Tàxons Informatitzats I Nombre De Plecs a BCN Tàxon N Plecs
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The Vascular Plants of Massachusetts
The Vascular Plants of Massachusetts: The Vascular Plants of Massachusetts: A County Checklist • First Revision Melissa Dow Cullina, Bryan Connolly, Bruce Sorrie and Paul Somers Somers Bruce Sorrie and Paul Connolly, Bryan Cullina, Melissa Dow Revision • First A County Checklist Plants of Massachusetts: Vascular The A County Checklist First Revision Melissa Dow Cullina, Bryan Connolly, Bruce Sorrie and Paul Somers Massachusetts Natural Heritage & Endangered Species Program Massachusetts Division of Fisheries and Wildlife Natural Heritage & Endangered Species Program The Natural Heritage & Endangered Species Program (NHESP), part of the Massachusetts Division of Fisheries and Wildlife, is one of the programs forming the Natural Heritage network. NHESP is responsible for the conservation and protection of hundreds of species that are not hunted, fished, trapped, or commercially harvested in the state. The Program's highest priority is protecting the 176 species of vertebrate and invertebrate animals and 259 species of native plants that are officially listed as Endangered, Threatened or of Special Concern in Massachusetts. Endangered species conservation in Massachusetts depends on you! A major source of funding for the protection of rare and endangered species comes from voluntary donations on state income tax forms. Contributions go to the Natural Heritage & Endangered Species Fund, which provides a portion of the operating budget for the Natural Heritage & Endangered Species Program. NHESP protects rare species through biological inventory, -
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African countries and neighbouring islands covered by the Synopsis. S T R E L I T Z I A 23 Synopsis of the Lycopodiophyta and Pteridophyta of Africa, Madagascar and neighbouring islands by J.P. Roux Pretoria 2009 S T R E L I T Z I A This series has replaced Memoirs of the Botanical Survey of South Africa and Annals of the Kirstenbosch Botanic Gardens which SANBI inherited from its predecessor organisations. The plant genus Strelitzia occurs naturally in the eastern parts of southern Africa. It comprises three arborescent species, known as wild bananas, and two acaulescent species, known as crane flowers or bird-of-paradise flowers. The logo of the South African National Biodiversity Institute is based on the striking inflorescence of Strelitzia reginae, a native of the Eastern Cape and KwaZulu-Natal that has become a garden favourite worldwide. It sym- bolises the commitment of the Institute to champion the exploration, conservation, sustain- able use, appreciation and enjoyment of South Africa’s exceptionally rich biodiversity for all people. J.P. Roux South African National Biodiversity Institute, Compton Herbarium, Cape Town SCIENTIFIC EDITOR: Gerrit Germishuizen TECHNICAL EDITOR: Emsie du Plessis DESIGN & LAYOUT: Elizma Fouché COVER DESIGN: Elizma Fouché, incorporating Blechnum palmiforme on Gough Island PHOTOGRAPHS J.P. Roux Citing this publication ROUX, J.P. 2009. Synopsis of the Lycopodiophyta and Pteridophyta of Africa, Madagascar and neighbouring islands. Strelitzia 23. South African National Biodiversity Institute, Pretoria. ISBN: 978-1-919976-48-8 © Published by: South African National Biodiversity Institute. Obtainable from: SANBI Bookshop, Private Bag X101, Pretoria, 0001 South Africa. -
State of Colorado 2016 Wetland Plant List
5/12/16 State of Colorado 2016 Wetland Plant List Lichvar, R.W., D.L. Banks, W.N. Kirchner, and N.C. Melvin. 2016. The National Wetland Plant List: 2016 wetland ratings. Phytoneuron 2016-30: 1-17. Published 28 April 2016. ISSN 2153 733X http://wetland-plants.usace.army.mil/ Aquilegia caerulea James (Colorado Blue Columbine) Photo: William Gray List Counts: Wetland AW GP WMVC Total UPL 83 120 101 304 FACU 440 393 430 1263 FAC 333 292 355 980 FACW 342 329 333 1004 OBL 279 285 285 849 Rating 1477 1419 1504 1511 User Notes: 1) Plant species not listed are considered UPL for wetland delineation purposes. 2) A few UPL species are listed because they are rated FACU or wetter in at least one Corps Region. 3) Some state boundaries lie within two or more Corps Regions. If a species occurs in one region but not the other, its rating will be shown in one column and the other column will be BLANK. Approved for public release; distribution is unlimited. 1/22 5/12/16 Scientific Name Authorship AW GP WMVC Common Name Abies bifolia A. Murr. FACU FACU Rocky Mountain Alpine Fir Abutilon theophrasti Medik. UPL UPL FACU Velvetleaf Acalypha rhomboidea Raf. FACU FACU Common Three-Seed-Mercury Acer glabrum Torr. FAC FAC FACU Rocky Mountain Maple Acer grandidentatum Nutt. FACU FAC FACU Canyon Maple Acer negundo L. FACW FAC FAC Ash-Leaf Maple Acer platanoides L. UPL UPL FACU Norw ay Maple Acer saccharinum L. FAC FAC FAC Silver Maple Achillea millefolium L. FACU FACU FACU Common Yarrow Achillea ptarmica L. -
Antiurolithiatic Plants: Multidimensional Pharmacology
Journal of Pharmacognosy and Phytochemistry 2016; 5(2): 04-24 E-ISSN: 2278-4136 P-ISSN: 2349-8234 JPP 2016; 5(2): 04-24 Antiurolithiatic plants: Multidimensional Received: 04-01-2016 Accepted: 06-02-2016 pharmacology Salman Ahmed Lecturer, Department of Salman Ahmed, Muhammad Mohtasheemul Hasan, Zafar Alam Mahmood Pharmacognosy, Faculty of Pharmacy, University of Abstract Karachi, Karachi-75270, Urolithiasis is a common problem afflicted for many centuries with high recurrence. The aim of this Pakistan. review is to provide comprehensive information about traditionally used antiurolithiatic plants and their scientifically proved pharmacological activities like analgesic, anti-inflammatory, antioxidant, astringent, Muhammad Mohtasheemul Hasan demulcent, diuretic, litholytic, lithotriptic, antiurolithiatic, antispasmodic, ACE inhibition and Associate Professor, Department Phospholipase A2 inhibition as a plausible mechanism of action. A total of 503 species, 365 genera and of Pharmacognosy, Faculty of 119 families were cited for treating kidney stones. The most cited families are Asteraceae (41), Fabaceae Pharmacy, University of (34), Lamiaceae (26), Apiaceae (21), Rosaceae (19) and Poaceae (16). The most common used plant Karachi, Karachi-75270, parts are root and rhizome (25%), mode of preparation decoction (62%) and route of administration is Pakistan. oral in all cases. This review will provide the opportunities for the future research and development of new natural antiurolithiatic compounds. Zafar Alam Mahmood Colorcon Limited – UK, Keywords: urolithiasis, antiurolithiatic, natural products, drug development. Flagship House, Victory Way, Crossways, Dartford, Kent, DA26 QD- England. Introduction The belief and observations regarding traditionally used medicinal plants, increasing the interest of people to use natural medicine for their primary health care needs. A wide range of medicinal plants have been used in different countries and cultures as a prophylactic and curative agent for urolithiasis. -
A Preliminary Survey of Plant Distribution in Ohio.* John H
A PRELIMINARY SURVEY OF PLANT DISTRIBUTION IN OHIO.* JOHN H. SCHAFFNER. The following data are presented as a preliminary basis for field work in determining the natural plant areas of Ohio. It is hoped that the botanists of the State will begin active study of local conditions with a view to determine natural or transition boundaries as well as cataloging local associations. The distri- bution lists are based on herbarium material and more than 15 years of sporadic botanizing in the state. Of course, distribution at present indicates to a considerable extent merely the distri- bution of enthusiastic botanists and their favorite collecting grounds. Nevertheless, enough has been done to indicate in a rough way the general character of our plant geography. The kind of data most important in indicating characteristic areas are as follows:— 1. Meteorological data. 2. Geology, including the nature of the surface rock and soil. 3. Physiography and topography. 4. The actual distribution of characteristic species of plants and to some extent of animals. In Ohio, the following important maps may be studied in this connection:— Meteorology. By Otto E. Jennings in Ohio Naturalist 3: 339-345, 403-409, 1903. Maps I-XII. By J. Warren Smith in Bull. Ohio Agr. Exp. Station No. 235, 1912. Figs. 3-14. Geology. By J. A. Bownocker, A Geological Map of Ohio. 1909. Topography. The maps of the topographic survey, not yet completed. Various geological reports. The eastern half of Ohio is a part of the Alleghany Plateau. The western half belongs to the great interior plain. In Ohio, the Alleghany Plateau consists of a northern glaciated region and a southern non-glaciated region. -
State of New York City's Plants 2018
STATE OF NEW YORK CITY’S PLANTS 2018 Daniel Atha & Brian Boom © 2018 The New York Botanical Garden All rights reserved ISBN 978-0-89327-955-4 Center for Conservation Strategy The New York Botanical Garden 2900 Southern Boulevard Bronx, NY 10458 All photos NYBG staff Citation: Atha, D. and B. Boom. 2018. State of New York City’s Plants 2018. Center for Conservation Strategy. The New York Botanical Garden, Bronx, NY. 132 pp. STATE OF NEW YORK CITY’S PLANTS 2018 4 EXECUTIVE SUMMARY 6 INTRODUCTION 10 DOCUMENTING THE CITY’S PLANTS 10 The Flora of New York City 11 Rare Species 14 Focus on Specific Area 16 Botanical Spectacle: Summer Snow 18 CITIZEN SCIENCE 20 THREATS TO THE CITY’S PLANTS 24 NEW YORK STATE PROHIBITED AND REGULATED INVASIVE SPECIES FOUND IN NEW YORK CITY 26 LOOKING AHEAD 27 CONTRIBUTORS AND ACKNOWLEGMENTS 30 LITERATURE CITED 31 APPENDIX Checklist of the Spontaneous Vascular Plants of New York City 32 Ferns and Fern Allies 35 Gymnosperms 36 Nymphaeales and Magnoliids 37 Monocots 67 Dicots 3 EXECUTIVE SUMMARY This report, State of New York City’s Plants 2018, is the first rankings of rare, threatened, endangered, and extinct species of what is envisioned by the Center for Conservation Strategy known from New York City, and based on this compilation of The New York Botanical Garden as annual updates thirteen percent of the City’s flora is imperiled or extinct in New summarizing the status of the spontaneous plant species of the York City. five boroughs of New York City. This year’s report deals with the City’s vascular plants (ferns and fern allies, gymnosperms, We have begun the process of assessing conservation status and flowering plants), but in the future it is planned to phase in at the local level for all species. -
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Ohio Administrative Code Rule 1501:18-1-03 Endangered and threatened species. Effective: January 30, 2021 (A) The following species of plants are designated as endangered in Ohio. (1) Acer pensylvanicum L., Striped maple. (2) Aconitum noveboracense A. Gray, Northern monkshood. (3) Aconitum uncinatum L., Southern monkshood. (4) Adlumia fungosa (Ait.) Greene, Allegheny-vine. (5) Agalinis auriculata (Michx.) Blake, Ear-leaved-foxglove. (6) Agalinis purpurea (L.) Pennell var. parviflora (Benth.) Boivin, Small purple-foxglove. (7) Agalinis skinneriana (Wood) Britt., Skinner's-foxglove. (8) Ageratina aromatica (L.) Spach, Small white snakeroot. (9) Agrostis elliottiana Schultes, Elliott's bent grass. (10) Amelanchier humilis Wiegand, Low serviceberry. (11) Amelanchier interior E.L. Nielsen, Inland serviceberry. (12) Amphidium mougeotii (Bruch, Schimper and W. Gmbel) Schimper, Mougeot's ice moss. (13) Andropogon glomeratus (Walter) Britton, Bushy broom-sedge. Page 1 (14) Androsace occidentalis Pursh, Western rock-jasmine. (15) Anomobryum filiforme (Dicks.) Solms, Common silver moss. (16) Anomodon viticulosus (Hedw.) Hook. and Taylor, Long tail moss. (17) Arabidopsis lyrata (L.) OKane and Al-Shehbaz, Lyre-leaved rock cress. (18) Arabis patens Sullivant, Spreading rock cress. (19) Arctostaphylos uva-ursi (L.) Spreng., Bearberry. (20) Aralia hispida Vent., Bristly sarsaparilla. (21) Arethusa bulbosa L., Dragon's-mouth. (22) Aristida basiramea Engelm. ex Vasey, Forked three-awn grass. (23) Aristida necopina Shinners, False arrow-feather. (24) Aronia arbutifolia (L.) Pers., Red chokeberry. (25) Asplenium bradleyi D.C. Eaton, Bradley's spleenwort. (26) Asplenium resiliens Kunze, Black-stemmed spleenwort. (27) Astragalus neglectus (T. and G.) Sheld., Cooper's milk-vetch. (28) Baptisia australis (L.) R. Br., Blue false indigo. (29) Barbula indica (Hooker) Sprengel in E.G. -
WINTER 1998 TH In*Vi'i§
a i 9dardy'fernSFoundationm Editor Sue Olsen VOLUME 7 NUMBER 1 WINTER 1998 TH in*vi'i§ Presidents’ Message: More Inside... Jocelyn Horder and Anne Holt, Co-Presidents Polypodium polypodioides.2 Greetings and best wishes for a wonderful fern filled 1998. At this winter time of year Deer Problems.2 many of our hardy ferns offer a welcome evergreen touch to the garden. The varied textures are particularly welcome in bare areas. Meanwhile ferns make wonderful Book Review.3 companions to your early spring flowering bulbs and blooming plants. Since we are Exploring Private having (so far) a mild winter continue to control the slugs and snails that are lurking European Gardens Continued.4 around your ferns and other delicacies. Mr. Gassner Writes.5 Don’t forget to come to the Northwest Flower and Garden show February 4-8 to enjoy Notes from the Editor.5 the colors, fragrances and fun of spring. The Hardy Fern Foundation will have a dis¬ play of ferns in connection with the Rhododendron Species Botanical Garden. Look for Fem Gardens of the Past and a Garden in Progress.6-7 booth #6117-9 on the fourth floor of the Convention Center where we will have a dis¬ play of ferns, list of fern sources, cultural information and as always persons ready to Fem Finding in the Hocking Hills.8-10 answer your questions. Anyone interested in becoming more involved with the Hardy Blechnum Penna-Marina Fern Foundation will have a chance to sign up for volunteering in the future. Little Hard Fem.10 We are happy to welcome the Coastal Botanical Garden in Maine as a new satellite The 1997 HFF garden. -
Secondary Metabolites of Hypericum L. Species As Xanthine Oxidase Inhibitors
ACTA FACULTATIS MEDICAE NAISSENSIS DOI: 10.1515/afmnai-2017-0029 UDC: 582.684.1:577.152.1 Original article Secondary Metabolites of Hypericum L. Species as Xanthine Oxidase Inhibitors Andrija Šmelcerović1, Žaklina Šmelcerović2, Katarina Tomović3, Gordana Kocić4, Aleksandra Đorđević5 1 University of Niš, Faculty of Medicine, Department of Chemistry, Niš, Serbia 2 University of Niš, Faculty of Medicine, Center for Biomedicinal Science, Niš, Serbia 3 University of Niš, Faculty of Medicine, Department of Pharmacy, Niš, Serbia 4 University of Niš, Faculty of Medicine, Institute of Biochemistry, Niš, Serbia 5 University of Niš, Faculty of Science and Mathematics,Department of Chemistry, Niš, Serbia SUMMARY Nine Hypericum species (H. barbatum, H. hirsutum, H. linarioides, H. olympicum, H. perforatum, H. rochelii, H. rumeliacum, H. tetrapterum and H. umbellatum) collected in Serbia were assayed for inhibitory potential against xanthine oxidase in vitro, on the commercial enzyme, and compared with allopurinol. Seven studied Hypericum species (H. barbatum, H. rochelii, H. rumeliacum, H. umbellatum, H. perforatum, H. tetrapterum and H. olympicum) inhibit commercial xanthine oxidase with an IC50 below 100 µg/mL. H. barbatum exerted the most potent inhibitory effect (IC50 = 31.84 ± 6.64 µg/mL), followed closely by H. perforatum (IC50 = 37.12 ± 4.06 µg/mL). Key words: xanthine oxidase inhibition, Hypericum, secondary metabolites Corresponding author: Andrija Šmelcerović E-mail: [email protected] Acta facultatis medicae Naissensis 2017; 34(4):275-281 275 Original article INTRODUCTION hyperoside and rutin represent the main constituents in the Hypericum species (5). Continuing our research on the chemical Xanthine oxidase (XO) is a validated target for composition (6-11) and pharmacological activities (11-14) therapeutic treatment of gout, hyperuricemia and of Hypericum species, in the present study extracts of associated conditions, with a few XO inhibitors present nine Hypericum species (H. -
Geropogon Hybridus (L.) Sch.Bip
Mathematisch-Naturwissenschaftliche Fakultät Christina M. Müller | Benjamin Schulz | Daniel Lauterbach | Michael Ristow | Volker Wissemann | Birgit Gemeinholzer Geropogon hybridus (L.) Sch.Bip. (Asteraceae) exhibits micro-geographic genetic divergence at ecological range limits along a steep precipitation gradient Suggested citation referring to the original publication: Plant Systematics and Evolution 303 (2017) 91–104 DOI https://doi.org/10.1007/s00606-016-1354-y ISSN (print) 0378-2697 ISSN (online) 1615-6110 Postprint archived at the Institutional Repository of the Potsdam University in: Postprints der Universität Potsdam Mathematisch-Naturwissenschaftliche Reihe ; 832 ISSN 1866-8372 https://nbn-resolving.org/urn:nbn:de:kobv:517-opus4-427061 DOI https://doi.org/10.25932/publishup-42706 Plant Syst Evol (2017) 303:91–104 DOI 10.1007/s00606-016-1354-y ORIGINAL ARTICLE Geropogon hybridus (L.) Sch.Bip. (Asteraceae) exhibits micro-geographic genetic divergence at ecological range limits along a steep precipitation gradient 1 2 3 4 Christina M. Mu¨ller • Benjamin Schulz • Daniel Lauterbach • Michael Ristow • 1 1 Volker Wissemann • Birgit Gemeinholzer Received: 11 March 2016 / Accepted: 9 September 2016 / Published online: 31 October 2016 Ó The Author(s) 2016. This article is published with open access at Springerlink.com Abstract We analyzed the population genetic pattern of the study area, which indicates that reduced precipitation 12 fragmented Geropogon hybridus ecological range edge toward range edge leads to population genetic divergence. -
NJ Native Plants - USDA
NJ Native Plants - USDA Scientific Name Common Name N/I Family Category National Wetland Indicator Status Thermopsis villosa Aaron's rod N Fabaceae Dicot Rubus depavitus Aberdeen dewberry N Rosaceae Dicot Artemisia absinthium absinthium I Asteraceae Dicot Aplectrum hyemale Adam and Eve N Orchidaceae Monocot FAC-, FACW Yucca filamentosa Adam's needle N Agavaceae Monocot Gentianella quinquefolia agueweed N Gentianaceae Dicot FAC, FACW- Rhamnus alnifolia alderleaf buckthorn N Rhamnaceae Dicot FACU, OBL Medicago sativa alfalfa I Fabaceae Dicot Ranunculus cymbalaria alkali buttercup N Ranunculaceae Dicot OBL Rubus allegheniensis Allegheny blackberry N Rosaceae Dicot UPL, FACW Hieracium paniculatum Allegheny hawkweed N Asteraceae Dicot Mimulus ringens Allegheny monkeyflower N Scrophulariaceae Dicot OBL Ranunculus allegheniensis Allegheny Mountain buttercup N Ranunculaceae Dicot FACU, FAC Prunus alleghaniensis Allegheny plum N Rosaceae Dicot UPL, NI Amelanchier laevis Allegheny serviceberry N Rosaceae Dicot Hylotelephium telephioides Allegheny stonecrop N Crassulaceae Dicot Adlumia fungosa allegheny vine N Fumariaceae Dicot Centaurea transalpina alpine knapweed N Asteraceae Dicot Potamogeton alpinus alpine pondweed N Potamogetonaceae Monocot OBL Viola labradorica alpine violet N Violaceae Dicot FAC Trifolium hybridum alsike clover I Fabaceae Dicot FACU-, FAC Cornus alternifolia alternateleaf dogwood N Cornaceae Dicot Strophostyles helvola amberique-bean N Fabaceae Dicot Puccinellia americana American alkaligrass N Poaceae Monocot Heuchera americana -
Plants Assessed for Risk of Becoming Invasive in California
Plants Assessed for Risk of Becoming Invasive in California June, 2017 California Invasive Plant Council, www.cal-ipc.org Plants scoring "high-risk" are included in the Cal-IPC Inventory as "watch" plants. Scientific Name Common Name Family Category Conf. Flag Notes Acacia baileyana cootamundra wattle Fabaceae high-risk Flags Acacia cyclops cyclops acacia Fabaceae high-risk Expert opinion suggest this plant may be: Acacia paradoxa kangaroothorn Fabaceae high-risk Less concerning than category suggests Acacia pycnantha golden wattle Fabaceae high-risk More concerning than category suggests Acaena novae-zelandiae biddy-biddy Rosaceae high-risk [See note associated with each flag.] Aegilops cylindrica jointed goatgrass Poaceae high-risk Alopecurus pratensis meadow foxtail Poaceae high-risk Confidence Alyssum murale, A. corsicum yellowtuft Brassicaceae high-risk high Ambrosia trifida giant ragweed Asteraceae high-risk Climate in most of CA seems unsuitable. medium Araujia sericifera bladderflower Asclepiadaceae high-risk Widespread in SoCal, unclear it will have impact. low Berberis darwinii Darwin barberry Berberidaceae high-risk [Based on assessor confidence in sources.] Berteroa incana Hoary alyssum Brassicaceae high-risk Buddleja davidii butterfly bush Buddlejaceae high-risk Carex pendula hanging sedge Cyperaceae high-risk Casuarina equisetifolia beach sheoak Casuarinaceae high-risk Climate in most of CA seems unsuitable. Catharanthus roseus pink periwinkle, Madagascar Apocynaceae high-risk periwinkle Cenchrus echinatus