A Aura Rhom Anntica Mbifo Arpa Ollia

Total Page：16

File Type：pdf, Size：1020Kb

Plant of the Week AAuurraannttiiccaarrppaa rrhhoommbbiiffoolliiaa Diammond Leaf Pittoosporum, White Hollywood Until recently, we would have called this tree Pittosporum rhombifolium, but in the year 2000, botanists decided that, together with another 5 species also previously included in the genus Pittosporum, it was more appropriately included in Auranticarpa (meaning “golden fruit”)1. The Diamond Laurel, Diamond Leaf Pittosporum or White Hollywood, is a small to medium rainforest tree that grows on basalt soils from the Richmond River in northern NSW to the Forty Mile Scrub National Park near the Undara Lava Tubes on the Kennedy Highway south-west of Innisfail in tropical north Queensland. White flowers in late spring and early summer are followed by spectacular displays of bright orange fruit in late summer and autumn. The specific name rhombifolia refers to the rhomboid, or diamond, shaped leaves. Butterflies are attracted to the nectar in flowers and seeds are eaten and dispersed by birds. Not surprisingly, this has become a very popular garden plant, not just in Australia but elsewhere in the world. Distribution of Auranticarpa rhombifolia in Australia. Outliers indicate trees planted in parks, gardens or as street trees. 1 Cayzer, L.W., Crisp, M.D. & Telford, I.R.H. (2000) Auranticarpa, a new genus of Pittosporaceae from northern Australia. Australian Systematic Botany 13(6): 907-909 2Society for Growing Australian Plants, Queensland Region: www.sgapqld.org.au/butterfly_attracting.pdf Map: Distribution of Auranticarpa rhombifolia, Atlas of Living Australia, http://bie.ala.org.au/species/Auranticarpa+rhombifolia Alison Downing & Kevin Downing 12.03.2012 Downing Herbarium, Department of Biological Sciences.

Copy Link

Recommended publications

Crossing Dam Environmental Impact Statement I Mplementation Framework
TRAVESN TO CROSSING DAM Environmental Impact Statement I mplementation Framework S eptember 2009 FINAL Traveston Crossing Dam Implementation Framework Traveston Crossing Dam – Implementation Framework CONTENTS 1 INTRODUCTION 1 1.1 Background 1 1.2 Aim of Implementation Framework 3 1.3 Governance Model 4 2 KEY OUTCOME AREAS 5 2.1 Habitat rehabilitation and restoration 5 2.1.1 On-ground and in-stream works 6 2.1.2 Rationale for using local groups 7 2.1.3 Freshwater Species Conservation Centre 8 2.2 Species mitigation measures 9 2.3 Flow management 9 2.4 Carbon offsets 11 2.4.1 Programs 11 2.4.2 Carbon Offset Research 11 2.5 Vegetation offsets 11 2.6 Contaminated land 11 2.7 Managing activities on QWI land 12 2.8 Environmental management during construction 13 2.9 Operational issues 13 2.10 Support for local businesses 14 2.11 Facilitating long-term sustainable local enterprises 15 2.11.1 Programs 15 2.11.2 Research 15 2.12 Promoting the long-term sustainability of rural industries 15 2.13 Maximising tourism opportunities 16 2.14 Maintaining and enhancing community facilities in the Mary Valley 16 2.15 Cultural heritage 17 2.15.1 Indigenous cultural heritage 17 2.15.2 Non-indigenous cultural heritage 17 3 GOVERNANCE ARRANGEMENTS 18 3.1 Implementation process 18 3.2 Interface Groups 18 3.3 Implementation phases 19 4 REFERENCES 21 APPENDIX A Summary of full implementation program A-1 APPENDIX B Letters of commitment – Greening Australia & QWaLC B-1 APPENDIX C Summary of construction EMP commitments C-1 APPENDIX D Habitat Restoration Plan D-1 Traveston Crossing Dam – Implementation Framework Page i APPENDIX E FSCC Overview E-1 APPENDIX F Letters of Endorsement F-1 APPENDIX G Curriculum Vitae G-1 Traveston Crossing Dam – Implementation Framework Page ii 1 INTRODUCTION 1.1 Background The Traveston Crossing Dam Project (Project) is a critical component of the water strategy for South East Queensland (SEQ).
[Show full text]
Marine Megafauna Assessment
Gladstone Ports Corporation Report for Western Basin Dredging and Disposal Project Marine Megafauna Baseline and Impact Assessment October 2009 Contents 1. Introduction 1 1.1 Background 1 1.2 Overview 2 2. Policy and Legislative Context 4 3. Literature and Database Reviews 8 3.1 Overview 8 3.2 Coastal Environment of Western Basin, Gladstone 10 3.3 Cetaceans 11 3.4 Dugongs 14 3.5 Marine Turtles 19 3.6 Marine Turtles in the Gladstone Region 21 4. Marine Megafauna Survey 32 4.1 Overview 32 4.2 Methodology 33 4.3 Results 38 4.4 Aerial Surveys 45 4.5 Results Summary 52 5. Conservation Threats to Marine Fauna 53 5.1 Overview 53 5.2 Vulnerability of Dugongs to Low Levels of Mortality 53 5.3 Habitat Degradation and Loss 53 5.4 Climate Change 61 6. Potential Impacts 67 7. Risk Assessment 69 8. Cumulative Impacts and Mitigation Strategies 80 8.1 Background 80 8.2 Cumulative Impacts 81 9. Conclusion 83 10. References 86 42/15386/40/393644 Western Basin Dredging and Disposal Marine Megafauna Baseline and Impact Assessment Table Index Table 1 Listed Marine Fauna Potentially Found within the Project Area 8 Table 2 Conservation Status of Marine Turtles Identified as Occurring or Potentially Occurring in the Project Area 19 Table 3 Marine Turtle Foraging Habitats identified as High Priority in the GBRWHA 21 Table 4 Age Class Categories for Green Turtle, Dugong and Inshore Dolphins 34 Table 5 Marine Fauna Observations on Boat-based Surveys 41 Table 6 Observed Depth Range of Threatened Species Observed on Boat- based Survey 43 Table 7 Timing of Surveys
[Show full text]
IX Apiales Symposium
IX Apiales Symposium Abstract Book 31 July – 2 August 2017 The Gold Coast Marina Club Guangzhou, China Compiled and edited by: Alexei Oskolski Maxim Nuraliev Patricia Tilney Introduction We are pleased to announce that the Apiales IX Symposium will be held from 31 July to 2 August 2017 at the The Gold Coast Marina Club in Guangzhou, China. This meeting will continue the series of very successful gatherings in Reading (1970), Perpignan (1977), St. Louis (1999), Pretoria (2003), Vienna (2005), Moscow (2008), Sydney (2011) and Istanbul (2014), where students of this interesting group of plants had the opportunity to share results of recent studies. As with the previous symposia, the meeting in Guangzhou will focus on all research fields relating to the systematics and phylogeny of Apiales (including morphology, anatomy, biogeography, floristics), as well as to ecology, ethnobotany, pharmaceutical and natural products research in this plant group. Organizing Commettee Chairman: Alexei Oskolski (Johannesburg – St. Petersburg) Vice-Chairman: Maxim Nuraliev (Moscow) Scientific Committee: Yousef Ajani (Tehran) Emine Akalin (Istanbul) Stephen Downie (Urbana) Murray Henwood (Sydney) Neriman Özhatay (Istanbul) Tatiana Ostroumova (Moscow) Michael Pimenov (Moscow) Gregory Plunkett (New York) Mark Schlessman (Poughkeepsie) Krzysztof Spalik (Warsaw) Patricia Tilney (Johannesburg) Ben-Erik van Wyk (Johannesburg) 2 Program of the IX Apiales Symposium 31 July 2017 Lobby of the Gold Coast Marina Club 14.00 – 18.00. Registration of participants. "Shi fu zai" room (4th floor of the Gold Coast Marina Club) 19.00 – 21.00. Welcome party 1 August 2017 Meeting room (5th floor of the Gold Coast Marina Club) Chair: Dr. Alexei Oskolski 9.00 – 9.20.
[Show full text]
Pittosporaceae)
Plant Div. Evol. Vol. 128/3–4, 491–500 E Stuttgart, September 17, 2010 Comparative bark anatomy of Bursaria, Hymenosporum and Pittosporum (Pittosporaceae) By Maya Nilova and Alexei A. Oskolski With 15 figures and 1 table Abstract Nilova, M. & Oskolski, A.A.: Comparative bark anatomy of Bursaria, Hymenosporum and Pittospo- rum (Pittosporaceae) — Plant Div. Evol. 128: 491–500. 2010. — ISSN 1869-6155. Bark anatomy in 3 species of Bursaria, 9 species of Pittosporum, and in the single species of mono- typic genus Hymenosporum (Pittosporaceae) was examined. The members of these three genera resemble Araliaceae, Myodocarpaceae and Apiaceae in the occurrence of axial secretory canals in cortex and secondary phloem, the pattern of alternating zones in secondary phloem, and the absence of fibres in this tissue. We therefore confirm a relationship between Pittosporaceae and other Apiales (van Tieghem 1884, Dahlgren 1989, Takhtajan 1997, Plunkett et al. 1996, 2004) rather than its tradi- tional placement into Rosales (Cronquist 1981). Hymenosporum differs markedly from Bursaria and Pittosporum in the presence of primary phloem fibres, in the cortical (vs subepidermal) initiation of the periderm and in the occurrence of numerous (more than 25) sieve areas on compound sieve plates. These features confirm the isolated position of Hymenosporum within Pittosporaceae, as suggested both by traditional taxonomy and gross morphology (Cayzer et al. 2000) and by molecular phyloge- netics (Chandler et al. 2007). Keywords: Pittosporaceae, Hymenosporum, Bursaria, bark anatomy, phylogenetics. Introduction Pittosporaceae is a small plant family with 9 genera and roughly 200–240 species. Eight of these genera are restricted to Australia or extended into nearby Malaysia, whereas the large genus Pittosporum is widely distributed within the tropical and sub- tropical zones of the Old World (Chandler et al.
[Show full text]
North Strathfield Station Upgrade Biodiversity Assessment Report
TRANSPORT FOR NSW NORTH STRATHFIELD STATION UPGRADE BIODIVERSITY ASSESSMENT REPORT OCTOBER 2018 North Strathfield Station Upgrade Biodiversity Assessment Report Transport for NSW WSP Level 27, 680 George Street Sydney NSW 2000 GPO Box 5394 Sydney NSW 2001 Tel: +61 2 9272 5100 Fax: +61 2 9272 5101 wsp.com REV DATE DETAILS A 27/07/2018 Draft B 28/08/2018 Final Draft C 10/12/2018 Final NAME DATE SIGNATURE Troy Jennings, Prepared by: 27/07/2018 Clementine Watson Reviewed by: Mark Stables 01/08/2018 Approved by: Mark Stables 10/12/2018 This document may contain confidential and legally privileged information, neither of which are intended to be waived, and must be used only for its intended purpose. Any unauthorised copying, dissemination or use in any form or by any means other than by the addressee, is strictly prohibited. If you have received this document in error or by any means other than as authorised addressee, please notify us immediately and we will arrange for its return to us. PS110578-ECO-REP-001 RevC_NtStrathfield October 2018 TABLE OF GLOSSARY ..................................................................................... IV CONTENTS ABBREVIATIONS .......................................................................... VII 1 PROPOSAL BACKGROUND ............................................. 1 1.1 PURPOSE OF THIS REPORT .................................................. 1 1.2 BACKGROUND AND DESCRIPTION OF THE PROPOSAL ............................................................................. 1 1.3 LOCATION OF THE PROPOSAL
[Show full text]
Recent Advances in Understanding Apiales and a Revised Classification
View metadata, citation and similar papers at core.ac.uk brought to you by CORE provided by Elsevier - Publisher Connector South African Journal of Botany 2004, 70(3): 371–381 Copyright © NISC Pty Ltd Printed in South Africa — All rights reserved SOUTH AFRICAN JOURNAL OF BOTANY ISSN 0254–6299 Recent advances in understanding Apiales and a revised classification GM Plunkett1*, GT Chandler1,2, PP Lowry II3, SM Pinney1 and TS Sprenkle1 1 Department of Biology, Virginia Commonwealth University, PO Box 842012, Richmond, Virginia 23284-2012, United States of America 2 Present address: Department of Biology, University of North Carolina, Wilmington, North Carolina 28403-5915, United States of America 3 Missouri Botanical Garden, PO Box 299, St Louis, Missouri 63166-0299, United States of America; Département de Systématique et Evolution, Muséum National d’Histoire Naturelle, Case Postale 39, 57 rue Cuvier, 75231 Paris CEDEX 05, France * Corresponding author, e-mail: [email protected] Received 23 August 2003, accepted in revised form 18 November 2003 Despite the long history of recognising the angiosperm Apiales, which includes a core group of four families order Apiales as a natural alliance, the circumscription (Apiaceae, Araliaceae, Myodocarpaceae, Pittosporaceae) of the order and the relationships among its constituent to which three small families are also added groups have been troublesome. Recent studies, howev- (Griseliniaceae, Torricelliaceae and Pennantiaceae). After er, have made great progress in understanding phylo- a brief review of recent advances in each of the major genetic relationships in Apiales. Although much of this groups, a revised classification of the order is present- recent work has been based on molecular data, the ed, which includes the recognition of the new suborder results are congruent with other sources of data, includ- Apiineae (comprising the four core families) and two ing morphology and geography.
[Show full text]
Plant Biodiversity Science, Discovery, and Conservation: Case Studies from Australasia and the Pacific
Plant Biodiversity Science, Discovery, and Conservation: Case Studies from Australasia and the Pacific Craig Costion School of Earth and Environmental Sciences Department of Ecology and Evolutionary Biology University of Adelaide Adelaide, SA 5005 Thesis by publication submitted for the degree of Doctor of Philosophy in Ecology and Evolutionary Biology July 2011 ABSTRACT This thesis advances plant biodiversity knowledge in three separate bioregions, Micronesia, the Queensland Wet Tropics, and South Australia. A systematic treatment of the endemic flora of Micronesia is presented for the first time thus advancing alpha taxonomy for the Micronesia-Polynesia biodiversity hotspot region. The recognized species boundaries are used in combination with all known botanical collections as a basis for assessing the degree of threat for the endemic plants of the Palau archipelago located at the western most edge of Micronesia’s Caroline Islands. A preliminary assessment is conducted utilizing the IUCN red list Criteria followed by a new proposed alternative methodology that enables a degree of threat to be established utilizing existing data. Historical records and archaeological evidence are reviewed to establish the minimum extent of deforestation on the islands of Palau since the arrival of humans. This enabled a quantification of population declines of the majority of plants endemic to the archipelago. In the state of South Australia, the importance of establishing concepts of endemism is emphasized even further. A thorough scientific assessment is presented on the state’s proposed biological corridor reserve network. The report highlights the exclusion from the reserve system of one of the state’s most important hotspots of plant endemism that is highly threatened from habitat fragmentation and promotes the use of biodiversity indices to guide conservation priorities in setting up reserve networks.
[Show full text]
Australian Systematic Botany
CSIRO PUBLISHING AUSTRALIAN SYSTEMATIC BOTANY Volume 13 2000 © CSIRO 2000 An international journal devoted to the taxonomy, biogeography and evolution of all plant groups www.publish.csiro.au/journals/asb All enquiries and manuscripts should be directed to Australian Systematic Botany CSIRO PUBLISHING PO Box 1139 (150 Oxford St) Collingwood Telephone: 61 3 9662 7624 Vic. 3066 Facsimile: 61 3 9662 7611 Australia Email: [email protected] Published by CSIRO PUBLISHING for CSIRO and the Australian Academy of Science 927 Index to Volume 13 Authors and Titles Ashton FG Hill RS, Whang SS See Wright SD et al. 919 Dacrycarpus (Podocarpaceae) macrofossils from Miocene sediments at Elands, eastern Barnes RW, Jordan GJ Australia 395 Eucryphia (Cunoniaceae) reproductive and leaf Horak E macrofossils from Australian Cainozoic See Verbeken A et al. 649 sediments 373 Barnes RW, Rozefelds AC Irwin JAG, Mackie JM Comparative morphology of Anodopetalum Sexual reproduction by Phytophthora (Cunoniaceae) 267 macrochlamydospora: a group VI Bell JC species 817 See McDonald MW et al. 491 Broadhurst L Johnston PR Morphometric analysis of variation in Rhytismatales of Australia: the genus Geleznowia verrucosa Turcz. Coccomyces 199 (Rutaceae) 479 Jordan GJ Brooker MIH See Barnes RW et al. 373 A new classification of the genus Eucalyptus L’Her. (Myrtaceae) 79 Keeling DJ Bruhl JJ See Wright SD et al. 919 See Wills KE et al. 437 Kite GC Buchanan PK See de Kok RPJ et al. 425 See Decock C et al. 823 de Kok RPJ, Grayer RJ, Kite GC Butcher PA Relationships of the endemic Australian genus See McDonald MW et al.
[Show full text]
CENSUS of the PLANTS of WESTERN AUSTRALIA 1St June 2009
CENSUS OF THE PLANTS OF WESTERN AUSTRALIA 1st June 2009 CENSUS OF THE PLANTS OF WESTERN AUSTRALIA Western Australian Herbarium 1st June 2009 Table 1. Conspectus Of Families And Genera With Statistics (Families followed by number of genera and species - genera by number of species) 001 Psilotaceae 1 1 Pilularia 1 Alloteropsis 1 Psilotum 1 014 Salviniaceae 1 1 Alopecurus 3 Salvinia 1 Ammophila 1 002 Lycopodiaceae 2 3 Amphibromus 3 Lycopodiella 2 014A Davalliaceae 1 4 Amphipogon 9 Phylloglossum 1 Nephrolepis 4 Andropogon 2 003 Selaginellaceae 1 3 015 Azollaceae 1 2 Anthoxanthum 1 Selaginella 3 Azolla 2 Aristida 23 004 Isoetaceae 1 9 016 Cycadaceae 1 4 Arrhenatherum 1 Isoetes 9 Cycas 4 Arundinella 1 Arundo 1 005 Ophioglossaceae 2 6 016A Zamiaceae 1 3 Astrebla 4 Helminthostachys 1 Macrozamia 3 Austrodanthonia 6 Ophioglossum 5 017 Podocarpaceae 1 1 Austrofestuca 1 006 Schizaeaceae 2 4 Podocarpus 1 Austrostipa 32 Actinostachys 1 017A Pinaceae 1 5 Avellinia 1 Schizaea 3 Pinus 5 Avena 5 Axonopus 2 006A Lygodiaceae 1 2 018 Cupressaceae 3 11 Lygodium 2 Bothriochloa 4 Actinostrobus 3 Brachyachne 4 007 Adiantaceae 6 20 Callitris 7 Brachypodium 1 Adiantum 4 Sequoia 1 Briza 2 Anogramma 1 020 Typhaceae 1 2 Bromus 7 Cheilanthes 11 Typha 2 Capillipedium 2 Doryopteris 1 Cenchrus 7 Paraceterach 2 021 Pandanaceae 1 6 Pandanus 6 Chionachne 2 Taenitis 1 Chloris 7 007A Parkeriaceae 1 1 023 Potamogetonaceae 2 11 Chrysopogon 6 Ceratopteris 1 Lepilaena 4 Coix 1 Potamogeton 7 008 Pteridaceae 2 4 Cortaderia 2 Acrostichum 2 023B Posidoniaceae 1 8 Corynephorus 1 Pteris
[Show full text]
State of Wet Tropics Report 2013-2014
STATE OF THE WET TROPICS REPORT 2013–2014 State of Wet Tropics Management Authority 2013-2014 Ancient, threatened and endemic plants of the Wet Tropics World Heritage Area Purpose of the report Each year the Wet Tropics Management Authority prepares a report on the administration of the Act during the year, fi nancial statements for the year, and a report on the state of Area. This State of Wet Tropics report satisfi es the requirements of Queensland’s Wet Tropics World Heritage Protection and Management Act 1993 and the Commonwealth’s Wet Tropics of Queensland World Heritage Conservation Act 1994. Public availability This publication can be accessed and downloaded from our website at www.wettropics.gov.au Alternatively, hard copies of this publication can be obtained by emailing [email protected] Interpreter service statement The Wet Tropics Management Authority is committed to providing accessible services to people from all culturally and linguistically diverse backgrounds. If you have diffi culty in understanding this report and need to access this document in a language other than English, please call the Translating and Interpreting Service (TIS National) on 131 450 and ask them to telephone the Queensland Government Library Services on +61 7 3224 8412. © Wet Tropics Management Authority 2014 Licence This report is licensed under a Creative Commons Attribution (CC BY) 3.0 Australia licence. CC BY Licence Summary Statement In essence, you are free to copy, communicate and adapt this annual report, as long as you attribute the work to the Wet Tropics Management Authority. To view a copy of this licence, visit www.creativecommons.org/licenses/by/3.0/au/deed.en Attribution Content from this annual report should be attributed as: Wet Tropics Management Authority (2014) State of Wet Tropics Report 2013/14: Ancient, threatened and endemic plants of the Wet Tropics World Heritage Area.
[Show full text]
Terrestrial Ecology Assessment
Proposed Surat North Development Wandoan, Queensland TERRESTRIAL ECOLOGY ASSESSMENT Report prepared for QGC Document Control Sheet File Number: 0360-001 Project Manager: Lindsay Popple Client: QGC Project Title: Terrestrial Ecology Assessment — Proposed Surat North Development Project Author/s: Lindsay Popple, Chris Sanderson, Alanna Main, Lui Weber, Brett Taylor, Adam Abbott, Maree Gilbert, James Wilson, Penn Lloyd, Chris Spain, Ria Zoeller, Paulette Jones, Jedd Appleton Project Summary: A baseline and impact assessment of terrestrial ecological values for the proposed Surat North Development located near Wandoan, southern Queensland. Revision/Checking History Track Version Date Issued Checked By Issued By 0360-001 Version 0 17/01/2014 Jedd Appleton Lindsay Popple Version Date Dispatched to Destination Revision History Digital Copy to Client PDF on Server PDF Backup Copy 0360-001 Version 0 23/01/2014 23/01/2014 23/01/2014 BAAM Pty Ltd File No: 0360-001 Version 0 NOTICE TO USERS OF THIS REPORT Copyright and reproduction This report and all indexes, schedules, annexures or appendixes are subject to copyright pursuant to the Copyright Act 1968 (Cth). Subject to statutory defences, no party may reproduce, publish, adapt or communicate to the public, in whole or in part, the content of this report without the express written consent of Biodiversity Assessment and Management Pty Ltd. Purpose of Report Biodiversity Assessment and Management Pty Ltd has produced this report in its capacity as consultants for and on the request of QGC (the "Client") for the sole purpose of undertaking an assessment of terrestrial ecological values within lands potentially impacted by the proposed Surat North Development near Wandoan in southern Queensland (the "Specified Purpose").
[Show full text]
010 Systematic Position Distribution Modelling of Pittosporum Eriocarpum
Pleione 14(1): 109 - 120. 2020. ISSN: 0973-9467 © East Himalayan Society for Spermatophyte Taxonomy doi:10.26679/Pleione.14.1.2020.109-120 Systematic position and habitat distribution modelling for reintroduction of critically endangered medicinal plant Pittosporum eriocarpum Royle (Pittosporaceae) Mayank D. Dwivedi1#, Sandeep Chauhan1, Amber Srivastava2, Pragya Sourabh3, Shivani Mishra3, 4, Julie Thakur5 and Achuta Nand Shukla6 1Botanic Garden of Indian Republic, Botanical Survey of India, Capt. Vijayant Thapar Marg, Noida 201303, Uttar Pradesh, India; 2Northern Regional Centre, Botanical Survey of India, Kaulagarh Road, Dehradun 248006, Uttrakhand, India; 3Faculty of Life Science, Mansarovar Global University, Bilkisganj, Sehore 466001, Madhya Pradesh, India; 4Food Corporation of India, Delhi-110007, India; 5Bhaskaracharya College of Applied Science, Dwarka, Delhi-110075, India; 6Central Regional Centre, Allahabad 211001, Uttar Pradesh, India. # Communicating author, e-mail: [email protected] [Received 12.05.2020; Revised 22.06.2020; Accepted 26.06.2020; Published 30.06.2020] Abstract Pittosporum eriocarpum Royle (Pittosporaceae) is an endemic and endangered species of Indian Western Himalaya which is found in the restricted pockets of Uttarakhand and Himachal Pradesh only. The species is facing critical threats on its natural population mainly due to habitat loss, climate change and other anthropogenic activities. In order to improve the conservation status of species, potential suitable habitats for reintroduction, were predicted using Maxent. The species shows high variability in its morphological characteristics due to which sometimes it is being confused with other allied species P. napaulense and to avoid future confusion, systematic position of the species has been ascertained using nrDNA Internal Transcribed Spacer sequence data.
[Show full text]