DOCSLIB.ORG

Bibliography

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Bibliography Bibliography Albre, J., Quilichini, A. & Gibernau, M., 2003. Pollination ecology of Arum italicum (Araceae). Botanical Journal of the Linnean Society, 141(2), 205–214. Allen, G. 1881. The Evolutionist at Large, Chatto & Windus. Available at: http://archive.org/details/ evolutionistatl00allegoog [accessed 19 August, 2012]. Allen, G. 1897. The Evolution of the Idea of God: An Inquiry into the Origins of Religion, H. Holt and company. Available at: http://archive.org/details/evolutionideago00allegoog [accessed 19 August, 2012]. Anon., 1526. The Grete Herball. Translated from French by Peter Treveris: London. Anon., 1833. History of Vegetable Substances Used in the Arts, in Domestic Economy, and for the Food of Man, Boston, Lilly, Wait, Colman and Holden. Available at: http://archive.org/details/ historyofvegetab02bostiala [accessed 12 January, 2013]. Anon., 1838. Stone quarries and beyond. The Penny Magazine. Available at: http:// quarriesandbeyond.org/articles_and_books/isle_of_portland.html [accessed 12 January, 2013]. Anon., 1861. The Physicians of Myddvai; Meddygon Myddvai, or The Medical Practice of the Celebrated Riwallon and his Sons, of Myddvai, in Caermarthenshire, Physicians to Rhys Gryg, Lord of Dynevor and Ystrad Towy, about the Middle of the Thirteenth Century, Llandovery: D.J. Roderic, London, Longman & Co. Available at: http://archive.org/details/ physiciansofmydd00llan [accessed 12 January, 2013]. Anon., 2004. Arum maculatum (for advanced foragers only). BushcraftUK. Available at: http:// www.bushcraftuk.com/forum/showthread.php?t=3862 [accessed 12 January, 2013]. Anon., 2008. Herbal Medicine Diploma Course. A Brief History of Herbalism. Lesson 1. Anon., 2012. Wihtburh [Withburga]. Wikipedia, the free encyclopedia. Available at: https:// en.wikipedia.org/w/index.php?title=Wihtburh&oldid =530340470 [accessed 12 January, 2013]. Anon., Arum Maculatum – homeopathic remedy. Homeopathy Pro. Available at: http:// www.homeotexts.com/arum-maculatum.htm [accessed 1 November 1, 2010]. Anon., Arum Maculatum L. Inchem. Available at: www.inchem.org/documents/pims/plant/ pim045fr.htm [accessed 12 January, 2013]. Anon., Elizabethan ruffs. Available at: http://www.elizabethan-era.org.uk/elizabethan-ruffs.htm [accessed 12 January, 2013]. Anon., Etruscan herbal. Culture medicine. Available at: http://culturemedicine.com/?m=201010 [accessed 12 January, 2013]. Anon., Herbarium of Apeleius Platonicus. Old & Sold. Available at: http://www.oldandsold.com/ articles31n/herbals-5.shtml [accessed 12 January, 2013]. Anon., Hidden mystery of the Unicorn Tapestries revealed. Winterspells: Life on the Magical Path. Available at: www.winterspells.com/3391/hidden-mystery-of-the-unicorn-tapestries-revealed/ [accessed 12 January, 2013]. Anon., How Shakespeare has been made a lawyer. Shakespeare Law Library. Available at: http:// www.sourcetext.com/lawlibrary/devecmon/02.htm [accessed 12 January, 2013]. Anon., In defence of oxalic acid. Dews World. Available at: http://www.dewsworld.com/ InDefenseofOxalicAcid.html [accessed 12 January, 2013]. Anon., Old time remedies. Available at: http://www.oldtimeremedies.co.uk/labels/arum.html [accessed 12 January, 2013]. Anon., Robert Greene. Theatre database. Available at: http://www.theatredatabase.com/16th_century/ robert_greene.html [accessed 12 January, 2013]. Anon, St Withburga of Dereham. Encyclopedia Britannica. Available at: http://www.britannia.com/bios/ saints/withburga.html [accessed 12 January, 2013]. Anon., The Complete Herbal. Bibliomania. Available at: http://www.bibliomania.com/2/1/66/113/ frameset.html [accessed 12 January, 2013]. Anon., The Herbal of Pseudo-Apuleius. From cave paintings to the Internet. Available at: http:// www.historyofinformation.com/expanded.php?id=2580 [accessed 12 January, 2013]. Anon., The hunt of the unicorn. Wikipedia. Available at: https://en.wikipedia.org/wiki/ The_Hunt_of_the_Unicorn [accessed 12 January, 2013]. Anon., The life of Thomas Nashe (1567–1701). Available at: http://www.luminarium.org/renlit/ nashebio.htm [accessed 12 January, 2013]. Anon., The unicorn in captivity. The Metropolitan Museum of Art. Available at: www.metmuseum.org/collections/search-the-collections/70007568?img=3#fullscreen [accessed 12 January, 2013]. Anon., The village minstrel. John Clare Weblog: The Village Minstral. Available at: www.johnclare.blogspot.co.uk/2007/02/village-minstrel.html [accessed 12 January, 2013]. Anon., UK Flowers of Our Lady. Intro Mary Garden. Available at: http://campus.udayton.edu/mary/ resources/m_garden/marygardensmain.html [accessed January 2013]. Arber, A. 1912. Herbals. Their Origin and Evolution: A Chapter in the History of Botany. Cambridge, UK: University Press. Assmann, J., 2001. The Search for God in Ancient Egypt. Ithaca, NY: Cornell University Press. Auden, H., 1922. Starch & Starch Products. London: Sir Isaac Pitman & Sons, Ltd. Ayse, E. & Ersin, O., Focusing on the ethnobotanical uses of plants in Mersin and Adana provinces (Turkey). Journal of Ethnobiology and Ethnomedicine, 1. Baker, A.E., 1854. Glossary of Northamptonshire Words and Phrases; with Examples of their Colloquial Use, and Illus. from Various Authors: to which are Added the Customs of the County. London: J.R. Smith. Available at: http://archive.org/details/glossaryofnortha02bakeuoft [accessed 12 January, 2013]. Barabe, D. et al., 2004. On the presence of extracellular calcium oxalate crystals on the inflorescences of Araceae. Botanical Journal of the Linnean Society, 146(2), 181–190. Bay, D., 1995. Thermogenesis in the aroids. Aroideana, 18, 32–39. Bedalov, M. & Kiipfer, P., 2006. Studies on the Genus Arum (Aracea). Aroideana, 29, 108–131. Benson, Earl, Esq., W., 1797. Transactions of the Society for the Encouragement of Arts, Manufactures and Commerce. Bermadinger-Stabentheiner, E. and Stabentheiner, A., 1995. Dynamics of thermogenesis and structure of epidermal tissues in inflorescences of Arum maculatum. New Phytologist, 131(1), 41–50. Bierzychudek, P., 1982. Life histories and demography of shade-tolerant temperate forest herbs: a review. New Phytologist, 90(4), 757–776. Stable URL: http://www.jstor.org/stable/243183 Biltcliffe, G., 2009. The Spirit of Portland: Revelations of a Sacred Isle. Dorset: Roving Press Limited. Bostock, J., Pliny the Elder, The Natural History. Available at: http://www.perseus.tufts.edu/hopper/ text?doc=Perseus:text:1999.02.0137. [accessed 12 January, 2013]. Boyce, P., 1993. The Genus Arum. A Kew Magazine Monograph. London: HMSO Publications. Brown, D., 2000. Aroids: Plants of the Arum Family, 2nd Edition. Portland, OR: Timber Press. Bulliard, P., 1798. Historie des Plantes Veneneuses et Suspects de la France. Paris: Dugour. Cao, H. 2003. The distribution of calcium oxalate crystals in genus Dieffenbachia Schott. and the relationship between environmental factors and crystal quantity and quality (Doctoral dissertation, University of Florida). Available at: http://etd.fcla.edu/UF/UFE0001245/cao_h.pdf [accessed March 2013]. Chicheley, C.P., 1968. A Manual of Plant Names. London: George Allen & Unwin, Ltd. Christy, M., 1863. The indifferent coiling of arum spathes. Journal of Botany, British and Foreign, 52, 1914. Stable URL: http://www.archive.org/details/journalofbotanyb52trim Cicnjak, L., Huber, D., Roth, H.U., Ruff, R.L. & Vinovrski, Z., 1987. Food habits of brown bears in Plitvice Lakes National Park, Yugoslavia. In: Bears: their Biology and Management, Vol. 7, pp. 221–226. Stable URL: http://www.jstor.org/stable/3872628 Clare, J., 1821. The Village Minstrel and Other Poems [in two vols]. Stamford, Lincolnshire: Taylor & Hessey. Cockayne, T.O., 1864. Anglo-Saxon leechdoms, wort cunning and starcraft of early England. Available at: http://archive.org/details/leechdomswortcun02cock Coles, W., 1657. Adam in Eden. London: Nathaniel Brooke. Collins, M., 2000. Medieval Herbals, the Illustrative Traditions. London: The British Library and Toronto Press. Colombo, M.L. et al., 2009. Exposures and intoxications after herb-induced poisonings: a retrospective hospital-based study. Journal of Pharmaceutical Science and Research, 2(2), 123–136. Cooke, M.C. & Taylor, J.E. Hardwicke’s Science Gossip: an illustrated medium of interchange and gossip for students and lovers of nature. London: Robert Hardwicke. Available at: http:// www.biodiversitylibrary.org/item/18256 [accessed 12 January, 2013]. Coté, G.G., 2009. Diversity and distribution of idioblasts producing calcium oxalate crystals in Dieffenbachia seguine (Araceae). American Journal of Botany, 96(7), 1245–1254. Available at: http:// www.amjbot.org/content/96/7/1245 [accessed 12 January, 2013]. Cristhwaite, H. 2007. A Fire Not Blown: Investigations of Sacral Electrical Roots in Ancient Languages of the Mediterranean Region. Metron Publications. Princeton. Croat, T.B., 1998. History and current status of systematic research with Araceae. Aroideana, 21, 126– 145. Culpeper, N., 1880. Culpeper’s Complete Herbal: Consisting of a Comprehensive Description of Nearly All Herbs with Their Medicinal Properties and Directions For Compounding the Medicines Extracted from Them. London: W. Foulsham & Co, Ltd. Available at: http://archive.org/details/culpeperscomplet00culpuoft Deane, G. Jack in the Pulpit, and Jill. Eat the Weeds and other things too. Available at: http:// www.eattheweeds.com/arisaema-triphyllum-jack-and-jill-and-no-hill-2/ [accessed 12 January, 2013]. Dioscorides. 1 AD. De Materia Medica, a New English Translation. [Transl. Osbaldeston, T.A. & Wood, R.P.A. 2000]. Johannesburg, RSA: Ibidis Press. Available
Load more

Recommended publications
  • The Evolution of Pollinator–Plant Interaction Types in the Araceae
    BRIEF COMMUNICATION doi:10.1111/evo.12318 THE EVOLUTION OF POLLINATOR–PLANT INTERACTION TYPES IN THE ARACEAE Marion Chartier,1,2 Marc Gibernau,3 and Susanne S. Renner4 1Department of Structural and Functional Botany, University of Vienna, 1030 Vienna, Austria 2E-mail: [email protected] 3Centre National de Recherche Scientifique, Ecologie des Foretsˆ de Guyane, 97379 Kourou, France 4Department of Biology, University of Munich, 80638 Munich, Germany Received August 6, 2013 Accepted November 17, 2013 Most plant–pollinator interactions are mutualistic, involving rewards provided by flowers or inflorescences to pollinators. An- tagonistic plant–pollinator interactions, in which flowers offer no rewards, are rare and concentrated in a few families including Araceae. In the latter, they involve trapping of pollinators, which are released loaded with pollen but unrewarded. To understand the evolution of such systems, we compiled data on the pollinators and types of interactions, and coded 21 characters, including interaction type, pollinator order, and 19 floral traits. A phylogenetic framework comes from a matrix of plastid and new nuclear DNA sequences for 135 species from 119 genera (5342 nucleotides). The ancestral pollination interaction in Araceae was recon- structed as probably rewarding albeit with low confidence because information is available for only 56 of the 120–130 genera. Bayesian stochastic trait mapping showed that spadix zonation, presence of an appendix, and flower sexuality were correlated with pollination interaction type. In the Araceae, having unisexual flowers appears to have provided the morphological precon- dition for the evolution of traps. Compared with the frequency of shifts between deceptive and rewarding pollination systems in orchids, our results indicate less lability in the Araceae, probably because of morphologically and sexually more specialized inflorescences.
    [Show full text]
  • Cytotaxonomic Studies of Three Ornamental Aroids
    Available online at www.ilns.pl International Letters of Natural Sciences 13(2) (2014) 105-113 ISSN 2300-9675 Cytotaxonomic studies of three ornamental aroids Emmanuel Jonah Kalu, Anulika Mercy Kanu Abia State Polytechnic, Aba, Nigeria ABSTRACT Cytotaxanomical analysis carried out on three ornamental aroids (Anchomanes difformis, Anchomanes hookeri and Arum maculatum) proved that cytological studies is none negligible tool in phylogeny and scientific classificationns of plants. Aceto-orcein stain squash technique was used in this study. Anchomanes difformis and Anchomanes. hookeri showed more relatedness in chromosome number and chromosome morphology, sharing the same chromosome number 2n=13, while Arum maculatum has 2n=8. The following karyotypes formular were revealed: 2n=8=3M+3SM+2ST in Arum maculatum; 2n=13=5M+1SM+7ST in A. difformis; and 2n=13=3M+6SM+4 A. hookeri. Other karyotype parameters investigated like CI%, AsI and degree of asymmetry of the genomes supported current taxonomic ranking. Keywords: aceto-orcein; Arum maculatum; Anchomanes hookeri; Anchomanes difformis; Karyotype; asymmetry 1. INTRODUCTION Araceae is a group of monocotyledon flowering plants that bear a type of inflorescence called spadix. The spadix is usually enclosed in spathe or leaf-like bracts. The group belongs to the order Alismatales. Members are colloquially called aroid. They are herbaceous and often rhizomatous or tuberous. Arum maculatum is a common woodland plant species, commonly known as arum, Jack in the pulpit, lords and ladies etc. it bears spadix enclosed by pale green spathe. They are monoecious and the female flowers form rings at the base while rings of male flower are at the top of the spadix.
    [Show full text]
  • An Encyclopedia of Shade Perennials This Page Intentionally Left Blank an Encyclopedia of Shade Perennials
    An Encyclopedia of Shade Perennials This page intentionally left blank An Encyclopedia of Shade Perennials W. George Schmid Timber Press Portland • Cambridge All photographs are by the author unless otherwise noted. Copyright © 2002 by W. George Schmid. All rights reserved. Published in 2002 by Timber Press, Inc. Timber Press The Haseltine Building 2 Station Road 133 S.W. Second Avenue, Suite 450 Swavesey Portland, Oregon 97204, U.S.A. Cambridge CB4 5QJ, U.K. ISBN 0-88192-549-7 Printed in Hong Kong Library of Congress Cataloging-in-Publication Data Schmid, Wolfram George. An encyclopedia of shade perennials / W. George Schmid. p. cm. ISBN 0-88192-549-7 1. Perennials—Encyclopedias. 2. Shade-tolerant plants—Encyclopedias. I. Title. SB434 .S297 2002 635.9′32′03—dc21 2002020456 I dedicate this book to the greatest treasure in my life, my family: Hildegarde, my wife, friend, and supporter for over half a century, and my children, Michael, Henry, Hildegarde, Wilhelmina, and Siegfried, who with their mates have given us ten grandchildren whose eyes not only see but also appreciate nature’s riches. Their combined love and encouragement made this book possible. This page intentionally left blank Contents Foreword by Allan M. Armitage 9 Acknowledgments 10 Part 1. The Shady Garden 11 1. A Personal Outlook 13 2. Fated Shade 17 3. Practical Thoughts 27 4. Plants Assigned 45 Part 2. Perennials for the Shady Garden A–Z 55 Plant Sources 339 U.S. Department of Agriculture Hardiness Zone Map 342 Index of Plant Names 343 Color photographs follow page 176 7 This page intentionally left blank Foreword As I read George Schmid’s book, I am reminded that all gardeners are kindred in spirit and that— regardless of their roots or knowledge—the gardening they do and the gardens they create are always personal.
    [Show full text]
  • Poisonous Plants for Rabbits by Cindy Fisher
    HOUSE RABBIT SOCIETY A NATIONAL NONPROFIT CORPORATION Poisonous Plants for Rabbits by Cindy Fisher How to use this list: Many plants listed here are not all poisonous, only parts of them Butterfly weed (Asclepias tuberosa) are. Apple is a good example: the seeds are poisonous, but the fruit is perfectly fine for rabbits. Read the complete listing of the plant to get details regarding which parts to C avoid. If no parts are listed, assume that the whole plant is poisonous and should not be Cactus thorn Caesalpinia (Poinciana)-seeds, pods in reach of your rabbit. Use common sense when it comes to your rabbit’s well being; it Caladium (Caladium portulanum)-all parts is better to be safe than sorry. Calendula (Calendula officinalis) Resources used were House Rabbit Journal, The San Diego Turtle and Tortoise Society, and a posting of Calico bush (Kalmia latifolia)-young leaves, shoots poisonous plants made available to America OnLine. Special thanks to Ellen Welch who searched persistent- are fatal ly through her rabbit resources to obtain this list for us. California fern (Conium maculatum)-all parts are fatal A Begonia (sand) California geranium (Senecio petasitis)-whole plant Acokanthera (Acokanthera)-fruit, flowers very Belladonna, Atropa (Atropa belladonna)-all parts, California holly (Heteromeles arbutifolia)-leaves poisonous esp. black berries Calla lily (Zantedeschia aethiopiea, Calla palustris)- Aconite (Aconitum)-all parts very poisonous Belladonna lily (Brunsvigia rosea)-bulbs all parts African rue (Peganum harmala) Betel nut palm
    [Show full text]
  • SPECIES IDENTIFICATION GUIDE National Plant Monitoring Scheme SPECIES IDENTIFICATION GUIDE
    National Plant Monitoring Scheme SPECIES IDENTIFICATION GUIDE National Plant Monitoring Scheme SPECIES IDENTIFICATION GUIDE Contents White / Cream ................................ 2 Grasses ...................................... 130 Yellow ..........................................33 Rushes ....................................... 138 Red .............................................63 Sedges ....................................... 140 Pink ............................................66 Shrubs / Trees .............................. 148 Blue / Purple .................................83 Wood-rushes ................................ 154 Green / Brown ............................. 106 Indexes Aquatics ..................................... 118 Common name ............................. 155 Clubmosses ................................. 124 Scientific name ............................. 160 Ferns / Horsetails .......................... 125 Appendix .................................... 165 Key Traffic light system WF symbol R A G Species with the symbol G are For those recording at the generally easier to identify; Wildflower Level only. species with the symbol A may be harder to identify and additional information is provided, particularly on illustrations, to support you. Those with the symbol R may be confused with other species. In this instance distinguishing features are provided. Introduction This guide has been produced to help you identify the plants we would like you to record for the National Plant Monitoring Scheme. There is an index at
    [Show full text]
  • Regulation of Thermogenesis in Flowering Araceae
    Biochimica et Biophysica Acta 1777 (2008) 993–1000 Contents lists available at ScienceDirect Biochimica et Biophysica Acta journal homepage: www.elsevier.com/locate/bbabio Regulation of thermogenesis in flowering Araceae: The role of the alternative oxidase Anneke M. Wagner a,1, Klaas Krab a, Marijke J. Wagner a, Anthony L. Moore b,⁎ a Institute of Molecular Cell Biology, VU Universiteit, de Boelelaan 1087, 1081 HV Amsterdam, The Netherlands b Division of Biochemistry and Biomedical Sciences, School of Life Sciences, University of Sussex, Falmer, Brighton BN1 9QG, UK ARTICLE INFO ABSTRACT Article history: The inflorescences of several members of the Arum lily family warm up during flowering and are able to Received 3 February 2008 maintain their temperature at a constant level, relatively independent of the ambient temperature. The heat Received in revised form 31 March 2008 is generated via a mitochondrial respiratory pathway that is distinct from the cytochrome chain and involves Accepted 1 April 2008 a cyanide-resistant alternative oxidase (AOX). In this paper we have used flux control analysis to investigate Available online 9 April 2008 the influence of temperature on the rate of respiration through both cytochrome and alternative oxidases in mitochondria isolated from the appendices of intact thermogenic Arum maculatum inflorescences. Results Keywords: Thermoregulation are presented which indicate that at low temperatures, the dehydrogenases are almost in full control of Plant respiration respiration but as the temperature increases flux control shifts to the AOX. On the basis of these results a Alternative oxidase simple model of thermoregulation is presented that is applicable to all species of thermogenic plants.
    [Show full text]
  • American Skunk Cabbage - American Skunk of Leaf Emerging American Skunk Cabbage Plants at Almost Full Almost - Height at Cabbage Plants American Skunk C
    The National Biodiversity Data Centre Documenting Ireland’s Wildlife American skunk cabbage Invasive: Medium impact Lysichiton americanus Species profi le Habitat: Terrestrial. Needs wet areas. Distribution in Ireland: Sparse distribution but locally abundant in some places. Status: Established. Family name: Araceae. Reproduction: Male and female (sometimes hermaphrodite) flowers can occur within the same distinctive inflorescence which consists of a spathe and spadix. Pollination is carried out by beetles in North America. Identifying features Colour: Large green leaf surrounds a yellow spathe within which is a green/yellow spadix (a spike of inflorescence). Smell: As the name suggests, the plant emits a foul smelling odour when damaged/crushed or when dying back. Size: Can grow up to 1.5 metres. American skunk cabbage plants at almost full height - C. O’ Flynn Size of American skunk cabbage spike and spadex against hand - C. O’Flynn Emerging leaf of American skunk cabbage - Shutterstock First published 2013 First Please report your sightings of this species at: http://invasives.biodiversityireland.ie American skunk cabbage Invasive: Medium impact Threats Forms dense stands which can shade out native species. Its preference for wet soils means that the seed can easily be dispersed via waterbodies. Seasonal variations Winter – Spring: Late flowering plant. Summer – Autumn: Green berries ripen in July and August. Similar species Shape of the flower could be confused with native Arum maculatum, but Arum maculatum has a smaller spathe and differs in colour from bright yellow spathes of Lysichiton americanus. American skunk cabbage showing the spathe covering the spadex - Shutterstock Arum maculatum is native to Ireland which has a spadex Planted American skunk cabbage, notice how the spadex outgrows the spathe which once shielded it - Shutterstock surrounding by a spathe L.Lysaght View Ireland’s distribution of this species on http://maps.biodiversityireland.ie Biodiversity National Biodiversity Data Centre fact sheet.
    [Show full text]
  • Arum Italicum “Glyphosate and Tarping Treatment Trials in a Greenhouse Setting and Seattle Distribution in 2016”
    Arum italicum “Glyphosate and Tarping Treatment Trials in a Greenhouse Setting And Seattle Distribution in 2016” (Boyce 1993) By Zachary R Mallon In partial fulfillment of a Master’s of Environmental Horticulture Degree School of Environment and Forest Sciences, University of Washington Prepared for Kern Ewing, Sarah Reichard, and Timothy Miller 1 Table of Contents Table of Contents pg 2 III. List of Figures pg 4 IV. List of Tables pg 5 Acknowledgements pg 6 Chapter 1: Introduction pg 7 Section 1.1: Plant Invasions pg 7 Section 1.2: Arum italicum pg 9 Section 1.2.1: Classification pg 9 Section 1.2.2: Arum italicum Distribution pg 9 Section 1.2.3: Arum italicum Description pg 11 Section 1.2.4: Arum italicum Life History pg 12 Section 1.2.5: Arum italicum as a Noxious Weed pg 13 Chapter 2: Greenhouse Trials pg 16 Section 2.1: Introduction pg 16 Section 2.2: Methods pg 17 Section 2.2.1: Tuber Preparation and Planting pg 17 Section 2.2.2: Growth and Treatment pg 19 Section 2.2.3: Data Collection pg 20 Section 2.2.4: Data Analysis pg 22 Section 2.3: Results pg 22 Section 2.3.1: Vegetative growth pg 22. Section 2.3.2: Tuber mass pg 24 Section 2.4: Conclusions pg 27 Section 2.4.1: Control vs Herbicide pg 27 Section 2.4.2: Control vs Tarping pg 28 Section 2.4.3: Herbicide vs Tarping pg 29 Chapter 3: Arum italicum Distribution in Seattle, WA pg 30 Section 3.1: Introduction pg 30 2 Section 3.2: Methodology pg 32 Section 3.3: Results pg 33 Section 3.3.1: Area coverage in Seattle, WA pg 33 Section 3.3.2: Habitat Types pg 33 Section 3.4: Conclusions pg 34 Chapter 4: Recommendations pg 36 References pg 37 Appendix A: Arum italicum Weed Risk Assessment pg 40 3 List of Figures Figure 1: Grime’s C‐S‐R Model of Succession (Grime 1979) Figure 2: Arum italicum Distribution Figure 3: (Boyce 1993) Figure 4: Adventitious Buds Figure 5: Contractile Roots Figure 6: Feeding Roots Figure 7: Arum italicum fruit and seeds Figure 8: Arum italicum U.S.
    [Show full text]
  • Irish Botanical News and Representative on BSBI Council (Retiring AGM 2009)
    IRISH BOTANICAL NEWS Number 17 March 2007 Edited by: Dr Brian S. Rushton, University of Ulster Coleraine, Northern Ireland, BT52 1SA Published by: The Committee for Ireland Botanical Society of the British Isles 1 COMMITTEE FOR IRELAND, 2006-2007 BOTANICAL SOCIETY OF THE BRITISH ISLES In line with the Rules, three new committee members were elected at the Annual General Meeting held in Cultra Manor, Co. Down, on 14 October 2006. Office Bearers were subsequently elected at the first Committee Meeting. The Committee is now: Mr M. Archer, Honorary Secretary (retiring Irish AGM 2007) Mr P.R. Green (retiring Irish AGM 2007) Dr D.A. Doogue (retiring Irish AGM 2008) Dr J.S. Faulkner, Field Meetings Secretary (retiring Irish AGM 2008) Mr A.G. Hill, Northern Ireland Representative on Records Committee (retiring Irish AGM 2009) Mr W.I. McNeill (retiring Irish AGM 2009) Dr B.S. Rushton, Honorary Editor Irish Botanical News and Representative on BSBI Council (retiring AGM 2009) The following are co-opted members of the Committee: Mr P. Hackney Dr E. Caroline Mhic Daeid, Acting Chair and Republic of Ireland Representative on Records Committee Mr G. Sharkey Mr M. Wright, Environment and Heritage Service (N.I.) Representative Dr M.B. Wyse Jackson, National Parks and Wildlife Service, Republic of Ireland Representative Irish Botanical News is published by the Committee for Ireland, BSBI and edited by Dr B.S. Rushton. © B.S. Rushton and the authors of individual articles, 2007. The cover illustration shows Viscum album (Mistletoe) (taken from Fitch, W.H. and Smith, W.G. (1908). Illustrations of the British flora.
    [Show full text]
  • Ethnobotany and Ethnopharmacology of Arum Maculatum L. (Araceae)
    IJPCBS 2015, 5(2), 394-402 Ekaterina Kozuharova et al. ISSN: 2249-9504 INTERNATIONAL JOURNAL OF PHARMACEUTICAL, CHEMICAL AND BIOLOGICAL SCIENCES Available online at www.ijpcbs.com Research Article ETHNOBOTANY AND ETHNOPHARMACOLOGY OF ARUM MACULATUM L. (ARACEAE) IN BULGARIA WITH AN EMPHASIS ON ITS EFFECT AGAINST HAEMORRHOIDS Vladimir Kochmarov1, Ekaterina Kozuharova1*, Zheko Naychov3, Georgy Momekov2 and Irena Mincheva1 1Department of Pharmacognosy, Faculty of Pharmacy, Dunav 2, Sofia 1000, Bulgaria. 2Department of Pharmacology of Pharmacy, Dunav 2, Sofia 1000, Bulgaria. 3University Hospital Lozenetz, Sofia, Bulgaria. ABSTRACT The objective of the present study was the contemporary folk medicine application of snakehead, Arum maculatum L. (Araceae) with an emphasis on its effect against haemorrhoids. Therefore we set ourselves the following tasks: 1) to collect the contemporary traditional knowledge about the therapeutic effects of snakehead; 2) to collect anecdotal reports from persons who are known to have used the snakehead for treating haemorrhoids; 3) to analyze the data obtained about the effectiveness of this herb against haemorrhoids and other medicinal conditions in order to determine the mechanism of its activity; 4) to investigate how popular snakehead is nowadays in Bulgaria as a medicinal plant. All randomly selected informants basically recognized the plant but only 16% knew about its medicinal properties. With regard to the medicinal application, its properties as a cure for haemorrhoids was most frequently cited. Less frequently mentioned was the use of A. maculatum for chronic traumatic pain, purulent infections, and for “melting of adipose formations”. Informants who had used snakeshead for haemorrhoids categorically reported improvement of the condition. The analysis of the therapeutic effect of A.
    [Show full text]
  • FL3813BN Layout 1
    Fl. Medit. 24: 51-62 doi: 10.7320/FlMedit24.051 Version of Record published online on 14 July 2014 E. Kozuharova, V. Kochmarov, E. Kachaunova, A. Espíndola, B. Aleksandrov & I. Mincheva Distribution of Arum (Araceae) in Bulgaria* Abstract Kozuharova, E., Kochmarov, V., Kachaunova, E., Espíndola, A., Aleksandrov, B. & Mincheva, I.: Distribution of Arum (Araceae) in Bulgaria. — Fl. Medit. 24: 51-62. 2014. — ISSN: 1120- 4052 printed, 2240-4538 online. The common European Arum maculatum L. is an acknowledged medicinal plant. Although the uses of the plant are widely acknowledged, little is known about the actual exploitation poten- tial in natural and cultivated conditions. We aim to address this question. The first step in know- ing if a resource is exploitable is checking where the plant is present. In this study, we first gathered information based on a critical revision of the deposited herbar- ium samples of genus Arum L. in the national Bulgarian herbaria. Secondly, we organized this information in a database, which was used to construct UTM-grid maps of the current known distribution of the taxa in Bulgaria. Thirdly, we compiled the presented information on the UTM-grid maps together with our field study data which we collected during the period April – July 2013 by visiting locations known from the literature and from the herbarium vouchers (see above) and checking for the presence of Arum. When considering the potential exploitation of the plant in natural conditions, our preliminary field survey suggests a more limited potential in Bulgaria, when compared to previous investi- gations. Also, the fact that the proper identification is difficult even to specialists could lead to a serious hazard, since plant collectors may confuse species, and thus may improperly use them.
    [Show full text]
  • Size Variations of Flowering Characters in Arum Maculatum (Araceae)
    M. CHARTIER AND M. GIBERNAU, 2009 153 Size Variations of Flowering Characters in Arum maculatum (Araceae) Marion Chartier and Marc Gibernau* Universite Paul Sabatier ~boratoire d'Evolution & Diversite Biologique (UMR 5174) Bat.4R3·B2 31062 Toulouse cedex 9, France ABSTRACT KEYWORDS For entomophilous species, the size­ Size-advantage model, resources alloca­ advantage model predicts a bias to the tion, flower number, floral sex-ratio. female function with resource increase. This model has been shown to be ex­ INfRODUCTION pressed on Arum italicum Mill. (Araceae), Proposed by Ghiselin 0969, quoted in whose bigger or latest inflorescences are Lloyd & Bawa, 1984), the size-advantage female-biased. Here, we characterise the reproductive-trait variations of Arum ma­ model postulates a sex change when an increase in body size is related to differen­ culatum 1., a closely related species that is tial abilities to produce or sire offspring. For smaller and produces a single inflorescence per year. entomophilous plant species, such as Aroids, the size-advantage model predicts By measuring the different floral parts a female-biased gender expression with and counting the flower number of differ­ size increase (Klinkhamer et al., 1997). This ently-sized inflorescences, we showed that is expressed by a proportionally bigger (1) for A. maculatum, 34% of spadix size is increase of the female function than the allocated to the appendix, 12% for female male function in bigger individuals. This flowers and 7% for male flowers. Due to its topic has been mainly studied in Araceae size range, A. maculatum could in a on Arisaema species presenting an extreme manner be considered as a "small" A.
    [Show full text]