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Leonardo Ramos Seixas Guimarães Flora Da Serra Do Cipó
LEONARDO RAMOS SEIXAS GUIMARÃES FLORA DA SERRA DO CIPÓ (MINAS GERAIS, BRASIL): ORCHIDACEAE – SUBFAMÍLIA VANILLOIDEAE E SUBTRIBOS DENDROBIINAE, ONCIDIINAE, MAXILLARIINAE (SUBFAMÍLIA EPIDENDROIDEAE), GOODYERINAE, SPIRANTHINAE E CRANICHIDINAE (SUBFAMÍLIA ORCHIDOIDEAE) Dissertação apresentada ao Instituto de Botânica da Secretaria do Meio Ambiente, como parte dos requisitos exigidos para obtenção do título de MESTRE em Biodiversidade Vegetal e Meio Ambiente, na área de concentração de Plantas Vasculares. SÃO PAULO 2010 LEONARDO RAMOS SEIXAS GUIMARÃES FLORA DA SERRA DO CIPÓ (MINAS GERAIS, BRASIL): ORCHIDACEAE – SUBFAMÍLIA VANILLOIDEAE E SUBTRIBOS DENDROBIINAE, ONCIDIINAE, MAXILLARIINAE (SUBFAMÍLIA EPIDENDROIDEAE), GOODYERINAE, SPIRANTHINAE E CRANICHIDINAE (SUBFAMÍLIA ORCHIDOIDEAE) Dissertação apresentada ao Instituto de Botânica da Secretaria do Meio Ambiente, como parte dos requisitos exigidos para obtenção do título de MESTRE em Biodiversidade Vegetal e Meio Ambiente, na área de concentração de Plantas Vasculares. Orientador: Dr. Fábio de Barros Ficha Catalográfica elaborada pelo Núcleo de Biblioteca e Memória do Instituto de Botânica Guimarães, Leonardo Ramos Seixas G963f Flora da Serra do Cipó (Minas Gerais, Brasil): Orchidaceae – subfamília Vanilloideae e subtribos Dendrobiinae, Oncidiinae, Maxillariinae (subfamília Epidendroideae), Goodyerinae, Spiranthinae e Cranichidinae (subfamília Orchidoideae) / Leonardo Ramos Seixas Guimarães -- São Paulo, 2010. 150 p. il. Dissertação (Mestrado) -- Instituto de Botânica da Secretaria de Estado do Meio Ambiente, 2010 Bibliografia. 1. Orchidaceae. 2. Campo rupestre. 3. Serra do Cipó. I. Título CDU: 582.594.2 Alegres campos, verdes arvoredos, claras e frescas águas de cristal, que em vós os debuxais ao natural, discorrendo da altura dos rochedos; silvestres montes, ásperos penedos, compostos de concerto desigual, sabei que, sem licença de meu mal, já não podeis fazer meus olhos ledos. E, pois me já não vedes como vistes, não me alegrem verduras deleitosas, nem águas que correndo alegres vêm. -
Network Scan Data
Selbyana 15: 132-149 CHECKLIST OF VENEZUELAN BROMELIACEAE WITH NOTES ON SPECIES DISTRIBUTION BY STATE AND LEVELS OF ENDEMISM BRUCE K. HOLST Missouri Botanical Garden, P.O. Box 299, St. Louis, Missouri 63166-0299, USA ABSTRACf. A checklist of the 24 genera and 364 native species ofBromeliaceae known from Venezuela is presented, including their occurrence by state and indications of which are endemic to the country. A comparison of the number of genera and species known from Mesoamerica (southern Mexico to Panama), Colombia, Venezuela, the Guianas (Guyana, Suriname, French Guiana), Ecuador, and Peru is presented, as well as a summary of the number of species and endemic species in each Venezuelan state. RESUMEN. Se presenta un listado de los 24 generos y 364 especies nativas de Bromeliaceae que se conocen de Venezuela, junto con sus distribuciones por estado y una indicaci6n cuales son endemicas a Venezuela. Se presenta tambien una comparaci6n del numero de los generos y especies de Mesoamerica (sur de Mexico a Panama), Colombia, Venezuela, las Guayanas (Guyana, Suriname, Guyana Francesa), Ecuador, y Peru, y un resumen del numero de especies y numero de especies endemicas de cada estado de Venezuela. INTRODUCTION Bromeliaceae (Smith 1971), and Revision of the Guayana Highland Bromeliaceae (Smith 1986). The checklist ofVenezuelan Bromeliaceae pre Several additional country records were reported sented below (Appendix 1) adds three genera in works by Smith and Read (1982), Luther (Brewcaria, Neoregelia, and Steyerbromelia) and (1984), Morillo (1986), and Oliva-Esteva and 71 species to the totals for the country since the Steyermark (1987). Author abbreviations used last summary of Venezuelan bromeliads in the in the checklist follow Brummit and Powell Flora de Venezuela series which contained 293 (1992). -
Bromeliaceae) Species from Peru
Phytotaxa 49: 29–33 (2012) ISSN 1179-3155 (print edition) www.mapress.com/phytotaxa/ PHYTOTAXA Copyright © 2012 Magnolia Press Article ISSN 1179-3163 (online edition) A remarkable new Pitcairnia (Bromeliaceae) species from Peru ERIC J. GOUDA1 & RICARDO FERNÁNDEZ G.2 1Botanic Gardens, University of Utrecht (U), Budapestlaan 17, P.O.Box 80162, 3584 HD Utrecht, Netherlands. E-mail: [email protected] 2Universidad Nacional Mayor de San Marcos (USM), Museo de Historia Natural, Casilla 14-0434, Lima 14, Peru. Abstract A new species of Pitcairnia subgenus Pepinia (Pitcairnioideae) is described and illustrated here. Pitcairnia floresii sp. nov. has been found in the Department San Martín of Peru and is locally abundant. Key words: Flora of Peru, Pepinia, taxonomy Introduction This remarkable new Pitcairnia species with linear-lanceolate leaf blades and its red inflorescence with bright yellow flowers is rather common in the Central Huallaga River Valley area. The famous collector Richard Spruce was in this area in 1855 (León et al. 2003: 112), but as far as known no specimen of this species was preserved, nor was it collected afterwards. Another Pitcairnia, P. calatheoides Smith (1937: 24) has been described from the very same area, but is not closely related. The latter species has very long petiolate oblanceolate leaf blades and large orange petals. Mr. Alberto Flores, a farmer from Pucacaca, brought this beautiful species to our attention. From our study of Bromeliaceae of Peru several new species were recently described (Gouda & Manzanares 2008, Gouda 2012). The descriptive terminology of Scharf & Gouda (2008) is followed here. Taxonomy Pitcairnia floresii Gouda & Ric.Fernández, sp.nov. -
Diversity and Levels of Endemism of the Bromeliaceae of Costa Rica – an Updated Checklist
A peer-reviewed open-access journal PhytoKeys 29: 17–62Diversity (2013) and levels of endemism of the Bromeliaceae of Costa Rica... 17 doi: 10.3897/phytokeys.29.4937 CHECKLIST www.phytokeys.com Launched to accelerate biodiversity research Diversity and levels of endemism of the Bromeliaceae of Costa Rica – an updated checklist Daniel A. Cáceres González1,2, Katharina Schulte1,3,4, Marco Schmidt1,2,3, Georg Zizka1,2,3 1 Abteilung Botanik und molekulare Evolutionsforschung, Senckenberg Forschungsinstitut Frankfurt/Main, Germany 2 Institut Ökologie, Evolution & Diversität, Goethe-Universität Frankfurt/Main, Germany 3 Biodive rsität und Klima Forschungszentrum (BiK-F), Frankfurt/Main, Germany 4 Australian Tropical Herbarium & Center for Tropical Biodiversity and Climate Change, James Cook University, Cairns, Australia Corresponding author: Daniel A. Cáceres González ([email protected]) Academic editor: L. Versieux | Received 1 March 2013 | Accepted 28 October 2013 | Published 11 November 2013 Citation: González DAC, Schulte K, Schmidt M, Zizka G (2013) Diversity and levels of endemism of the Bromeliaceae of Costa Rica – an updated checklist. PhytoKeys 29: 17–61. doi: 10.3897/phytokeys.29.4937 This paper is dedicated to the late Harry Luther, a world leader in bromeliad research. Abstract An updated inventory of the Bromeliaceae for Costa Rica is presented including citations of representa- tive specimens for each species. The family comprises 18 genera and 198 species in Costa Rica, 32 spe- cies being endemic to the country. Additional 36 species are endemic to Costa Rica and Panama. Only 4 of the 8 bromeliad subfamilies occur in Costa Rica, with a strong predominance of Tillandsioideae (7 genera/150 spp.; 75.7% of all bromeliad species in Costa Rica). -
Notes on the Genus Ormosia (Fabaceae-Sophoreae) in Thailand
THAI FOREST BULL., BOT. 45(2): 118–124. 2017. DOI https://doi.org/10.20531/tfb.2017.45.2.07 Notes on the genus Ormosia (Fabaceae-Sophoreae) in Thailand SAWAI MATTAPHA1,*, SOMRAN SUDDEE2 & SUKID RUEANGRUEA2 ABSTRACT Ormosia mekongensis Mattapha, Suddee & Rueangr. is described as a new species and illustrated. Its conservation status is assessed and its distribution is mapped. Three other species, Ormosia grandistipulata Whitmore, O. penangensis Ridl. and O. venosa Baker, are updated for the generic account for the Flora of Thailand: the first could now be fully described, because flowers were found, the latter two are new records for peninsular Thailand. KEYWORDS: Lectotypifications, Mekong, new species, new record, PeninsularThailand. Published online: 1 December 2017 INTRODUCTION Niyomdham, Thai Forest Bull., Bot. 13: 5, f. 2. 1980. Type: Malaysia, Trengganu, 1955, Sinclair & Kiah Ormosia Jacks., a genus in the tribe Sophoreae bin Salleh SFN 40851 (holotype SING; isotypes K!, of the Leguminosae, comprises approximately 90 L!-digital images). species distributed in Asia, the Americas and Australia (Queensland) (Lewis et al., 2005). The Tree 10–15 m tall; young shoots, inflorescences genus was revised for Thailand by Niyomdham and calyces pubescent. Leaves: rachis 20–25 cm (1980), who accepted eight indigenous species, and long, apex acute, puberulous; petioles 6–10 cm long; here we add three species, which bring the total stipules large, ovate, 2–5 by 1–3 cm, puberulous on number of Ormosia species for the Flora of Thailand both sides, persistent; leaflets 9–13, coriaceous, account to 11. The three species that are new to oblong-obovate, 4–18 by 2.5–8 cm, upper surface Thailand are O. -
Chec List What Survived from the PLANAFLORO Project
Check List 10(1): 33–45, 2014 © 2014 Check List and Authors Chec List ISSN 1809-127X (available at www.checklist.org.br) Journal of species lists and distribution What survived from the PLANAFLORO Project: PECIES S Angiosperms of Rondônia State, Brazil OF 1* 2 ISTS L Samuel1 UniCarleialversity of Konstanz, and Narcísio Department C.of Biology, Bigio M842, PLZ 78457, Konstanz, Germany. [email protected] 2 Universidade Federal de Rondônia, Campus José Ribeiro Filho, BR 364, Km 9.5, CEP 76801-059. Porto Velho, RO, Brasil. * Corresponding author. E-mail: Abstract: The Rondônia Natural Resources Management Project (PLANAFLORO) was a strategic program developed in partnership between the Brazilian Government and The World Bank in 1992, with the purpose of stimulating the sustainable development and protection of the Amazon in the state of Rondônia. More than a decade after the PLANAFORO program concluded, the aim of the present work is to recover and share the information from the long-abandoned plant collections made during the project’s ecological-economic zoning phase. Most of the material analyzed was sterile, but the fertile voucher specimens recovered are listed here. The material examined represents 378 species in 234 genera and 76 families of angiosperms. Some 8 genera, 68 species, 3 subspecies and 1 variety are new records for Rondônia State. It is our intention that this information will stimulate future studies and contribute to a better understanding and more effective conservation of the plant diversity in the southwestern Amazon of Brazil. Introduction The PLANAFLORO Project funded botanical expeditions In early 1990, Brazilian Amazon was facing remarkably in different areas of the state to inventory arboreal plants high rates of forest conversion (Laurance et al. -
Fruits and Seeds of Genera in the Subfamily Faboideae (Fabaceae)
Fruits and Seeds of United States Department of Genera in the Subfamily Agriculture Agricultural Faboideae (Fabaceae) Research Service Technical Bulletin Number 1890 Volume I December 2003 United States Department of Agriculture Fruits and Seeds of Agricultural Research Genera in the Subfamily Service Technical Bulletin Faboideae (Fabaceae) Number 1890 Volume I Joseph H. Kirkbride, Jr., Charles R. Gunn, and Anna L. Weitzman Fruits of A, Centrolobium paraense E.L.R. Tulasne. B, Laburnum anagyroides F.K. Medikus. C, Adesmia boronoides J.D. Hooker. D, Hippocrepis comosa, C. Linnaeus. E, Campylotropis macrocarpa (A.A. von Bunge) A. Rehder. F, Mucuna urens (C. Linnaeus) F.K. Medikus. G, Phaseolus polystachios (C. Linnaeus) N.L. Britton, E.E. Stern, & F. Poggenburg. H, Medicago orbicularis (C. Linnaeus) B. Bartalini. I, Riedeliella graciliflora H.A.T. Harms. J, Medicago arabica (C. Linnaeus) W. Hudson. Kirkbride is a research botanist, U.S. Department of Agriculture, Agricultural Research Service, Systematic Botany and Mycology Laboratory, BARC West Room 304, Building 011A, Beltsville, MD, 20705-2350 (email = [email protected]). Gunn is a botanist (retired) from Brevard, NC (email = [email protected]). Weitzman is a botanist with the Smithsonian Institution, Department of Botany, Washington, DC. Abstract Kirkbride, Joseph H., Jr., Charles R. Gunn, and Anna L radicle junction, Crotalarieae, cuticle, Cytiseae, Weitzman. 2003. Fruits and seeds of genera in the subfamily Dalbergieae, Daleeae, dehiscence, DELTA, Desmodieae, Faboideae (Fabaceae). U. S. Department of Agriculture, Dipteryxeae, distribution, embryo, embryonic axis, en- Technical Bulletin No. 1890, 1,212 pp. docarp, endosperm, epicarp, epicotyl, Euchresteae, Fabeae, fracture line, follicle, funiculus, Galegeae, Genisteae, Technical identification of fruits and seeds of the economi- gynophore, halo, Hedysareae, hilar groove, hilar groove cally important legume plant family (Fabaceae or lips, hilum, Hypocalypteae, hypocotyl, indehiscent, Leguminosae) is often required of U.S. -
Abstract Germinación De Semillas De Ormosia Macrocalyx, Un Árbol
GEORGINA VARGAS-SIMÓN1,2, PABLO MARTÍNEZ-ZURIMENDI1,3*, MARIVEL DOMÍNGUEZ-DOMÍNGUEZ4 AND REINALDO PIRE5 Botanical Sciences 95 (2): 329-341, 2017 Abstract Background: Ormosia macrocalyx is a tropical forest tree classified as endangered. Its seeds experience problems of dispersion and apparent physical dormancy due to their hard seed coating. DOI: 10.17129/botsci.823 Hypotheses: 1) The stages of dehiscence of the fruits of Ormosia macrocalyx influence the germinative behavior of its seeds. 2) Pregerminative treatments will improve the germination process of the seeds stored under refrigeration. Copyright: © 2017 Vargas-Simón et Study species: Ormosia macrocalyx al. This is an open access article dis- Study site and period: Villahermosa, Tabasco, Mexico from October 2012 to October 2014 tributed under the terms of the Crea- tive Commons Attribution License, Methods: Two completely randomized experiments were conducted in order to analyze the germination process by 1) which permits unrestricted use, dis- evaluating germination in seeds from fruit at three stages of dehiscence (closed, semi-open, and open fruit) and 2) ap- tribution, and reproduction in any plying four treatments, including three pregerminative treatments (water soaking for 24 h, mechanical scarification and medium, provided the original author scarification+1% gibberellic acid) plus an untreated control, to seeds stored under refrigeration for 17 months. and source are credited. Results: Differences were found in germination rate (GR), corrected germination rate (CGR) and time to attain 50 % ger- mination (T50) among treatments in the first experiment, with the seeds from open fruits presenting the lowest response -1 (3.31 % day for GR and CGR, and 15.8 days for T50), although all treatments showed similar times for the initiation Author Contributions of germination (GI) and final germination percentage (GP). -
Frugivory on Margaritaria Nobilis Lf (Euphorbiaceae)
Revista Brasil. Bot., V.31, n.2, p.303-308, abr.-jun. 2008 Frugivory on Margaritaria nobilis L.f. (Euphorbiaceae): poor investment and mimetism ELIANA CAZETTA1,3, LILIANE S. ZUMSTEIN1, TADEU A. MELO-JÚNIOR2 and MAURO GALETTI1 (received: July 04, 2007; accepted: May 15, 2008) ABSTRACT – (Frugivory on Margaritaria nobilis L.f. (Euphorbiaceae): poor investment and mimetism). Dehiscent fruits of Euphorbiaceae usually have two stages of seed dispersal, autochory followed by myrmecochory. Two stages of Margaritaria nobilis seed dispersal were described, the first stage autochoric followed by ornithocoric. Their dehiscent fruits are green and after they detached from the tree crown and fall on the ground, they open and expose blue metallic cocas. We studied the seed dispersal system of Margaritaria nobilis in a semi-deciduous forest in Brazil. In 80 h of focal observations, we recorded only 12 visits of frugivores, however the thrush Turdus leucomelas was the only frugivore that swallowed the fruits on the tree crown. Pitylus fuliginosus (Fringilidae) and Pionus maximiliani (Psittacidae) were mainly pulp eaters, dropping the seeds below the tree. On the forest floor, after fruits dehiscence, jays (Cyanocorax chrysops), guans (Penelope superciliaris), doves (Geotrygon montana) and collared-peccaries (Pecari tajacu) were observed eating the blue diaspores of M. nobilis. Experiments in captivity showed that scaly-headed parrots (Pionus maximiliani), toco toucans (Ramphastos toco), jays (Cyanochorax chrysops), and guans (Penelope superciliaris) consumed the fruits and did not prey on the seeds before consumption. The seeds collected from the feces did not germinate in spite of the high viability. The two stages of seed dispersal in M. -
An Alphabetical List of Bromeliad Binomials
AN ALPHABETICAL LIST OF BROMELIAD BINOMIALS Compiled by HARRY E. LUTHER The Marie Selby Botanical Gardens Sarasota, Florida, USA ELEVENTH EDITION Published by the Bromeliad Society International June 2008 ii INTRODUCTION TO EDITION XI This list is presented as a spelling guide for validly published taxa accepted at the Bromeliad Identification Center. The list contains the following information: 1) Genus number (the left-hand number) based on the systematic sequence published in the Smith & Downs monograph: Bromeliaceae (Flora Neotropica, number 14, parts 1-3; 1974, 1977, 1979). Whole numbers are as published in the monograph. 2) Species number (the second number) according to its systematic position in the monograph. Note: Taxa not included in the monograph or that have been reclassified have been assigned numbers to reflect their systematic position within the Smith & Downs framework (e.g., taxon 14.1 is related to taxon 14). The utility of this method is that one may assume for example that Tillandsia comarapaensis (150.2) is related to T. didisticha (150) and therefore may have certain horticultural qualities in common with that species. 3) Genus and species names follow the respective numbers. 4) Subspecific taxa (subspecies, varieties, forms) names are indented below the species names. Note: Variety "a" (the type variety) is not listed unless it contains a form (see Aechmea caudata ). Similarly, the type form is not listed. 5) Author name follows the specific and subspecific names. These names are included for the convenience of specialist users of the list. This list does not contain publication data or synonymy, as it is not our intent for it to be a technical nomenclatural guide. -
Exponential Fertilization on Red-Seed Tree (Ormosia Hosiei)
Chu X et al . (2021) Notulae Botanicae Horti Agrobotanici Cluj-Napoca Volume 49, Issue 2, Article number 12244 Notulae Botanicae Horti AcademicPres DOI:10.15835/nbha49212244 Agrobotanici Cluj-Napoca Research Article Exponential fertilization on red -seed tree ( Ormosia hosiei ) seedlings subjected to contrasting light conditions: Do we really need intensive nutrient loading? Xiuli CHU 1,2 , Xianyou LUO 3, Zhichun ZHOU 1* 1Research Institute of Subtropical Forestry, Chinese Academy of Forestry, Zhejiang Provincial Key Laboratory of Tree Breeding, 31140, Hangzhou, China; [email protected] ; [email protected] (*corresponding author) 2Shanghai Botanical Garden, Shanghai Engineering Research Center of Sustainable Plant Innovation, 200231, Shanghai, China; [email protected] 3Forestry Academy of Longquan City, Lishui 323700, China; [email protected] Abstract Exponential fertilization (EF) can feed seedlings with more nutrients than needed for growth and continuous lighting is expected to reduce the risk of loading at high application rate. In this study, red-seed tree (Ormosia hosiei Hemsley & E. H. Wilson) seedlings were raised by EF at a low rate of 160 mg nitrogen (N) plant -1 (conventional) (N-phosphorus [P]-potassium [K], 12-9-12) and a high rate of 600 mg N plant -1 (intensive), which was adapted from previous studies with large-pot-seedlings. Both fertilizer regimes were nested to either of two light spectra from high-pressure sodium (HPS) and light-emitting diode (LED) sources with three replicates for each combined treatment. Seedlings subjected to the conventional regime in the LED spectrum showed better growth and greater biomass accumulation with higher leaf N and P contents than other ones. -
Redalyc.GENERIC RELATIONSHIPS of ZYGOPETALINAE (ORCHIDACEAE: CYMBIDIEAE): COMBINED MOLECULAR EVIDENCE
Lankesteriana International Journal on Orchidology ISSN: 1409-3871 [email protected] Universidad de Costa Rica Costa Rica WHITTEN, W. MARK; WILLIAMS, NORRIS H.; DRESSLER, ROBERT L.; GERLACH, GÜNTER; PUPULIN, FRANCO GENERIC RELATIONSHIPS OF ZYGOPETALINAE (ORCHIDACEAE: CYMBIDIEAE): COMBINED MOLECULAR EVIDENCE Lankesteriana International Journal on Orchidology, vol. 5, núm. 2, agosto, 2005, pp. 87- 107 Universidad de Costa Rica Cartago, Costa Rica Available in: http://www.redalyc.org/articulo.oa?id=44339808001 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 LANKESTERIANA 5(2):87-107. 2005. GENERIC RELATIONSHIPS OF ZYGOPETALINAE (ORCHIDACEAE: CYMBIDIEAE): COMBINED MOLECULAR EVIDENCE W. MARK WHITTEN Florida Museum of Natural History, University of Florida, Gainesville, FL 32611-7800, USA NORRIS H. WILLIAMS1 Florida Museum of Natural History, University of Florida, Gainesville, FL 32611-7800, USA ROBERT L. DRESSLER2 Florida Museum of Natural History, University of Florida, Gainesville, FL 32611-7800, USA GÜNTER GERLACH Botanischer Garten München Nymphenburg, Menzinger Str. 65. 80638 München, Germany FRANCO PUPULIN Jardín Botánico Lankester, Universidad de Costa Rica, P.O. Box 1031-7050 Cartago, Costa Rica 1Author for correspondence: orchid@flmnh.ufl.edu 2Missouri Botanical Garden, P.O. Box 299, St. Louis, Missouri 63166-0299, U.S.A. Mailing address: 21305 NW 86th Ave., Micanopy, Florida 32667. ABSTRACT. The phylogenetic relationships of the orchid subtribe Zygopetalinae were evaluated using parsimony analyses of combined DNA sequence data of nuclear ITS 1 and 2 (including the 5.8s region and portions of the flanking 18s and 26s regions) and of the plastid trnL intron plus the trnL-F intergenic spacer and the plastid matK.