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Winter Edition 2020 - 3 in This Issue: Office Bearers for 2017
1 Australian Plants Society Armidale & District Group PO Box 735 Armidale NSW 2350 web: www.austplants.com.au/Armidale e-mail: [email protected] Crowea exalata ssp magnifolia image by Maria Hitchcock Winter Edition 2020 - 3 In this issue: Office bearers for 2017 ......p1 Editorial …...p2Error! Bookmark not defined. New Website Arrangements .…..p3 Solstice Gathering ......p4 Passion, Boers & Hibiscus ......p5 Wollomombi Falls Lookout ......p7 Hard Yakka ......p8 Torrington & Gibraltar after fires ......p9 Small Eucalypts ......p12 Drought tolerance of plants ......p15 Armidale & District Group PO Box 735, Armidale NSW 2350 President: Vacant Vice President: Colin Wilson Secretary: Penelope Sinclair Ph. 6771 5639 [email protected] Treasurer: Phil Rose Ph. 6775 3767 [email protected] Membership: Phil Rose [email protected] 2 Markets in the Mall, Outings, OHS & Environmental Officer and Arboretum Coordinator: Patrick Laher Ph: 0427327719 [email protected] Newsletter Editor: John Nevin Ph: 6775218 [email protected],net.au Meet and Greet: Lee Horsley Ph: 0421381157 [email protected] Afternoon tea: Deidre Waters Ph: 67753754 [email protected] Web Master: Eric Sinclair Our website: http://www.austplants.com.au From the Editor: We have certainly had a memorable year - the worst drought in living memory followed by the most extensive bushfires seen in Australia, and to top it off, the biggest pandemic the world has seen in 100 years. The pandemic has made essential self distancing and quarantining to arrest the spread of the Corona virus. As a result, most APS activities have been shelved for the time being. Being in isolation at home has been a mixed blessing. -
Seed Ecology Iii
SEED ECOLOGY III The Third International Society for Seed Science Meeting on Seeds and the Environment “Seeds and Change” Conference Proceedings June 20 to June 24, 2010 Salt Lake City, Utah, USA Editors: R. Pendleton, S. Meyer, B. Schultz Proceedings of the Seed Ecology III Conference Preface Extended abstracts included in this proceedings will be made available online. Enquiries and requests for hardcopies of this volume should be sent to: Dr. Rosemary Pendleton USFS Rocky Mountain Research Station Albuquerque Forestry Sciences Laboratory 333 Broadway SE Suite 115 Albuquerque, New Mexico, USA 87102-3497 The extended abstracts in this proceedings were edited for clarity. Seed Ecology III logo designed by Bitsy Schultz. i June 2010, Salt Lake City, Utah Proceedings of the Seed Ecology III Conference Table of Contents Germination Ecology of Dry Sandy Grassland Species along a pH-Gradient Simulated by Different Aluminium Concentrations.....................................................................................................................1 M Abedi, M Bartelheimer, Ralph Krall and Peter Poschlod Induction and Release of Secondary Dormancy under Field Conditions in Bromus tectorum.......................2 PS Allen, SE Meyer, and K Foote Seedling Production for Purposes of Biodiversity Restoration in the Brazilian Cerrado Region Can Be Greatly Enhanced by Seed Pretreatments Derived from Seed Technology......................................................4 S Anese, GCM Soares, ACB Matos, DAB Pinto, EAA da Silva, and HWM Hilhorst -
Goulburn Brochure
Species Soil Type Frost Species Soil Type Frost Species Soil Type Frost Acacia boormanni Well Drained Dry Very Frost Hardy Banksia spinulosa Well Drained Moist Frost Hardy Eucalyptus aquatica Waterlogged/Poorly Drained Very Frost Hardy Well Drained Moist Well Drained Dry Well Drained Moist Shrub Shrub Small Tree Acacia buxifolia Well Drained Dry Frost Hardy Baumea articulata Waterlogged/Poorly Drained Frost Hardy Eucalyptus bridgesiana Well Drained Moist Very Frost Hardy Shrub Grass or sedge Tree Grass/sedge Acacia dealbata Well Drained Dry Very Frost Hardy Baumea rubiginosa Waterlogged/Poorly Drained Frost Hardy Eucalyptus cypellocarpa Well Drained Moist Frost Hardy Well Drained Moist Small Tree Grass or sedge Tree Grass/sedge Acacia decurrens Well Drained Dry Frost Hardy Brachychiton populneus Well Drained Dry Frost Hardy Eucalyptus dealbata Well Drained Dry Frost Hardy Well Drained Moist Well Drained Moist Well Drained Moist Small Tree Tree Tree Acacia fimbriata Well Drained Dry Very Frost Hardy Bursaria spinosa Well Drained Dry Very Frost Hardy Eucalyptus dives Well Drained Dry Frost Hardy Well Drained Moist Well Drained Moist Well Drained Moist Small Tree/Shrub Shrub Small Tree Acacia floribunda Well Drained Moist Very Frost Hardy Callistemon citrinus Well Drained Dry Frost Hardy Eucalyptus elata Well Drained Moist Frost Hardy Well Drained Moist Small Tree/Shrub Shrub Waterlogged/Poorly Drained Tree Acacia howittii Well Drained Moist Frost Hardy Callistemon linearis Well Drained Moist Frost Hardy Eucalyptus fastigata Well Drained -
Allopolyploidy and Root Nodule Symbiosis in Glycine
TWO TO TANGO: ALLOPOLYPLOIDY AND ROOT NODULE SYMBIOSIS IN GLYCINE SUBGENUS GLYCINE A Dissertation Presented to the Faculty of the Graduate School of Cornell University in Partial Fulfillment of the Requirements for the Degree of Doctor of Philosophy by Adrian Federico Powell January 2017 © 2017 Adrian Federico Powell TWO TO TANGO: ALLOPOLYPLOIDY AND ROOT NODULE SYMBIOSIS IN GLYCINE SUBGENUS GLYCINE Adrian Federico Powell, Ph.D. Cornell University 2017 Polyploidy (or whole genome duplication) and root nodule symbioses with bacteria (termed ‘rhizobia’) have both been important phenomena in the evolutionary history of the legume family (Leguminosae). Recently, it has been proposed that polyploidy may have played a critical role in the development or refinement of nodulation. Given the varied potential impacts of polyploidy, effects on biotic interactions are plausible. However, direct studies of the interactions between these phenomena in symbiotic, nodule-forming species are lacking. In this dissertation, using a complex of recently formed allopolyploids in Glycine subgenus Glycine, the perennial relatives of soybean, we examined (1) the root metabolites and symbiotic signaling capacity of multiple allopolyploid species relative to the diploid progenitor species that hybridized to form each allopolyploid, (2) the nodulation-related responses of allopolyploids and diploid progenitors to rhizobia and (3) the transcriptome-level responses to inoculation in allopolyploid G. dolichocarpa (T2) and its diploid progenitors. These objectives were pursued using a variety of approaches including root metabolite profiling, inoculation trials, and RNA sequencing. We found that, while there were no common transgressive patterns in the root metabolite profiles of allopolyploids in the complex, one of the progenitors of T2 had distinctive root metabolite and exudate profiles; profiles of symbiotic signaling metabolites were also altered in the allopolyploid. -
Human-Mediated Introductions of Australian Acacias
Diversity and Distributions, (Diversity Distrib.) (2011) 17, 771–787 S EDITORIAL Human-mediated introductions of PECIAL ISSUE Australian acacias – a global experiment in biogeography 1 2 1 3,4 David M. Richardson *, Jane Carruthers , Cang Hui , Fiona A. C. Impson , :H Joseph T. Miller5, Mark P. Robertson1,6, Mathieu Rouget7, Johannes J. Le Roux1 and John R. U. Wilson1,8 UMAN 1 Centre for Invasion Biology, Department of ABSTRACT - Botany and Zoology, Stellenbosch University, MEDIATED INTRODUCTIONS OF Aim Australian acacias (1012 recognized species native to Australia, which were Matieland 7602, South Africa, 2Department of History, University of South Africa, PO Box previously grouped in Acacia subgenus Phyllodineae) have been moved extensively 392, Unisa 0003, South Africa, 3Department around the world by humans over the past 250 years. This has created the of Zoology, University of Cape Town, opportunity to explore how evolutionary, ecological, historical and sociological Rondebosch 7701, South Africa, 4Plant factors interact to affect the distribution, usage, invasiveness and perceptions of a Protection Research Institute, Private Bag globally important group of plants. This editorial provides the background for the X5017, Stellenbosch 7599, South Africa, 20 papers in this special issue of Diversity and Distributions that focusses on the 5Centre for Australian National Biodiversity global cross-disciplinary experiment of introduced Australian acacias. A Journal of Conservation Biogeography Research, CSIRO Plant Industry, GPO Box Location Australia and global. 1600, Canberra, ACT, Australia, 6Department of Zoology and Entomology, University of Methods The papers of the special issue are discussed in the context of a unified Pretoria, Pretoria 0002, South Africa, framework for biological invasions. -
In China: Phylogeny, Host Range, and Pathogenicity
Persoonia 45, 2020: 101–131 ISSN (Online) 1878-9080 www.ingentaconnect.com/content/nhn/pimj RESEARCH ARTICLE https://doi.org/10.3767/persoonia.2020.45.04 Cryphonectriaceae on Myrtales in China: phylogeny, host range, and pathogenicity W. Wang1,2, G.Q. Li1, Q.L. Liu1, S.F. Chen1,2 Key words Abstract Plantation-grown Eucalyptus (Myrtaceae) and other trees residing in the Myrtales have been widely planted in southern China. These fungal pathogens include species of Cryphonectriaceae that are well-known to cause stem Eucalyptus and branch canker disease on Myrtales trees. During recent disease surveys in southern China, sporocarps with fungal pathogen typical characteristics of Cryphonectriaceae were observed on the surfaces of cankers on the stems and branches host jump of Myrtales trees. In this study, a total of 164 Cryphonectriaceae isolates were identified based on comparisons of Myrtaceae DNA sequences of the partial conserved nuclear large subunit (LSU) ribosomal DNA, internal transcribed spacer new taxa (ITS) regions including the 5.8S gene of the ribosomal DNA operon, two regions of the β-tubulin (tub2/tub1) gene, plantation forestry and the translation elongation factor 1-alpha (tef1) gene region, as well as their morphological characteristics. The results showed that eight species reside in four genera of Cryphonectriaceae occurring on the genera Eucalyptus, Melastoma (Melastomataceae), Psidium (Myrtaceae), Syzygium (Myrtaceae), and Terminalia (Combretaceae) in Myrtales. These fungal species include Chrysoporthe deuterocubensis, Celoporthe syzygii, Cel. eucalypti, Cel. guang dongensis, Cel. cerciana, a new genus and two new species, as well as one new species of Aurifilum. These new taxa are hereby described as Parvosmorbus gen. -
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. -
University of California Santa Cruz Responding to An
UNIVERSITY OF CALIFORNIA SANTA CRUZ RESPONDING TO AN EMERGENT PLANT PEST-PATHOGEN COMPLEX ACROSS SOCIAL-ECOLOGICAL SCALES A dissertation submitted in partial satisfaction of the requirements for the degree of DOCTOR OF PHILOSOPHY in ENVIRONMENTAL STUDIES with an emphasis in ECOLOGY AND EVOLUTIONARY BIOLOGY by Shannon Colleen Lynch December 2020 The Dissertation of Shannon Colleen Lynch is approved: Professor Gregory S. Gilbert, chair Professor Stacy M. Philpott Professor Andrew Szasz Professor Ingrid M. Parker Quentin Williams Acting Vice Provost and Dean of Graduate Studies Copyright © by Shannon Colleen Lynch 2020 TABLE OF CONTENTS List of Tables iv List of Figures vii Abstract x Dedication xiii Acknowledgements xiv Chapter 1 – Introduction 1 References 10 Chapter 2 – Host Evolutionary Relationships Explain 12 Tree Mortality Caused by a Generalist Pest– Pathogen Complex References 38 Chapter 3 – Microbiome Variation Across a 66 Phylogeographic Range of Tree Hosts Affected by an Emergent Pest–Pathogen Complex References 110 Chapter 4 – On Collaborative Governance: Building Consensus on 180 Priorities to Manage Invasive Species Through Collective Action References 243 iii LIST OF TABLES Chapter 2 Table I Insect vectors and corresponding fungal pathogens causing 47 Fusarium dieback on tree hosts in California, Israel, and South Africa. Table II Phylogenetic signal for each host type measured by D statistic. 48 Table SI Native range and infested distribution of tree and shrub FD- 49 ISHB host species. Chapter 3 Table I Study site attributes. 124 Table II Mean and median richness of microbiota in wood samples 128 collected from FD-ISHB host trees. Table III Fungal endophyte-Fusarium in vitro interaction outcomes. -
December 2012 Number 1
Calochortiana December 2012 Number 1 December 2012 Number 1 CONTENTS Proceedings of the Fifth South- western Rare and Endangered Plant Conference Calochortiana, a new publication of the Utah Native Plant Society . 3 The Fifth Southwestern Rare and En- dangered Plant Conference, Salt Lake City, Utah, March 2009 . 3 Abstracts of presentations and posters not submitted for the proceedings . 4 Southwestern cienegas: Rare habitats for endangered wetland plants. Robert Sivinski . 17 A new look at ranking plant rarity for conservation purposes, with an em- phasis on the flora of the American Southwest. John R. Spence . 25 The contribution of Cedar Breaks Na- tional Monument to the conservation of vascular plant diversity in Utah. Walter Fertig and Douglas N. Rey- nolds . 35 Studying the seed bank dynamics of rare plants. Susan Meyer . 46 East meets west: Rare desert Alliums in Arizona. John L. Anderson . 56 Calochortus nuttallii (Sego lily), Spatial patterns of endemic plant spe- state flower of Utah. By Kaye cies of the Colorado Plateau. Crystal Thorne. Krause . 63 Continued on page 2 Copyright 2012 Utah Native Plant Society. All Rights Reserved. Utah Native Plant Society Utah Native Plant Society, PO Box 520041, Salt Lake Copyright 2012 Utah Native Plant Society. All Rights City, Utah, 84152-0041. www.unps.org Reserved. Calochortiana is a publication of the Utah Native Plant Society, a 501(c)(3) not-for-profit organi- Editor: Walter Fertig ([email protected]), zation dedicated to conserving and promoting steward- Editorial Committee: Walter Fertig, Mindy Wheeler, ship of our native plants. Leila Shultz, and Susan Meyer CONTENTS, continued Biogeography of rare plants of the Ash Meadows National Wildlife Refuge, Nevada. -
Introduction Methods Results
Papers and Proceedings Royal Society ofTasmania, Volume 1999 103 THE CHARACTERISTICS AND MANAGEMENT PROBLEMS OF THE VEGETATION AND FLORA OF THE HUNTINGFIELD AREA, SOUTHERN TASMANIA by J.B. Kirkpatrick (with two tables, four text-figures and one appendix) KIRKPATRICK, J.B., 1999 (31:x): The characteristics and management problems of the vegetation and flora of the Huntingfield area, southern Tasmania. Pap. Proc. R. Soc. Tasm. 133(1): 103-113. ISSN 0080-4703. School of Geography and Environmental Studies, University ofTasmania, GPO Box 252-78, Hobart, Tasmania, Australia 7001. The Huntingfield area has a varied vegetation, including substantial areas ofEucalyptus amygdalina heathy woodland, heath, buttongrass moorland and E. amygdalina shrubbyforest, with smaller areas ofwetland, grassland and E. ovata shrubbyforest. Six floristic communities are described for the area. Two hundred and one native vascular plant taxa, 26 moss species and ten liverworts are known from the area, which is particularly rich in orchids, two ofwhich are rare in Tasmania. Four other plant species are known to be rare and/or unreserved inTasmania. Sixty-four exotic plantspecies have been observed in the area, most ofwhich do not threaten the native biodiversity. However, a group offire-adapted shrubs are potentially serious invaders. Management problems in the area include the maintenance ofopen areas, weed invasion, pathogen invasion, introduced animals, fire, mechanised recreation, drainage from houses and roads, rubbish dumping and the gathering offirewood, sand and plants. Key Words: flora, forest, heath, Huntingfield, management, Tasmania, vegetation, wetland, woodland. INTRODUCTION species with the most cover in the shrub stratum (dominant species) was noted. If another species had more than half The Huntingfield Estate, approximately 400 ha of forest, the cover ofthe dominant one it was noted as a codominant. -
Kingdom Class Family Scientific Name Common Name I Q a Records
Kingdom Class Family Scientific Name Common Name I Q A Records plants monocots Poaceae Paspalidium rarum C 2/2 plants monocots Poaceae Aristida latifolia feathertop wiregrass C 3/3 plants monocots Poaceae Aristida lazaridis C 1/1 plants monocots Poaceae Astrebla pectinata barley mitchell grass C 1/1 plants monocots Poaceae Cenchrus setigerus Y 1/1 plants monocots Poaceae Echinochloa colona awnless barnyard grass Y 2/2 plants monocots Poaceae Aristida polyclados C 1/1 plants monocots Poaceae Cymbopogon ambiguus lemon grass C 1/1 plants monocots Poaceae Digitaria ctenantha C 1/1 plants monocots Poaceae Enteropogon ramosus C 1/1 plants monocots Poaceae Enneapogon avenaceus C 1/1 plants monocots Poaceae Eragrostis tenellula delicate lovegrass C 2/2 plants monocots Poaceae Urochloa praetervisa C 1/1 plants monocots Poaceae Heteropogon contortus black speargrass C 1/1 plants monocots Poaceae Iseilema membranaceum small flinders grass C 1/1 plants monocots Poaceae Bothriochloa ewartiana desert bluegrass C 2/2 plants monocots Poaceae Brachyachne convergens common native couch C 2/2 plants monocots Poaceae Enneapogon lindleyanus C 3/3 plants monocots Poaceae Enneapogon polyphyllus leafy nineawn C 1/1 plants monocots Poaceae Sporobolus actinocladus katoora grass C 1/1 plants monocots Poaceae Cenchrus pennisetiformis Y 1/1 plants monocots Poaceae Sporobolus australasicus C 1/1 plants monocots Poaceae Eriachne pulchella subsp. dominii C 1/1 plants monocots Poaceae Dichanthium sericeum subsp. humilius C 1/1 plants monocots Poaceae Digitaria divaricatissima var. divaricatissima C 1/1 plants monocots Poaceae Eriachne mucronata forma (Alpha C.E.Hubbard 7882) C 1/1 plants monocots Poaceae Sehima nervosum C 1/1 plants monocots Poaceae Eulalia aurea silky browntop C 2/2 plants monocots Poaceae Chloris virgata feathertop rhodes grass Y 1/1 CODES I - Y indicates that the taxon is introduced to Queensland and has naturalised.