Myrsine Variabilis R.Br. Family: Primulaceae Brown, R

Total Page：16

File Type：pdf, Size：1020Kb

Australian Tropical Rainforest Plants - Online edition Myrsine variabilis R.Br. Family: Primulaceae Brown, R. (1810) Prodromus Florae Novae Hollandiae : 534. Type: Port Jackson, R. Brown; Holo: BM. Common name: Brush Muttonwood; Muttonwood, Brush; Muttonwood Stem A small tree seldom exceeding 30 cm dbh. Oak grain in the wood and a similar pattern in the inner blaze. Leaves Oil dots circular, reddish, visible with a lens. Leaf blades about 6-12 x 2.3-4 cm. Midrib raised on the upper surface of the leaf blade. Lateral veins 18-22 on each side of the midrib. Oil dots globular, Flowers. © G. Sankowsky red, often concentrated near the blade margin. Fine oak grain in the twigs. Flowers Inflorescence much shorter than the leaves, barely exceeding the petioles. Pedicels about 3-5 mm long. Corolla tube about 1.5-2 mm long, corolla lobes about 0.5-1 mm long, outer surface minutely papillose. Ovary about 1 x 1 mm, stigma short and capitate, +/- papillose. Fruit Infructescence much shorter than the leaves, barely exceeding the petioles, pedicels about 3-5 mm long. Calyx lobes persistent at the base of the fruit. Fruits globular, about 4 x 4.5 mm. Oil dots visible Flowers. © G. Sankowsky in the exocarp and in the white fleshed pericarp. Cotyledons about as wide as the radicle or slightly narrower. Seedlings Cotyledons ovate, about 9-12 mm long. First pair of leaves obovate with about 3-5 coarse peg-like teeth on each side of the midrib. At the tenth leaf stage: leaf blade ovate, apex acute, base attenuate, margins serrate, about 6-8 teeth on each side of the leaf blade, glabrous; oil dots reddish. Terminal bud clothed in reddish scale-like hairs. Seed germination time 55 to 95 days. Distribution and Ecology Leaves. © G. Sankowsky Endemic to Australia, occurs in CYP, NEQ, CEQ and southwards as far as south-eastern New South Wales. Altitudinal range in CYP and NEQ from near sea level to 800 m. Grows in drier, more seasonal rain forest and monsoon forest. Natural History & Notes Food plant for the larval stages of the White Lineblue Butterfly. Common & Waterhouse (1981). Synonyms Rapanea variabilis (R.Br.) Mez, Das Pflanzenreich Heft 9 : 355(1902). Rapanea sp. (Clifton Beach R.L. Jago 4080), Names & Distribution of Queensland Plants, Algae & Lichens : 119(2002). Myrsine campanulata F. Muell., Fragmenta 6: 235(1868), Type: Queensland, Basalt 10th leaf stage. © CSIRO Wall, Fletcher Creek, R. Daintree. Holo: MEL. Rapanea campanulata (F. Muell.) Mez, Das Pflanzenr. 9: 356(1902). RFK Code 947 Cotyledon stage, epigeal germination. © CSIRO Copyright © CSIRO 2020, all rights reserved. Scale bar 10mm. © CSIRO Trunk. © G. Sankowsky Web edition hosted at https://apps.lucidcentral.org/rainforest.

Copy Link

Recommended publications

Ripple-Leaf Muttonwood (Rapanea Species a Richmond River) July 2004 © NSW Department of Environment and Conservation, 2004
Approved NSW & National Recovery Plan Ripple-leaf Muttonwood (Rapanea species A Richmond River) July 2004 © NSW Department of Environment and Conservation, 2004. This work is copyright. However, material presented in this plan may be copied for personal use or published for educational purposes, providing that any extracts are fully acknowledged. Apart from this and any other use as permitted under the Copyright Act 1968, no part may be reproduced without prior written permission from NSW Department of Environment and Conservation. NSW Department of Environment and Conservation 43 Bridge Street (PO Box 1967) Hurstville NSW 2220 Tel: 02 9585 6444 www.nationalparks.nsw.gov.au Requests for information or comments regarding the recovery program for the Ripple-leaf Muttonwood (Rapanea species A Richmond River) are best directed to: The Ripple-leaf Muttonwood Recovery Co-ordinator Threatened Species Unit, North East Branch NSW Department of Environment and Conservation Locked Bag 914 Coffs Harbour NSW 2450 Tel: 02 6651 5946 Cover illustrator: Kersten Tuckey This plan should be cited as follows: NSW Department of Environment and Conservation (2004), Approved Recovery Plan for the Ripple-leaf Muttonwood (Rapanea species A Richmond River), NSW Department of Environment and Conservation, Hurstville. ISBN 1741221382 Approved Recovery Plan Ripple-leaf Muttonwood Recovery Plan for the Ripple-leaf Muttonwood (Rapanea species A Richmond River) Executive Summary This document constitutes the formal National and New South Wales State Recovery Plan for the Ripple-leaf Muttonwood (Rapanea species A Richmond River (J.H. Maiden & J.L. Boorman NSW 26751)) and, as such, considers the conservation requirements of the species across its known range.
[Show full text]
From New Guinea
Phytotaxa 442 (3): 133–137 ISSN 1179-3155 (print edition) https://www.mapress.com/j/pt/ PHYTOTAXA Copyright © 2020 Magnolia Press Article ISSN 1179-3163 (online edition) https://doi.org/10.11646/phytotaxa.442.3.1 A new species of Myrsine (Primulaceae-Myrsinoideae) from New Guinea TIMOTHY M.A. UTTERIDGE1,3 & BRENDAN J. LEPSCHI2,4 1 Identification & Naming Dept, Royal Botanic Gardens, Kew, Richmond, Surrey, TW9 3AE, UK. 2 Australian National Herbarium, Centre for Australian National Biodiversity Research, GPO Box 1700, Canberra, ACT, 2601, Australia. 3 [email protected]; https://orcid.org/0000-0003-2823-0337 4 [email protected]; https://orcid.org/0000-0002-3281-2973 Abstract Myrsine exquisitorum Utteridge & Lepschi (Primulaceae-Myrsinoideae) is described and illustrated as a new species endemic to the Western Highlands Province from Papua New Guinea. The new species is unique in the relatively large, almost orbicular leaves with entire margins, and the tetramerous flowers arranged in axillary fascicles without forming short shoots. Keywords: Papuasia, Malesia, Myrsinaceae, Rapanea, taxonomy Introduction Myrsine Linnaeus (1753: 196) is a pantropical genus of c. 280 species, and now includes all taxa previously placed in the paleotropical genus Rapanea Aublet (1775: 121) and the New World genus Suttonia A.Richard (1832: 349). Traditionally, Rapanea was considered distinct from Myrsine based on the absence of well-defined filaments and style, but these characters have been shown to intergrade between species of the different genera. Pipoly (2007) and Takeuchi & Pipoly (2009) further discuss character variation in the genera in New Guinea, and formally completed the transfer of the eastern Malesian names of Rapanea to Myrsine.
[Show full text]
Antarctic Beech (Nothofagus Moorei)
Dandarrga Nursery Native Species Labels A - M Antarctic Beech (Nothofagus moorei) Nothofagaceae A Gondwana rainforest tree 25 – 50 m Flowers Nov - Dec, seed pods Dec - Feb Range: High altitude rainforest of eastern Australia. This tree can reach a great age. New growth is red, and the complex root structure can grow multiple trunks, adorned with epiphytic orchids, ferns, fungi, mosses, liverworts and lichens. Bamboo Grass (Austrostipa ramosissima) Poaceae Native grass up to 1 to 2.5 m tall, 1.5 m wide Flowers: year round Range: S.E NSW to N.E QLD Stout Bamboo Grass is a tall ornamental grass. Fast growing and long lived. Useful container or border plant or for erosion and weed control. Attracts birds and small reptiles. Hardy; frost, drought and damp tolerant and grows in most soil conditions. Can be cut back hard to rejuvenate. Grows best with full or partial sun in shelter. Banana Bush (Tabernaemontana pandacaqui) Apocynaceae Deciduous shrub or small tree 1.5-14m Flowers: White; spring/summer Range: Manning River NSW to Cooktown QLD Normally growing to 1.5-3m in cultivation and can be pruned. Dense understory shrub with pretty tubular scented flowers. Unusual orange/ yellow fruit resemble small bananas but are poisonous to eat. Normally suitable for pruning. Adaptable to a range of moist, well-drained soil and prefers full or part shade. Dandarrga Nursery Native Species Labels A - M Basket Grass (Lomandra longifolia labill) Asparagaceae Native grass up to 1.2 m high & over 1m wide Flowers: cream to yellow from late winter to summer. Grows in a range of habitats FIRE RETARDANT SPECIES.
[Show full text]
In Vivo and in Vitro Anthelmintic Activity of Balanites Aegyptiaca and Artemisia Herba Alba on Haemonchus Contortus of Sheep
In vivo and in vitro Anthelmintic Activity of Balanites aegyptiaca and Artemisia herba Alba on Haemonchus contortus of sheep By Rogia Osman Elhassan Albadawi B.V. Sc 1996, M. V. Sc 2003, Faculty of Veterinary Science University of Khartoum SUPERVISOR Prof. Mohamed Magzoub Ahmed AlKan Co-Supervisor, Prof. Tigani Hassan ELamin A thesis submitted to the University of Khartoum in fulfillment for the requirements of the degree of Doctor of Philosophy. Department of Parasitology Faculty of Veterinary Medicine University of Khartoum April 2010 DEDICATION To the soul of my father, To my Mother, Brothers and Sisters, And to my Husband and Children With my deep love. Acknowledgements First praise will be to Almighty ALLA for giving me health and strength to carry out this work. I wish to express my thanks, gratitude and indebtedness to my supervisor Prof. Mohamed Magzoub Ahmed Alkan, of the Department of Parasitology, Faculty of Veterinary Medicine, University of Khartoum, for his supervision, guidance, support and encouragement throughout this study. I am also grateful to Dr. Shawgi, M. Hassan, of the Department of Parasitology, Faculty of Veterinary Medicine, University of Khartoum for his help and assistance in the statistical analysis and useful advice during the preparation of this thesis. Thanks are also extended to Dr. Mohamed Salih, Faculty of Agriculture, Soil department, for his help in the analytical structure of the study. Thanks are due to all members of the department of Parasitology, Faculty of Veterinary Medicine University of Khartoum with special thanks and appreciation to Mr. Awadalla Abdelmoniem and Mrs. Entisar Abdella, for their assistance in different aspects during the period of my study.
[Show full text]
Myrsine Variabilis Click on Images to Enlarge
Species information Abo ut Reso urces Hom e A B C D E F G H I J K L M N O P Q R S T U V W X Y Z Myrsine variabilis Click on images to enlarge Family Primulaceae Scientific Name Myrsine variabilis R.Br. Brown, R. (1810) Prodromus Florae Novae Hollandiae : 534. Type: Port Jackson, R. Brown; Holo: BM. Flowers. Copyright G. Sankowsky Common name Brush Muttonwood; Muttonwood, Brush; Muttonwood Stem A small tree seldom exceeding 30 cm dbh. Oak grain in the wood and a similar pattern in the inner blaze. Leaves Flowers. Copyright G. Sankowsky Oil dots circular, reddish, visible with a lens. Leaf blades about 6-12 x 2.3-4 cm. Midrib raised on the upper surface of the leaf blade. Lateral veins 18-22 on each side of the midrib. Oil dots globular, red, often concentrated near the blade margin. Fine oak grain in the twigs. Flowers Inflorescence much shorter than the leaves, barely exceeding the petioles. Pedicels about 3-5 mm long. Corolla tube about 1.5-2 mm long, corolla lobes about 0.5-1 mm long, outer surface minutely papillose. Ovary about 1 x 1 mm, stigma short and capitate, +/- papillose. Leaves. Copyright G. Sankowsky Fruit Infructescence much shorter than the leaves, barely exceeding the petioles, pedicels about 3-5 mm long. Calyx lobes persistent at the base of the fruit. Fruits globular, about 4 x 4.5 mm. Oil dots visible in the exocarp and in the white fleshed pericarp. Cotyledons about as wide as the radicle or slightly narrower.
[Show full text]
South African Medicinal Plant Extracts Active Against Influenza a Virus Parvaneh Mehrbod1,2 , Muna A
Mehrbod et al. BMC Complementary and Alternative Medicine (2018) 18:112 https://doi.org/10.1186/s12906-018-2184-y RESEARCHARTICLE Open Access South African medicinal plant extracts active against influenza A virus Parvaneh Mehrbod1,2 , Muna A. Abdalla3, Emmanuel M. Njoya3, Aroke S. Ahmed3,4, Fatemeh Fotouhi2, Behrokh Farahmand2, Dorcas A. Gado3, Mansoureh Tabatabaian2, Olubunmi G. Fasanmi5,6, Jacobus N. Eloff3, Lyndy J. McGaw3 and Folorunso O. Fasina1,7* Abstract Background: Influenza infection remains a major health threat for animals and humans which crucially requires effective antiviral remedies. The usage of herbal medications as readily available alternatives for their compatibility with the body and fewer side effects compared to synthetic chemical treatments has become popular globally. The aim of this study was to investigate and screen in vitro anti-influenza activity of extracts of five South African medicinal plants, namely Tabernaemontana ventricosa, Cussonia spicata, Rapanea melanophloeos, Pittosporum viridiflorum and Clerodendrum glabrum, species which are used traditionally for the treatment of several diseases such as inflammatory and respiratory diseases. Methods: Methanol, ethanol (100% and 30%), acetone, hot and cold water extracts of the powdered plants leaves were obtained by standard methods. The cytotoxicity was determined by the MTT colorimetric assay on MDCK cells. The concentrations below CC50 values were tested for antiviral activity against influenza A virus (IAV) in different combination treatments. The effect
[Show full text]
INDEX to GENERA and SPECIES Genera and Species Listed in Appendices Are Not Indexed
INDEX TO GENERA AND SPECIES Genera and species listed in appendices are not indexed Abarema filamentosa . 483 minuta ........................ 444 Abrophyllum . .. 223 Arenga undulatifolia .................. 444 Abryna regispetri .................... 94 Argyrodendron peralatum . 373 Acacia. .. 11 Arhopala buddTia .................... 292 Acalypha stipulacea .................. 327 metamuta ....................... 292 Acantho/epsls ...................... 120 Armigeres ....................... 89, 97 Acanthomyrmex ..................... 120 dolichocephalus . .. 93 Acer saccharum ..................... 219 flavus .. .. 93 Acmena acuminatissima ................ 327 Artocarpus ovatus .................... 328 Acronychia vestita ................... 219 Asyndetus . 185 Acropsilus . 185 Athertonia diversifolia .. .. 224, 225 Acropyga ......................... 120 Atta ............................ 10 Actyolepis puspa .................... 292 Attalea acaulis . 479 Acylophorus ................... 88-91, 93 funifera .................. 477-479, 483 Adinandra ...................... .. 223 humilis ........................ 483 Aedes gombakensis . .. 93 Baccaurea kunst/eri . 155 Aenictus . 120 Bactris . 483 Afromomum ..................... .. 219 Baptista ................. 88-90, 93, 96, 97 Agelaea bomeensis ................... 441 Barbodes collingwoodi .... 309-312, 380, 381, 384 Aglaia ditfusa ...................... 327 Barringtonia . 429 iloilo ......................... 328 Basilia hispida . .. 91 llanosiana ...................... 327 Batraxis . .. 93 longipes
[Show full text]
Partial Flora of the Society Islands: Ericaceae to Apocynaceae
SMITHSONIAN CONTRIBUTIONS TO BOTANY NUMBER 17 Partial Flora of the Society Islands: Ericaceae to Apocynaceae Martin Lawrence Grant, F. Raymond Fosberg, and Howard M. Smith SMITHSONIAN INSTITUTION PRESS City of Washington 1974 ABSTRACT Grant, Martin Lawrence, F. Raymond Fosberg, and Howard M. Smith. Partial Flora of the Society Islands: Ericaceae to Apocynaceae. Smithsonian Contri- butions to Botany, number 17, 85 pages, 1974.-Results of a botanical inves- tigation of the Society Islands carried out by Grant in 1930 and 1931, and subsequent work on the material collected and other collections in the U.S. herbaria and other published works are reported herein. This paper is a partial descriptive flora of the Society group with a history of the botanical exploration and investigation of the area. OFFICIALPUBLICATION DATE is handstamped in a limited number of initial copies and is recorded in the Institution’s annual report, Srnithsonian Year. SI PRESS NUMBER 5056. SERIES COVER DESIGN: Leaf clearing from the katsura tree Cercidiphyllurn juponicum Siebold and Zuccarini. Library of Congress Cataloging in Publication Data Grant, Martin Lawrence, 1907-1968. Partial flora of the Society Islands: Ericaceae to Apocynaceae. (Smithsonian contributions to botany, no. 17) Supt. of Docs. no.: SI 1.29:17. 1. Botany-Society Islands. I. Fosberg, Francis Raymond, 1908- , joint author. 11. Smith, Howard Malcolm, 1939- , joint author. 111. Title. IV. Series: Smithsonian Institution. Smith- sonian contributions to botany, no. 17. QK1.2747 no. 17 581’.08s [581.9’96’21] 73-22464 For sale by the Superintendent of Documents, US. Government Printing Office Washington, D.C. 20402 Price $1.75 (paper cover) The senior author, after spending almost a year during 1930 and 1931 in the Society Islands, collecting herbarium material and ecological data, worked inten- sively on a comprehensive flora of this archipelago for the next five years.
[Show full text]
Nomenclatural Transfers in the Pantropical Genus Myrsine (Myrsinaceae) Jon M
Nova Southeastern University NSUWorks Marine & Environmental Sciences Faculty Articles Department of Marine and Environmental Sciences 10-1-2013 Nomenclatural Transfers in the Pantropical Genus Myrsine (Myrsinaceae) Jon M. Ricketson Missouri Botanical Garden John J. Pipoly III University of Florida-IFAS/Broward County Extension, [email protected] Find out more information about Nova Southeastern University and the Halmos College of Natural Sciences and Oceanography. Follow this and additional works at: https://nsuworks.nova.edu/occ_facarticles Part of the Botany Commons NSUWorks Citation Jon M. Ricketson and John J. Pipoly III. 2013. Nomenclatural Transfers in the Pantropical Genus Myrsine (Myrsinaceae) .Novon , (4) : 468 -472. https://nsuworks.nova.edu/occ_facarticles/948. This Article is brought to you for free and open access by the Department of Marine and Environmental Sciences at NSUWorks. It has been accepted for inclusion in Marine & Environmental Sciences Faculty Articles by an authorized administrator of NSUWorks. For more information, please contact [email protected]. Nomenclatural Transfers in the Pantropical Genus Myrsine (Myrsinaceae) Author(s): Jon M. RicketsonJohn J. Pipoly, III Source: Novon: A Journal for Botanical Nomenclature, 22(4):468-472. Published By: Missouri Botanical Garden https://doi.org/10.3417/2012082 URL: http://www.bioone.org/doi/full/10.3417/2012082 BioOne (www.bioone.org) is a nonprofit, online aggregation of core research in the biological, ecological, and environmental sciences. BioOne provides a sustainable online platform for over 170 journals and books published by nonprofit societies, associations, museums, institutions, and presses. Your use of this PDF, the BioOne Web site, and all posted and associated content indicates your acceptance of BioOne’s Terms of Use, available at www.bioone.org/ page/terms_of_use.
[Show full text]
Recircumscription of the Lecythidaceae
TAXON 47 - NOVEMBER 1998 817 Recircumscription of the Lecythidaceae Cynthia M. Morton'", Ghillean T. Prance', Scott A. Mori4 & Lucy G. Thorburn' Summary Morton. C. M.• Prance, G. T., Mori, S. A. & Thorburn. L. G.: Recircumscriplion of the Le cythidaceae. Taxon 47: 817-827. 1998. -ISSN 004Q-0262. The phylogenetic relationships of the genera of Lecythidaceae and representatives of Scyto petalaceae were assessed using cladistic analysis of both molecular (rbcL and trnL se quences) and morphological data. The results show that the pantropical family Lecythida ceae is paraphyletic. Support was found for the monophyly of three of the four subfamilies: Lecythidoideae, Planchonioideae, and Foetidioideae. The fourth subfamily, Napoleonaeol deae, was found to be paraphyletic, with members of the Scytopetalaceae being nested within it forming a strong clade with Asteranthos. Both families share a number of mor phological features, including several distinct characters such as cortical bundles in the stem. The combined analysis produced three trees of 471 steps and consistency index Cl = 0.71 and retention index Rl = 0.70. Asteranthos !'P.~, members of Scytopetalaceae should be treated as a subfamily of Lecythidaceae, while Napoleonaea and Crateranthus (the latter based solely on morphological features) should remain in the subfamily Napoleo naeoideae.The Lecythldaceaeare recircumscribed, and Asteranthosand members of Scyto peta/aceae are included in Scytopetaloideae. A formal·llWJ!J-pmic synopsis accommodating this new circumscription is presented. Introduction The Lecythidaceae Poit, are 8 pantropical family of trees and shrubs consisting of . 20 genera split into four subfamilies in contemporary classifications (Cronquist, 1981; Prance & Mori, 1979; Takhtajan, 1987; ~ri & Prance, 1990; Thome, 1992).
[Show full text]
Genetic Diversity of Populations of the Dioecious Myrsine Coriacea (Primulaceae) in the Atlantic Forest
Acta Botanica Brasilica - 32(3): 376-385. July-September 2018. doi: 10.1590/0102-33062017abb0355 Genetic diversity of populations of the dioecious Myrsine coriacea (Primulaceae) in the Atlantic Forest Roberta Pena da Paschoa1 , Jheniffer Abeldt Christ1 , Cecília Silva Valente1 , Marcia Flores da Silva Ferreira1 , Fábio Demolinari de Miranda1 , Mário Luís Garbin2 and Tatiana Tavares Carrijo1* Received: October 10, 2017 Accepted: February 19, 2018 . ABSTRACT Although a species’ sexual system may influence the genetic diversity of its populations in their natural environment, there have been few such studies involving indigenous species of the Atlantic Forest. Here we study Myrsine coriacea, a dioecious tree widely used in reforestation programs despite a lack of information about its natural interpopulation genetic variation. To address this knowledge gap, intra- and interpopulation genetic diversity were measured for male and female individuals of ten natural populations using ISSR markers. Greater intrapopulation genetic diversity indicated interpopulation gene flow, regardless of isolation and distance between populations. Multivariate analyses detected significant differences in genetic diversity between populations, but not between males and females, which indicates that genetic diversity did not differ between the two sex morphs. Distance between populations was unrelated to genetic diversity. Myrsine coriacea has not experienced a loss of genetic variability despite the characteristic segregated spatial distribution of its populations. These results suggest that obligatory cross-pollination and dispersal by birds may be important mechanisms for the maintenance of genetic diversity in natural populations of M. coriacea. Keywords: capororoca, conservation, ISSR, Myrsinaceae, Rapanea may be more prone to local extinction than hermaphroditic Introduction species, because one of the sexes may be favored, resulting in a skewed sex ratio (Bawa 2004).
[Show full text]
George J. Wilder Jean M. Mccollom Naples Botanical Garden Natural Ecosystems 4820 Bayshore Drive 985 Sanctuary Road Naples, Florida 34112-7336, U.S.A
A FLORISTIC INVENTORY OF CORKSCREW SWAMP SANCTUARY (COLLIER COUNTY AND LEE COUNTY), FLORIDA, U.S.A. George J. Wilder Jean M. McCollom Naples Botanical Garden Natural Ecosystems 4820 Bayshore Drive 985 Sanctuary Road Naples, Florida 34112-7336, U.S.A. Naples, Florida 34120-4800, U.S.A [email protected] [email protected] ABSTRACT Documented presently as growing wild within Corkscrew Swamp Sanctuary (Collier Co. and Lee Co., Florida, U.S.A) are individuals of 126 families, 401 genera, 756 species, and 773 infrageneric taxa of vascular plants. Those data, combined with records from previous workers, yield a total of 770 species and 787 infrageneric taxa documented for the Sanctuary. Of the 773 infrageneric taxa documented presently, 611 (79.0%) are native to Florida. Herein, seven main kinds of habitats are recognized for the study area, and individual taxa inhabit one or more of those habitats. Twenty-nine presently reported infrageneric taxa are listed as Endangered (16 taxa) or Threatened in Florida (13 taxa). For South Florida, 36 infrageneric taxa listed as Extirpated (3 taxa), as Historical (5 taxa), or as Critically Imperiled (28 taxa) were documented during this study. RESUMEN Existen documentados individuos de 126 familias, 401 géneros, 756 especies, y 773 taxa infragenéricos de plantas vasculares que actual- mente crecen silvestres en Corkscrew Swamp Sanctuary (Collier Co. y Lee Co., Florida, U.S.A). Estos datos, combinados con los registros de investigadores anteriores, dan un total de 770 especies y 787 taxa infragenéricos documentados para el Sanctuary. De los 773 taxa infra- genéricos documentados actualmente, 611 (79.0%) son nativos de Florida.
[Show full text]