Pony Tail Palm

Total Page:16

File Type:pdf, Size:1020Kb

Pony Tail Palm The Pony Tail Palm This plant will grow to the size of the pot and stay small indoors or in shade. DO not over water this plant, but when you do water do it thoroughly. In a pot with no drain hole tip over so the plant does not sit in water in case you over water. Let the soil dry down before you water again. If your looking to let this plant grow larger than bump it up into a larger pot and give it more light. In more light this plant will crack the pot to get out and grow into a small tree. Avoid frost at all cost. Read on for more information. Beaucarnea recurvata From Wikipedia, the free encyclopedia This article contains instructions, advice, or how-to content. The purpose of Wikipedia is to present facts, not to train. Please help improve this article either by rewriting the how-to content or by moving it to Wikiversity or Wikibooks. (September 2009) Beaucarnea recurvata Scientific classification Kingdom: Plantae (unranked): Angiosperms (unranked): Monocots Order: Asparagales Family: Ruscaceae Genus: Beaucarnea Species: B. recurvata Binomial name Beaucarnea recurvata Lem. Synonyms Nolina recurvata Beaucarnea recurvata (often called the ponytail palm in English, even though it is not a true palm) is a species of Beaucarnea often grown as a houseplant in temperate latitudes. Successful cultivation requires winter minimum temperatures of above 10°C, rising to around 30°C in summer. The ponytail palm is native to the states of Tamaulipas, Veracruz, and San Luis Potosí in Mexico.[1] Beaucarnea recurvata needs full sun to light shade, with a well drained soil mix. A soil mix consisting of 2 parts loam to 1 part peat moss to 2 parts sand has been used successfully. To this mix, small gravel may be added to ensure good drainage. In a container, plants are very slow growing and very drought tolerant. Plants can be watered every three weeks during the growing season and fertilized once during this period. During the winter months, the plants should be watered only enough to keep the foliage from wilting (this usually equates to 1 dose of water during the winter). Over-watering is the single most frequent cause of failure when growing Beaucarnea. The ponytail palm is a very slow growing tree. If you break off one of the branch "crowns", new growth will appear in about a month. [edit]References ^ Irish, Gary (2000). Agaves, Yuccas, and Related Plants: A Gardener's Guide. Timber Press. p. 187. ISBN 9780881924428..
Recommended publications
  • Ponytail Plant - ARID DOME
    8/25/2009 Ponytail Plant - ARID DOME The ponytail plant grows in the Arid Dome. It is sometimes wrongly called the ponytail palm, but it is more closely related to agave or yucca than palm trees. These related plants are native to Mexico. They used to be in the same botanical family, but recent reclassification has separated them into different families. The scientific name is Beaucarnea recurvata. The common name ponytail plant comes from the thick mop of long, straplike leaves that are in a cluster at the top of the plant. The tree keeps its leaves and replaces them only when they are removed by a storm or other injury. This plant is something like a camel because it can survive for long dry periods using the water that is stored in its swollen trunk. The bark of the swollen base of the plant looks very much like the rough skin of an elephant, so another common name for this plant is “elephant foot.” Ponytail plants can grow to 6 feet in a container, but grow to 30 feet outdoors. They grow very slowly. This makes them good house plants because they do not need a lot of care and do not outgrow their pots for a long time. Seeds and plants are available at many commercial websites, such as gflora.com which provided the image accompanying this article. Mature plants produce many, small, creamy-white flowers on long panicles. You can sometimes see them in bloom at the Domes. They may flower two or three times a year.
    [Show full text]
  • Keys View They Are Closely Related the Most Diverse Vegetation Types in North America
    National Park Service U.S. Department of the Interior Desert Alyssum Joshua Tree KevsViewflw (Lepidiumfremontii) (Yucca brevifolia) Joshua Tree National Park The desert alyssum is a Seeing Joshua Tree relative of such plants National Park's as broccoli, kale, and namesake indicates brussel sprouts; they are that you are definitely all in the mustard family in the Mojave Desert, (Brassicaceae), Although the only place in the the leaves smell like green .A world where it grows. vegetables, the flowers You can't age a Joshua have an aroma of sweet honey. The leaves tree by counting its are thread-like and sometimes lobed; the growth rings because there aren't any: these seedpods are round, flat, and seamed down monocots do not produce true wood. Like all the middle. yuccas,Joshua trees are pollinated by yucca moths(Tegeticula spp.) that specialize in active pollination, a rare form of pollination mutualism.The female moth lays her Brownplume eggs inside the flower's ovary, then pollinates the flower. This 100 Feet ensures that when the larvae emerge, they will have a fresh Wirelettuce food source—the developing seeds! 30 Meters A (Stephanomeria See inside of guide for a selection of plants found on this trail. pauciflora) The Flora of Joshua Tree National Park This small shrub Desert Needlegrass Three distinct biogeographic regions converge in Joshua Tree has an intricate (Stipa speciosa) National Park, creating a rich flora: nearly 730 vascular plant branching pattern, with inconspicuous species have been documented here. Each flower of this species leaves. The pale pink to has a 1.5 inch (4 cm)long lavender flowering head The Sonoran Desert to the south and east, at elevations bristle, known as an awn;this is a composite of multiple needlelike structure has a bend less than 3000 ft(914 m), contributes a unique set of plants flowers,as with all members of the Sunflower in the middle and short white that are adapted to a bi-seasonal precipitation pattern family (Asteraceae).
    [Show full text]
  • Guide to the Flora of the Carolinas, Virginia, and Georgia, Working Draft of 17 March 2004 -- LILIACEAE
    Guide to the Flora of the Carolinas, Virginia, and Georgia, Working Draft of 17 March 2004 -- LILIACEAE LILIACEAE de Jussieu 1789 (Lily Family) (also see AGAVACEAE, ALLIACEAE, ALSTROEMERIACEAE, AMARYLLIDACEAE, ASPARAGACEAE, COLCHICACEAE, HEMEROCALLIDACEAE, HOSTACEAE, HYACINTHACEAE, HYPOXIDACEAE, MELANTHIACEAE, NARTHECIACEAE, RUSCACEAE, SMILACACEAE, THEMIDACEAE, TOFIELDIACEAE) As here interpreted narrowly, the Liliaceae constitutes about 11 genera and 550 species, of the Northern Hemisphere. There has been much recent investigation and re-interpretation of evidence regarding the upper-level taxonomy of the Liliales, with strong suggestions that the broad Liliaceae recognized by Cronquist (1981) is artificial and polyphyletic. Cronquist (1993) himself concurs, at least to a degree: "we still await a comprehensive reorganization of the lilies into several families more comparable to other recognized families of angiosperms." Dahlgren & Clifford (1982) and Dahlgren, Clifford, & Yeo (1985) synthesized an early phase in the modern revolution of monocot taxonomy. Since then, additional research, especially molecular (Duvall et al. 1993, Chase et al. 1993, Bogler & Simpson 1995, and many others), has strongly validated the general lines (and many details) of Dahlgren's arrangement. The most recent synthesis (Kubitzki 1998a) is followed as the basis for familial and generic taxonomy of the lilies and their relatives (see summary below). References: Angiosperm Phylogeny Group (1998, 2003); Tamura in Kubitzki (1998a). Our “liliaceous” genera (members of orders placed in the Lilianae) are therefore divided as shown below, largely following Kubitzki (1998a) and some more recent molecular analyses. ALISMATALES TOFIELDIACEAE: Pleea, Tofieldia. LILIALES ALSTROEMERIACEAE: Alstroemeria COLCHICACEAE: Colchicum, Uvularia. LILIACEAE: Clintonia, Erythronium, Lilium, Medeola, Prosartes, Streptopus, Tricyrtis, Tulipa. MELANTHIACEAE: Amianthium, Anticlea, Chamaelirium, Helonias, Melanthium, Schoenocaulon, Stenanthium, Veratrum, Toxicoscordion, Trillium, Xerophyllum, Zigadenus.
    [Show full text]
  • Plant Life Magill’S Encyclopedia of Science
    MAGILLS ENCYCLOPEDIA OF SCIENCE PLANT LIFE MAGILLS ENCYCLOPEDIA OF SCIENCE PLANT LIFE Volume 4 Sustainable Forestry–Zygomycetes Indexes Editor Bryan D. Ness, Ph.D. Pacific Union College, Department of Biology Project Editor Christina J. Moose Salem Press, Inc. Pasadena, California Hackensack, New Jersey Editor in Chief: Dawn P. Dawson Managing Editor: Christina J. Moose Photograph Editor: Philip Bader Manuscript Editor: Elizabeth Ferry Slocum Production Editor: Joyce I. Buchea Assistant Editor: Andrea E. Miller Page Design and Graphics: James Hutson Research Supervisor: Jeffry Jensen Layout: William Zimmerman Acquisitions Editor: Mark Rehn Illustrator: Kimberly L. Dawson Kurnizki Copyright © 2003, by Salem Press, Inc. All rights in this book are reserved. No part of this work may be used or reproduced in any manner what- soever or transmitted in any form or by any means, electronic or mechanical, including photocopy,recording, or any information storage and retrieval system, without written permission from the copyright owner except in the case of brief quotations embodied in critical articles and reviews. For information address the publisher, Salem Press, Inc., P.O. Box 50062, Pasadena, California 91115. Some of the updated and revised essays in this work originally appeared in Magill’s Survey of Science: Life Science (1991), Magill’s Survey of Science: Life Science, Supplement (1998), Natural Resources (1998), Encyclopedia of Genetics (1999), Encyclopedia of Environmental Issues (2000), World Geography (2001), and Earth Science (2001). ∞ The paper used in these volumes conforms to the American National Standard for Permanence of Paper for Printed Library Materials, Z39.48-1992 (R1997). Library of Congress Cataloging-in-Publication Data Magill’s encyclopedia of science : plant life / edited by Bryan D.
    [Show full text]
  • Winter/Spring 2014
    UNIVERSITY of CALIFORNIA BOTANICAL GARDEN NEWSLETTER Vol. 38 Numbers 1 & 2 | Published by the UNIVERSITY of CALIFORNIA BOTANICAL GARDEN at BERKELEY | Winter/ Spring 2014 The New World Desert Collection 'HVHUWV DUH RIWHQ GH¿QHG DV areas receiving less than 254 mm (10 in) of rainfall each year. Given that the Garden typically receives over 500 mm (20 in), this collection is a horticultural challenge. The Garden’s heavy clay soil has been greatly amended with expanded shale to improve drainage and reduce the incidence of diseases and pests, especially nematodes. Recent efforts to improve plant health with the application of compost tea and organic top dressing has shown good results, with renewed vigor DQGPRUHSUROL¿FÀRZHULQJRIPDQ\ FDFWL%HQH¿FLDOQHPDWRGHVDUHDOVR The hot south-facing exposure and rocky hardscape of the New World Desert provide a dramatic experience in the Garden. employed to keep the harmful ones Photo by Janet Williams in check. stablished early on in the Garden’s history in Strawberry Canyon, the New World Desert (NWD) is an iconic display of arid land plants from North and South America. EIt really started to take shape in the 1930s with the addition of plants collected during the Garden’s expeditions to the Andes. These expeditions focused on Peru and Chile, with forays into Bolivia. Botanical and personal highlights of these expeditions are documented in Garden Director T. Harper Goodspeed’s book, Plant Hunters of the Andes, published in 1961. The most recent desert expedition was to Baja California in 1986, led by then curator Dr. James Affolter and included Horticulturists Kurt Zadnik and Roger Raiche and current volunteer Fred Dortort.
    [Show full text]
  • Effect of Media Type and BAP Concentrations on Micropropagation During Multiplication Stage on Ponytail Palm (Beaucarnea Recurvata Lem.) Abdel Kawy, Waly; Yehia M
    Hortscience Journal of Suez Canal University, 2018 Effect of Media Type and BAP Concentrations on Micropropagation during Multiplication Stage on Ponytail Palm (Beaucarnea recurvata Lem.) Abdel Kawy, Waly; Yehia M. Abdel Fattah and Ali A. Shoman Department of Horticulture, Faculty of Agriculture, Suez Canal University, Ismailia, Egypt. Received: 28/10/2018 Abstract: Ponytail palm (Beaucarnea recurvet Lem.; Family Asparagaceae) is one of the most important plants in the internal and external coordination. This work was carried out to study the effect of media type (MS, B5 and WPM) and Benzylaminopurine BAP at 0, 0.2, 0.4 and 0.6 mg/l during multiplication stage. The shoot tips were collected from in vitro seedlings cultured on MS medium without growth regulators. B5 medium supplemented with 0.4 mg/l (BAP) increased number of shoots (3.40 shoots/clump) and number of leaves (24) plant compared with other treatments. The B5 medium is preferable within mass production and featured commercial. The BAP Concentration 0.4 mg/l promotes shoots initiation and development with B5 medium more than MS and WPM. Keywords: Ponytail palm, Beaucarnea recurvata, tissue culture, micropropagation, BAP, media type, MS, B5, WPM INTRODUCTION MATERIALS AND METHODS Beaucarnea (Asparagaceae) is a Mexican and This study was carried out in the plant tissue Guatemalan genus that inhabits dry tropical areas. Most culture laboratory in the Department of Horticulture, of the species are endangered under the Mexican Faculty of Agriculture, Suez Canal University, Ismailia legislation because they have a high horticultural during the period 2013 – 2015. demand and are threatened by habitat destruction.
    [Show full text]
  • Networks in a Large-Scale Phylogenetic Analysis: Reconstructing Evolutionary History of Asparagales (Lilianae) Based on Four Plastid Genes
    Networks in a Large-Scale Phylogenetic Analysis: Reconstructing Evolutionary History of Asparagales (Lilianae) Based on Four Plastid Genes Shichao Chen1., Dong-Kap Kim2., Mark W. Chase3, Joo-Hwan Kim4* 1 College of Life Science and Technology, Tongji University, Shanghai, China, 2 Division of Forest Resource Conservation, Korea National Arboretum, Pocheon, Gyeonggi- do, Korea, 3 Jodrell Laboratory, Royal Botanic Gardens, Kew, Richmond, United Kingdom, 4 Department of Life Science, Gachon University, Seongnam, Gyeonggi-do, Korea Abstract Phylogenetic analysis aims to produce a bifurcating tree, which disregards conflicting signals and displays only those that are present in a large proportion of the data. However, any character (or tree) conflict in a dataset allows the exploration of support for various evolutionary hypotheses. Although data-display network approaches exist, biologists cannot easily and routinely use them to compute rooted phylogenetic networks on real datasets containing hundreds of taxa. Here, we constructed an original neighbour-net for a large dataset of Asparagales to highlight the aspects of the resulting network that will be important for interpreting phylogeny. The analyses were largely conducted with new data collected for the same loci as in previous studies, but from different species accessions and greater sampling in many cases than in published analyses. The network tree summarised the majority data pattern in the characters of plastid sequences before tree building, which largely confirmed the currently recognised phylogenetic relationships. Most conflicting signals are at the base of each group along the Asparagales backbone, which helps us to establish the expectancy and advance our understanding of some difficult taxa relationships and their phylogeny.
    [Show full text]
  • The Agavaceae: Taxonomic and Phylogenetic Appraisal
    Journal of Experimental Sciences Vol. 2, Issue 3, Pages 20-24 [2011] www.jexpsciences.com Regular Article The Agavaceae: Taxonomic and Phylogenetic Appraisal D.A.Patil1* and R.M.Pai2 1P.G. Department of Botany, S.S.V.P.Sanstha’s L.K.Dr.P.R.Ghogrey Science College, Dhule – 424005 (M.S.) India; 2Charanamrut’; 24, Swanand Nagar, Aurangabad-431005. (M.S.) India Doryantheae (Doryanthes) of the family Agavaceae. Traub (1975) ABSTRACT: A comparative assessment of the Agavaceae from the categorizes the genera into five tribes-Agaveae (Agave, Furcraea, standpoint of taxonomy and phylogeny is attempted in the light of Bravoa, Beschorneria), Yucceae (Yucca, Hesperoyucca, Cleistoyucca, different disciplines of morphology. The agavoids are apparently a Samuela, Hesperaloe), Hosteae (Hosta), Poliantheae (Polianthes, diverse assemblage, but brought under one roof by important Prochnyanthes, Pseudobravoa) and Nolineae (Nolina, Calibenus, phyletic parameters such as karyomorphology, stomatal nature, Dasylirion) under the family Agavaceae. He includes the genus pollen structure, perianth anatomy and androecial morphology, etc. Hosta under a separate tribe Hosteae under Agavaceae. He is of Polyphylesis is evident in the evolution of the group. The agavoids the opinion that the tribes Draceeneae and Phormieae are seem to have arisen from ancient liliaceous stocks. They do not ‘problematic elements’. appear to be the progenitors of any of the higher data of petaloid It is only in the Hutchinson’s scheme (1973) that the genera find monocotyledons. The present authors are inclined to treat the treatment in one composite family Agavaceae under six tribes, e.g., agavoids best under four distinct taxonomic entities viz., Agaveae, Yucceae, Dracaeneae, Phormieae, Nolineae, Agaveae and Phormieae, Doryantheae and Dracaeneae under the Agavaceae.
    [Show full text]
  • Coronado National Memorial Plant List
    BROOMRAPE POPPY PINE NIGHTSHADE VERBENA GRAPE CORONADO NATIONAL FAMILY FAMILY FAMILY FAMILY FAMILY FAMILY SOLANACEAE OROBANCHACEAE PAPAVERÁCEAS PINACEAE VERBENACEAE VITACEAE MEMORIAL PLANT LIST Santa Catalina SW Prickly Silverleaf Mexican Prairie Verbena/ Canyon Indian Poppy/ Nightshade/ Pinyon Pine Dakota Vervain Grape Paintbrush Chicalote Trompillo AMARANTH CASHEW MILKWEED Castillejo Argemone Pin us Solanum Glandularia vial FAMILY FAMILY FAMILY tenuiflora oleiacantha cembroides elaeagnifolium bipinnatifida arizonica AMARANTHACEAE ANACARDIACEAE ASCLEPIADACEAE Tufted Globe Evergreen Antelope Horn Amaranth Sumac Milkweed Gomphrena Rhus Asclepias caespitosa virens asperula Deep-rooting plant Has lightly hairy Ripe grapes are Hemiparasitic Leaves, stems, Bushy evergreen commonly stems, and blooms edible, though tart. plant: siphons and fruit covered with edible seeds considered a weed. continuously Young leaves can nutrients from in spines. Also that are favored by Toxic to humans through spring also be eaten, and the roots of called 'Cowboy's packrats. Have 2-3 and livestock alike. and summer. used to wrap food. nearby plants. fried Kggs.' needles per cluster. Relatively rare in Only female Food source for PLANTAIN FAMILY (PLANTAGINACEAE) the US: confined to plants produce Monarch butterfly flowers and fruit. caterpillars. Firecracker Parry's Woolly Notes/Observations: AZ, NM, and TX. Penstemon Penstemon Plantain ASPARAGUS FAMILY (ASPARAGACEAE) Penstemon Penstemon Plantago Palmer's Huachuca Schotfs ea ton i i parryi patagónica Agave Agave Yucca Agave A. parryi var. Yucca oalmeri huachucensis schottii Penstemon are very attractive plants to hummingbirds, due to the ease of eating from their tube-like flower corollas. Plantain leaves, chewed and applied to bug bites or stings are known to diminish itching and promote skin healing.
    [Show full text]
  • Planting a Dry Rock Garden in Miam1
    Succulents in Miam i-D ade: Planting a D ry Rock Garden John McLaughlin1 Introduction The aim of this publication is twofold: to promote the use of succulent and semi-succulent plants in Miami-Dade landscapes, and the construction of a modified rock garden (dry rock garden) as a means of achieving this goal. Plants that have evolved tactics for surviving in areas of low rainfall are collectively known as xerophytes. Succulents are probably the best known of such plants, all of them having in common tissues adapted to storing/conserving water (swollen stems, thickened roots, or fleshy and waxy/hairy leaves). Many succulent plants have evolved metabolic pathways that serve to reduce water loss. Whereas most plants release carbon dioxide (CO2) at night (produced as an end product of respiration), many succulents chemically ‘fix’ CO2 in the form of malic acid. During daylight this fixed CO2 is used to form carbohydrates through photosynthesis. This reduces the need for external (free) CO2, enabling the plant to close specialized pores (stomata) that control gas exchange. With the stomata closed water loss due to transpiration is greatly reduced. Crassulacean acid metabolism (CAM), as this metabolic sequence is known, is not as productive as normal plant metabolism and is one reason many succulents are slow growing. Apart from cacti there are thirty to forty other plant families that contain succulents, with those of most horticultural interest being found in the Agavaceae, Asphodelaceae (= Aloacaeae), Apocynaceae (now including asclepids), Aizoaceae, Crassulaceae, Euphorbiaceae and scattered in other families such as the Passifloraceae, Pedaliaceae, Bromeliaceae and Liliaceae.
    [Show full text]
  • Phylogeny, Genome Size, and Chromosome Evolution of Asparagales J
    Aliso: A Journal of Systematic and Evolutionary Botany Volume 22 | Issue 1 Article 24 2006 Phylogeny, Genome Size, and Chromosome Evolution of Asparagales J. Chris Pires University of Wisconsin-Madison; University of Missouri Ivan J. Maureira University of Wisconsin-Madison Thomas J. Givnish University of Wisconsin-Madison Kenneth J. Systma University of Wisconsin-Madison Ole Seberg University of Copenhagen; Natural History Musem of Denmark See next page for additional authors Follow this and additional works at: http://scholarship.claremont.edu/aliso Part of the Botany Commons Recommended Citation Pires, J. Chris; Maureira, Ivan J.; Givnish, Thomas J.; Systma, Kenneth J.; Seberg, Ole; Peterson, Gitte; Davis, Jerrold I.; Stevenson, Dennis W.; Rudall, Paula J.; Fay, Michael F.; and Chase, Mark W. (2006) "Phylogeny, Genome Size, and Chromosome Evolution of Asparagales," Aliso: A Journal of Systematic and Evolutionary Botany: Vol. 22: Iss. 1, Article 24. Available at: http://scholarship.claremont.edu/aliso/vol22/iss1/24 Phylogeny, Genome Size, and Chromosome Evolution of Asparagales Authors J. Chris Pires, Ivan J. Maureira, Thomas J. Givnish, Kenneth J. Systma, Ole Seberg, Gitte Peterson, Jerrold I. Davis, Dennis W. Stevenson, Paula J. Rudall, Michael F. Fay, and Mark W. Chase This article is available in Aliso: A Journal of Systematic and Evolutionary Botany: http://scholarship.claremont.edu/aliso/vol22/iss1/ 24 Asparagales ~£~2COTSgy and Evolution Excluding Poales Aliso 22, pp. 287-304 © 2006, Rancho Santa Ana Botanic Garden PHYLOGENY, GENOME SIZE, AND CHROMOSOME EVOLUTION OF ASPARAGALES 1 7 8 1 3 9 J. CHRIS PIRES, • • IVAN J. MAUREIRA, THOMAS J. GIVNISH, 2 KENNETH J. SYTSMA, 2 OLE SEBERG, · 9 4 6 GITTE PETERSEN, 3· JERROLD I DAVIS, DENNIS W.
    [Show full text]
  • Bhutan Biodiversity User List
    National Environment Commission Royal Government of Bhutan BHUTAN BIODIVERSITY USER LIST 52 BHUTAN BIODIVERSITY USER LIST Bhutan Biodiversity User List NATIONAL ENVIRONMENT COMMISSION ROYAL GOVERNMENT OF BHUTAN Coordinated and Compiled By; 1. Ms. Sonam Lhaden Khandu, National Environment Commission Secretariat (NECS) 2. Mr. Dorji Phuntsho, NECS 3. Mr. Yeshi Dorji, NECS Contributing Stakeholders/Focal Points; 1. Mr. Namgay Dorji, Principal Planning Officer, Department of Livestock 2. Dr. Dorjee, Principal Plant Protection Officer, National Plant Protection Centre 3. Ms. Kuenzang Om, Senior Agriculture Officer, Department of Agriculture 4. Mr. Sonam Dorji, Senior Regulatory and Quarantine Officer, Bhutan Agriculture and Food Regulatory Authority 5. Mr. Ngawang Gyeltshen, CITES Scientific Authority Focal, Department of Forests and Park Services Published By; National Environment Commission, Royal Government of Bhutan PO Box: 466, Thimphu, Bhutan Tel: (975-2) 323384/325856/324323/326993 Website: www.nec.gov.bt Fund Support: Royal Government of Bhutan and WWF–Bhutan © 2021 National Environment Commission (NEC), Thimphu, Bhutan ISBN No. 978-99980-46-02-3 Contents Introduction 1 List of Wild Species Protected by National Legislation, 5 CITES Listing and IUCN Red List Status Mammals 6 Birds 10 Fishes 14 Butterfly 15 Fungi 15 Amphibians and Reptiles 16 Plants 17 List of Invasive Species Recorded from Bhutan 21 National list of notified/released kinds or varieties of 27 agricultural crops and fodder List of permitted ornamental plants in Bhutan. 37 Native Livestock and Poultry Breeds of Bhutan 45 References 49 White-bellied Heron (Ardea insignis) Photo by: Phub Dorji Introduction The National Environment Commission Secretariat (NECS) is an independent authority and the highest decision making body on all matters relating to the environment and its management in the country.
    [Show full text]