Morus Mesozygia (M

Total Page:16

File Type:pdf, Size:1020Kb

Morus Mesozygia (M Morus mesozygia (M. lactea) Moraceae Indigenous Trade name: East African mulberry. English: Mecodze, Uganda mulberry Luganda: Common names: mukoge Lusamia: Lufullo Runyoro: Nyakatoma. Ecology: An East African tree extending to Senegal, Ethiopia and south to South Africa in both rain forest and drier evergreen forest. Sometimes occurs with Milicia and Antiaris. In Uganda, it occurs at forest edges and in thickets and also in coffee and banana plantations. Though represented in most districts of the country, it is not common. Uses: Firewood, charcoal, timber (cabinet work, interior joinery, flooring and fancy articles), shade, ornamental (avenue tree). Description: A large shrub or deciduous tree to 30 m, with a straight trunk to a spreading crown, sometimes buttressed at the base. BARK: grey-brown, smooth, later thick, dark and cracked, much milky latex if cut. LEAVES: alternate, oval, dark green 2.5-10.0 cm, longer in saplings, 3 main veins for most of the length, to a long pointed tip, the base rounded to a short stalk, edge toothed, a few hairs above and in vein axils below. FLOWERS: sexes on different trees. Male flower heads to 3 cm long. Female trees have stalked heads of 3-8 tiny flowers. FRUIT: rounded to 1.5 cm across, several fruit joined together, greenish and fleshy at first, dry, brown later. Propagation: Seedlings, wildings, cuttings. Seed: Contained in a compound, green, dry fruit which has to be crushed to release the seeds. These fruits usually fall on the forest floor from where they can be collected, treatment: not necessary, storage: sow as soon as collected. Management: Lopping, pollarding. Individual trees planted along roads form magnificent avenues similar to those of Milicia excelsa (Chlorophora excelsa). Provides good shade for crops as well as production of timber and Remarks: wood-fuel. The species deserves more attention in Uganda. Morus mesozygia (M. lactea) Moraceae .
Recommended publications
  • Antiaris Toxicaria Moraceae
    Antiaris toxicaria Moraceae Indigenous Trade names: Antiaris, false iroko, false mvule, kirundo, upas tree. Common names: Ateso: Eloa Kwamba: Kesuba, kisuba Luganda: Kirundu Lugi- shu: Lulundu Lugwe: Mulundulundu Lunyuli: Musende Luo A: Olivaa Luo L: Elwa Madi: Ripi Runyankore: Mumaka Rutoro: Muhere, mbondo. Ecology: A forest tree with 3 varieties not clearly distinguished, especially when young. While one is found largely in wooded grassland, the others grow in rain forest, wetter forest, riverine and semi-swamp forests west to Sierra Leone, into southern Sudan and south to Zaire and Angola. It grows in all regions of Uganda except the North Eastern, 1,350-1,700 m. Uses: Timber (veneer, beer canoes), medicine (leaves, roots), bark cloth. Description: A magnificent deciduous tree of the forest canopy, often 20 m, up to 40 m, the crown rounded, branchlets drooping. A large tree may have a tall clear bole with some buttresses at the base. BARK: smooth, pale grey, marked with lenticel dots and ring marks. When cut thin cream latex drips out, becoming darker. LEAVES: variable, usually oval 5-16 cm x 4-11 cm, the upper half often widest to a blunt or pointed tip, the base unequal and rounded. Saplings and coppice shoots have long narrow leaves, the edge toothed—but rare in mature leaves. Leaves are rough, papery with stiff hairs above but softer below. FLOWERS: small male flowers, yellow-green, in clusters about 1.5 cm across, growing just below leaves. Female flowers in disc- or kidney- shaped heads to 3 cm across. FRUIT: bright red, dull and furry, 1.5 cm long, the swollen receptacle contains just one seed.
    [Show full text]
  • A New Locality of Antiaris Toxicaria Subsp. Macrophylla (Moraceae) in the Andaman Islands, India, with a Note on Its Conservation
    J. Jpn. Bot. 85: 350–357 (2010) A New Locality of Antiaris toxicaria subsp. macrophylla (Moraceae) in the Andaman Islands, India, with a Note on Its Conservation a, a b G. K. upadhyay *, S. K. srivastava and A. A. ansari aCentral National Herbarium, Botanical Survey of India, Howrah-711 103, West Bengal, INDIA; bSikkim Himalayan Circle, Botanical Survey of India, Gangtok-737103, Sikkim, INDIA *Corresponding author: [email protected] (Received on January 12, 2010) The present paper reports an extended distribution of Antiaris toxicaria (Pers.) Lesch. subsp. macrophylla (R. Br.) C. C. Berg (Moraceae) to the Andaman Islands, India. Detailed description, geographical distribution, notes on ecology, photograph of herbarium sheet, and line drawings of this taxon are provided to facilitate easy identification in the field and herbarium. Key words: Andaman Islands, Antiaris toxicaria subsp. macrophylla, conservation, India, Moraceae, new locality. The genus Antiaris Lesch. (Moraceae) is same time he upgraded Corner’s two varieties widely distributed in continental tropical Africa, of A. toxicaria to the subspecific rank, subspp. Yemen, Madagascar, and from Sri Lanka to macrophylla (R. Br.) C. C. Berg and welwitschii Tonga covering countries from Malesia to (Engl.) C. C. Berg. In India, subsp. toxicaria the South-West Pacific Polynesia, Melanesia, has so far been reported from Andaman Islands, Oceania and China (Kochummen 1978, Chew Andhra Pradesh, Maharashtra, Karnataka, 1989, Wu et al. 2003, Berg et al. 2006). Corner Kerala and Tamil Nadu (Ravikumar and Sankar (1962) revised this genus and he reduced 2009). seventeen species formerly described to four During the course of a revision of Moraceae species, A.
    [Show full text]
  • The Castilleae, a Tribe of the Moraceae, Renamed and Redefined Due to the Exclusion of the Type Genus Olmedia From
    Bot. Neerl. Ada 26(1), February 1977, p. 73-82, The Castilleae, a tribe of the Moraceae, renamed and redefined due to the exclusion of the type genus Olmedia from the “Olmedieae” C.C. Berg Instituut voor Systematische Plantkunde, Utrecht SUMMARY New data on in the of Moraceae which known cladoptosis group was up to now as the tribe Olmedieae led to a reconsideration ofthe position ofOlmedia, and Antiaropsis , Sparattosyce. The remainder ofthe tribe is redefined and is named Castilleae. 1. INTRODUCTION The monotypic genus Olmedia occupies an isolated position within the neo- tropical Olmedieae. Its staminate flowers have valvate tepals, inflexed stamens springing back elastically at anthesis, and sometimes well-developed pistil- lodes. Current anatomical research on the wood of Moraceae (by Dr. A. M. W. Mennega) and recent field studies (by the present author) revealed that Olmedia is also distinct in anatomical characters of the wood and because of the lack of self-pruning branches. These differences between Olmedia and the other representatives of the tribe demand for reconsideration of the position of the genus and the deliminationof the tribe. The Olmedia described The genus was by Ruiz & Pavon (1794). original description mentioned that the stamens bend outward elastically at anthesis. Nevertheless it was placed in the “Artocarpeae” (cf. Endlicher 1836-1840; Trecul 1847), whereas it should have been placed in the “Moreae” on ac- of of count the characters the stamens which were rather exclusively used for separating the two taxa. Remarkably Trecul (1847) in his careful study on the “Artocarpeae” disregarded the (described) features of the stamens.
    [Show full text]
  • Community Dynamics, Phenology and Growth of Tropical Trees in the Rain Forest Reserve of Luki, Democratic Republic of Congo Cami
    The tropical forest of Central Africa is the second largest stretch of rain forest on Earth, yet the least known. Increasing demographic growth and economic interests are major threats to this ecosystem. Accurate knowledge on the community dynamics of trees and on the ecology of tree species growing in Community dynamics, phenology this forest is thus urgently needed to underpin conservation and management practices. and growth of tropical trees The Reserve of Luki at the extreme West of the Democratic Republic of in the rain forest Reserve of Luki, Congo was a privileged site to study this ecosystem, moreover concealing spectacular biological collections and datasets. From the community level to Democratic Republic of Congo the minute anatomy of wood this dissertation gives an overview of the ecology of trees of the Central African rain forest from 1948 until today. Community dynamics, phenology and growth of tropical trees trees of tropical growth and phenology dynamics, Community in the rain forest Reserve DemocraticLuki, of the rain of Congo forest in Republic This research project results from a collaboration between the Laboratory of Wood Technology of the University of Ghent, Belgium and the Laboratory of Wood Biology and Xylarium of the Royal Museum for Central Africa, Camille Couralet Tervuren, Belgium. Camille Couralet Camille ISBN: 978-90-5989-387-0 2010 Community dynamics, phenology and growth of tropical trees in the rain forest Reserve of Luki, Democratic Republic of Congo Promoters: Prof. Dr. ir. Joris Van Acker Laboratory for Wood Technology Faculty of Bioscience Engineering Ghent University, Belgium Dr. ir. Hans Beeckman Laboratory for Wood Biology and Xylarium Royal Museum for Central Africa Tervuren, Belgium Jury members: Prof.
    [Show full text]
  • 3406. MEDITERRANEAN FRUIT FLY State Interior Quarantine
    Section 3406. Mediterranean Fruit Fly Interior Quarantine A quarantine is established against the following pest, its hosts, and possible carriers: A. Pest. Mediterranean fruit fly (Ceratitis capitata) of the family Tephritidae is a notorious pest of most fleshy fruit and many vegetables. The adult has banded wings and is smaller than a house fly. B. Area Under Quarantine. 1. An area shall be designated as under quarantine when survey results indicate an infestation is present, the Department has defined the infested area and the local California County Agricultural Commissioner(s) is notified and requests the quarantine area be established. The Department shall also provide electronic and/or written notification of the area designation(s) to other California County Agricultural Commissioners and other interested or affected parties and post the area description to its website at: www.cdfa.ca.gov/plant/medfly/regulation.html. An interested party may also go to the above website and elect to receive automatic notifications of any changes in quarantine areas through the list serve option. 2. If an area is not undergoing the sterile insect technique, an infestation is present when eggs, a larva, a pupa, a mated female or two or more male or unmated female Mediterranean fruit fly adults are detected within three miles of each other and within one life cycle. In an area undergoing sterile insect technique the criteria for an infestation are the same except a single mated female does not constitute an infestation but counts towards an adult for two or more. 3. The initial area under quarantine shall be a minimum of a 4.5 mile radius surrounding the qualifying detections being used as an epicenter.
    [Show full text]
  • Commercial Timbers of West Africa
    SMITHSONIAN CONTRIBUTIONS TO BOTANY NUMBER 14 Commercial Timbers of West Africa Edmard S. Ayensu and Albert Bentum SMITHSONIAN INSTITUTION PRESS City of Washington 1974 ABSTRACT .A)eniu, Edw.ard S., and .Albert Bentum. Commercial Timbers of Tlrest Africa. Smithsoninn Co?itribz(fiomto Bolnny, number 1 I, 69 pages, 28 plates, 1974.- The xylem anatomy of 28 species of commercially and potentially commercial timbers of West Africa is described together with information pertaining to seasoning qualities, durability and Tvorking properties, as well as the uses of Tvood. A comprehensive discussion on the mechanical properties, establishing the methodologies for e\ aluating the potential utilization of these woods, has been included. Shrinkage and swelling in Tvood have allvays presented problems in the utilization of woods. X discussion relating to the differences among (a) moisture content change and shrinkage, (b) the effect of drying conditions on shrinkage and (c) the variation in shrinkage in different species is presented. To aid both beginning students and to refresh the minds of practicing wood technologists, a glossar) of the principal terms used in describing the minute features of timbers has also been added. OFFICIALPIBI.ICATIOX DAIE is handstamped in a limited number of initial copies and is recorded in the Institution’s annual report, Smitiisonian Year. SI PRI-ss NUVIER 4924. SERIFSCOVER DESIGN: Leaf clearing from the katsura tree Cel-cidiphylluvi japonicurn Siebold and Zuccarini. Library of Congress Cataloging in Publication Data riyensu, Edward S. Commercial timbers of U’est Africa. (Smithsonian contributions to botany, no. 14) Includes bibliographical refercnces. 1, ’I‘iniber-Africa. \Vest. 2. Trees-hfiica.\Vest.
    [Show full text]
  • Djvu Document
    BULL. BOT. SURV. INDIA Vol. 2, Nos. 1 & 2: pp. 180-273, 1960 LIST OF MEDICINAL PLANTS DEPOSITED IN VARIOUS Name of Species Family Locality from where collected Frequency Abrus precatorius L. Leguminosae Thekkuhlai, 653 M., Coimbatore, Madras. Common Dehra Dun and Sub-montane forests. ,, Abutilon indlcum (L.) SW. Malvaceae Maruthumalai, 653 M., Coimbatore, Madras. *I Acacia mabtca .Willd. Leguminosae Perur, 553 M., Coimbatore, Madras. ,s A. caesla Willd. Leguminosae Kurudimalai, 800 M., Coimbatore, Madras. st Dehra Dun. A. concinna DC. Legummosae Thekkumalai, 653 M., coimbatore, Madras. ,, A. catechu Willd. Leguminosae Dehra Dun. Bombay; Dist. Khandesh, Padmalaya; Haripur; Abundant Dhulta; Chal~sgaon;Marale; Dist. Nasik, Ambevani; Kuruli; Dist. Satara; Dist. Poona, Bawadhan; Vela; Khed hillock: Manchar; Kolwan. Motharguri (Assam), 183 M.; Sarbhanga (Assam) Not rare & Not 1219 M. Scarce A. famesf0114 Willd. Leguminosae Telankeri Tank, 317 M., Nagpur, Bombay; Common A. ferruginca DC. I&guminosae Vellingiri Hills, 666 M., Coimbatore, Madras. ,, A. leucaphlow Willd. Leguminosae Kurudiialai, 653 M., Coimbatore, ,Madras. ,, A. pemta (L.) Willd. Leguminosae Kurudimalai, 700 M., Coimbatore, Madras. ,, Dehra Dun. A. senegal Willd. Leguminosae Bombay; Kutch, Bhuja hill; Nakhatrana; 'Saurashtra; Common Taranga hill; Sudasha hill. Leguminosae Perur, 533 M., Coirnbatore, Madras. Not common Euphorbiaceae Maruthamalai 666 M., Coimbatore, Madras. Common Euphorbiaceae Varapatayam, 660 M., Coimbatore, Madras. ,, Bombay; Surat; Bhavnagar; Poona; Kutch, Bhuj. Abundant Mysore; N. Kanara, Dandelli; Sirsi. Rajasthan: Rare Common Akharaji Lake. A. pmriculata Miq. Euphorbiaceae Maruthumalai, 653 M., Coimbatore, Madras. Rare Acampe praembrsa Biattsr & McCann. Walayar, 367 M., Coimbatore, Madras, Not common (A. w&htim Lindl.) ~dleamfllefolim L. Compositae Kashmir, Kangra & Lahul. Ackmtk8 aJpera L. - Arnaranthaceae Nanjundapuram, 653 M., Coimbatore, Madras.
    [Show full text]
  • Pharmacognostical and Antioxidant Properties of the Leaves of Antiaris Toxicaria (Lesch)
    International Journal of Pharmacy and Biological Sciences-IJPBSTM (2019) 9 (1): 369-373 Online ISSN: 2230-7605, Print ISSN: 2321-3272 Research Article | Biological Sciences | Open Access | MCI Approved UGC Approved Journal Pharmacognostical and Antioxidant Properties of the Leaves of Antiaris toxicaria (Lesch) Kemila.P*1 and Krishnaveni.C2 1Reseaarch Scholar, 2 Associate Professor, Department of Botany, PSGR Krishnammal College for Women, Peelamedu, Coimbatore-641 004. Received: 10 Oct 2018/ Accepted: 8 Nov 2018/ Published online: 01Jan 2019 Corresponding Author Email: [email protected] Abstract Antiaris toxicaria Lesch commonly known as bark cloth tree belongs to the family Moraceae and their leaves were screened to in order to study the pharmacognostical and antioxidant properties. The physicochemical parameters such as Loss on drying, total ash, Acid insoluble ash, Water soluble ash and percentage of solubility were calculated. The leaves were also screened for the antioxidant property using standard ascorbic acid as a control and found that they possess good antioxidant property. Thus, the preliminary studies of the plant could help us to understand the medicinal properties of the plant and also help us to construct monograph of the plant. Keywords Antiaris toxicaria, Anti-oxidant, Moraceae, Pharmacological, Soxhlet. ***** INTRODUCTION In India, around 20,000 medicinal plant species have plants there was a fair number of documentation of been recorded recently, while more than 500 Antiaris toxicaria that would confirm some of the traditional communities use about 800 plant species traditional uses [3]. Antiaris toxicaria is a tree in the for curing different diseases [1]. Currently, 80% of mulberry and fig family, Moraceae.
    [Show full text]
  • MORACEAE Genera Other Than FICUS (C.C
    Flora Malesiana, Series I, Volume 17 / Part 1 (2006) 1–152 MORACEAE GENera OTHer THAN FICUS (C.C. Berg, E.J.H. Corner† & F.M. Jarrett)1 FOREWORD The following treatments of Artocarpus, Hullettia, Parartocarpus, and Prainea are based on the monograph by Jarrett (1959–1960) and on the treatments she made for this Flora in cooperation with Dr. M. Jacobs in the 1970s. These included some new Artocarpus species described in 1975 and the re-instatement of A. peltata. Artocarpus lanceifolius subsp. clementis was reduced to the species, in A. nitidus the subspe- cies borneensis and griffithii were reduced to varieties and the subspecies humilis and lingnanensis included in var. nitidus. The varieties of A. vrieseanus were no longer recognised. More new Malesian species of Parartocarpus were described by Corner (1976), Go (1998), and in Artocarpus by Kochummen (1998). A manuscript with the treatment of the other genera was submitted by Corner in 1972. Numerous changes to the taxonomy, descriptions, and keys have been made to the original manuscripts, for which the present first author is fully responsible. References: Corner, E.J.H., A new species of Parartocarpus Baillon (Moraceae). Gard. Bull. Singa- pore 28 (1976) 183–190. — Go, R., A new species of Parartocarpus (Moraceae) from Sabah. Sandaka- nia 12 (1998) 1–5. — Jarrett, F.M., Studies in Artocarpus and allied genera I–V. J. Arnold Arbor. 50 (1959) 1–37, 113–155, 298–368; 51 (1960) 73–140, 320–340. — Jarrett, F.M., Four new Artocarpus species from Indo-Malesia (Moraceae). Blumea 22 (1975) 409–410. — Kochummen, K.M., New species and varieties of Moraceae from Malaysia.
    [Show full text]
  • The Vulnerable and Endangered Plants of Xishuangbanna
    The Vulnerable and Endangered Plants of Xishuang- banna Prefecture, Yunnan Province, China Zou Shou-qing Efforts are now being taken to preserve endangered species in the rich tropical flora of China’s "Kingdom of Plants and Animals" Xishuangbanna Prefecture is a tropical area of broadleaf forest-occurs in Xishuangbanna. China situated in southernmost Yunnan Coniferous forest develops above 1,200 me- Province, on the border with Laos and Burma. ters. In addition, Xishuangbanna lies at the Lying between 21°00’ and 21°30’ North Lati- transitional zone between the floras of Ma- tude and 99°55’ and 101°15’ East Longitude, laya, Indo-Himalaya, and South China and the prefecture occupies 19,220 square kilo- therefore boasts a great number of plant spe- meters of territory. It attracts Chinese and cies. So far, about 4,000 species of vascular non-Chinese botanists alike and is known plants have been identified. This means that popularly as the "Kingdom of Plants and Xishuangbanna, an area occupying only 0.22 Animals." The Langchan River passes percent of China, supports about 12 percent through its middle. of the species in China’s flora. The species be- Xishuangbanna is very hilly, about 95 per- long to 1,471 genera in 264 families and in- cent of its terrain being hills and low, undu- clude 262 species of ferns in 94 genera and 47 lating mountains that reach 500 to 1,500 families, 25 species of gymnosperms in 12 meters in elevation. The highest peak is 2,400 genera and 9 families, and 3,700 species of meters in elevation.
    [Show full text]
  • Antiaris Toxicaria (Pers.) SCORE: 3.0 RATING: Evaluate Lesch
    TAXON: Antiaris toxicaria (Pers.) SCORE: 3.0 RATING: Evaluate Lesch. Taxon: Antiaris toxicaria (Pers.) Lesch. Family: Moraceae Common Name(s): bark cloth tree Synonym(s): Ipo toxicaria Pers. false iroko sackingtree upastree Assessor: Chuck Chimera Status: Assessor Approved End Date: 4 Dec 2018 WRA Score: 3.0 Designation: EVALUATE Rating: Evaluate Keywords: Tropical Tree, Naturalized, Toxic Properties, Light Demanding, Bird-dispersed Qsn # Question Answer Option Answer 101 Is the species highly domesticated? y=-3, n=0 n 102 Has the species become naturalized where grown? 103 Does the species have weedy races? Species suited to tropical or subtropical climate(s) - If 201 island is primarily wet habitat, then substitute "wet (0-low; 1-intermediate; 2-high) (See Appendix 2) High tropical" for "tropical or subtropical" 202 Quality of climate match data (0-low; 1-intermediate; 2-high) (See Appendix 2) High 203 Broad climate suitability (environmental versatility) y=1, n=0 y Native or naturalized in regions with tropical or 204 y=1, n=0 y subtropical climates Does the species have a history of repeated introductions 205 y=-2, ?=-1, n=0 n outside its natural range? 301 Naturalized beyond native range y = 1*multiplier (see Appendix 2), n= question 205 y 302 Garden/amenity/disturbance weed n=0, y = 1*multiplier (see Appendix 2) n 303 Agricultural/forestry/horticultural weed n=0, y = 2*multiplier (see Appendix 2) n 304 Environmental weed n=0, y = 2*multiplier (see Appendix 2) n 305 Congeneric weed n=0, y = 1*multiplier (see Appendix 2) n 401 Produces spines, thorns or burrs y=1, n=0 n 402 Allelopathic y=1, n=0 n 403 Parasitic y=1, n=0 n 404 Unpalatable to grazing animals y=1, n=-1 n 405 Toxic to animals 406 Host for recognized pests and pathogens 407 Causes allergies or is otherwise toxic to humans y=1, n=0 y 408 Creates a fire hazard in natural ecosystems Creation Date: 4 Dec 2018 (Antiaris toxicaria (Pers.) Page 1 of 17 Lesch.) TAXON: Antiaris toxicaria (Pers.) SCORE: 3.0 RATING: Evaluate Lesch.
    [Show full text]
  • DIVISION of PLANT INDUSTRY WORKSHOP 3 May 1995, 8:15-8:45, Presented by Nancy C
    DIVISION OF PLANT INDUSTRY WORKSHOP 3 May 1995, 8:15-8:45, presented by Nancy C. Coile Poisonous Plants We will look at some of the poisonous principles (compounds) of plants, such as cardiac glycosides, alkaloids, diterpenes, cyanogenic glycosides, oxalates, nitrogen-containing compounds, resins, and certain proteins and amino acids. As you know, green plants produce simple sugars by combining CO2 and H20 with energy from the sun using a process called photosynthesis. Primary compounds used by the plant for nutrition and construction of the plant body are produced by rearranging these simple sugars into complex sugars, starches, pectins, cellulose, fats, amino acids, proteins, nucleic acids and other compounds for direct use by the plant. Plants also produce compounds which seem to have no explicit use by plants and these are termed “secondary compounds.” Secondary compounds include the poisonous substances listed above as well as sesquiterpene lactones, flavonoids, betalains, essential oils, phenolics and others. Certain groups of plants produce unique secondary compounds which can characterize those groups of families, families, genera, or species. For example, the Solanaceae, Amaryllidaceae, Leguminosae, and Apocynaceae are well known for their production of alkaloids. As you may have noted, poisons may also become medicinal when used in lower doses (e.g., digitalis, see below). Since the concentration of poisonous compounds in a plant varies with growing conditions, great care must be taken with herbal remedies to make sure the dosage is therapeutic and not poisonous. Cardiac glycosides are diterpene compounds which stimulate the heart. These diterpenes are dangerous when sugar molecules [hence,glycoside] are attached to the complex steroid structure.
    [Show full text]