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Chordifex Bgbriggs & Lasjohnson
Flora of Australia Chordifex B.G.Briggs & L.A.S.Johnson Author: Phillip Kodela Cite this profile as: Phillip Kodela (2019) Chordifex. In: Flora of Australia. Australian Biological Resources Study, Department of the Environment and Energy, Canberra. https://profiles.ala.org.au/opus/foa/profile/Chordifex [Date Accessed: 18 March 2019] Generated on Mon Mar 18, 2019 Copyright © Copyright Commonwealth of Australia, 2019 The material in this profile is protected by copyright laws and may be used as permitted under the Copyright Act 1968 or in accordance with licences granted by the copyright owner. Your right to use images and maps or to permit others to use these is subject to the terms of the licence that the contributor of them has applied to the image or map. Information on copyright in images is set out in the Acknowledgements section and through the ALA site at http://www.ala.org.au/faq/using-images-found-on-the-ala/ Text used in this profile has been contributed by the editors and others identified. Unless permitted by the copyright owner, you may download or print a single copy of this material for your own information, research or study. You may not remove any copyright or other notices appearing in this profile. No rights are granted to the Commonwealth Coat of Arms or to any logos or trade marks. Please contact ALA at [email protected] if you believe material in this profile infringes any rights or breaches any contract or licence obligations. License All material CC-BY unless otherwise stated. ISSN: 22077820 Profile Updated: Mon Mar 18, 2019 10:56 AM +11:00 Version: 1 Cite this profile as: Phillip Kodela (2019) Chordifex. -
Contents About This Booklet 2 1
Contents About this booklet 2 1. Why indigenous gardening? 3 Top ten reasons to use indigenous plants 3 Indigenous plants of Whitehorse 4 Where can I buy indigenous plants of Whitehorse? 4 2. Sustainable Gardening Principles 5 Make your garden a wildlife garden 6 3. Tips for Successful Planting 8 1. Plant selection 8 2. Pre-planting preparation 10 3. Planting technique 12 4. Early maintenance 14 4. Designing your Garden 16 Climbers 16 Hedges and borders 17 Groundcovers and fillers 17 Lawn alternatives 18 Feature trees 18 Screen plants 19 Damp & shady spots 19 Edible plants 20 Colourful flowers 21 5. 94 Species Indigenous to Whitehorse 23 6. Weeds of Whitehorse 72 7. Further Resources 81 8. Index of Plants 83 Alphabetically by Botanical Name 83 Alphabetically by Common Name 85 9. Glossary 87 1 In the spirit of About this booklet reconciliation, Whitehorse City Council This booklet has been written by Whitehorse acknowledges the City Council to help gardeners and landscapers Wurundjeri people as adopt sustainable gardening principles by using the traditional owners indigenous plants commonly found in Whitehorse. of the land now known The collective effort of residents gardening with as Whitehorse and pays indigenous species can make a big difference to respects to its elders preserving and enhancing our biodiversity. past and present. We would like to acknowledge the volunteers of the Blackburn & District Tree Preservation Society, Whitehorse Community Indigenous Plant Project Inc. (Bungalook Nursery) and Greenlink Box Hill Nursery for their efforts to protect and enhance the indigenous flora of Whitehorse. Information provided by these groups is included in this guide. -
Native Plants Sixth Edition Sixth Edition AUSTRALIAN Native Plants Cultivation, Use in Landscaping and Propagation
AUSTRALIAN NATIVE PLANTS SIXTH EDITION SIXTH EDITION AUSTRALIAN NATIVE PLANTS Cultivation, Use in Landscaping and Propagation John W. Wrigley Murray Fagg Sixth Edition published in Australia in 2013 by ACKNOWLEDGEMENTS Reed New Holland an imprint of New Holland Publishers (Australia) Pty Ltd Sydney • Auckland • London • Cape Town Many people have helped us since 1977 when we began writing the first edition of Garfield House 86–88 Edgware Road London W2 2EA United Kingdom Australian Native Plants. Some of these folk have regrettably passed on, others have moved 1/66 Gibbes Street Chatswood NSW 2067 Australia to different areas. We endeavour here to acknowledge their assistance, without which the 218 Lake Road Northcote Auckland New Zealand Wembley Square First Floor Solan Road Gardens Cape Town 8001 South Africa various editions of this book would not have been as useful to so many gardeners and lovers of Australian plants. www.newhollandpublishers.com To the following people, our sincere thanks: Steve Adams, Ralph Bailey, Natalie Barnett, www.newholland.com.au Tony Bean, Lloyd Bird, John Birks, Mr and Mrs Blacklock, Don Blaxell, Jim Bourner, John Copyright © 2013 in text: John Wrigley Briggs, Colin Broadfoot, Dot Brown, the late George Brown, Ray Brown, Leslie Conway, Copyright © 2013 in map: Ian Faulkner Copyright © 2013 in photographs and illustrations: Murray Fagg Russell and Sharon Costin, Kirsten Cowley, Lyn Craven (Petraeomyrtus punicea photograph) Copyright © 2013 New Holland Publishers (Australia) Pty Ltd Richard Cummings, Bert -
Jervis Bay Territory Page 1 of 50 21-Jan-11 Species List for NRM Region (Blank), Jervis Bay Territory
Biodiversity Summary for NRM Regions Species List What is the summary for and where does it come from? This list has been produced by the Department of Sustainability, Environment, Water, Population and Communities (SEWPC) for the Natural Resource Management Spatial Information System. The list was produced using the AustralianAustralian Natural Natural Heritage Heritage Assessment Assessment Tool Tool (ANHAT), which analyses data from a range of plant and animal surveys and collections from across Australia to automatically generate a report for each NRM region. Data sources (Appendix 2) include national and state herbaria, museums, state governments, CSIRO, Birds Australia and a range of surveys conducted by or for DEWHA. For each family of plant and animal covered by ANHAT (Appendix 1), this document gives the number of species in the country and how many of them are found in the region. It also identifies species listed as Vulnerable, Critically Endangered, Endangered or Conservation Dependent under the EPBC Act. A biodiversity summary for this region is also available. For more information please see: www.environment.gov.au/heritage/anhat/index.html Limitations • ANHAT currently contains information on the distribution of over 30,000 Australian taxa. This includes all mammals, birds, reptiles, frogs and fish, 137 families of vascular plants (over 15,000 species) and a range of invertebrate groups. Groups notnot yet yet covered covered in inANHAT ANHAT are notnot included included in in the the list. list. • The data used come from authoritative sources, but they are not perfect. All species names have been confirmed as valid species names, but it is not possible to confirm all species locations. -
Intro Outline
THE REPRODUCTIVE ECOLOGY OF TWO TERRESTRIAL ORCHIDS, CALADENIA RIGIDA AND CALADENIA TENTACULATA RENATE FAAST Submitted for the degree of Doctor of Philosophy School of Earth and Environmental Sciences The University of Adelaide, South Australia December, 2009 i . DEcLARATION This work contains no material which has been accepted for the award of any other degree or diploma in any university or other tertiary institution to Renate Faast and, to the best of my knowledge and belief, contains no material previously published or written by another person, except where due reference has been made in the text. I give consent to this copy of my thesis when deposited in the University Library, being made available for loan and photocopying, subject to the provisions of the Copyright Act 1968. The author acknowledges that copyright of published works contained within this thesis (as listed below) resides with the copyright holder(s) of those works. I also give permission for the digital version of my thesis to be made available on the web, via the University's digital research repository, the Library catalogue, the Australasian Digital Theses Program (ADTP) and also through web search engines. Published works contained within this thesis: Faast R, Farrington L, Facelli JM, Austin AD (2009) Bees and white spiders: unravelling the pollination' syndrome of C aladenia ri gída (Orchidaceae). Australian Joumal of Botany 57:315-325. Faast R, Facelli JM (2009) Grazrngorchids: impact of florivory on two species of Calademz (Orchidaceae). Australian Journal of Botany 57:361-372. Farrington L, Macgillivray P, Faast R, Austin AD (2009) Evaluating molecular tools for Calad,enia (Orchidaceae) species identification. -
Bursaria Cayzerae (Pittosporaceae), a Vulnerable New Species from North-Eastern New South Wales, Australia
Volume 15: 81–85 ELOPEA Publication date: 18 September 2013 T dx.doi.org/10.7751/telopea2013011 Journal of Plant Systematics plantnet.rbgsyd.nsw.gov.au/Telopea • escholarship.usyd.edu.au/journals/index.php/TEL • ISSN 0312-9764 (Print) • ISSN 2200-4025 (Online) Bursaria cayzerae (Pittosporaceae), a vulnerable new species from north-eastern New South Wales, Australia Ian R. H. Telford1,4, F. John Edwards2 and Lachlan M. Copeland3 1Botany and N.C.W. Beadle Herbarium, School of Environmental and Rural Science, University of New England, Armidale, NSW 2351, Australia 2PO Box 179, South Grafton, NSW 2460, Australia 3Ecological Australia, 35 Orlando St, Coffs Harbour Jetty, NSW 2450, Australia 4Author for correspondence: [email protected] Abstract Bursaria cayzerae I.Telford & L.M.Copel. (Pittosporaceae), a species endemic to north-eastern New South Wales, is described. Its distribution is mapped, and habitat and conservation status discussed. The attributes of the new species, B. longisepala and B. spinosa, are compared. A key to species of Bursaria that occur in New South Wales, including this new species, is provided. Introduction Bursaria (Pittosporaceae) is an endemic Australian genus with currently seven named species. In eastern Australia, the most common taxon is Bursaria spinosa Cav. subsp. spinosa, plants of which may flower in their juvenile stage. These neotonous plants superficially resemble small-leaved, long-spined species such as B. longisepala Domin. Revisionary studies by Cayzer et al. (1999) showed B. longisepala s.str. to be restricted to the Blue Mountains; material from elsewhere mostly represented misidentifications of specimens of neotonous plants of B. spinosa subsp. -
Intro Outline
THE REPRODUCTIVE ECOLOGY OF TWO TERRESTRIAL ORCHIDS, CALADENIA RIGIDA AND CALADENIA TENTACULATA RENATE FAAST Submitted for the degree of Doctor of Philosophy School of Earth and Environmental Sciences The University of Adelaide, South Australia December, 2009 . DEcLARATION This work contains no material which has been accepted for the award of any other degree or diploma in any university or other tertiary institution to Renate Faast and, to the best of my knowledge and belief, contains no material previously published or written by another person, except where due reference has been made in the text. I give consent to this copy of my thesis when deposited in the University Library, being made available for loan and photocopying, subject to the provisions of the Copyright Act 1968. The author acknowledges that copyright of published works contained within this thesis (as listed below) resides with the copyright holder(s) of those works. I also give permission for the digital version of my thesis to be made available on the web, via the University's digital research repository, the Library catalogue, the Australasian Digital Theses Program (ADTP) and also through web search engines. Published works contained within this thesis: Faast R, Farrington L, Facelli JM, Austin AD (2009) Bees and white spiders: unravelling the pollination' syndrome of C aladenia ri gída (Orchidaceae). Australian Joumal of Botany 57:315-325. Faast R, Facelli JM (2009) Grazrngorchids: impact of florivory on two species of Calademz (Orchidaceae). Australian Journal of Botany 57:361-372. Farrington L, Macgillivray P, Faast R, Austin AD (2009) Evaluating molecular tools for Calad,enia (Orchidaceae) species identification. -
Seidenfaden Malaysia: 0.65 These Figures Are Surprisingly High, They Apply to Single Only. T
BIOGEOGRAPHY OF MALESIAN ORCHIDACEAE 273 VIII. Biogeographyof Malesian Orchidaceae A. Schuiteman Rijksherbarium/Hortus Botanicus, P.O. Box 9514, 2300 RA Leiden, The Netherlands INTRODUCTION The Orchidaceae outnumber far other in Malesia. At how- by any plant family present, accurate estimate of the of Malesian orchid is difficult to make. ever, an number species Subtracting the numberofestablishedsynonyms from the numberof names attributed to Malesian orchid species results in the staggering figure of 6414 species, with a retention of 0.74. This is ratio (ratio of ‘accepted’ species to heterotypic names) undoubtedly a overestimate, of the 209 Malesian orchid have been revised gross as most genera never their entire from availablerevisions estimate realis- over range. Extrapolating to a more tic retention ratio is problematic due to the small number of modern revisions and the different of treated. If look for Malesian of nature the groups we comparison at species wide ofretention ratios: some recently revised groups, we encounter a range Bulbophylluw sect. Uncifera (Vermeulen, 1993): 0.24 Dendrobium sect. Oxyglossum (Reeve & Woods, 1989): 0.24 Mediocalcar (Schuiteman, 1997): 0.29 Pholidota (De Vogel, 1988): 0.29 Bulbophyllum sect. Pelma (Vermeulen, 1993): 0.50 Paphiopedilum (Cribb, 1987, modified): 0.57 Dendrobium sect. Spatulata (Cribb, 1986, modified): 0.60. Correspondingly, we find a wide rangeof estimates for the ‘real’ numberof known Male- sian orchid species: from 2050 to 5125. Another approach would be to look at a single area, and to compute the retention ratio for the orchid flora of that area. If we do this for Java (mainly based on Comber, 1990), Peninsular Malaysia & Singapore (Seidenfaden & Wood, 1992) and Sumatra (J.J. -
Aegopodium Podagraria
Aegopodium podagraria INTRODUCTORY DISTRIBUTION AND OCCURRENCE BOTANICAL AND ECOLOGICAL CHARACTERISTICS FIRE EFFECTS AND MANAGEMENT MANAGEMENT CONSIDERATIONS APPENDIX: FIRE REGIME TABLE REFERENCES INTRODUCTORY AUTHORSHIP AND CITATION FEIS ABBREVIATION NRCS PLANT CODE COMMON NAMES TAXONOMY SYNONYMS LIFE FORM Variegated goutweed. All-green goutweed. Photos by John Randall, The Nature Conservancy, Bugwood.org AUTHORSHIP AND CITATION: Waggy, Melissa, A. 2010. Aegopodium podagraria. In: Fire Effects Information System, [Online]. U.S. Department of Agriculture, Forest Service, Rocky Mountain Research Station, Fire Sciences Laboratory (Producer). Available: http://www.fs.fed.us/database/feis/ [ 2010, January 21]. FEIS ABBREVIATION: AEGPOD NRCS PLANT CODE [87]: AEPO COMMON NAMES: goutweed bishop's goutweed bishop's weed bishopsweed ground elder herb Gerard TAXONOMY: The scientific name of goutweed is Aegopodium podagraria L. (Apiaceae) [40]. SYNONYMS: Aegopodium podagraria var. podagraria [71] Aegopodium podagraria var. variegatum Bailey [40,71] LIFE FORM: Forb DISTRIBUTION AND OCCURRENCE SPECIES: Aegopodium podagraria GENERAL DISTRIBUTION HABITAT TYPES AND PLANT COMMUNITIES GENERAL DISTRIBUTION: Goutweed was introduced in North America from Europe [82]. In the United States, goutweed occurs from Maine south to South Carolina and west to Minnesota and Missouri. It also occurs in the Pacific Northwest from Montana to Washington and Oregon. It occurs in all the Canadian provinces excepting Newfoundland and Labrador, and Alberta. Plants Database provides a distributional map of goutweed. Globally, goutweed occurs primarily in the northern hemisphere, particularly in Europe, Asia Minor ([28,36,58,92], reviews by [14,27]), and Russia (review by [27,63]). Goutweed's native distribution is unclear. It may have been introduced in England (review by [2]) and is considered a "weed" in the former Soviet Union, Germany, Finland (Holm 1979 cited in [14]), and Poland [44]. -
Orchid Historical Biogeography, Diversification, Antarctica and The
Journal of Biogeography (J. Biogeogr.) (2016) ORIGINAL Orchid historical biogeography, ARTICLE diversification, Antarctica and the paradox of orchid dispersal Thomas J. Givnish1*, Daniel Spalink1, Mercedes Ames1, Stephanie P. Lyon1, Steven J. Hunter1, Alejandro Zuluaga1,2, Alfonso Doucette1, Giovanny Giraldo Caro1, James McDaniel1, Mark A. Clements3, Mary T. K. Arroyo4, Lorena Endara5, Ricardo Kriebel1, Norris H. Williams5 and Kenneth M. Cameron1 1Department of Botany, University of ABSTRACT Wisconsin-Madison, Madison, WI 53706, Aim Orchidaceae is the most species-rich angiosperm family and has one of USA, 2Departamento de Biologıa, the broadest distributions. Until now, the lack of a well-resolved phylogeny has Universidad del Valle, Cali, Colombia, 3Centre for Australian National Biodiversity prevented analyses of orchid historical biogeography. In this study, we use such Research, Canberra, ACT 2601, Australia, a phylogeny to estimate the geographical spread of orchids, evaluate the impor- 4Institute of Ecology and Biodiversity, tance of different regions in their diversification and assess the role of long-dis- Facultad de Ciencias, Universidad de Chile, tance dispersal (LDD) in generating orchid diversity. 5 Santiago, Chile, Department of Biology, Location Global. University of Florida, Gainesville, FL 32611, USA Methods Analyses use a phylogeny including species representing all five orchid subfamilies and almost all tribes and subtribes, calibrated against 17 angiosperm fossils. We estimated historical biogeography and assessed the -
Genera in Myrtaceae Family
Genera in Myrtaceae Family Genera in Myrtaceae Ref: http://data.kew.org/vpfg1992/vascplnt.html R. K. Brummitt 1992. Vascular Plant Families and Genera, Royal Botanic Gardens, Kew REF: Australian – APC http://www.anbg.gov.au/chah/apc/index.html & APNI http://www.anbg.gov.au/cgi-bin/apni Some of these genera are not native but naturalised Tasmanian taxa can be found at the Census: http://tmag.tas.gov.au/index.aspx?base=1273 Future reference: http://tmag.tas.gov.au/floratasmania [Myrtaceae is being edited at mo] Acca O.Berg Euryomyrtus Schaur Osbornia F.Muell. Accara Landrum Feijoa O.Berg Paragonis J.R.Wheeler & N.G.Marchant Acmena DC. [= Syzigium] Gomidesia O.Berg Paramyrciaria Kausel Acmenosperma Kausel [= Syzigium] Gossia N.Snow & Guymer Pericalymma (Endl.) Endl. Actinodium Schauer Heteropyxis Harv. Petraeomyrtus Craven Agonis (DC.) Sweet Hexachlamys O.Berg Phymatocarpus F.Muell. Allosyncarpia S.T.Blake Homalocalyx F.Muell. Pileanthus Labill. Amomyrtella Kausel Homalospermum Schauer Pilidiostigma Burret Amomyrtus (Burret) D.Legrand & Kausel [=Leptospermum] Piliocalyx Brongn. & Gris Angasomyrtus Trudgen & Keighery Homoranthus A.Cunn. ex Schauer Pimenta Lindl. Angophora Cav. Hottea Urb. Pleurocalyptus Brongn. & Gris Archirhodomyrtus (Nied.) Burret Hypocalymma (Endl.) Endl. Plinia L. Arillastrum Pancher ex Baill. Kania Schltr. Pseudanamomis Kausel Astartea DC. Kardomia Peter G. Wilson Psidium L. [naturalised] Asteromyrtus Schauer Kjellbergiodendron Burret Psiloxylon Thouars ex Tul. Austromyrtus (Nied.) Burret Kunzea Rchb. Purpureostemon Gugerli Babingtonia Lindl. Lamarchea Gaudich. Regelia Schauer Backhousia Hook. & Harv. Legrandia Kausel Rhodamnia Jack Baeckea L. Lenwebia N.Snow & ZGuymer Rhodomyrtus (DC.) Rchb. Balaustion Hook. Leptospermum J.R.Forst. & G.Forst. Rinzia Schauer Barongia Peter G.Wilson & B.Hyland Lindsayomyrtus B.Hyland & Steenis Ristantia Peter G.Wilson & J.T.Waterh. -
Summary of Plots in Brookfield Conservation Park June 2011
Summary of Plots in Brookfield Conservation Park June 2011 Eucalyptus socialis subsp. socialis / Eucalyptus leptophylla mid mallee woodland with Triodia irritans hummock grass understratum, Brookfield Conservation Park Acknowledgements TERN gratefully acknowledges the South Australian Department of Environment and Water for their assistance and support during the project and for allowing access to the park. Thanks also to the many volunteers who helped to collect, curate and process the data and samples. Lastly, many thanks to staff from the South Australian Herbarium for undertaking the plant identifications. Citation: TERN (2020) Summary of Plots in Brookfield Conservation Park, June 2011. Terrestrial Ecosystem Research Network, Adelaide. Contents Summary of Plots in Brookfield Conservation Park ........................................................................................................... 1 Acknowledgements............................................................................................................................................................. 2 Contents .............................................................................................................................................................................. 3 Introduction ........................................................................................................................................................................ 1 Accessing the Data ............................................................................................................................................................