DOCSLIB.ORG

Genome Size Variation and Incidence of Polyploidy in Scrophulariaceae Sensu Lato from the Iberian Peninsula

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Genome Size Variation and Incidence of Polyploidy in Scrophulariaceae Sensu Lato from the Iberian Peninsula AoB PLANTS http://aobplants.oxfordjournals.org/ Open access – Research article Genome size variation and incidence of polyploidy in Scrophulariaceae sensu lato from the Iberian Peninsula Mariana Castro*,Sı´lvia Castro and Joa˜o Loureiro CFE, Centre for Functional Ecology, Department of Life Sciences, University of Coimbra, PO Box 3046, Coimbra 3001-401, Portugal Received: 16 April 2012; Revised: 12 September 2012; Accepted: 11 October 2012; Published: 22 October 2012 Citation details: Castro M, Castro S, Loureiro J. 2012. Genome size variation and incidence of polyploidy in Scrophulariaceae sensu lato from the Iberian Peninsula. AoB PLANTS 2012: pls037; doi:10.1093/aobpla/pls037 Downloaded from Abstract Background and In the last decade, genomic studies using DNA markers have strongly influenced the current aims phylogeny of angiosperms. Genome size and ploidy level have contributed to this discussion, http://aobpla.oxfordjournals.org/ being considered important characters in biosystematics, ecology and population biology. Despite the recent increase in studies related to genome size evolution and polyploidy incidence, only a few are available for Scrophulariaceae. In this context, we assessed the value of genome size, mostly as a taxonomic marker, and the role of polyploidy as a process of genesis and maintenance of plant diversity in Scrophulariaceae sensu lato in the Iberian Peninsula. Methodology Large-scale analyses of genome size and ploidy-level variation across the Iberian Peninsula were performed using flow cytometry. One hundred and sixty-two populations of 59 distinct at 00500 Universidade de Coimbra on May 6, 2014 taxa were analysed. A bibliographic review on chromosome counts was also performed. Principal results From the 59 sampled taxa, 51 represent first estimates of genome size. The majority of the Scrophulariaceae species presented very small to small genome sizes (2C ≤ 7.0 pg). Further- more, in most of the analysed genera it was possible to use this character to separate several taxa, independently if these genera were homoploid or heteroploid. Also, some genome- related phenomena were detected, such as intraspecific variation of genome size in some genera and the possible occurrence of dysploidy in Verbascum spp. With respect to polyploidy, despite a few new DNA ploidy levels having been detected in Veronica, no multiple cytotypes have been found in any taxa. Conclusions This work contributed with important basic scientific knowledge on genome size and poly- ploid incidence in the Scrophulariaceae, providing important background information for sub- sequent studies, with several perspectives for future studies being opened. Introduction of organization, with unique and particular evolutionary his- tories. Genome size is one of its intrinsic characteristics, Knowledge of the genome has been increasingly being considered a constant species-specific character important in many areas of plant research, including that can help to explain relationships between species taxonomy and biosystematics, ecology and population (Gregory 2001). As shown by Bennett and Leitch biology. Genomes represent a distinct and legitimate level (2010), genome size is still unknown for 97.5 % of * Corresponding author’s e-mail address: [email protected] Published by Oxford University Press on behalf of the Annals of Botany Company. This is an Open Access article distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/3.0/), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited. AoB PLANTS 2012: pls037; doi:10.1093/aobpla/pls037, available online at www.aobplants.oxfordjournals.org & The Authors 2012 1 Castro et al. — Scrophulariaceae genome size and polyploidy angiosperm species. Despite the small representation of Orobanchaceae (the latter two contain most of the taxa estimates it is already possible to find a large variation in that have moved), Stilbaceae, Phrymaceae and Lindernia- genome size among different taxonomic groups. This ceae (Olmstead et al. 2001; The Angiosperm Phylogeny highlights the relevance of genome size as a taxonomic Group 2003). In the Iberian Peninsula, Scrophulariaceae and/or ecological marker in particular plant groups. Also, s.l. is represented by 323 species distributed in 33 the variation in the amount of DNA content (or lack of it) genera (Benedı´ et al. 2009). Most species are ruderal has been a central focus of evolutionary biology, and an and can be easily found in disturbed lands; however, important tool to know the structure of genetic informa- there are several species listed in the red lists, and tion, its evolution and function, and to understand the thus in need of special protection (e.g. Anarrhinum biological basis of the diversity and its adaptive value longipedicellatum). in ecological, evolutionary and taxonomic interpreta- Considering that there is almost no available informa- tions (Gregory 2005b; Greilhuber et al. 2010). tion on genome size for any taxa of this family (but see Nowadays, genomes are considered to be highly Albach and Greilhuber 2004), that there are several Downloaded from dynamic and their evolution is considered to be a bidir- records in the literature pointing to the possible exist- ectional process, with its size resulting from a dynamic ence of polyploids within and between species of Scro- balance between expansion and contraction forces phulariaceae (e.g. Antirrhinum, Digitalis and Veronica) (Bennett and Leitch 2005). Generally, polyploidy is one and that, in case polyploids are found, many taxa of the mechanisms that may lead to increases in present large attractive flowers, ideal for reproductive http://aobpla.oxfordjournals.org/ genome size. In homoploid plants (i.e. species with the isolation studies, it would be important to obtain back- same number of chromosomes), genome expansion is ground information on genome evolution and polyploid due to amplification and insertion of transposable incidence in the Scrophulariaceae through a large-scale genetic elements (different amounts of non-coding, re- cytogenetic-based study. petitive DNA sequences; Vitte and Bennetzen 2006)and Therefore, the main objectives of the present study evolution and amplification of satellite repeats (variation were to assess the value of genome size as a taxonomic in the number and proportion of minisatellites and micro- marker, and the role of polyploidy as a process of genesis satellites; Lim et al. 2006). Relative to the loss of genome and maintenance of plant diversity in Scrophulariaceae at 00500 Universidade de Coimbra on May 6, 2014 size, it is associated with deletional mechanisms such as s.l. in the Iberian Peninsula. For that we: (i) assessed unequal intra-strand homologous recombination, illegit- chromosome numbers, genome size and polyploidy imate recombination and/or higher rate of nucleotide incidence in Scrophulariaceae taxa from the Iberian Pen- deletion over insertion (Bennetzen et al. 2005). insula through an exhaustive review of the bibliographic In biosystematics, ecology and evolution, genome size literature; (ii) estimated the genome size of a diverse has been important as a tool to discriminate taxa and array of taxa from several key genera; and (iii) assessed resolve complex low-level taxonomies, to distinguish cytotype diversity through large-scale screenings in groups with phenotypic similarities, with a low number natural populations. of distinct morphological characters, with continuous morphological variations and/or groups prone to inter- Methods specific hybridization or with complex evolutionary histor- ies (e.g. allopolyploids). Also, several studies tried to Plant material predict the correlation of genomes size with several Plant samples from 59 taxa of the Scrophulariaceae s.l. phenotypic, physiological and/or ecological characteristics were collected from several field locations in Portugal (the nucleotypic effect) and to understand the dynamics and Spain. Seeds from some taxa were kindly provided of genome evolution (studying inter- and intraspecific by Index Semina of several Iberian research institutions variation ‘patterns’ in genome size) (Loureiro et al. 2010). [see Additional Information]. As traditionally circumscribed (e.g. von Wettstein 1891), Field collections were carried out during the flowering the Scrophulariaceae is the largest family within the order season (March to August) of the studied taxa. In each Lamiales and has a worldwide distribution. However, population, leaves and/or seeds from up to 30 individuals recent molecular studies using DNA sequences of plastid were collected and stored in hermetic plastic bags. genes revealed at least five distinct monophyletic Samples were kept at 4 8C in a refrigerator until analysis groups, leading to the disintegration of the traditional (usually, not .2 days). Voucher specimens were also classification of Scrophulariaceae sensu lato (s.l.) in, collected for plant identification and were kept in the at least, six families (Olmstead et al. 2001). Members of Herbarium of the University of Coimbra. the classical Scrophulariaceae are currently found in Seeds from Scrophulariaceae taxa and from reference Scropulariaceae sensu stricto (s.s.), Plantaginaceae, standards were sown in plastic cuvettes filled with 2 AoB PLANTS 2012: pls037; doi:10.1093/aobpla/pls037, available online at www.aobplants.oxfordjournals.org & The Authors 2012 Castro et al. — Scrophulariaceae genome size and polyploidy
Load more

Recommended publications
  • Tree of Life Marula Oil in Africa
    HerbalGram 79 • August – October 2008 HerbalGram 79 • August Herbs and Thyroid Disease • Rosehips for Osteoarthritis • Pelargonium for Bronchitis • Herbs of the Painted Desert The Journal of the American Botanical Council Number 79 | August – October 2008 Herbs and Thyroid Disease • Rosehips for Osteoarthritis • Pelargonium for Bronchitis • Herbs of the Painted Desert • Herbs of the Painted Bronchitis for Osteoarthritis Disease • Rosehips for • Pelargonium Thyroid Herbs and www.herbalgram.org www.herbalgram.org US/CAN $6.95 Tree of Life Marula Oil in Africa www.herbalgram.org Herb Pharm’s Botanical Education Garden PRESERVING THE FULL-SPECTRUM OF NATURE'S CHEMISTRY The Art & Science of Herbal Extraction At Herb Pharm we continue to revere and follow the centuries-old, time- proven wisdom of traditional herbal medicine, but we integrate that wisdom with the herbal sciences and technology of the 21st Century. We produce our herbal extracts in our new, FDA-audited, GMP- compliant herb processing facility which is located just two miles from our certified-organic herb farm. This assures prompt delivery of freshly-harvested herbs directly from the fields, or recently HPLC chromatograph showing dried herbs directly from the farm’s drying loft. Here we also biochemical consistency of 6 receive other organic and wildcrafted herbs from various parts of batches of St. John’s Wort extracts the USA and world. In producing our herbal extracts we use precision scientific instru- ments to analyze each herb’s many chemical compounds. However, You’ll find Herb Pharm we do not focus entirely on the herb’s so-called “active compound(s)” at fine natural products and, instead, treat each herb and its chemical compounds as an integrated whole.
    [Show full text]
  • Changes in Multi-Level Biodiversity and Soil Features in a Burned Beech Forest in the Southern Italian Coastal Mountain
    Article Changes in Multi-Level Biodiversity and Soil Features in a Burned Beech Forest in the Southern Italian Coastal Mountain Adriano Stinca 1,* , Maria Ravo 2, Rossana Marzaioli 1,*, Giovanna Marchese 2, Angela Cordella 2, Flora A. Rutigliano 1 and Assunta Esposito 1 1 Department of Environmental Biological and Pharmaceutical Sciences and Technologies, University of Campania Luigi Vanvitelli, Via Vivaldi 43, 81100 Caserta, Italy; fl[email protected] (F.A.R.); [email protected] (A.E.) 2 Genomix4Life S.r.l., Via Allende, 84081 Baronissi (Salerno), Italy; [email protected] (M.R.); [email protected] (G.M.); [email protected] (A.C.) * Correspondence: [email protected] (A.S.); [email protected] (R.M.) Received: 1 August 2020; Accepted: 8 September 2020; Published: 11 September 2020 Abstract: In the context of global warming and increasing wildfire occurrence, this study aims to examine, for the first time, the changes in multi-level biodiversity and key soil features related to soil functioning in a burned Mediterranean beech forest. Two years after the 2017 wildfire, changes between burned and unburned plots of beech forest were analyzed for plant communities (vascular plant and cover, bryophytes diversity, structural, chorological, and ecological variables) and soil features (main chemical properties, microbial biomass and activity, bacterial community composition, and diversity), through a synchronic study. Fire-induced changes in the micro-environmental conditions triggered a secondary succession process with colonization by many native pioneer plant species. Indeed, higher frequency (e.g., Scrophularia vernalis L., Rubus hirtus Waldst. and Kit. group, and Funaria hygrometrica Hedw.) or coverage (e.g., Verbascum thapsus L.
    [Show full text]
  • Bibliografía Botánica Ibérica, 1989
    BIBLIOGRAFÍA BOTÁNICA IBÉRICA, 1989 Editor: Santiago Pajarón Phycopbyía: T. Gallarda & M. Alvarez Cobelas Mycophyta: M. Dueñas Líchenes: A. R. l3urgaz B¡yophyta: E. Ron Pteridophyía: C. Prada & E. Pangua Spermaíophyía: A. Molina Al objeto dc proporcionar una información adicional a la de la simple referencia bibliográfica, tras los títulos se incluyen, entre paréntesis, una serie de transcriptores, que son de tres tipos: 1. Temáticos: Pretenden reflejar algunos de los aspectos básicos del texto. La obligada simplificación, dada la cada vez mayar diversidad de la ciencia Botánica, impide un reflejo exacto de los contenidos; sin embargo, creemos que pueden servir para una mayor facilidad en la búsqueda bibliográfica. Estos son: Anal: Citología, Histología, Anatomía, Carpología. Bfloral: Biología floral, polinización, estrategias reproductoras. Bibí: Bibliografía. Bloin: Bioindicador. Canal: Núi’neros cromosomáticos, cariogramas, niveles de ploidia. Coral: Biogeografia, corología, migraciones, vicarianzas, mapas, dominios y territorios climácicos. Cult: Cultivos experimentales en campo y laboratorio. Ecol: Factores ecológicos, autoecologia, fenología, etcétera Etnob: Etnobotánica. Quím: Fitoquimica, fisiología de los vegetales. Flora: Floras y catálogos, notas y aportaciones florísticas. Pitos: Fitosociologia. Bíag: Biografias, historia. Palín: Palinologia. Tax: Sistemática, Taxonomía y Nomenclatura. Vegee: Formaciones vegetales, estructura, caracterización. Bat, Complutensis 16: 173-174. Edit. Universidad Complutense, [990 [74 Pa/arón. 5. 2. Taxonómicos: Indican el o/los géneros y/o taxones de rango superior de los que se trata expresamente en los artículos, siempre que éstos no sobrespasen el número de cuatro. 3. Geográficos: Siempre que ha sido posible se indica el ámbito geográfico provincial de los trabajos, para lo que se han utilizado las abreviaturas de las matriculas provinciales.
    [Show full text]
  • Harpagoside: from Kalahari Desert to Pharmacy Shelf ⇑ Milen I
    Phytochemistry 92 (2013) 8–15 Contents lists available at SciVerse ScienceDirect Phytochemistry journal homepage: www.elsevier.com/locate/phytochem Molecules of Interest Harpagoside: from Kalahari Desert to pharmacy shelf ⇑ Milen I. Georgiev a, , Nina Ivanovska b, Kalina Alipieva c, Petya Dimitrova b, Robert Verpoorte d a Laboratory of Applied Biotechnologies, Institute of Microbiology, Bulgarian Academy of Sciences, Plovdiv, Bulgaria b Department of Immunology, Institute of Microbiology, Bulgarian Academy of Sciences, 1113 Sofia, Bulgaria c Institute of Organic Chemistry with Centre of Phytochemistry, Bulgarian Academy of Sciences, 1113 Sofia, Bulgaria d Natural Products Laboratory, Institute of Biology Leiden, Leiden University, 55 Einsteinweg, 2333 CC Leiden, The Netherlands article info abstract Article history: Harpagoside is an iridoid glycoside that was first isolated from Harpagophytum procumbens (devil’s claw, Received 1 November 2012 Pedaliaceae), a medicinal plant in which it is the major constituent of the iridoid pool. Both the pure com- Received in revised form 9 April 2013 pound and devil’s claw extracts have potent anti-rheumatic, anti-inflammatory and analgesic effects. Accepted 11 April 2013 According to the European Pharmacopoeia commercial devil’s claw products should contain at least Available online 1 May 2013 1.2% harpagoside. However, the compound has also been isolated from several other plant species and in vitro plant culture systems. Recent advances in knowledge of harpagoside distribution, biosynthesis/ Keywords: accumulation and pharmacology are summarized in this review. We also discuss the possible synergism Harpagoside and/or antagonism between major constituents in harpagoside-containing phytopharmaceutical prod- Iridoid glycosides Anti-inflammatory ucts. Finally, future perspectives for its potential application are highlighted.
    [Show full text]
  • BSBI News Index 121-130 ABC 8Pt FINAL
    BSBI News INDEX to Nos 121 – 130 September 2012 to September 2015 Compiled by GWYNN ELLIS ISSN 2397-8813 1 GUIDE TO THE INDEX ABBREVIATIONS AEM Annual Exhibition Meeting Illus. Illustration AGM Annual General Meeting Infl. Inflorescence ASM Annual Summer Meeting Lvs Leaves cf. confer (compare) photo © photo copyright holder congrats congratulations Rev. Review CS Colour Section Rpt Report del. delineavit (drawn) s.l. sensu lato (broad sense) Descr. Description s.s. sensu stricto (narrow sense) Diag. Diagram v.c. vice-county Exbn Exhibition v.cc. vice-counties Exbt Exhibit (♀) female parent Fld Mtg Rpt Field Meeting Report (♂) male parent Fls Flowers ACKNOWLEDGEMENTS: The compiler wishes to thank David Pearman for much helpful advice and for scrutinising the final text. However, responsibility for checking the index and its final form rests solely with the compiler. BOOKS et al. are italicised as are Periodicals and scientific names COLOUR PAGES: In the index all colour page numbers are distinguished by being underlined with the cover pages enclosed in square brackets [ ]. The front cover and inside front cover are numbered [i] and [ii] respectively while the inside back and back cover pages are numbered according to the number of pages, thus with an issue of 76 pages the inside back cover is [77] and the back cover [78]. Colour Section plates are numbered CS1, CS2, CS3, CS4. Photographers are now indexed by name with the qualification (photo ©) COMPILATION: Using the original text on computer, the entries for each issue were generated by deleting all unwanted text. After checking, the entries were then sorted into alphabetical order, condensed, and finally output as pdf files for the Printer.
    [Show full text]
  • Recerca I Territori V12 B (002)(1).Pdf
    Butterfly and moths in l’Empordà and their response to global change Recerca i territori Volume 12 NUMBER 12 / SEPTEMBER 2020 Edition Graphic design Càtedra d’Ecosistemes Litorals Mediterranis Mostra Comunicació Parc Natural del Montgrí, les Illes Medes i el Baix Ter Museu de la Mediterrània Printing Gràfiques Agustí Coordinadors of the volume Constantí Stefanescu, Tristan Lafranchis ISSN: 2013-5939 Dipòsit legal: GI 896-2020 “Recerca i Territori” Collection Coordinator Printed on recycled paper Cyclus print Xavier Quintana With the support of: Summary Foreword ......................................................................................................................................................................................................... 7 Xavier Quintana Butterflies of the Montgrí-Baix Ter region ................................................................................................................. 11 Tristan Lafranchis Moths of the Montgrí-Baix Ter region ............................................................................................................................31 Tristan Lafranchis The dispersion of Lepidoptera in the Montgrí-Baix Ter region ...........................................................51 Tristan Lafranchis Three decades of butterfly monitoring at El Cortalet ...................................................................................69 (Aiguamolls de l’Empordà Natural Park) Constantí Stefanescu Effects of abandonment and restoration in Mediterranean meadows .......................................87
    [Show full text]
  • To La Serena What Severe and Brown Earth, Sun-Soaked, Barren, Poor, and Torn by a Thousand Stone Needles. Softened by Pastures W
    To La Serena What severe and brown earth, sun-soaked, barren, poor, and torn by a thousand stone needles. Softened by pastures where the bells lend their voice to the sheep. Earth watched over by castles already void, of dry battlements, lichen and wild-fig covered, silent witness of the passage of time. Naked earth of trees and undergrowth, of mountain crags, dark and ashen, of a dying greyish green cut out against the sky like a Chinese shadow. And however, so beautiful. In spring the breeze carries the scent of labdanum and heath to the plain, and the rosemary prays to its god, the Sun, giving to the air a magic aura of sanctity, as if bathing it in incense. Winter sows the earth with torrents, ponds, streams leaping and sparkling, their banks carpeted with the tiniest flowers whose names only botanists know. Spring dries the soul of La Serena and shrouds it with flowers, crowning it with beauty, then to clothe it in fields of golden hay combed by the east wind in summer. Everything in La Serena is ephemeral, as a lily petal left on the altar, as the winged soul of a butterfly, as the tears of a child. Only the holm oak, brown like earth, remain in time, year after year, standing, silent, with their gray trunks, their hardy leaves, their gnarled strong and haggard branches. 305 306 Generalities 307 308 Generalities 1. INTRODUCTION Following the 1996 Cork (Ireland) Declaration “ A Living Rural Environment ”, rural development has become a key cross-sectoral goal of a major part of European Com - munity policies.
    [Show full text]
  • This Thesis Has Been Submitted in Fulfilment of the Requirements for a Postgraduate Degree (E.G
    This thesis has been submitted in fulfilment of the requirements for a postgraduate degree (e.g. PhD, MPhil, DClinPsychol) at the University of Edinburgh. Please note the following terms and conditions of use: This work is protected by copyright and other intellectual property rights, which are retained by the thesis author, unless otherwise stated. A copy can be downloaded for personal non-commercial research or study, without prior permission or charge. This thesis cannot be reproduced or quoted extensively from without first obtaining permission in writing from the author. The content must not be changed in any way or sold commercially in any format or medium without the formal permission of the author. When referring to this work, full bibliographic details including the author, title, awarding institution and date of the thesis must be given. Trichome morphology and development in the genus Antirrhinum Ying Tan Doctor of Philosophy Institute of Molecular Plant Sciences School of Biological Sciences The University of Edinburgh 2018 Declaration I declare that this thesis has been composed solely by myself and that it has not been submitted, in whole or in part, in any previous application for a degree. Except where stated otherwise by reference or acknowledgment, the work presented is entirely my own. ___________________ ___________________ Ying Tan Date I Acknowledgments Many people helped and supported me during my study. First, I would like to express my deepest gratitude to my supervisor, Professor Andrew Hudson. He has supported me since my PhD application and always provides his valuable direction and advice. Other members of Prof. Hudson’s research group, especially Erica de Leau and Matthew Barnbrook, taught me lots of experiment skills.
    [Show full text]
  • Flora Mediterranea 26
    FLORA MEDITERRANEA 26 Published under the auspices of OPTIMA by the Herbarium Mediterraneum Panormitanum Palermo – 2016 FLORA MEDITERRANEA Edited on behalf of the International Foundation pro Herbario Mediterraneo by Francesco M. Raimondo, Werner Greuter & Gianniantonio Domina Editorial board G. Domina (Palermo), F. Garbari (Pisa), W. Greuter (Berlin), S. L. Jury (Reading), G. Kamari (Patras), P. Mazzola (Palermo), S. Pignatti (Roma), F. M. Raimondo (Palermo), C. Salmeri (Palermo), B. Valdés (Sevilla), G. Venturella (Palermo). Advisory Committee P. V. Arrigoni (Firenze) P. Küpfer (Neuchatel) H. M. Burdet (Genève) J. Mathez (Montpellier) A. Carapezza (Palermo) G. Moggi (Firenze) C. D. K. Cook (Zurich) E. Nardi (Firenze) R. Courtecuisse (Lille) P. L. Nimis (Trieste) V. Demoulin (Liège) D. Phitos (Patras) F. Ehrendorfer (Wien) L. Poldini (Trieste) M. Erben (Munchen) R. M. Ros Espín (Murcia) G. Giaccone (Catania) A. Strid (Copenhagen) V. H. Heywood (Reading) B. Zimmer (Berlin) Editorial Office Editorial assistance: A. M. Mannino Editorial secretariat: V. Spadaro & P. Campisi Layout & Tecnical editing: E. Di Gristina & F. La Sorte Design: V. Magro & L. C. Raimondo Redazione di "Flora Mediterranea" Herbarium Mediterraneum Panormitanum, Università di Palermo Via Lincoln, 2 I-90133 Palermo, Italy [email protected] Printed by Luxograph s.r.l., Piazza Bartolomeo da Messina, 2/E - Palermo Registration at Tribunale di Palermo, no. 27 of 12 July 1991 ISSN: 1120-4052 printed, 2240-4538 online DOI: 10.7320/FlMedit26.001 Copyright © by International Foundation pro Herbario Mediterraneo, Palermo Contents V. Hugonnot & L. Chavoutier: A modern record of one of the rarest European mosses, Ptychomitrium incurvum (Ptychomitriaceae), in Eastern Pyrenees, France . 5 P. Chène, M.
    [Show full text]
  • A Common Threat to IUCN Red-Listed Vascular Plants in Europe
    Tourism and recreation: a common threat to IUCN red-listed vascular plants in Europe Author Ballantyne, Mark, Pickering, Catherine Marina Published 2013 Journal Title Biodiversity and Conservation DOI https://doi.org/10.1007/s10531-013-0569-2 Copyright Statement © 2013 Springer. This is an electronic version of an article published in Biodiversity and Conservation, December 2013, Volume 22, Issue 13-14, pp 3027-3044. Biodiversity and Conservation is available online at: http://link.springer.com/ with the open URL of your article. Downloaded from http://hdl.handle.net/10072/55792 Griffith Research Online https://research-repository.griffith.edu.au Manuscript 1 Tourism and recreation: a common threat to IUCN red-listed vascular 1 2 3 4 2 plants in Europe 5 6 7 8 3 *Mark Ballantyne and Catherine Marina Pickering 9 10 11 12 4 Environmental Futures Centre, School of Environment, Griffith University, Gold Coast, 13 14 5 Queensland 4222, Australia 15 16 17 18 6 *Corresponding author email: [email protected], telephone: +61(0)405783604 19 20 21 7 22 23 8 24 25 9 26 27 28 10 29 30 11 31 32 12 33 34 13 35 36 37 14 38 39 15 40 41 16 42 43 17 44 45 46 18 47 48 19 49 50 20 51 52 21 53 54 55 22 56 57 23 58 59 24 60 61 62 63 64 65 25 Abstract 1 2 3 4 26 Tourism and recreation are large industries employing millions of people and contribute over 5 6 27 US$2.01 trillion to the global economy.
    [Show full text]
  • Flowering Plants of South Norwood Country Park
    Flowering Plants Of South Norwood Country Park Robert Spencer Introduction South Norwood Country Park relative to its size contains a wide range habitats and as a result a diverse range of plants can be found growing on site. Some of these plants are very conspicuous, growing in great abundance and filling the park with splashes of bright colour with a white period in early May largely as a result of the Cow Parsley, this is followed later in the year by a pink period consisting of mainly Willow herbs. Other plants to be observed are common easily recognisable flowers. However there are a great number of plants growing at South Norwood Country Park that are less well-known or harder to spot, and the casual observer would likely be surprised to learn that 363 species of flowering plants have so far been recorded growing in the park though this number includes invasive species and garden escapes. This report is an update of a report made in 2006, and though the site has changed in the intervening years the management and fundamental nature of the park remains the same. Some plants have diminished and some have flourished and the high level of diversity is still present. Many of these plants are important to other wildlife particularly in their relationship to invertebrate pollinators, and some of these important interactions are referenced in this report. With so many species on the plant list there is a restriction on how much information is given for each species, with some particularly rare or previously observed but now absent plants not included though they appear in the index at the back of the report including when they were last observed.
    [Show full text]
  • Rubus Fruticosus and Verbascum Thapsus Medicinal Plants Collected from Dir (L) N.W.F.P
    Antioxidant and anti-inflammatory study of Rubus fruticosus and Verbascum thapsus medicinal plants collected from Dir (L) N.W.F.P. Pakistan Muhammad Riaz, B. Pharm. Department of Pharmacognosy Faculty of Pharmacy, University of Karachi Karachi-75270, Pakistan 2012 Antioxidant and anti-inflammatory study of Rubus fruticosus and Verbascum thapsus medicinal plants collected from Dir (L) N.W.F.P. Pakistan THESIS SUBMITTED FOR THE FULFILMENT OF THE DEGREE OF DOCTOR OF PHILLOSOPHY By Muhammad Riaz, B. Pharm. Supervised by Dr. Mansoor Ahmad, I.F. Meritorious Professor Department of Pharmacognosy Faculty of Pharmacy, University of Karachi Karachi-75270, Pakistan 2012 DIDICATED TO MY PARENTS i PUBLICATION FROM THESIS Riaz M , Ahmad M and Rahman N (2011). Antimicrobial screening of fruit, leaves, root and stem of Rubus fruticosus . J. Med. Plants Res ., 5(24): 5920-5924. ii CONTENTS i. Acknowledgements viii ii. Abstract ix iii. Khulasa xii 1. Introduction 01 I. Rubus fruticosus 03 II. Verbascum thapsus 07 2. Literature search i. Literature survey of Rubus fruticosus 13 ii. Therapeutic application of Rubus fruticosus 15 iii. Literature data for total phenols, anthocyanins and ascorbic acid 17 iv. Phytochemical literature survey of Rubus fruticosus 18 v. Structures of chemical constituents reported from R. fruticosus 23 vi. Literature survey of Verbascum thapsus 28 vii. Pharmacological literature survey of Verbascum thapsus 30 viii. Phytochemical literature survey of Verbascum thapsus 32 ix. Structures of chemical constituents reported from V. thapsus 38 3. Experimental 42 i. General/Materials 42 ii. Instruments 43 iii. Abbreviations 44 iv. Pharmacognostic evaluation/Standardization of drugs 45 v. Thin layer chromatography 48 vi.
    [Show full text]