DOCSLIB.ORG

Key to Genera and Families

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Key to Genera and Families KEY TO GENERA AND FAMILIES Identification notes: The key is highly artificial and unabashedly pragmatic. One can get to the sub-keys (Key A, Key B, Key A7, etc.) by proceeding through the general key, or by jumping directly to the sub-key based on its “description”. In order to accommodate both access methods, some taxa are keyed in 2 or more sub-keys, but would logically be found only in one sub-key if one proceeded accurately through the general key. For instance, floating aquatic pteridophytes are keyed in both Key A2 and Key C1, though a logical procession through the general Key would key them into Key C1, and not allow them to appear as well in Key A2; they are keyed as well in Key A2, so that if it is apparent or determinable to the user that they are vascular cryptogams, they can be found via that key as well. The arrangement of leaves (alternate, whorled, or opposite) and their disposition (basal or cauline) is used frequently in the keys. Alternate leaves are attached at the stem 1 per node, opposite leaves 2 per node, and whorled leaves 3 or more per node. Note however, that alternate leaves are sometimes (especially at the base of plants or at the tips of woody branches, such as short shoots) arrayed with very short internodes, leading to them being closely clustered and mistakable as whorled or opposite. Note that some plants (Hypericum, Eupatorium, many Lamiaceae, many others) have a strong tendency to have axillary shoots in the axils of primary leaves; these are often referred to as axillary fascicles. “Axillary fascicles” tend to have smaller leaves (at least for a time) than the primary leaves, and to have short and compressed internodes; these should not be interpreted as whorled, and if and when they extend, will have the same leaf arrangement and size as the primary leaves. Also, many herbs with opposite leaves have occasional developmental “errors: that result in the leaves being in whorls of 3; these cannot be reliably accommodated under “leaves whorled” choices in the key, so, if a plant with whorled leaves does not key well under “leaves whorled” it should also be sought under “leaves opposite”. Leaf longevity is used in the keys, in regard to woody plants primarily. Evergreen plants are those that retain full leaf cover through the winter, while deciduous plants lose their leaves at the end of the growing season (for some species, sometimes well before autumn). Some plants are also described as tardily deciduous or semi-evergreen, meaning that they drop leaves gradually into the winter, so that they are sparsely bedecked with leaves or even bare by the initiation of new growth in the spring. Evergreen vs. deciduous (and semi-evergreen). {explanation}. Leaves of the previous season. Texture. Color. The basic growth form of the plant is used extensively in the keys. Woody plants have substantial secondary growth of wood, which makes their stems (in general) thicker, stronger, stiffer, and tougher. Woody plants are further subdivided into trees, shrubs, subshrubs, and lianas. Trees are generally more than 5 meters tall at maturity, and are often single stemmedHerbaceous plants lack substantial secondary growth of wood. Herbaceous plants are further subdivided into herbs and herbaceous vines. Shrub, tree, subshrub, herb, liana, vine. {complete explanation} Basal vs. basally disposed vs. cauline: explanation Lobes vs. teeth. {explanation} Learning families. Asteraceae, Euphorbiaceae, Cyperaceae, Poaceae, Lamiaceae, Apiaceae, Juncaceae, etc. At various points throughout the key, a kind of shorthand is used in key leads to indicate the main evolutionary group involved: Lycophytes, Pteridophytes, Gymnosperms, Basal Angiosperms, Eudicots, and Monocots. While the readily visible characteristics of these groups have many exceptions, the following table will aid in their recognition (note that this table is pragmatically based only on the characteristics of those taxa in our flora). {check flower and plant sexuality terms and make consistent} {make oak fruit description and flower description consistent} Yellow: Things not in Virginia needing to be stripped out for FoV key Red: Additions and improvements needed for FoV and Regional Flora Hot Pink: Additions and improvements needed for the Regional Flora. Lycophytes Pteridophytes Gymnosperms Basal Eudicots Monocots Angiosperms Leaf size Very small (< 20 Very small scale Very small scale Small to large (> 3 Very small scale Very small scale mm long), or to very large leaves to very cm long) to large to giant leaves linear quill leaves large pinnately in Isoetes compound leaves Leaf Simple Usually Simple and scale- Simple (or Simple to Simple with few complexity complexly like or needle-like dichotomously complexly exceptions compound (1-5× (or 1-pinnately compound in compound (except palmately compound), but compound in Cabomba) or pedately also simple or Zamiaceae and compound in variously less Cycadaceae, and Arisaema and complicatedly fan-shaped and palmately or compound dichotomously pinnately veined in Ginkgo) compound in the giant leaves of Arecaceae) Leaf or Entire or Often toothed Entire or Entire Entire or Entire (rarely leaflet minutely toothed (diversely so), but minutely toothed variously toothed with spinulose toothing sometimes entire teeth in some aquatics) Leaf or Leaves not lobed Leaves and/or Leaves or leaflets Leaves not lobed Leaves and/or Leaves or leaflet lobing (leaflets never leaflets often not lobed (except the base leaflets often leaflets not present) lobed (diversely sometimes cordate lobed (diversely lobed so) or auriculate) so) Leaf Alternate, Alternate Alternate, Alternate (rarely Alternate, Almost always arrangement opposite, or opposite, whorled, opposite, in opposite, or alternate whorled or fascicled Cabomba, whorled (opposite or Calycanthus, and whorled in some Asarum) aquatics, whorled in some Liliaceae, Trilliaceae, Orchidaceae) Leaf Cauline scale Basal Cauline (or basal Cauline (or basal Cauline or basal Cauline or basal disposition leaves (basal quill in Zamiaceae and in Nymphaeaceae leaves in Isoetes) Cycadaceae) and Brasenia) Leaf venation A single Complex and 1° and 2° veins 1° and 2° veins unbranched vein variable, often pinnate or parallel or penni- with some palmate, ultimate parallel, smaller dichotomous veins netted or veins cross-veins portions free at right angles Reproductive Spores, borne in Spores, mostly Seeds, borne Seeds, borne in Seeds, borne in Seeds, borne in structures sporangia axillary borne on the naked on scales, fruits fruits fruits to scale leaves (or undersurface of or in berry- or in Isoetes leaves, but also in drupe-like embedded in the a variety of structures base of quill specialized leaves) structures (but not as in Lycophytes) Perianth N.A. N.A. N.A. Typically many- Typically 4-5- Typically 3- merous, the merous merous, the segments borne (sometimes segments in spirally or in many), the whorls whorls segments in whorls # of carpels N.A. N.A. N.A. Typically > 6 Typically 4-5 or Typically 3 (rarely 1-6) 1-2, sometimes (rarely 1, 2, 4, or many, very 6) rarely 3 Carpel fusion N.A. N.A. N.A. Usually separate Usually fused, Always fused (sometimes fused) sometimes separate Perianth N.A. N.A. N.A. Perianth segments Perianth Perianth connation typically separate segments often segments (fused in fused, but also typically separate Nymphaeaceae or often separate (sometimes Aristolochiaceae) fused) 1 Plant minute, consisting of filaments or thalli, generally a single cell thick, usually with abundant single-celled gemmae, a free-living fern gametophyte, superficially resembling bryophytes in lacking vascular tissue, reproducing only vegetatively (by gemmae); [usually growing on vertical or overhanging bedrock (epipetric)]; [Pteridophytes] ............................................................................................................................. ................................................................................... Key A1 – pteridophytes reduced to thalloid or filamentous, free-living gametophytes 1 Plant more complex, with stems (or rhizomes), leaves, roots, the leaves generally > 1 cell thick (except in sporophytes of Didymoglossum, Crepidomanes, Vandenboschia, and Hymenophyllum), with vascular tissue, reproducing by seeds or spores (and often also with various vegetative means of reproduction); [growing in very diverse habitats, including epipetric on bedrock]; [Lycophytes, Pteridophytes, Gymnosperms, Monocots, Basal Angiosperms, and Eudicots]. 2 Plants floating aquatics, never rooted to the substrate (though sometimes stranded by dropping water levels); plants often thalloid in structure (lacking clear differentiation of stems and leaves) .................................................................................. Key C1 – floating aquatics 2 Plants terrestrial, wetland, or aquatic, normally rooted to the substrate (sometimes becoming detached and then floating in the water column, though usually not on the water surface, and lacking obvious adaptations for surface flotation); plants generally with clear differentiation of stems and leaves (with some exceptions). 3 Plants woody, either trees, shrubs, lianas (woody vines), subshrubs, or rosette shrubs, with perennating structures (buds) borne on long- lived, above-ground, woody stems or caudices. 4 Leaves absent or highly modified, the stems themselves fleshy and broadened, normally green and photosynthetic (becoming gray on older stems), the nodes scattered on the flattened pads and bearing glochidia and also
Load more

Recommended publications
  • 2015 Summary of Changes to Endangered, Threatened, And
    2015 Update to State Listed Species The Department of Energy and Environmental Protection (DEEP) is required to review, at least every five years, the designation of species as endangered, threatened, or of special concern to determine whether species should be: (1) added or removed from the list; or, if necessary, (2) change the designation from one category to another. The following is a summary of the changes to the State Endangered Species list (DEEP Regulations Sections 26‐306‐4, 26‐306‐5, and 26‐306‐6) that became effective on August 5, 2015. The complete list can be found on the DEEP website. Summary of Amphibian Changes New species added Necturus maculosus, Mudpuppy added as Special Concern Summary of Reptile Changes New species added Clemmys guttata, Spotted turtle added as Special Concern Malaclemys terrapin terrapin, Northern diamondback terrapin added as Special Concern Taxonomic Changes Eumeces fasciatus, Five‐lined skink changed to Plestiodon fasciatus Liochlorophis vernalis, Smooth green snake changed to Opheodrys vernalis Summary of Bird Changes Northern diamondback terrapin Status Changes Falco sparverius, American kestrel downlisted to Special Concern Progne subis, Purple martin downlisted to Special Concern Sturnella magna, Eastern meadowlark uplisted to Threatened New species added Accipiter gentilis, Northern goshawk added as Threatened Setophaga cerulea, Cerulean warbler added as Special Concern Species delisted Anas discors, Blue‐winged teal Laterallus jamaicensis, Black rail Cerulean warbler Taxonomic changes Parula americana, Northern parula changed to Setophaga americana 1 Summary of Mammal Changes Status Changes Myotis leibii, Eastern small‐footed bat uplisted to Endangered New Species Added Myotis lucifugus, Little brown bat added as Endangered Myotis septentrionalis, Northern long‐eared bat added as Endangered (also Federally Threatened) Perimyotis subflavus, Tri‐colored bat added as Endangered Taxonomic Changes Phocoena phocoena, Harbor porpoise changed to Phocoena Northern long‐eared bat phocoena ssp.
    [Show full text]
  • Field Release of the Leaf-Feeding Moth, Hypena Opulenta (Christoph)
    United States Department of Field release of the leaf-feeding Agriculture moth, Hypena opulenta Marketing and Regulatory (Christoph) (Lepidoptera: Programs Noctuidae), for classical Animal and Plant Health Inspection biological control of swallow- Service worts, Vincetoxicum nigrum (L.) Moench and V. rossicum (Kleopow) Barbarich (Gentianales: Apocynaceae), in the contiguous United States. Final Environmental Assessment, August 2017 Field release of the leaf-feeding moth, Hypena opulenta (Christoph) (Lepidoptera: Noctuidae), for classical biological control of swallow-worts, Vincetoxicum nigrum (L.) Moench and V. rossicum (Kleopow) Barbarich (Gentianales: Apocynaceae), in the contiguous United States. Final Environmental Assessment, August 2017 Agency Contact: Colin D. Stewart, Assistant Director Pests, Pathogens, and Biocontrol Permits Plant Protection and Quarantine Animal and Plant Health Inspection Service U.S. Department of Agriculture 4700 River Rd., Unit 133 Riverdale, MD 20737 Non-Discrimination Policy The U.S. Department of Agriculture (USDA) prohibits discrimination against its customers, employees, and applicants for employment on the bases of race, color, national origin, age, disability, sex, gender identity, religion, reprisal, and where applicable, political beliefs, marital status, familial or parental status, sexual orientation, or all or part of an individual's income is derived from any public assistance program, or protected genetic information in employment or in any program or activity conducted or funded by the Department. (Not all prohibited bases will apply to all programs and/or employment activities.) To File an Employment Complaint If you wish to file an employment complaint, you must contact your agency's EEO Counselor (PDF) within 45 days of the date of the alleged discriminatory act, event, or in the case of a personnel action.
    [Show full text]
  • 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,
    [Show full text]
  • Boraginaceae) Species in Asiatic Russia
    BIO Web of Conferences 24, 00062 (2020) https://doi.org/10.1051/bioconf/20202400062 International Conferences “Plant Diversity: Status, Trends, Conservation Concept” 2020 Taxonomical features of stigmas of tribe Lithospermeae DC. (Boraginaceae) species in Asiatic Russia Olga Nikiforova1* 1Central Lab of Systematics of Higher Vascular Plants, Central Siberian Botanical Garden, Novosibirsk, Russian Federation Abstract. With the help of scanning electron microscopy, morphology of stigmas and shapes of papillae were studied for 11 species (from Asiatic Russia) of genera Lithospermum L., Buglossoides Moench, Cerinthe L., Echium L., and Onosma L., belonging to tribe Lithospermeae, and two species of the genus Botriospermum Bunge of unknown taxonomical affiliation in the family Boraginaceae. It was revealed that the shapes of the stigma and papillae can be useful for clarifying relationships among the species and genera, thus complementing the data for compiling a fuller and more correct taxonomy of the family Boraginaceae. 1 Introduction The first systematic data on stigma morphology of flowering plants appeared in the works of Y. Heslop-Harrison, K. R. Shivanna [1] and Y. Heslop-Harrison [2], where they determined that stigmas of family Boraginaceae species are of the type “dry, papillate, where papillae are unicellular,” abbreviated as DPU. This means that stigmas are of the dry type without cells on the surface excreting a liquid, and that papillae have unicellular structure. Taxonomical value of stigma features was first indicated by German botanists J. Grau and A. Schwab [3] during classification of the genus Myosotis L. s. l. (tribe Myosotideae Reichenb., Boraginaceae). Subsequently, the idea of studying stigmas of Boraginaceae species has been supported by M.
    [Show full text]
  • A Checklist of the Vascular Flora of the Mary K. Oxley Nature Center, Tulsa County, Oklahoma
    Oklahoma Native Plant Record 29 Volume 13, December 2013 A CHECKLIST OF THE VASCULAR FLORA OF THE MARY K. OXLEY NATURE CENTER, TULSA COUNTY, OKLAHOMA Amy K. Buthod Oklahoma Biological Survey Oklahoma Natural Heritage Inventory Robert Bebb Herbarium University of Oklahoma Norman, OK 73019-0575 (405) 325-4034 Email: [email protected] Keywords: flora, exotics, inventory ABSTRACT This paper reports the results of an inventory of the vascular flora of the Mary K. Oxley Nature Center in Tulsa, Oklahoma. A total of 342 taxa from 75 families and 237 genera were collected from four main vegetation types. The families Asteraceae and Poaceae were the largest, with 49 and 42 taxa, respectively. Fifty-eight exotic taxa were found, representing 17% of the total flora. Twelve taxa tracked by the Oklahoma Natural Heritage Inventory were present. INTRODUCTION clayey sediment (USDA Soil Conservation Service 1977). Climate is Subtropical The objective of this study was to Humid, and summers are humid and warm inventory the vascular plants of the Mary K. with a mean July temperature of 27.5° C Oxley Nature Center (ONC) and to prepare (81.5° F). Winters are mild and short with a a list and voucher specimens for Oxley mean January temperature of 1.5° C personnel to use in education and outreach. (34.7° F) (Trewartha 1968). Mean annual Located within the 1,165.0 ha (2878 ac) precipitation is 106.5 cm (41.929 in), with Mohawk Park in northwestern Tulsa most occurring in the spring and fall County (ONC headquarters located at (Oklahoma Climatological Survey 2013).
    [Show full text]
  • Solomon J.Pdf
    EVALUATION OF CHEMICAL AND PHYSICAL CONTROL STRATEGIES ACROSS LIFE HISTORY STAGES OF THE INVASIVE Kalanchoe xhoughtonii By JESSICA L. SOLOMON A THESIS PRESENTED TO THE GRADUATE SCHOOL OF THE UNIVERSITY OF FLORIDA IN PARTIAL FULFILLMENT OF THE REQUIREMENTS FOR THE DEGREE OF MASTER OF SCIENCE UNIVERSITY OF FLORIDA 2019 © 2019 Jessica L. Solomon To my mom and brother ACKNOWLEDGMENTS I want to express the utmost gratitude to my advisor Dr. Stephen Enloe, for his compassion, support, knowledge, and passion in this research. Dr. Enloe has been a mentor in the field of research, education, and outreach. His energy helped inspire me in times I lacked the motivation and his kindness and support helped me through times of difficulty. I am also thankful for my committee members, Dr. Jay Ferrell and Dr. Carrie Reinhardt Adams for their support, time, and guidance. I would also like to extend immense gratitude towards my lab mates Jonathan Glueckert and Kaitlyn Quincy for all of their encouragement, friendship, and tutoring through our coursework and research. I am especially thankful for my lab mate Mackenzie Bell, who has been an incredibly supportive friend, science partner, and plant enthusiast with me for the past three years. I would also like to thank Lara Colley, Dr. James Leary, Dr. Benjamin Sperry, and the rest of the faculty at The Center of Aquatic and Invasive Center (CAIP) for their insight and passion for research and education. A special thank you is needed for Sara Humphrey, Conrad Oberweger, Ethan Church, and Matt Shinego who supports CAIP on a day- to-day basis.
    [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]
  • 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.
    [Show full text]
  • 2. BRYOPHYLLUM Salisbury, Parad. Lond. T. 3. 1805. 落地生根属 Lao Di Sheng Gen Shu Fu Kunjun (傅坤俊 Fu Kun-Tsun); Michael G
    Flora of China 8: 204. 2001. 2. BRYOPHYLLUM Salisbury, Parad. Lond. t. 3. 1805. 落地生根属 lao di sheng gen shu Fu Kunjun (傅坤俊 Fu Kun-tsun); Michael G. Gilbert Herbs, rarely subshrubs or shrubs. Roots fibrous. Stems usually erect. Leaves opposite, rarely 3-verticillate, petiolate, pinnately compound, rarely simple or pinnately lobed (or simple and bearing bulbils along margin). Inflorescences terminal, cymose, many flowered. Flowers bisexual, usually pendulous, 4-merous, brightly colored, large. Calyx tubular or rarely campanulate; tube sometimes basally dilated. Corolla purple-red (in China), tubular to salverform, equaling or longer than calyx; lobes shorter than or scarcely longer than tube. Stamens 2 × as many as petals, inserted below middle of corolla tube, usually near base; filaments equaling corolla tube. Nectar scales entire or emarginate. Carpels erect, free. Styles long. Follicles many seeded. About 20 species: Africa (including Madagascar); one species (introduced) in China. 1. Bryophyllum pinnatum (Linnaeus f.) Oken, Allg. Natur- gesch. 3(3): 1966. 1841. 落地生根 lao di sheng gen Crassula pinnata Linnaeus f., Suppl. Pl. 191. 1782; Bryophyllum calycinum Salisbury; Kalanchoe pinnata (Linnaeus f.) Persoon. Herbs 40–150 cm tall, glabrous. Stems usually branched. Leaf blade pinnately compound with 3–5 leaflets, 10–30 cm; petiolules 2–4 cm; leaflet blades oblong to elliptic, 6–8 × 3–5 cm, margin crenate, apex obtuse. Inflorescences terminal, paniculate, 10–40 cm, many flowered. Flowers pendulous. Calyx tubular, 2–4 cm. Corolla reddish to purple, to 5 cm, base sparsely ciliate; lobes ovate-lanceolate. Stamens inserted basally on corolla. Nectar scales oblong. Follicles included in calyx and corolla tube.
    [Show full text]
  • Scarlet Ammannia (Ammannia Robusta) in Canada
    PROPOSED Species at Risk Act Recovery Strategy Series Adopted under Section 44 of SARA Recovery Strategy for the Scarlet Ammannia (Ammannia robusta) in Canada Scarlet Ammannia 2014 Recommended citation: Environment Canada. 2014. Recovery Strategy for the Scarlet Ammannia (Ammannia robusta) in Canada [Proposed]. Species at Risk Act Recovery Strategy Series. Environment Canada, Ottawa. XXI pp. + Appendix. For copies of the recovery strategy, or for additional information on species at risk, including the Committee on the Status of Endangered Wildlife in Canada (COSEWIC) Status Reports, residence descriptions, action plans, and other related recovery documents, please visit the Species at Risk (SAR) Public Registry (www.sararegistry.gc.ca). Cover illustration: © Emmet J. Judziewicz Également disponible en français sous le titre « Programme de rétablissement de l’ammannie robuste (Ammannia robusta) au Canada [Proposition] » © Her Majesty the Queen in Right of Canada, represented by the Minister of the Environment, 2014. All rights reserved. ISBN Catalogue no. Content (excluding the illustrations) may be used without permission, with appropriate credit to the source. RECOVERY STRATEGY FOR THE SCARLET AMMANNIA (Ammannia robusta) IN CANADA 2014 Under the Accord for the Protection of Species at Risk (1996), the federal, provincial, and territorial governments agreed to work together on legislation, programs, and policies to protect wildlife species at risk throughout Canada. In the spirit of cooperation of the Accord, the Government of British Columbia has given permission to the Government of Canada to adopt the “Recovery Strategy for the scarlet ammannia (Ammannia robusta) in British Columbia and Ontario” (Part 2) under Section 44 of the Species at Risk Act (SARA).
    [Show full text]
  • Rosa Canina Linnaeus Common Names: Dog Rose, Dog Brier, Wild Rose (5,6,13)
    Rosa canina Linnaeus Common Names: Dog rose, dog brier, wild rose (5,6,13). Etymology: ‘Rosa’ is the Latin word for ‘rose’, and ‘canina’ in Latin means ‘of a dog’ or ‘mean’ (1,3). Botanical synonyms: Rosa corymbifera Borkh., R. dumetorum Thuill., and R. ciliatosepala Blocki (2,6). FAMILY: Rosaceae, the rose family (1) Quick Notable Features: ¬ Alternate, odd-pinnately compound, serrate leaves ¬ Conspicuous stipules, fused to petiole ¬ Showy white/pink flowers with many stamens and pistils in a hypanthium ¬ Bright red hips with no sepals Plant Height: R. canina grows up to 3m tall (10). Subspecies/varieties recognized (6,7): Rosa canina var. dumetorum (Thuill.) Poir., Rosa canina var. canina L., Rosa canina var. corymbifera Rouy, Rosa canina var. andegavensis Arechav., Rosa canina var. evanida (Christ) P.V.Heath, Rosa canina var. frutetorum (Besser) P.V.Heath, Rosa canina var. libertiae (Dumort.) P.V.Heath, Rosa canina var. Montana (Vill.) P.V.Heath, Rosa canina var. sepium Arechav., Rosa canina var. subcanina (Christ) P.V.Heath, Rosa canina subsp. andegavensis (Bastard) Vigo, Rosa canina subsp. virens (Wahlenb.) Šmite. Most Likely Confused with: Rosa eglanteria, R. micrantha, R. setigera, R multiflora, and Rubus ssp. (1,9). Habitat Preference: The species is found in open, disturbed habitats such as roadsides, old pastures, fields, dry banks, and thickets. R. canina requires at least partial sun, and high levels of soil moisture (1,5,9,10). Geographic Distribution in Michigan: The species grows in six counties of the lower peninsula: Benzie, Hillsdale, Kent, Leelanau, Lenawee, and Wayne (2,19). Known Elevational Distribution: In Turkey, R.
    [Show full text]