Plants of the Humboldt State University Campus
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Partial Flora Survey Rottnest Island Golf Course
PARTIAL FLORA SURVEY ROTTNEST ISLAND GOLF COURSE Prepared by Marion Timms Commencing 1 st Fairway travelling to 2 nd – 11 th left hand side Family Botanical Name Common Name Mimosaceae Acacia rostellifera Summer scented wattle Dasypogonaceae Acanthocarpus preissii Prickle lily Apocynaceae Alyxia Buxifolia Dysentry bush Casuarinacea Casuarina obesa Swamp sheoak Cupressaceae Callitris preissii Rottnest Is. Pine Chenopodiaceae Halosarcia indica supsp. Bidens Chenopodiaceae Sarcocornia blackiana Samphire Chenopodiaceae Threlkeldia diffusa Coast bonefruit Chenopodiaceae Sarcocornia quinqueflora Beaded samphire Chenopodiaceae Suada australis Seablite Chenopodiaceae Atriplex isatidea Coast saltbush Poaceae Sporabolis virginicus Marine couch Myrtaceae Melaleuca lanceolata Rottnest Is. Teatree Pittosporaceae Pittosporum phylliraeoides Weeping pittosporum Poaceae Stipa flavescens Tussock grass 2nd – 11 th Fairway Family Botanical Name Common Name Chenopodiaceae Sarcocornia quinqueflora Beaded samphire Chenopodiaceae Atriplex isatidea Coast saltbush Cyperaceae Gahnia trifida Coast sword sedge Pittosporaceae Pittosporum phyliraeoides Weeping pittosporum Myrtaceae Melaleuca lanceolata Rottnest Is. Teatree Chenopodiaceae Sarcocornia blackiana Samphire Central drainage wetland commencing at Vietnam sign Family Botanical Name Common Name Chenopodiaceae Halosarcia halecnomoides Chenopodiaceae Sarcocornia quinqueflora Beaded samphire Chenopodiaceae Sarcocornia blackiana Samphire Poaceae Sporobolis virginicus Cyperaceae Gahnia Trifida Coast sword sedge -
Gymnosperms) of New York State
QK 129 . C667 1992 Pinophyta (Gymnosperms) of New York State Edward A. Cope The L. H. Bailey Hortorium Cornell University Contributions to a Flora of New York State IX Richard S. Mitchell, Editor 1992 Bulletin No. 483 New York State Museum The University of the State of New York THE STATE EDUCATION DEPARTMENT Albany, New York 12230 V A ThL U: ESTHER T. SVIERTZ LIBRARY THI-: ?‘HW YORK BOTANICAL GARDEN THE LuESTHER T. MERTZ LIBRARY THE NEW YORK BOTANICAL GARDEN Pinophyta (Gymnosperms) of New York State Edward A. Cope The L. H. Bailey Hortorium Cornell University Contributions to a Flora of New York State IX Richard S. Mitchell, Editor 1992 Bulletin No. 483 New York State Museum The University of the State of New York THE STATE EDUC ATION DEPARTMENT Albany, New York 12230 THE UNIVERSITY OF THE STATE OF NEW YORK Regents of The University Martin C. Barell, Chancellor, B.A., I.A., LL.B. Muttontown R. Carlos Carballada, Vice Chancellor, B.S. Rochester Willard A. Genrich, LL.B. Buffalo Emlyn I. Griffith. A.B.. J.D. Rome Jorge L. Batista, B.A.. J.D. Bronx Laura Bradley Chodos, B.A., M.A. Vischer Ferry Louise P. Matteoni, B.A., M.A., Ph.D. Bayside J. Edward Meyer, B.A., LL.B. Chappaqua FloydS. Linton, A.B., M.A., M.P.A. Miller Place Mimi Levin Lif.ber, B.A., M.A. Manhattan Shirley C. Brown, B.A., M.A., Ph.D. Albany Norma Gluck, B.A., M.S.W. Manhattan Adelaide L. Sanford, B.A., M.A., P.D. -
Akebia Quinata
Akebia quinata Akebia quinata Chocolate vine, five- leaf Akebia Introduction Native to eastern Asia, the genus Akebia consists of five species, with four species and three subspecies reported in China[168]. Members of this genus are deciduous or semi-deciduous twining vines. The roots, vines, and fruits can be used for medicinal purposes. The sweet fruits can be used in wine-making[4]. Taxonomy: Akebia quinata leaves. (Photo by Shep Zedaker, Virginia Polytechnic Institute & State FAM ILY: Lardizabalaceae University.) Genus: Akebia Decne. clustered on the branchlets, and divided male and the rest are female. Appearing Species of Akebia in China into five, or sometimes three to four from June to August, oblong or elliptic purplish fruits split open when mature, revealing dark, brownish, flat seeds Scientific Name Scientific Name arranged irregularly in rows[4]. A. chingshuiensis T. Shimizu A. quinata (Houtt.) Decne A. longeracemosa Matsumura A. trifoliata (Thunb.) Koidz Habitat and Distribution A. quinata grows near forest margins Description or six to seven papery leaflets that are along streams, as scrub on mountain Akebia quinata is a deciduous woody obovate or obovately elliptic, 2-5 cm slopes at 300 - 1500 m elevation, in vine with slender, twisting, cylindrical long, 1.5-2.5 cm wide, with a round or most of the provinces through which [4] stems bearing small, round lenticels emarginate apex and a round or broadly the Yellow River flows . It has a native on the grayish brown surface. Bud cuneate base. Infrequently blooming, range in Anhui, Fujian, Henan, Hubei, scales are light reddish-brown with the inflorescence is an axillary raceme Hunan, Jiangsu, Jiangxi, Shandong, an imbricate arrangement. -
Yandina Street Tree Strategy
Yandina Street tree strategy Description of area and land use Canopy cover Street tree planting strategies The local plan area of Yandina occurs in the north of the Sunshine Coast Canopy cover over all lands is below-average for the region (31%) with Street trees enhance the historical look and feel of the township and Council region and totals 396 hectares in land area. The plan area contains the Foliage and Shade Cover plan for Yandina showing that open rural reinforce existing planting themes. the Yandina township, rural residential streets, farmlands, and industrial lands account for numerous areas of low or no tree cover. Vegetation cover and commercial precincts. Originally known as 'Native Dog Flat' the oldest reported for road reserve areas is also below average (27%). Analysis of Street tree planting focuses on shading pedestrian networks, building surveyed town in the Maroochy Shire was named Yandina in 1871. street tree occupancy within the town suggests that canopy cover can be canopy and establishing feature trees in key locations; and improving the readily increased through a solid program of proactive street tree planting. Yandina's landscape character beautifully blends the cultural heritage general amenity of town approaches. values of the small country town with the natural character of the area. Major opportunities and constraints The town's strong character tree palette bleeds out into surrounding Yellow flame trees frame the distinct facade of the village shop fronts while streets and links the sports precinct and other community facilities back clumps of eucalypts grow in areas immediately surrounding the township Numerous opportunities to build on the existing street tree canopy of to the town centre with feature and shade tree plantings. -
Lepidoptera, Tortricidae) from Mt
Accepted Manuscript Tortricinae (Lepidoptera, Tortricidae) from Mt. Changbai-shan, China Kyu-Tek Park, Bong-Woo Lee, Yang-Seop Bae, Hui-Lin Han, Bong-Kyu Byun PII: S2287-884X(14)00025-9 DOI: 10.1016/j.japb.2014.04.007 Reference: JAPB 19 To appear in: Journal of Asia-Pacific Biodiversity Received Date: 28 February 2014 Revised Date: 13 March 2014 Accepted Date: 4 April 2014 Please cite this article as: Park K-T, Lee B-W, Bae Y-S, Han H-L, Byun B-K, Tortricinae (Lepidoptera, Tortricidae) from Mt. Changbai-shan, China, Journal of Asia-Pacific Biodiversity (2014), doi: 10.1016/ j.japb.2014.04.007. This is a PDF file of an unedited manuscript that has been accepted for publication. As a service to our customers we are providing this early version of the manuscript. The manuscript will undergo copyediting, typesetting, and review of the resulting proof before it is published in its final form. Please note that during the production process errors may be discovered which could affect the content, and all legal disclaimers that apply to the journal pertain. ACCEPTED MANUSCRIPT J. of Asia-Pacific Biodiversity Tortricinae (Lepidoptera, Tortricidae) from Mt. Changbai-shan, China Kyu-Tek Park a, Bong-Woo Lee b, Yang-Seop Bae c, Hui-Lin Han d, Bong-Kyu Byun e* a The Korean Academy of Science and Technology, Seongnam, 463-808, Korea b Division of Forest Biodiversity, Korea National Arboretum, Sumokwokgil, Pocheon, 487-821, Korea c Division of Life Sciences, University of Incheon, 12-1 Songdo-dong, Yeonsu-gu, Incheon, 406-772, Korea dSchool of Forestry, Northeast Forestry University, Harbin, 150040, P.R. -
The Ecology and Biogeography of Athrotaxis D. Don
THE ECOLOGY AND BIOGEOGRAPHY OF ATHROTAXIS D. DON. ,smo,e5 by Philip J. Cullen B.Sc. (Forestry) submitted in fulfilment of the requirements for the degree of Master of Science UNIVERSITY OF TASMANIA HOBART February 1987 DECLARATION This thesis contains no material which has been submitted for the award of any other degree or diploma in any university and contains no copy or paraphrases of material previously published or writtern by another person, except where due reference is made in the text. P. J. Cullen. CONTENTS PAGE ACKNOWLEGEMENTS ABSTRACT II LIST OF FIGURES IV LIST OF TABLES VI LIST OF PLATES VIII CHAPTER 1: INTRODUCTION , 1 CHAPTER 2: DISTRIBUTION AND SYNECOLOGY 2.1 Introduction 8 2.2 Methods 14 2.3 Results and Discussion 2.3.1 Stand Classification 19 2.3.2 Stand Ordination 32 CHAPTER 3: THE REGENERATION MODES OF ATHROTAXIS CUPRESSOIDES AND ATHROTAXIS SELAGINOIDES 3.1 Introduction 38 3.2 Methods 3.2.1 Stand demography 40 3.2.2 Spatial distribution of seedlings 43 3.2.3 Seed dispersal 44 3.2.4 Vegetative reproduction 45 3.3 Results and Discussion 3.3.1 Size/age correlations 48 3.3.2 Seed production and dispersal 52 3.3.3 Vegetative regeneration 55 3.3.4 Stand demography and seedling distribution of Athrotaxis cupressoides 60 3.3.5 Stand demography and seedling distribution of Athrotaxis seiaginoides 82 3.3.6 The presence of Athrotaxis laxifolia . 88 3.4 Conclusion 89 CHAPTER THE RELATIVE FROST RESISTANCE OF ATHROTAXIS CUPRESSOIDES AND ATHROTAXIS SELAGINOIDES SEEDLINGS 4.1 Introduction 92 4.2 Methods 93 4,3 Results 96 4.4 Discussion 99 CHAPTER 5: THE EFFECT OF GRAZING ON THE SEEDLING REGENERATION OF ATHROTAXIS CUPRESSOIDES 5.1 Introduction 107 5.2 Methods 107 5.3 Results 109 5.4 Discussion 111 CHAPTER 6: DISCUSSION 116 REFERENCES 135 APPENDIX A: REGENERATION PATTERNS IN POPULATIONS OF ATHROTAXIS SELAGINOIDES D. -
Cross-Species, Amplifiable EST-SSR Markers for Amentotaxus Species
molecules Article Cross-Species, Amplifiable EST-SSR Markers for Amentotaxus Species Obtained by Next-Generation Sequencing Chiuan-Yu Li 1,2,†, Tzen-Yuh Chiang 3,†, Yu-Chung Chiang 4,†, Hsin-Mei Hsu 5, Xue-Jun Ge 6, Chi-Chun Huang 7, Chaur-Tzuhn Chen 5 and Kuo-Hsiang Hung 2,* Received: 24 November 2015 ; Accepted: 31 December 2015 ; Published: 7 January 2016 Academic Editor: Derek J. McPhee 1 Taiwan Endemic Species Research Institute, Nantou 552, Taiwan; [email protected] 2 Graduate Institute of Bioresources, Pingtung University of Science and Technology, Pingtung 912, Taiwan 3 Department of Life Sciences, National Cheng-Kung University, Tainan 701, Taiwan; [email protected] 4 Department of Biological Sciences, National Sun Yat-sen University, Kaohsiung 804, Taiwan; [email protected] 5 Department of Forestry, Pingtung University of Science and Technology, Pingtung 912, Taiwan; [email protected] (H.-M.H.); [email protected] (C.-T.C.) 6 South China Botanical Garden, Chinese Academy of Sciences, Guangzhou 510650, China; [email protected] 7 Kinmen National Park, Kinmen 892, Taiwan; [email protected] * Correspondence: [email protected]; Tel.: +886-8-770-3202 † These authors contributed equally to this work. Abstract: Amentotaxus, a genus of Taxaceae, is an ancient lineage with six relic and endangered species. Four Amentotaxus species, namely A. argotaenia, A. formosana, A. yunnanensis, and A. poilanei, are considered a species complex because of their morphological similarities. Small populations of these species are allopatrically distributed in Asian forests. However, only a few codominant markers have been developed and applied to study population genetic structure of these endangered species. -
Redalyc.Identification of Isoquinoline Alkaloids from Berberis Microphylla
Boletín Latinoamericano y del Caribe de Plantas Medicinales y Aromáticas ISSN: 0717-7917 [email protected] Universidad de Santiago de Chile Chile MANOSALVA, Loreto; MUTIS, Ana; DÍAZ, Juan; URZÚA, Alejandro; FAJARDO, Víctor; QUIROZ, Andrés Identification of isoquinoline alkaloids from Berberis microphylla by HPLC ESI-MS/MS Boletín Latinoamericano y del Caribe de Plantas Medicinales y Aromáticas, vol. 13, núm. 4, 2014, pp. 324-335 Universidad de Santiago de Chile Santiago, Chile Available in: http://www.redalyc.org/articulo.oa?id=85631435002 How to cite Complete issue Scientific Information System More information about this article Network of Scientific Journals from Latin America, the Caribbean, Spain and Portugal Journal's homepage in redalyc.org Non-profit academic project, developed under the open access initiative © 2014 Boletín Latinoamericano y del Caribe de Plantas Medicinales y Aromáticas 13 (4): 324 - 335 ISSN 0717 7917 www.blacpma.usach.cl Artículo Original | Original Article In memorian Professor Luis Astudillo, Universidad de Talca, Chile Identification of isoquinoline alkaloids from Berberis microphylla by HPLC ESI-MS/MS [Identificación de alcaloides isoquinolínicos en Berberis microphylla G. Forst mediante CLAE IES-MS/MS] Loreto MANOSALVA1, Ana MUTIS2, Juan DÍAZ3, Alejandro URZÚA4, Víctor FAJARDO5 & Andrés QUIROZ2 1Doctorado en Ciencias de Recursos Naturales; 2Laboratorio de Ecología Química, Departamento de Ciencias Químicas y Recursos Naturales; 3Laboratory of Mass Spectrometry, Scientific and Technological Bioresource Nucleus (Bioren), Universidad de La Frontera, Temuco, Chile 4Laboratory of Chemical Ecology, Department of Environmental Sciences, Faculty of Chemistry and Biology, Universidad de Santiago de Chile 5Chile Laboratorio de Productos Naturales, Universidad de Magallanes, Punta Arenas, Chile Contactos | Contacts: Andrés QUIROZ - E-mail address: [email protected] Abstract: Berberis microphylla (G. -
Camellia Sinensis (L.) Kuntze (7)
“As Primeiras Camélias Asiáticas a Chegarem a Portugal e à Europa”. Armando Oliveira António Sanches (1623), Planisfério. 1 O género Camellia L. está praticamente confinado ao sul da China (80% de todas as espécies) e à região do sul da Ásia que inclui as Filipinas e as zonas do noroeste do arquipélago da Indonésia, com a inclusão do Japão e partes da Coreia. Estima-se que praticamente 20% das espécies de Camellia se encontram no Vietname. A região fitogeográfica do sul da Ásia é composta pela China, Laos, Mianmar (ex-Birmânia), Tailândia, Camboja e Vietname. 1 (Huang et al., 2016) 106 • A proposta taxonómica de Linnaeus (1835), “Sistema Natura”, permitiu-nos obter uma mais fácil e rápida identificação das espécies. • Baseia-se numa classificação dita binomial que atribui nomes compostos por duas palavras, quase sempre recorrendo ao latim. Adaptado de Fairy Lake Botanical Garden Flora (2018) 2 Reino Filo Classe Ordem Família Género Espécies/Variedades Cultivares Camellia caudata Wall. (11) Camellia drupifera Lour. (4) Dicotiledóneas Antófitas Camellia euryoides Lindl. (7) Vegetal (a semente Ericales (25) Theaceaes (12) Camellia (102+40) (que dão flor) contém 2 ou mais Camellia japonica L. cotilédones) Camellia kissi Wall. (11) Camellia oleifera Abel (6) Camellia rosaeflora Hook. (1) Camellia sasanqua Thunb. Camellia sinensis (L.) Kuntze (7) • A 1ª parte do nome é referente ao género da espécie em causa e a 2ª parte identifica a espécie dentro de um determinado género. Adaptado de Fairy Lake Botanical Garden Flora (2018) 2 Ordem Família -
RPP Athrotaxis Cupressoides Rainforest: Grassy Facies
Vegetation Condition Benchmarks version 1 Rainforest and Related Scrub RPP Athrotaxis cupressoides rainforest: grassy facies Community Description: Athrotaxis cupressoides rainforest (RPP) forest is open or closed montane forest vegetation dominated by Athrotaxis cupressoides. In the grassy facies the understorey commonly contains Poa gunnii and a range of other grass species. Other understorey species may include Astelia alpina, Carpha alpina, Gleichenia alpina, Lepidosperma filiforme, Oreobolus distichus, Richea scoparia and Olearia pinifolius. This is one of three benchmarks that can be used to assess the condition of RPP. It is the appropriate benchmark to use in assessing the condition of the grassy component of the listed Athrotaxis cupressoides rainforest community (Schedule 3A, Nature Conservation Act 2002). Benchmarks: Length Component Cover % Height (m) DBH (cm) #/ha (m)/0.1 ha Canopy 60% - - - Large Trees - 14 60 300 Organic Litter 45% - Logs ≥ 10 - 20 Large Logs ≥ 30 Recruitment Continuous Understorey Life Forms LF code # Spp Cover % Immature tree IT 1 5 Tree or large shrub T 2 5 Shrub S 2 5 Herbs and orchids H 2 5 Grass G 4 20 Tiny grass/tiny sedge/tiny lily TGS 1 2 Medium sedge/rush/sagg/lily MSR 2 10 Ground fern GF 1 5 Mosses and Lichens ML 1 5 Total 9 16 Last reviewed – 2 November 2016 Tasmanian Vegetation Monitoring and Mapping Program Department of Primary Industries, Parks, Water and Environment http://www.dpipwe.tas.gov.au/tasveg RPP Athrotaxis cupressoides rainforest: grassy facies Species lists: Canopy Tree Species Common Name Notes Athrotaxis cupressoides pencil pine Cradle Mountain area; some Athrotaxis selaginoides king billy pine closed canopy forests Cradle Mountain area; some Nothofagus cunninghamii myrtle beech closed canopy forests Typical Understorey Species * Common Name LF Code Nothofagus cunninghamii myrtle beech T Phyllocladus aspleniifolius celery top pine T Olearia pinifolia prickly daisybush S Richea species richea S Poa gunnii gunns snowgrass G Rytidosperma spp. -
Index Seminum 2018-2019
UNIVERSITÀ DEGLI STUDI DI NAPOLI FEDERICO II ORTO BOTANICO INDEX SEMINUM 2018-2019 In copertina / Cover “La Terrazza Carolina del Real Orto Botanico” Dedicata alla Regina Maria Carolina Bonaparte da Gioacchino Murat, Re di Napoli dal 1808 al 1815 (Photo S. Gaudino, 2018) 2 UNIVERSITÀ DEGLI STUDI DI NAPOLI FEDERICO II ORTO BOTANICO INDEX SEMINUM 2018 - 2019 SPORAE ET SEMINA QUAE HORTUS BOTANICUS NEAPOLITANUS PRO MUTUA COMMUTATIONE OFFERT 3 UNIVERSITÀ DEGLI STUDI DI NAPOLI FEDERICO II ORTO BOTANICO ebgconsortiumindexseminum2018-2019 IPEN member ➢ CarpoSpermaTeca / Index-Seminum E- mail: [email protected] - Tel. +39/81/2533922 Via Foria, 223 - 80139 NAPOLI - ITALY http://www.ortobotanico.unina.it/OBN4/6_index/index.htm 4 Sommario / Contents Prefazione / Foreword 7 Dati geografici e climatici / Geographical and climatic data 9 Note / Notices 11 Mappa dell’Orto Botanico di Napoli / Botanical Garden map 13 Legenda dei codici e delle abbreviazioni / Key to signs and abbreviations 14 Index Seminum / Seed list: Felci / Ferns 15 Gimnosperme / Gymnosperms 18 Angiosperme / Angiosperms 21 Desiderata e condizioni di spedizione / Agreement and desiderata 55 Bibliografia e Ringraziamenti / Bibliography and Acknowledgements 57 5 INDEX SEMINUM UNIVERSITÀ DEGLI STUDI DI NAPOLI FEDERICO II ORTO BOTANICO Prof. PAOLO CAPUTO Horti Praefectus Dr. MANUELA DE MATTEIS TORTORA Seminum curator STEFANO GAUDINO Seminum collector 6 Prefazione / Foreword L'ORTO BOTANICO dell'Università ha lo scopo di introdurre, curare e conservare specie vegetali da diffondere e proteggere, -
Wood Anatomy of Actinostrobus (Cupressaceae)
IAWA Journal, Vol. 26 (I), 2005: 79-92 WOOD ANATOMY OF ACTINOSTROBUS (CUPRESSACEAE) R. D. Heady 1 & P. D. Evans2 SUMMARY The wood anatomy of the Western Australian species Actinostrobus are narius (Cupressaceae) is described for the first time and its features are compared with those of the two other species in the genus: A. acuminatus and A. pyramidalis. Mature heartwood in A. arenarius is light-brown in colour and has an air-dry density of0.56 g/cm3. Average tracheid length is 4.3 mm. A very prominent warty layer, with individual warts commonly greater than one micron in height and large enough to be visible to light microscopy, lines the inner walls of tracheids. Callitroid thickening is commonly present in narrow (latewood) tracheids, but is absent from wide ones (earlywood). Axial parenchyma cells with dark-red resinous inc1usions are tangentially zonate in earlywood. Bordered pitting in early wood and latewood is uniseriate. Pit borders are circular and there is a raised torus. Average ray height is low. Cross-field pitting is cupressoid and the number of pits per cross field ranges from two to five, with a mean of 3.1. Average ray heights, ray frequencies, ray volumes, and numbers of pits present in cross fields are higher in A. arenarius than in A. pyra midalis, thus supporting the c1assification of A. arenarius as aseparate species within Actinostrobus. Veins of distorted xylem cells, similar in appearance to 'frost rings' occur sporadically in the sterns of a11 three species. If such rings are confined to Actinostrobus, then the combination of a very prominent warty layer, and the common occurrence of frost rings could provide a means of separating Actinostrobus from Callitris.