentham and Hooker System & Cronquist
    Syllabus: 2020-2021 Unit – I Scope and importance of Taxonomy. Classification of Angiosperms- Bentham and Hooker system & Cronquist. Flora, revision and Monographs. Botanical nomenclature (ICBN), Taxonomic hierarchy, typification, principles of priority, publication, Keys and their types, Preparation and role of Herbarium. Importance of Botanical gardens. PLANT KINGDOM Amongst plants nearly 15,000 species belong to Mosses and Liverworts, 12,700 Ferns and their allies, 1,079 Gymnosperms and 295,383 Angiosperms (belonging to about 485 families and 13,372 genera), considered to be the most recent and vigorous group of plants that have occurred on earth. Angiosperms occupy the majority of the terrestrial space on earth, and are the major components of the world‘s vegetation. Brazil (First) and Colombia (second), both located in the tropics considered to be countries with the most diverse angiosperms floras China (Third) even though the main part of her land is not located in the tropics, the number of angiosperms still occupies the third place in the world. In INDIA there are about 18042 species of flowering plants approximately 320 families, 40 genera and 30,000 species. IUCN Red list Categories: EX –Extinct; EW- Extinct in the Wild-Threatened; CR -Critically Endangered; VU- Vulnerable Angiosperm (Flowering Plants) SPECIES RICHNESS AROUND THE WORLD PLANT CLASSIFICATION Historia Plantarum - the earliest surviving treatise on plants in which Theophrastus listed the names of over 500 plant species. Artificial system of Classification Theophrastus attempted common groupings of folklore combined with growth form such as ( Tree Shrub; Undershrub); or Herb. Or (Annual and Biennials plants) or (Cyme and Raceme inflorescences) or (Archichlamydeae and Meta chlamydeae) or (Upper or Lower ovarian ).
    [Show full text]
  • Homologies of Floral Structures in Velloziaceae with Particular Reference to the Corona Author(S): Maria Das Graças Sajo, Renato De Mello‐Silva, and Paula J
    Homologies of Floral Structures in Velloziaceae with Particular Reference to the Corona Author(s): Maria das Graças Sajo, Renato de Mello‐Silva, and Paula J. Rudall Source: International Journal of Plant Sciences, Vol. 171, No. 6 (July/August 2010), pp. 595- 606 Published by: The University of Chicago Press Stable URL: http://www.jstor.org/stable/10.1086/653132 . Accessed: 07/02/2014 10:53 Your use of the JSTOR archive indicates your acceptance of the Terms & Conditions of Use, available at . http://www.jstor.org/page/info/about/policies/terms.jsp . JSTOR is a not-for-profit service that helps scholars, researchers, and students discover, use, and build upon a wide range of content in a trusted digital archive. We use information technology and tools to increase productivity and facilitate new forms of scholarship. For more information about JSTOR, please contact [email protected]. The University of Chicago Press is collaborating with JSTOR to digitize, preserve and extend access to International Journal of Plant Sciences. http://www.jstor.org This content downloaded from 186.217.234.18 on Fri, 7 Feb 2014 10:53:04 AM All use subject to JSTOR Terms and Conditions Int. J. Plant Sci. 171(6):595–606. 2010. Ó 2010 by The University of Chicago. All rights reserved. 1058-5893/2010/17106-0003$15.00 DOI: 10.1086/653132 HOMOLOGIES OF FLORAL STRUCTURES IN VELLOZIACEAE WITH PARTICULAR REFERENCE TO THE CORONA Maria das Grac¸as Sajo,* Renato de Mello-Silva,y and Paula J. Rudall1,z *Departamento de Botaˆnica, Instituto de Biocieˆncias, Universidade
    [Show full text]
  • Dilleniidae À Carpelles Fermés Malvales Euphorbiales 3
    1- DILLENIIDAE PRIMITIVES THEALES DILLENIALES 2- DILLENIIDAE À CARPELLES FERMÉS MALVALES EUPHORBIALES 3- DILLENIIDAE À CARPELLES OUVERTS VIOLALES SALICALES SALICACEAE Populus, Salix TAMARICALES PASSIFLORALES CUCURBITALES CAPPARALES BEGONIALES 4- DILLENIIDAE À PÉTALES SOUDÉS ERICALES EBENALES Salicales - 1 - Ordre des SALICALES Famille des SALICACEAE (une seule famille) 3 ou 4 genres et 300 espèces dans le monde, dans les zones tempérées et subpolaires. Chez nous, 2 genres : Populus (8 espèces) et Salix (30 espèces). Chatons pendants, bractées découpées chez les peupliers qui sont d'avantage dans l'hémisphère nord. Cupules chez les peupliers. Deux genres très anciens (éocène inférieur). Les espèces sont pour la plupart dioïques, les fleurs naissent à l'aisselle d'une bractée. 2 à 30 étamines libres ou soudées. Fleurs femelles : deux carpelles ouverts et soudés, où l'on trouve des ovules anatropes à 1 ou 2 téguments. Fleur apérianthées. Le fruit est une capsule contenant de nombreuses graines poilues (aménophiles = dispersées par le vent). Sur sols alluvionnaires, espèces assez héliophiles. Le bois est de peu de valeur, mais a quand même une importance économique, car il a une croissance très rapide. On l'utilise pour le caissage, la pâte à papier, les allumettes. Les espèces du genre Populus ont les feuilles longuement pétiolées, chatons pendants (adaptation à la pollinisation), chatons à l’aisselle de bractées découpées, cupules à la base des fleurs, anthères rougeâtres, plutôt dans l'hémisphère Nord. Les espèces du genre Salix : Feuilles subsessiles, chatons dressés, fleur à l’aisselle de bractées entières. Nombreux hybrides (jusqu'à une centaine), polymorphisme important des feuilles (il existe des feuilles circulaires) ; régions subarctiques à tempérées chaudes de l’hémisphère Nord.
    [Show full text]
  • Well-Known Plants in Each Angiosperm Order
    Well-known plants in each angiosperm order This list is generally from least evolved (most ancient) to most evolved (most modern). (I’m not sure if this applies for Eudicots; I’m listing them in the same order as APG II.) The first few plants are mostly primitive pond and aquarium plants. Next is Illicium (anise tree) from Austrobaileyales, then the magnoliids (Canellales thru Piperales), then monocots (Acorales through Zingiberales), and finally eudicots (Buxales through Dipsacales). The plants before the eudicots in this list are considered basal angiosperms. This list focuses only on angiosperms and does not look at earlier plants such as mosses, ferns, and conifers. Basal angiosperms – mostly aquatic plants Unplaced in order, placed in Amborellaceae family • Amborella trichopoda – one of the most ancient flowering plants Unplaced in order, placed in Nymphaeaceae family • Water lily • Cabomba (fanwort) • Brasenia (watershield) Ceratophyllales • Hornwort Austrobaileyales • Illicium (anise tree, star anise) Basal angiosperms - magnoliids Canellales • Drimys (winter's bark) • Tasmanian pepper Laurales • Bay laurel • Cinnamon • Avocado • Sassafras • Camphor tree • Calycanthus (sweetshrub, spicebush) • Lindera (spicebush, Benjamin bush) Magnoliales • Custard-apple • Pawpaw • guanábana (soursop) • Sugar-apple or sweetsop • Cherimoya • Magnolia • Tuliptree • Michelia • Nutmeg • Clove Piperales • Black pepper • Kava • Lizard’s tail • Aristolochia (birthwort, pipevine, Dutchman's pipe) • Asarum (wild ginger) Basal angiosperms - monocots Acorales
    [Show full text]
  • Outline of Angiosperm Phylogeny
    Outline of angiosperm phylogeny: orders, families, and representative genera with emphasis on Oregon native plants Priscilla Spears December 2013 The following listing gives an introduction to the phylogenetic classification of the flowering plants that has emerged in recent decades, and which is based on nucleic acid sequences as well as morphological and developmental data. This listing emphasizes temperate families of the Northern Hemisphere and is meant as an overview with examples of Oregon native plants. It includes many exotic genera that are grown in Oregon as ornamentals plus other plants of interest worldwide. The genera that are Oregon natives are printed in a blue font. Genera that are exotics are shown in black, however genera in blue may also contain non-native species. Names separated by a slash are alternatives or else the nomenclature is in flux. When several genera have the same common name, the names are separated by commas. The order of the family names is from the linear listing of families in the APG III report. For further information, see the references on the last page. Basal Angiosperms (ANITA grade) Amborellales Amborellaceae, sole family, the earliest branch of flowering plants, a shrub native to New Caledonia – Amborella Nymphaeales Hydatellaceae – aquatics from Australasia, previously classified as a grass Cabombaceae (water shield – Brasenia, fanwort – Cabomba) Nymphaeaceae (water lilies – Nymphaea; pond lilies – Nuphar) Austrobaileyales Schisandraceae (wild sarsaparilla, star vine – Schisandra; Japanese
    [Show full text]
  • Arthur Monrad Johnson Colletion of Botanical Drawings
    http://oac.cdlib.org/findaid/ark:/13030/kt7489r5rb No online items Arthur Monrad Johnson colletion of botanical drawings 1914-1941 Processed by Pat L. Walter. Louise M. Darling Biomedical Library History and Special Collections Division History and Special Collections Division UCLA 12-077 Center for Health Sciences Box 951798 Los Angeles, CA 90095-1798 Phone: 310/825-6940 Fax: 310/825-0465 Email: [email protected] URL: http://www.library.ucla.edu/libraries/biomed/his/ ©2008 The Regents of the University of California. All rights reserved. Arthur Monrad Johnson colletion 48 1 of botanical drawings 1914-1941 Descriptive Summary Title: Arthur Monrad Johnson colletion of botanical drawings, Date (inclusive): 1914-1941 Collection number: 48 Creator: Johnson, Arthur Monrad 1878-1943 Extent: 3 boxes (2.5 linear feet) Repository: University of California, Los Angeles. Library. Louise M. Darling Biomedical Library History and Special Collections Division Los Angeles, California 90095-1490 Abstract: Approximately 1000 botanical drawings, most in pen and black ink on paper, of the structural parts of angiosperms and some gymnosperms, by Arthur Monrad Johnson. Many of the illustrations have been published in the author's scientific publications, such as his "Taxonomy of the Flowering Plants" and articles on the genus Saxifraga. Dr. Johnson was both a respected botanist and an accomplished artist beyond his botanical subjects. Physical location: Collection stored off-site (Southern Regional Library Facility): Advance notice required for access. Language of Material: Collection materials in English Preferred Citation [Identification of item], Arthur Monrad Johnson colletion of botanical drawings (Manuscript collection 48). Louise M. Darling Biomedical Library History and Special Collections Division, University of California, Los Angeles.
    [Show full text]
  • Commelina Communis
    Commelina communis Commelina communis Asiatic dayflower Introduction The genus Commelina has approximately 100 species worldwide, distributed primarily in tropical and temperate regions. Eight species occur in China[60][167] . Species of Commelina in China Flower of Commelina communis. (Photo pro- Scientific Name Scientific Name vided by LBJWC, Albert, F. W. Frick, Jr.) C. auriculata Bl. C. maculata Edgew. C. bengalensis L. C. paludosa Bl. roadsides [60]. C. communis L. C. suffruticosa Bl. Distribution C. diffusa Burm. f. C. undulata R. Br. C. communis is widely distributed in China, [60] but no records are reported stalk, often hirsute-ciliate marginally, Taxonomy for its distribution in Qinghai, Xinjiang, and acute apically. Cyme inflorescence [6][116][167] Family: Commelinaceae Hainan, and Tibet . has one flower near the top, with dark Genus: Commelina L. blue petals and membranous sepals 5 Economic Importance mm long. Capsules are elliptic, 5–7 Description Commelina communis has caused serious mm, and two-valved. The two seeds Commelina communis is an annual damage in the orchards of northeastern in each valve are brown-yellow, 2–3 [96] herb with numerous branched, creeping China . C. communis is used in Chinese mm long, irregularly pitted, flat-sided, [60] stems, which are minutely pubescent herbal medicine. and truncate at one end[60][167]. distally, 1 m long. Leaves are lanceolate to ovate-lanceolate, 3–9 cm long and Related Species 1.5–2 cm wide. Involucral bracts Habitat C. diffusa occurs in forests, thickets C. communis prefers moist, shady forest grow opposite the leaves. Bracts are and moist areas of southern China and edges.
    [Show full text]
  • Oral Allergy Syndrome: a Confuence of Immunology and Phylogeny by Merle K
    NATIONAL CENTER FOR CASE STUDY TEACHING IN SCIENCE NATIONAL CENTER FOR CASE STUDY TEACHING IN SCIENCE Oral Allergy Syndrome: A Confuence of Immunology and Phylogeny by Merle K. Heidemann, Mike S. Taylor, Amanda Storm, Cassie Dresser-Briggs, Alexa Warwick, and Peter J.T. White Objectives Upon completion of this case study, you should be able to: • Explain the symptoms of allergic reactions in terms of cell biology (immune system cells). • Describe the molecular features of cross reactivity. • Build phylogenetic trees using morphological data. • Build phylogenetic trees using molecular data and interpret two kinds of phylogenetic trees. Part I – Immunology Sam had a history of allergic reactions, including reactions to various plant pollens. Birch pollen elicited a particularly strong reaction, causing him annoying sneezing fts and a sore throat. As he grew to adulthood, he discovered that he was also variably allergic to common foods, including some raw fruits and vegetables, as well as most nuts. Sam was puzzled by his recent food allergies. Also puzzling was the variability in his reactions. He reacted strongly to some foods; others resulted in only a mild itchy throat. He wondered, What exactly causes allergic reactions? Sam was determined to fgure out how and why he reacted to birch pollen and later became allergic to other plant- based food. He also hoped this information might help him avoid other foods that might cause him allergies. First, Sam decided he needed to know something about the cellular bases of allergic reactions. He knew it had some- thing to do with the immune system. He did some basic research on the Internet and here’s what he found: Allergens are bits of protein from an innocuous foreign substance, such as pollen or food.
    [Show full text]
  • Evolutionary History of Floral Key Innovations in Angiosperms Elisabeth Reyes
    Evolutionary history of floral key innovations in angiosperms Elisabeth Reyes To cite this version: Elisabeth Reyes. Evolutionary history of floral key innovations in angiosperms. Botanics. Université Paris Saclay (COmUE), 2016. English. NNT : 2016SACLS489. tel-01443353 HAL Id: tel-01443353 https://tel.archives-ouvertes.fr/tel-01443353 Submitted on 23 Jan 2017 HAL is a multi-disciplinary open access L’archive ouverte pluridisciplinaire HAL, est archive for the deposit and dissemination of sci- destinée au dépôt et à la diffusion de documents entific research documents, whether they are pub- scientifiques de niveau recherche, publiés ou non, lished or not. The documents may come from émanant des établissements d’enseignement et de teaching and research institutions in France or recherche français ou étrangers, des laboratoires abroad, or from public or private research centers. publics ou privés. NNT : 2016SACLS489 THESE DE DOCTORAT DE L’UNIVERSITE PARIS-SACLAY, préparée à l’Université Paris-Sud ÉCOLE DOCTORALE N° 567 Sciences du Végétal : du Gène à l’Ecosystème Spécialité de Doctorat : Biologie Par Mme Elisabeth Reyes Evolutionary history of floral key innovations in angiosperms Thèse présentée et soutenue à Orsay, le 13 décembre 2016 : Composition du Jury : M. Ronse de Craene, Louis Directeur de recherche aux Jardins Rapporteur Botaniques Royaux d’Édimbourg M. Forest, Félix Directeur de recherche aux Jardins Rapporteur Botaniques Royaux de Kew Mme. Damerval, Catherine Directrice de recherche au Moulon Président du jury M. Lowry, Porter Curateur en chef aux Jardins Examinateur Botaniques du Missouri M. Haevermans, Thomas Maître de conférences au MNHN Examinateur Mme. Nadot, Sophie Professeur à l’Université Paris-Sud Directeur de thèse M.
    [Show full text]
  • GENOME EVOLUTION in MONOCOTS a Dissertation
    GENOME EVOLUTION IN MONOCOTS A Dissertation Presented to The Faculty of the Graduate School At the University of Missouri In Partial Fulfillment Of the Requirements for the Degree Doctor of Philosophy By Kate L. Hertweck Dr. J. Chris Pires, Dissertation Advisor JULY 2011 The undersigned, appointed by the dean of the Graduate School, have examined the dissertation entitled GENOME EVOLUTION IN MONOCOTS Presented by Kate L. Hertweck A candidate for the degree of Doctor of Philosophy And hereby certify that, in their opinion, it is worthy of acceptance. Dr. J. Chris Pires Dr. Lori Eggert Dr. Candace Galen Dr. Rose‐Marie Muzika ACKNOWLEDGEMENTS I am indebted to many people for their assistance during the course of my graduate education. I would not have derived such a keen understanding of the learning process without the tutelage of Dr. Sandi Abell. Members of the Pires lab provided prolific support in improving lab techniques, computational analysis, greenhouse maintenance, and writing support. Team Monocot, including Dr. Mike Kinney, Dr. Roxi Steele, and Erica Wheeler were particularly helpful, but other lab members working on Brassicaceae (Dr. Zhiyong Xiong, Dr. Maqsood Rehman, Pat Edger, Tatiana Arias, Dustin Mayfield) all provided vital support as well. I am also grateful for the support of a high school student, Cady Anderson, and an undergraduate, Tori Docktor, for their assistance in laboratory procedures. Many people, scientist and otherwise, helped with field collections: Dr. Travis Columbus, Hester Bell, Doug and Judy McGoon, Julie Ketner, Katy Klymus, and William Alexander. Many thanks to Barb Sonderman for taking care of my greenhouse collection of many odd plants brought back from the field.
    [Show full text]
  • Phylogenomic Approach
    Toward the ultimate phylogeny of Magnoliaceae: phylogenomic approach Sangtae Kim*1, Suhyeon Park1, and Jongsun Park2 1 Sungshin University, Korea 2 InfoBoss Co., Korea Mr. Carl Ferris Miller Founder of Chollipo Arboretum in Korea Chollipo Arboretum Famous for its magnolia collection 2020. Annual Meeting of Magnolia Society International Cholliop Arboretum in Korea. April 13th~22th, 2020 http://WWW.Chollipo.org Sungshin University, Seoul, Korea Dr. Hans Nooteboom Dr. Liu Yu-Hu Twenty-one years ago... in 1998 The 1st International Symposium on the Family Magnoliaceae, Gwangzhow Dr. Hiroshi Azuma Mr. Richard Figlar Dr. Hans Nooteboom Dr. Qing-wen Zeng Dr. Weibang Sun Handsome young boy Dr. Yong-kang Sima Dr. Yu-wu Law Presented ITS study on Magnoliaceae - never published Ten years ago... in 2009 Presented nine cp genome region study (9.2 kbp) on Magnoliaceae – published in 2013 2015 1st International Sympodium on Neotropical Magnoliaceae Gadalajara, 2019 3rd International Sympodium and Workshop on Neotropical Magnoliaceae Asterales Dipsacales Apiales Why magnolia study is Aquifoliales Campanulids (Euasterids II) Garryales Gentianales Laminales Solanales Lamiids important in botany? Ericales Asterids (Euasterids I) Cornales Sapindales Malvales Brassicales Malvids Fagales (Eurosids II) • As a member of early-diverging Cucurbitales Rosales Fabales Zygophyllales Celestrales Fabids (Eurosid I) angiosperms, reconstruction of the Oxalidales Malpighiales Vitales Geraniales Myrtales Rosids phylogeny of Magnoliaceae will Saxifragales Caryphyllales
    [Show full text]