Juncaginaceae
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Insights Into Genomic Structure and Evolutionary Processes of Coastal Suaeda Species in East Asia Using Cpdna, Ndna, and Genome
www.nature.com/scientificreports OPEN Insights into genomic structure and evolutionary processes of coastal Suaeda species in East Asia using cpDNA, nDNA, and genome‑wide SNPs Jong‑Soo Park, Dong‑Pil Jin & Byoung‑Hee Choi* Species in the genus Suaeda have few diagnostic characters and substantial morphological plasticity. Hence, regional foras do not provide clear taxonomic information for Suaeda spp. in East Asia. In order to assess the taxonomy of four species in the genus Suaeda (S. australis, S. maritima, S. japonica, and S. heteroptera), cpDNA (rpl32‑trnL and trnH‑psbA), nDNA (ITS), and MIG‑seq analyses were carried out. Genome‑wide SNP results indicated three lineages: (1) S. australis in Korea and S. maritima in Japan, (2) S. maritima in Korea and S. heteroptera in China, and (3) S. japionica. In phylogenetic trees and genotype analyses, cpDNA and nDNA results showed discrepancies, while S. japonica and S. maritima in Korea, and S. heteroptera in China shared the same haplotype and ribotype. We suggest that the shared haplotype may be due to chloroplast capture. Based on our results, we assume that S. japonica was formed by homoploid hybrid speciation between the two lineages. Te genus Suaeda Forssk. ex J.F. Gmel., in the Amaranthaceae family 1, comprises approximately 80–100 spe- cies of halophytic herbs or shrubs distributed worldwide in semiarid and arid regions, and along the seashores, including the Pacifc 2–5. An integrated molecular and morphological phylogenetic study of the subfamily Suae- doideae Ulbr. suggests that the genus Suaeda is comprised of two subgenera (Brezia (Moq.) Freitag & Schütze, and Suaeda) and eight sections (Brezia (Moq.) Volk. -
Traditional Information and Antibacterial Activity of Four Bulbine Species (Wolf)
African Journal of Biotechnology Vol. 10 (2), pp. 220-224, 10 January, 2011 Available online at http://www.academicjournals.org/AJB DOI: 10.5897/AJB10.1435 ISSN 1684–5315 © 2011 Academic Journals Full Length Research Paper Traditional information and antibacterial activity of four Bulbine species (Wolf) R. M. Coopoosamy Department of Nature Conservation, Mangosuthu University of Technology, P O Box 12363, Jacobs4026, Durban, KwaZulu-Natal, South Africa. E-mail: [email protected]. Tel: +27 82 200 3342. Fax: +27 31 907 7665. Accepted 7 December, 2010 Ethnobotanical survey of Bulbine Wolf, (Asphodelaceae) used for various treatment, such as, diarrhea, burns, rashes, blisters and insect bites, was carried out in the Eastern Cape Province of South Africa. Information on the parts used and the methods of preparation was collected through questionnaire which was administered to the herbalists, traditional healers and rural dwellers which indicated the extensive use of Bulbine species. Most uses of Bulbine species closely resemble that of Aloe . Dried leaf bases and leaf sap are the commonest parts of the plants used. Preparations were in the form of decoctions and infusions. Bulbine frutescens was the most frequently and commonly used of the species collected for the treatment of diarrhoea, burns, rashes, blisters, insect bites, cracked lips and mouth ulcers. The leaf, root and rhizome extracts of B. frutescens, Bulbine natalensis, Bulbine latifolia and Bulbine narcissifolia were screened for antibacterial activities to verify their use by traditional healers. Key words: Herbal medicine, diarrhea, medicinal plants, Bulbine species, antibacterial activity. INTRODUCTION Many traditionally used plants are currently being investi- developing countries where traditional medicine plays a gated for various medicinal ailments such as treatment to major role in health care (Farnsworth, 1994; Srivastava et cure stomach aliments, bolding, headaches and many al., 1996). -
Antimicrobial and Chemical Analyses of Selected Bulbine Species
./ /' ANTIMICROBIAL AND CHEMICAL ANALYSES OF SELECTED BULBINE SPECIES BY f' CHUNDERIKA MOCKTAR Submitted in part fulfilment ofthe requirements for the degree of Master of Medical Science (Pharmaceutical Microbiolgy) i,n the Department of Pharmacy in the Faculty of Health Sciences at the Universi1y of Durban-Westville Promotor: Dr S.Y. Essack Co-promotors: Prof. B.C. Rogers Prof. C.M. Dangor .., To my children, Dipika, Jivesh and Samika Page ii sse "" For Shri Vishnu for the guidance and blessings Page iji CONTENTS PAGE Summary IV Acknowledgements VI List ofFigures vu List ofTables X CHAPTER ONE: INTRODUCTION AND LITERATURE REVIEW 1 1.1 Introduction 3 1.1.1 Background and motivation for the study 3 1.1.2 Aims 6 1.2 Literature Review 6 1.2.1 Bacteriology 7 1.2.1.1 Size and shape ofbacteria 7 1.2.1.2 Structure ofBacteria 7 1.2.1.3 The Bacterial Cell Wall 8 1.2.2 Mycology 10 1.2.3 Traditional Medicine in South Africa 12 1.2.3.1 Traditional healers and reasons for consultation 12 1.2.3.2 The integration oftraditional healing systems with western Medicine 13 1.2.3.3 Advantages and Disadvantages ofconsulting traditional healers 14 1.2.4 Useful Medicinal Plants 16 1.2.5 Adverse effects ofplants used medicinally 17 1.2.6 The Bulbine species 19 1.2.6.1 The Asphodelaceae 19 1.2.6.2 Botany ofthe Bulbine species 19 CHAPTER TWO: MATERIALS AND METHODS 27 2.1 Preparation ofthe crude extracts 29 2.1.1 Collection ofthe plant material 30 2.1.2 Organic Extraction 30 2.1.3 Aqueous Extraction 31 2.2 Antibacterial Activities 31 2.2.1 Bacteriology 31 2.2.2 Preparation ofthe Bacterial Cultures 33 2.2.3 Preparation ofthe Agar Plates 33 2.2.4 Preparation ofCrude Extracts 33 2.2.5 Disk Diffusion Method 34 2.2.6 Bore Well Method 34 2.3 Mycology 34 2.3.1 Fungi used in this study 34 2.3.2 Preparation ofFungal Spores 35 2.3.3 Preparation ofC. -
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 -
FLORA from FĂRĂGĂU AREA (MUREŞ COUNTY) AS POTENTIAL SOURCE of MEDICINAL PLANTS Silvia OROIAN1*, Mihaela SĂMĂRGHIŢAN2
ISSN: 2601 – 6141, ISSN-L: 2601 – 6141 Acta Biologica Marisiensis 2018, 1(1): 60-70 ORIGINAL PAPER FLORA FROM FĂRĂGĂU AREA (MUREŞ COUNTY) AS POTENTIAL SOURCE OF MEDICINAL PLANTS Silvia OROIAN1*, Mihaela SĂMĂRGHIŢAN2 1Department of Pharmaceutical Botany, University of Medicine and Pharmacy of Tîrgu Mureş, Romania 2Mureş County Museum, Department of Natural Sciences, Tîrgu Mureş, Romania *Correspondence: Silvia OROIAN [email protected] Received: 2 July 2018; Accepted: 9 July 2018; Published: 15 July 2018 Abstract The aim of this study was to identify a potential source of medicinal plant from Transylvanian Plain. Also, the paper provides information about the hayfields floral richness, a great scientific value for Romania and Europe. The study of the flora was carried out in several stages: 2005-2008, 2013, 2017-2018. In the studied area, 397 taxa were identified, distributed in 82 families with therapeutic potential, represented by 164 medical taxa, 37 of them being in the European Pharmacopoeia 8.5. The study reveals that most plants contain: volatile oils (13.41%), tannins (12.19%), flavonoids (9.75%), mucilages (8.53%) etc. This plants can be used in the treatment of various human disorders: disorders of the digestive system, respiratory system, skin disorders, muscular and skeletal systems, genitourinary system, in gynaecological disorders, cardiovascular, and central nervous sistem disorders. In the study plants protected by law at European and national level were identified: Echium maculatum, Cephalaria radiata, Crambe tataria, Narcissus poeticus ssp. radiiflorus, Salvia nutans, Iris aphylla, Orchis morio, Orchis tridentata, Adonis vernalis, Dictamnus albus, Hammarbya paludosa etc. Keywords: Fărăgău, medicinal plants, human disease, Mureş County 1. -
Outline of Angiosperm Phylogeny
Outline of angiosperm phylogeny: orders, families, and representative genera with emphasis on Oregon native plants Priscilla Spears December 2013 The following listing gives an introduction to the phylogenetic classification of the flowering plants that has emerged in recent decades, and which is based on nucleic acid sequences as well as morphological and developmental data. This listing emphasizes temperate families of the Northern Hemisphere and is meant as an overview with examples of Oregon native plants. It includes many exotic genera that are grown in Oregon as ornamentals plus other plants of interest worldwide. The genera that are Oregon natives are printed in a blue font. Genera that are exotics are shown in black, however genera in blue may also contain non-native species. Names separated by a slash are alternatives or else the nomenclature is in flux. When several genera have the same common name, the names are separated by commas. The order of the family names is from the linear listing of families in the APG III report. For further information, see the references on the last page. Basal Angiosperms (ANITA grade) Amborellales Amborellaceae, sole family, the earliest branch of flowering plants, a shrub native to New Caledonia – Amborella Nymphaeales Hydatellaceae – aquatics from Australasia, previously classified as a grass Cabombaceae (water shield – Brasenia, fanwort – Cabomba) Nymphaeaceae (water lilies – Nymphaea; pond lilies – Nuphar) Austrobaileyales Schisandraceae (wild sarsaparilla, star vine – Schisandra; Japanese -
Ultrastructural Micromorphology of Bulbine Abyssinica A
Pak. J. Bot., 47(5): 1929-1935, 2015. ULTRASTRUCTURAL MICROMORPHOLOGY OF BULBINE ABYSSINICA A. RICH. GROWING IN THE EASTERN CAPE PROVINCE, SOUTH AFRICA CROMWELL MWITI KIBITI AND ANTHONY JIDE AFOLAYAN* Medicinal Plants and Economic Development Research Centre (MPED), Department of Botany, University of Fort Hare, Alice, 5700, South Africa Corresponding author e-mail: [email protected]; Phone: +27 82 202 2167; Fax: +27 866 282 295 Abstract The genus Bulbine (Asphodelaceae) comprises about 40 species in South Africa. Bulbine abyssinica is a succulent member of the genus that occurs from the Eastern Cape, through Swaziland, Lesotho, and further north to Ethiopia. The species is often used in traditional medicine to treat rheumatism dysentery, bilharzia and diabetes. Inspite of its ethno medicinal value, not much data concerning the micro-morphological features is available in literature. The present study was undertaken to examine the ultra-morphological features of the leaf, stem and root of the plant using light and scanning electron microscopes and the elemental composition. The elemental compositions of the plant parts were done using energy dispersive x- ray spectroscopy. The mean length and width of the guard cells in the abaxial surface are 0.15 ± 0.002 mm and 0.14 ± 0.002 mm, respectively while those of the adaxial surface are 0.14 ± 0.001 mm and 0.12 ± 0.001 mm, respectively. The electron microscopy revealed the presence of crystals in the leaves, stems and roots. The EDXS microanalysis of the crystals revealed the presence of sodium, silicon, potassium and calcium as the major constituents. The leaf also showed the presence of iron and magnesium, while the stem had aluminium, phosphorous and magnesium. -
STREAKED ARROWGRASS Triglochin Striatum
TREAKED RROWGRASS H10 © photos G. Sainty & DPI Hamilton S A SALTdeck Series Triglochin striatum HERB 2cm 2mm Sustainable STREAKED ARROWGRASS Grazing on SALTdeck Series Triglochin striatum Saline Land © AWI & CRC Salinity 2006 Family: Juncaginaceae. H10 Description: Erect perennial often less than 30 cm tall, but occasionally to 50 cm. Leaves in tufts on an extensive rhizome. Flowerhead an erect spike to 15 cm long. Flowers green. Fruit round to egg-shaped, 1.5–3 mm long, on a short stalk, spirally arranged on a spike (see photo). Flowers spring to autumn. Key features: Absence of tubers (other species of Triglochin usually with tubers), presence of a sheath and a membranous ligule, and narrow leaves that are cylindrical or flat and strap-like. Value: Palatable to sheep, moderate feed energy value, but recovers slowly from grazing. Remains green during summer where it has access to groundwater. May form large patches but usually part of the salt tolerant mix of plants in saline land. Rhizomatous habit and dense cover reduces the potential for erosion. Salinity and waterlogging tolerance: High tolerance to salt and waterlogging. Notes: Native to all States, North and South America and southern Africa. Useful indicator of salinity. Grows widely along the coast and in Victoria is widespread inland. Thrives in coastal saltmarsh and common in the low marsh inundated zone. Flowers in summer, and produces much seed from which it is easy to propagate. A good pioneer plant. References: Flora of South Australia, Jessop and Toelken (eds), Part 4, 4th edition, 1986. Flora of Victoria, Walsh and Entwisle H (eds), Vol. -
Eutaxia Microphylla Common Eutaxia Dillwynia Hispida Red Parrot-Pea Peas FABACEAE: FABOIDEAE Peas FABACEAE: FABOIDEAE LEGUMINOSAE LEGUMINOSAE
TABLE OF CONTENTS Foreword iv printng informaton Acknowledgements vi Introducton 2 Using the Book 3 Scope 4 Focus Area Reserve Locatons 5 Ground Dwellers 7 Creepers And Twiners 129 Small Shrubs 143 Medium Shrubs 179 Large Shrubs 218 Trees 238 Water Lovers 257 Grasses 273 Appendix A 290 Appendix B 293 Resources 300 Glossary 301 Index 303 ii iii Ground Dwellers Ground dwellers usually have a non-woody stem with most of the plant at ground level They sometmes have a die back period over summer or are annuals They are usually less than 1 metre high, provide habitat and play an important role in preventng soil erosion Goodenia blackiana, Kennedia prostrata, Glossodia major, Scaevola albida, Arthropodium strictum, Gonocarpus tetragynus Caesia calliantha 4 5 Bulbine bulbosa Bulbine-lily Tricoryne elator Yellow Rush-lily Asphodel Family ASPHODELACEAE Day Lily Family HEMEROCALLIDACEAE LILIACEAE LILIACEAE bul-BINE (bul-BEE-nee) bul-bohs-uh Meaning: Bulbine – bulb, bulbosa – bulbous triek-uhr-IEN-ee ee-LAHT-ee-or Meaning: Tricoryne – three, club shaped, elator – taller General descripton A small perennial lily with smooth bright-green leaves and General descripton Ofen inconspicuous, this erect branched plant has fne, yellow fowers wiry stems and bears small clusters of yellow star-like fowers at the tps Some Specifc features Plants regenerate annually from a tuber to form a tall longish leaves present at the base of the plant and up the stem stem from a base of feshy bright-green Specifc features Six petaled fowers are usually more than 1 cm across, -
GENOME EVOLUTION in MONOCOTS a Dissertation
GENOME EVOLUTION IN MONOCOTS A Dissertation Presented to The Faculty of the Graduate School At the University of Missouri In Partial Fulfillment Of the Requirements for the Degree Doctor of Philosophy By Kate L. Hertweck Dr. J. Chris Pires, Dissertation Advisor JULY 2011 The undersigned, appointed by the dean of the Graduate School, have examined the dissertation entitled GENOME EVOLUTION IN MONOCOTS Presented by Kate L. Hertweck A candidate for the degree of Doctor of Philosophy And hereby certify that, in their opinion, it is worthy of acceptance. Dr. J. Chris Pires Dr. Lori Eggert Dr. Candace Galen Dr. Rose‐Marie Muzika ACKNOWLEDGEMENTS I am indebted to many people for their assistance during the course of my graduate education. I would not have derived such a keen understanding of the learning process without the tutelage of Dr. Sandi Abell. Members of the Pires lab provided prolific support in improving lab techniques, computational analysis, greenhouse maintenance, and writing support. Team Monocot, including Dr. Mike Kinney, Dr. Roxi Steele, and Erica Wheeler were particularly helpful, but other lab members working on Brassicaceae (Dr. Zhiyong Xiong, Dr. Maqsood Rehman, Pat Edger, Tatiana Arias, Dustin Mayfield) all provided vital support as well. I am also grateful for the support of a high school student, Cady Anderson, and an undergraduate, Tori Docktor, for their assistance in laboratory procedures. Many people, scientist and otherwise, helped with field collections: Dr. Travis Columbus, Hester Bell, Doug and Judy McGoon, Julie Ketner, Katy Klymus, and William Alexander. Many thanks to Barb Sonderman for taking care of my greenhouse collection of many odd plants brought back from the field. -
Native Plant List, Pdf Format
Appendix A: City of Bellingham Native Plant List December 2020 The City of Bellingham Native Plant List (Figure 1) includes plant species that are native to Bellingham watersheds (Figure 2). The native plant list applies to all habitat types, including riparian, upland, and wetland areas. The list was developed using specimen records from the Consortium of Pacific Northwest Herbaria and Bellingham plant checklists curated by Don Knoke, a volunteer at the University of Washington Herbarium. To improve plant establishment and protect the genetic resources of our local plant populations, the City recommends using native plants that were grown from seeds or cuttings collected from the Puget Trough Ecoregion (Figure 3). Obtaining native plants grown from material collected from the Puget Trough Ecoregion will help ensure the plants are adapted to the unique environmental conditions of Bellingham watersheds and are genetically similar to our local plant populations. A more thorough discussion of the rational and selection process is provided in the City of Bellingham Public Works Department Native Plant Materials Selection Guidelines, December 2020. Figure 1. City of Bellingham Native Plant List Ferns Common Name Scientific Name Family Bracken fern Pteridium aquilinum var. pubescens Dennstaedtiaceae Bristle-like quillwort Isoetes tenella Isoetaceae Common horsetail Equisetum arvense Equisetaceae Deer fern Struthiopteris spicant (Blechnum spicant) Blechnaceae Dream fern Aspidotis densa Pteridaceae Giant horsetail Equisetum telmateia ssp. braunii -
Bulbine Bulbosa
Bulbine bulbosa Bulbine bulbosa Botanical Name: Bulbine bulbosa Common Names: Bulbine Lily, Native: Yes Foliage Type: Evergreen Plant Type: Herbs & Vegetables, Palms, Ferns & Tropical Plant Habit: Tufting, Upright Description: Native grass-like perennial shrub with long narrow foliage and small yellow star-like flowers which sit on large spikes throughout spring and summer. Bulbine bulbosa produces edible corms that can be roasted but all other parts of this plant are toxic and should not be eaten. Grows approx 70cm tall x 40cm wide. Great for garden beds or containers. Mature Height: 60cm-1m Position: Full Sun, Semi Shade Mature Width: 30-60cm Soil Type: Well Drained Family Name: Xanthorrhoeaceae Landscape Use(s): Bush Tucker, Edible Garden, Habitat, Low Water Garden, Mass Planting, Rockery, Container / Pot Origin: Australia Characteristics: Pest & Diseases: Generally trouble free Foliage Colours: Green, Grey Flower Colours: Yellow Flower Fragrant: No Cultural Notes: Minimal maintenance required. Prefers water often. Flowering Season: Spring, Summer Fruit: No Plant Care: Requirements: Keep moist during dry periods, Mulch well Growth Rate: Moderate Maintenance Level: Low Water Usage: High Tolerances: Drought: Medium / Moderate Frost: High Wind: High Disclaimer: Information and images provided is to be used as a guide only. While every reasonable effort is made to ensure accuracy and relevancy of all information, any decisions based on this information are the sole responsibility of the viewer. Call 1300 787 401 plantmark.com.au.