Taxons Modifiés

Total Page:16

File Type:pdf, Size:1020Kb

Taxons Modifiés Taxons modifiés Migration du référentiel TAXREF version 4.0 (12/10/2011) à la version 6.0 (08/04/2013) (source: http://inpn.mnhn.fr/programme/referentiel-taxonomique-taxref) TAXREF v.4.0 TAXREF v.6.0 R: Plantae Plantae E: Chlorophycota Charophyta C: Charophyceae Charophyceae O: Charales Charales F: Characeae Characeae - Chara aculeolata - Chara aculeolata - Chara aspera - Chara aspera - Chara baltica - Chara baltica - Chara braunii - Chara braunii - Chara canescens - Chara canescens - Chara connivens - Chara connivens - Chara contraria - Chara contraria - Chara crinita - Chara crinita - Chara delicatula - Chara delicatula - Chara foetida crassicaulis - Chara crassicaulis - Chara fragifera - Chara fragifera - Chara galioides - Chara galioides - Chara globularis - Chara globularis - Chara hispida - Chara hispida - Chara major - Chara major - Chara polyacantha - Chara polyacantha - Chara vulgaris - Chara vulgaris - Lamprothamnium alopecuroides - Lamprothamnium alopecuroides - Lamprothamnium papulosum - Lamprothamnium papulosum - Nitella batrachosperma - Nitella batrachosperma - Nitella brebissonii - Nitella brebissonii - Nitella capillaris - Nitella capillaris - Nitella capitata - Nitella capitata - Nitella chevaliery - Nitella chevaliery - Nitella confervacea - Nitella confervacea - Nitella flexilis - Nitella flexilis - Nitella gracilis - Nitella gracilis - Nitella hyalina - Nitella hyalina - Nitella mucronata - Nitella mucronata - Nitella neyrautii - Nitella neyrautii - Nitella opaca - Nitella opaca - Nitella ornithopoda - Nitella ornithopoda - Nitella renovii - Nitella renovii - Nitella syncarpa - Nitella syncarpa - Nitella tenuissima - Nitella tenuissima - Nitella translucens - Nitella translucens - Tolypella glomerata - Tolypella glomerata - Tolypella hispanica - Tolypella hispanica - Tolypella intricata - Tolypella intricata - Tolypella prolifera - Tolypella prolifera - Tolypella salina - Tolypella salina C: Inconnue [Phylum: Chlorophycota] Conjugatophyceae O: Inconnu [Classe: Inconnue [Phylum: Desmidiales Chlorophycota]] F: Inconnue [Ordre: Inconnu [Classe: Inconnue Desmidiaceae [Phylum: Chlorophycota]]] - Euastrum sublotatum - Euastrum sublotatum E: Chlorophycota Chlorophyta C: Chlorophyceae Bryopsidophyceae O: Bryopsidales Bryopsidales F: Bryopsidaceae Bryopsidaceae - Bryopsis adriatica - Bryopsis cupressina var. adriatica 26/05/2013 ObsNature-Camargue.net - Tour du Valat 1 / 67 Taxons modifiés Migration du référentiel TAXREF version 4.0 (12/10/2011) à la version 6.0 (08/04/2013) (source: http://inpn.mnhn.fr/programme/referentiel-taxonomique-taxref) TAXREF v.4.0 TAXREF v.6.0 R: Plantae Plantae E: Chlorophycota Chlorophyta C: Chlorophyceae Bryopsidophyceae O: Bryopsidales Bryopsidales F: Bryopsidaceae Bryopsidaceae - Bryopsis hypnoides - Bryopsis hypnoides - Bryopsis lyngbyei - Bryopsis lyngbyei - Bryopsis muscosa - Bryopsis muscosa - Bryopsis plumosa - Bryopsis plumosa - Trichosolen myura - Trichosolen myura F: Caulerpaceae Caulerpaceae - Caulerpa ollivieri - Caulerpa ollivieri - Caulerpa prolifera - Caulerpa prolifera - Caulerpa racemosa - Caulerpa racemosa - Caulerpa taxifolia - Caulerpa taxifolia F: Codiaceae Codiaceae - Codium adhaerens - Codium adhaerens - Codium bursa - Codium bursa - Codium decorticatum - Codium decorticatum - Codium effusum - Codium effusum - Codium fragile - Codium fragile - Codium tomentosum - Codium tomentosum - Codium vermilara - Codium vermilara F: Derbesiaceae Derbesiaceae - Derbesia tenuissima - Derbesia tenuissima F: Halimedaceae Halimedaceae - Halimeda tuna - Halimeda tuna F: Udoteaceae Udoteaceae - Flabellia petiolata - Flabellia petiolata - Penicillus capitatus - Penicillus capitatus C: Chlorophyceae Chlorophyceae O: Chaetophorales Chaetophorales F: Chaetophoraceae Chaetophoraceae - Aphanochaete repens - Aphanochaete repens - Pringsheimiella scutata - Pringsheimiella scutata - Pseudopringsheimia confluens - Pseudopringsheimia confluens - Stromatella monostromatica - Stromatella monostromatica - Stromatella papillosa - Stromatella papillosa O: Chlorococcales Chlorococcales F: Endosphaeraceae Endosphaeraceae - Gomontia polyrhiza - Gomontia polyrhiza F: Scenedesmaceae Scenedesmaceae - Scenedesmus quadricauda - Desmodesmus quadricaudatus O: Chlorocystidales Chlorocystidales F: Chlorocystidaceae Chlorocystidaceae - Halochlorococcum marinum - Halochlorococcum marinum O: Cladophorales Cladophorales F: Anadyomenaceae Anadyomenaceae - Anadyomene stellata - Anadyomene stellata F: Cladophoraceae Cladophoraceae - Chaetomorpha aerea - Chaetomorpha aerea - Chaetomorpha capillaris - Chaetomorpha capillaris - Chaetomorpha ligustica - Chaetomorpha ligustica - Chaetomorpha linum - Chaetomorpha linum - Chaetomorpha melagonium - Chaetomorpha melagonium - Cladophora albida - Cladophora albida - Cladophora dalmatica - Cladophora dalmatica 26/05/2013 ObsNature-Camargue.net - Tour du Valat 2 / 67 Taxons modifiés Migration du référentiel TAXREF version 4.0 (12/10/2011) à la version 6.0 (08/04/2013) (source: http://inpn.mnhn.fr/programme/referentiel-taxonomique-taxref) TAXREF v.4.0 TAXREF v.6.0 R: Plantae Plantae E: Chlorophycota Chlorophyta C: Chlorophyceae Chlorophyceae O: Cladophorales Cladophorales F: Cladophoraceae Cladophoraceae - Cladophora fracta - Cladophora fracta - Cladophora glomerata - Cladophora glomerata - Cladophora hutchinsiae - Cladophora hutchinsiae - Cladophora laetevirens - Cladophora laetevirens - Cladophora parriaudii - Cladophora parriaudii - Cladophora pellucida - Cladophora pellucida - Cladophora prolifera - Cladophora prolifera - Cladophora rupestris - Cladophora rupestris - Cladophora sericea - Cladophora sericea - Cladophora vadorum - Cladophora vadorum - Cladophora vagabunda - Cladophora vagabunda - Rhizoclonium riparium - Rhizoclonium riparium - Rhizoclonium tortuosum - Rhizoclonium tortuosum O: Dasycladales Dasycladales F: Dasycladaceae Dasycladaceae - Dasycladus vermicularis - Dasycladus vermicularis O: Siphonocladales Siphonocladales F: Valoniaceae Valoniaceae - Valonia utricularis - Valonia utricularis O: Tetrasporales Tetrasporales F: Palmellopsidaceae Palmellopsidaceae - Palmophyllum crassum - Palmophyllum crassum O: Ulotrichales Ulotrichales F: Gomontiaceae Gomontiaceae - Monostroma grevillei - Monostroma grevillei F: Ulotrichaceae Ulotrichaceae - Acrosiphonia spinescens - Acrosiphonia spinescens - Spongomorpha aeruginosa - Spongomorpha aeruginosa - Ulothrix flacca - Ulothrix flacca - Ulothrix implexa - Ulothrix implexa - Ulothrix palusalsa - Ulothrix palusalsa - Ulothrix speciosa - Ulothrix speciosa - Ulothrix subflaccida - Ulothrix subflaccida - Ulothrix tenerrima - Ulothrix tenerrima - Ulothrix zonata - Ulothrix zonata - Urospora penicilliformis - Urospora penicilliformis O: Ulvales Ulvales F: Capsosiphonaceae Capsosiphonaceae - Capsosiphon fulvescens - Capsosiphon fulvescens F: Gayraliaceae Gayraliaceae - Gayralia oxysperma - Gayralia oxysperma F: Kornmanniaceae Kornmanniaceae - Blidingia chadefaudii - Blidingia chadefaudii - Blidingia marginata - Blidingia marginata - Blidingia minima - Blidingia minima F: Monostromataceae Monostromataceae - Ulvaria obscura - Ulvaria obscura F: Phaeophilaceae Phaeophilaceae - Phaeophila dendroides - Phaeophila dendroides F: Ulvaceae Ulvaceae - Enteromorpha hendayensis - Enteromorpha hendayensis - Percursaria percursa - Percursaria percursa 26/05/2013 ObsNature-Camargue.net - Tour du Valat 3 / 67 Taxons modifiés Migration du référentiel TAXREF version 4.0 (12/10/2011) à la version 6.0 (08/04/2013) (source: http://inpn.mnhn.fr/programme/referentiel-taxonomique-taxref) TAXREF v.4.0 TAXREF v.6.0 R: Plantae Plantae E: Chlorophycota Chlorophyta C: Chlorophyceae Chlorophyceae O: Ulvales Ulvales F: Ulvaceae Ulvaceae - Ulva clathrata - Ulva clathrata - Ulva compressa - Ulva compressa - Ulva curvata - Ulva curvata - Ulva flexuosa - Ulva flexuosa - Ulva gigantea - Ulva gigantea - Ulva intestinalis - Ulva intestinalis - Ulva kylinii - Ulva kylinii - Ulva lactuca - Ulva lactuca - Ulva linza - Ulva linza - Ulva olivascens - Ulva olivascens - Ulva prolifera - Ulva prolifera - Ulva pseudocurvata - Ulva pseudocurvata - Ulva pseudolinza - Ulva pseudolinza - Ulva radiata - Ulva radiata - Ulva ralfsii - Ulva ralfsii - Ulva rigida - Ulva rigida - Ulva torta - Ulva torta F: Ulvellaceae Ulvellaceae - Epicladia flustrae - Epicladia flustrae - Ulvella setchellii - Ulvella setchellii C: Chlorophyceae Trebouxiophyceae O: Prasiolales Prasiolales F: Prasiolaceae Prasiolaceae - Prasiola crispa - Prasiola crispa - Prasiola stipitata - Prasiola stipitata - Rosenvingiella polyrhiza - Rosenvingiella polyrhiza E: Euglenophycota Euglenophycota C: Euglenophyceae Inconnue [Phylum: Euglenophycota] O: Euglenales Inconnu [Classe: Inconnue [Phylum: Euglenophycota]] F: Euglenaceae Euglenaceae - Euglena deses - Euglena deses - Euglena viridis - Euglena viridis - Trachelomonas abrupta - Trachelomonas abrupta O: Heteronematales Heteronematales F: Paranemataceae Paranemataceae - Urceolus cyclostomus - Urceolus cyclostomus O: Inconnu [Classe: Euglenophyceae] Inconnu [Classe: Inconnue [Phylum: Euglenophycota]] F: Euglenida incertae sedis Euglenida incertae sedis - Pseudoperanema trichophorum - Pseudoperanema trichophorum O: Sphenomonadales Sphenomonadales F: Sphenomonaceae Sphenomonaceae - Anisonema acinus - Anisonema acinus E: Inconnu [Règne: Plantae] Chlorophyta C: Klebsormidiophyceae Trebouxiophyceae O: Klebsormidiales Prasiolales F: Stichococcaceae Prasiolaceae - Stichococcus bacillaris - Stichococcus bacillaris 26/05/2013 ObsNature-Camargue.net - Tour du Valat 4 / 67 Taxons
Recommended publications
  • Morphometric Analysis of Surface Utricles in Halimeda Tuna (Bryopsidales, Ulvophyceae) Reveals Variation in Their Size and Symmetry Within Individual Segments
    S S symmetry Article Morphometric Analysis of Surface Utricles in Halimeda tuna (Bryopsidales, Ulvophyceae) Reveals Variation in Their Size and Symmetry within Individual Segments Jiri Neustupa * and Yvonne Nemcova Department of Botany, Faculty of Science, Charles University, Prague, 12801 Benatska 2, Czech Republic; [email protected] * Correspondence: [email protected] Received: 26 June 2020; Accepted: 20 July 2020; Published: 1 August 2020 Abstract: Calcifying marine green algae of genus Halimeda have siphonous thalli composed of repeated segments. Their outer surface is formed by laterally appressed peripheral utricles which often form a honeycomb structure, typically with varying degrees of asymmetry in the individual polygons. This study is focused on a morphometric analysis of the size and symmetry of these polygons in Mediterranean H. tuna. Asymmetry of surface utricles is studied using a continuous symmetry measure quantifying the deviation of polygons from perfect symmetry. In addition, the segment shapes are also captured by geometric morphometrics and compared to the utricle parameters. The area of surface utricles is proved to be strongly related to their position on segments, where utricles near the segment bases are considerably smaller than those located near the apical and lateral margins. Interestingly, this gradient is most pronounced in relatively large reniform segments. The polygons are most symmetric in the central parts of segments, with asymmetry uniformly increasing towards the segment margins. Mean utricle asymmetry is found to be unrelated to segment shapes. Systematic differences in utricle size across different positions might be related to morphogenetic patterns of segment development, and may also indicate possible small-scale variations in CaCO3 content within segments.
    [Show full text]
  • JJB 079 255 261.Pdf
    植物研究雑誌 J. J. Jpn. Bo t. 79:255-261 79:255-261 (2004) Phylogenetic Phylogenetic Analysis of the Tetrasporalean Genus Asterococcus Asterococcus (Chlorophyceae) sased on 18S 18S Ribosomal RNA Gene Sequences Atsushi Atsushi NAKAZA WA and Hisayoshi NOZAKI Department Department of Biological Sciences ,Graduate School of Science ,University of Tokyo , Hongo Hongo 7-3-1 ,Bunkyo-ku ,Tokyo ,113 ・0033 JAPAN (Received (Received on October 30 ,2003) Nucleotide Nucleotide sequences (1642 bp) from 18S ribosomal RNA genes were analyzed for 100 100 strains of the clockwise (CW) group of Chlorophyceae to deduce the phylogenetic position position of the immotile colonial genus Asterococcus Scherffel , which is classified in the Palmellopsidaceae Palmellopsidaceae of Tetrasporales. We found that the genus Asterococcus and two uni- cellular , volvocalean genera , Lobochlamys Proschold & al. and Oogamochlamys Proschold Proschold & al., formed a robust monophyletic group , which was separated from two te 位asporalean clades , one composed of Tetraspora Link and Paulschulzia Sk 吋a and the other other containing the other palme l1 0psidacean genus Chlamydocaps αFot t. Therefore , the Tetrasporales Tetrasporales in the CW group is clearly polyphyletic and taxonomic revision of the order order and the Palmellopsidaceae is needed. Key words: 18S rRNA gene ,Asterococcus ,Palmellopsidaceae ,phylogeny ,Tetraspor- ales. ales. Asterococcus Asterococcus Scherffel (1908) is a colo- Recently , Ettl and Gartner (1 988) included nial nial green algal genus that is characterized Asterococcus in the family Palmello- by an asteroid chloroplast in the cell and psidaceae , because cells of this genus have swollen swollen gelatinous layers surrounding the contractile vacuoles and lack pseudoflagella immotile immotile colony (e. g.
    [Show full text]
  • Marine Algae of French Frigate Shoals, Northwestern Hawaiian Islands: Species List and Biogeographic Comparisons1
    Marine Algae of French Frigate Shoals, Northwestern Hawaiian Islands: Species List and Biogeographic Comparisons1 Peter S. Vroom,2 Kimberly N. Page,2,3 Kimberly A. Peyton,3 and J. Kanekoa Kukea-Shultz3 Abstract: French Frigate Shoals represents a relatively unpolluted tropical Pa- cific atoll system with algal assemblages minimally impacted by anthropogenic activities. This study qualitatively assessed algal assemblages at 57 sites, thereby increasing the number of algal species known from French Frigate Shoals by over 380% with 132 new records reported, four being species new to the Ha- waiian Archipelago, Bryopsis indica, Gracilaria millardetii, Halimeda distorta, and an unidentified species of Laurencia. Cheney ratios reveal a truly tropical flora, despite the subtropical latitudes spanned by the atoll system. Multidimensional scaling showed that the flora of French Frigate Shoals exhibits strong similar- ities to that of the main Hawaiian Islands and has less commonality with that of most other Pacific island groups. French Frigate Shoals, an atoll located Martini 2002, Maragos and Gulko 2002). close to the center of the 2,600-km-long Ha- The National Oceanic and Atmospheric Ad- waiian Archipelago, is part of the federally ministration (NOAA) Fisheries Coral Reef protected Northwestern Hawaiian Islands Ecosystem Division (CRED) and Northwest- Coral Reef Ecosystem Reserve. In stark con- ern Hawaiian Islands Reef Assessment and trast to the more densely populated main Ha- Monitoring Program (NOWRAMP) began waiian Islands, the reefs within the ecosystem conducting yearly assessment and monitoring reserve continue to be dominated by top of subtropical reef ecosystems at French predators such as sharks and jacks (ulua) and Frigate Shoals in 2000 to better support the serve as a refuge for numerous rare and long-term conservation and protection of endangered species no longer found in more this relatively intact ecosystem and to gain a degraded reef systems (Friedlander and De- better understanding of natural biological and oceanographic processes in this area.
    [Show full text]
  • Langston R and H Spalding. 2017
    A survey of fishes associated with Hawaiian deep-water Halimeda kanaloana (Bryopsidales: Halimedaceae) and Avrainvillea sp. (Bryopsidales: Udoteaceae) meadows Ross C. Langston1 and Heather L. Spalding2 1 Department of Natural Sciences, University of Hawai`i- Windward Community College, Kane`ohe,¯ HI, USA 2 Department of Botany, University of Hawai`i at Manoa,¯ Honolulu, HI, USA ABSTRACT The invasive macroalgal species Avrainvillea sp. and native species Halimeda kanaloana form expansive meadows that extend to depths of 80 m or more in the waters off of O`ahu and Maui, respectively. Despite their wide depth distribution, comparatively little is known about the biota associated with these macroalgal species. Our primary goals were to provide baseline information on the fish fauna associated with these deep-water macroalgal meadows and to compare the abundance and diversity of fishes between the meadow interior and sandy perimeters. Because both species form structurally complex three-dimensional canopies, we hypothesized that they would support a greater abundance and diversity of fishes when compared to surrounding sandy areas. We surveyed the fish fauna associated with these meadows using visual surveys and collections made with clove-oil anesthetic. Using these techniques, we recorded a total of 49 species from 25 families for H. kanaloana meadows and surrounding sandy areas, and 28 species from 19 families for Avrainvillea sp. habitats. Percent endemism was 28.6% and 10.7%, respectively. Wrasses (Family Labridae) were the most speciose taxon in both habitats (11 and six species, respectively), followed by gobies for H. kanaloana (six Submitted 18 November 2016 species). The wrasse Oxycheilinus bimaculatus and cardinalfish Apogonichthys perdix Accepted 13 April 2017 were the most frequently-occurring species within the H.
    [Show full text]
  • An Unrecognized Ancient Lineage of Green Plants Persists in Deep Marine Waters1
    J. Phycol. 46, 1288–1295 (2010) Ó 2010 Phycological Society of America DOI: 10.1111/j.1529-8817.2010.00900.x AN UNRECOGNIZED ANCIENT LINEAGE OF GREEN PLANTS PERSISTS IN DEEP MARINE WATERS1 Frederick W. Zechman2,3 Department of Biology, California State University Fresno, 2555 East San Ramon Ave, Fresno, California 93740, USA Heroen Verbruggen,3 Frederik Leliaert Phycology Research Group, Ghent University, Krijgslaan 281 S8, 9000 Ghent, Belgium Matt Ashworth University Station MS A6700, 311 Biological Laboratories, University of Texas at Austin, Austin, Texas 78712, USA Mark A. Buchheim Department of Biological Science, University of Tulsa, Tulsa, Oklahoma 74104, USA Marvin W. Fawley School of Mathematical and Natural Sciences, University of Arkansas at Monticello, Monticello, Arkansas 71656, USA Department of Biological Sciences, North Dakota State University, Fargo, North Dakota 58105, USA Heather Spalding Botany Department, University of Hawaii at Manoa, Honolulu, Hawaii 96822, USA Curt M. Pueschel Department of Biological Sciences, State University of New York at Binghamton, Binghamton, New York 13901, USA Julie A. Buchheim, Bindhu Verghese Department of Biological Science, University of Tulsa, Tulsa, Oklahoma 74104, USA and M. Dennis Hanisak Harbor Branch Oceanographic Institution, Fort Pierce, Florida 34946, USA We provide molecular phylogenetic evidence that Key index words: Chlorophyta; green algae; molec- the obscure genera Palmophyllum Ku¨tz. and Verdigel- ular phylogenetics; Palmophyllaceae fam. nov.; las D. L. Ballant. et J. N. Norris form a distinct and Palmophyllales ord. nov.; Palmophyllum; Prasino- early diverging lineage of green algae. These pal- phyceae; Verdigellas; Viridiplantae melloid seaweeds generally persist in deep waters, Abbreviations: AU, approximately unbiased; BI, where grazing pressure and competition for space Bayesian inference; ML, maximum likelihood; are reduced.
    [Show full text]
  • First Record of Calcareous Green Algae (Dasycladales, Halimedaceae) from the Paleocene Chehel Kaman Formation of North-Eastern Iran (Kopet-Dagh Basin)
    https://doi.org/10.35463/j.apr.2021.01.06 ACTA PALAEONTOLOGICA ROMANIAE (2021) V. 17(1), P. 51-64 FIRST RECORD OF CALCAREOUS GREEN ALGAE (DASYCLADALES, HALIMEDACEAE) FROM THE PALEOCENE CHEHEL KAMAN FORMATION OF NORTH-EASTERN IRAN (KOPET-DAGH BASIN) Felix Schlagintweit1 Koorosh Rashidi2* & Abdolmajid Mosavinia3 Received: 11 November 2020 / Accepted: 4 January 2021 / Published online: 18 January 2021 Abstract The micropalaeontological inventory of the shallow-water carbonates of the Paleocene Chehel-Kaman Formation cropping out in the Kopet-Dagh Basin of north-eastern Iran is poorly known. New sampling has evidenced for the first time the occurrence of layers with abundant calcareous green algae including Dasycladales and Halimedaceae. The following dasycladalean taxa have been observed: Jodotella veslensis Morellet & Morellet, Cy- mopolia cf. mayaense Johnson & Kaska, Neomeris plagnensis Deloffre, Thyrsoporella-Trinocladus, Uteria aff. merienda (Elliott) and Acicularia div. sp. The studied section is devoid of larger benthic foraminifera and can be re- ferred to the middle-upper Paleocene (SBZ 2-4) due to the presence of Rahaghia khorassanica (Rahaghi). Some of the dasycladalean taxa are herein reported for the first time not only from Iran but also the Central Neotethyan realm. Keywords: Green algae, Paleogene, taxonomy, biostratigraphy, Kopet-Dagh Basin, Iran INTRODUCTION the suturing of northeast Iran to the Eurasian Turan plat- form resulting from the convergence between the Arabian Paleocene shallow-water carbonates are known from
    [Show full text]
  • Checklist and Bibliography of the Marine Benthic Algae Within Chuuk, Pohnpei, and Kosrae States, Federated States of Micronesia
    Checklist and Bibliography of the Marine Benthic Algae Within Chuuk, Pohnpei, and Kosrae States, Federated States of Micronesia Roy T. Tsuda Pacific Biological Survey Bishop Museum January 2006 Checklist and Bibliography of the Marine Benthic Algae Within Chuuk, Pohnpei, and Kosrae States, Federated States of Micronesia Prepared for: Marine Introduced Species Workshop in Chuuk, Pohnpei, and Kosrae States, Federated States of Micronesia Roy T. Tsuda Department of Natural Sciences Bishop Museum Bishop Museum Pacific Biological Survey Bishop Museum Technical Report No. 34 Honolulu, Hawai‘i January 2006 2 Published by Bishop Museum Press 1525 Bernice Street Honolulu, Hawai‘i Copyright © 2006 Bishop Museum All Rights Reserved Printed in the United States of America LOGO ISSN 1085-455X Contribution No. 2006-001 to the Pacific Biological Survey 3 TABLE OF CONTENTS Page INTRODUCTION 6 SPECIES AND REFERENCES 8 Division Cyanophyta 8 Class Cyanophyceae 8 Order Chroococcales 8 Family Entophysalidaceae Family Microcystaceae Order Oscillatoriales 8 Family Oscillatoriaceae Family Phormidiaceae Family Pseudanabaenaceae Family Schizothrichaceae Order Nostocales 10 Family Nostocaceae Family Rivulariaceae Family Scytonemataceae Order Stigonematales 10 Family Nostochopsidaceae Division Chlorophyta 11 Class Chlorophyceae 11 Order Ulotrichales 11 Family Ulotrichaceae Order Ctenocladales 11 Family Ulvellaceae Order Ulvales 11 Family Ulvaceae Order Cladophorales 11 Family Anadyomenaceae Family Cladophoraceae Family Siphonocladaceae Family Valoniaceae 4 Page Order
    [Show full text]
  • 2004 University of Connecticut Storrs, CT
    Welcome Note and Information from the Co-Conveners We hope you will enjoy the NEAS 2004 meeting at the scenic Avery Point Campus of the University of Connecticut in Groton, CT. The last time that we assembled at The University of Connecticut was during the formative years of NEAS (12th Northeast Algal Symposium in 1973). Both NEAS and The University have come along way. These meetings will offer oral and poster presentations by students and faculty on a wide variety of phycological topics, as well as student poster and paper awards. We extend a warm welcome to all of our student members. The Executive Committee of NEAS has extended dormitory lodging at Project Oceanology gratis to all student members of the Society. We believe this shows NEAS members’ pride in and our commitment to our student members. This year we will be honoring Professor Arthur C. Mathieson as the Honorary Chair of the 43rd Northeast Algal Symposium. Art arrived with his wife, Myla, at the University of New Hampshire in 1965 from California. Art is a Professor of Botany and a Faculty in Residence at the Jackson Estuarine Laboratory of the University of New Hampshire. He received his Bachelor of Science and Master’s Degrees at the University of California, Los Angeles. In 1965 he received his doctoral degree from the University of British Columbia, Vancouver, Canada. Over a 43-year career Art has supervised many undergraduate and graduate students studying the ecology, systematics and mariculture of benthic marine algae. He has been an aquanaut-scientist for the Tektite II and also for the FLARE submersible programs.
    [Show full text]
  • Ulvella Tongshanensis (Ulvellaceae, Chlorophyta), a New Freshwater Species from China, and an Emended Morphological Circumscription of the Genus Ulvella
    Fottea, Olomouc, 15(1): 95–104, 2015 95 Ulvella tongshanensis (Ulvellaceae, Chlorophyta), a new freshwater species from China, and an emended morphological circumscription of the genus Ulvella Huan ZHU1, 2, Frederik LELIAERT3, Zhi–Juan ZHAO1, 2, Shuang XIA4, Zheng–Yu HU5, Guo–Xiang LIU1* 1 Key Laboratory of Algal Biology, Institute of Hydrobiology, Chinese Academy of Sciences, Wuhan 430072, P. R. China; *Corresponding author e–mail: [email protected] 2University of Chinese Academy of Sciences, Beijing 100049, P. R. China 3Marine Biology Research Group, Department of Biology, Ghent University, Krijgslaan 281–S8, 9000 Ghent, Belgium 4College of Life Sciences, South–central University for Nationalities, Wuhan, 430074, P. R. China 5State key Laboratory of Freshwater Ecology and Biotechnology, Institute of Hydrobiology, Chinese Academy of Sciences, Wuhan 430072, P. R. China Abstract: A new freshwater species of Ulvella, U. tongshanensis H. ZHU et G. LIU, is described from material collected from rocks under small waterfalls in Hubei Province, China. This unusual species differs from other species in the genus by the macroscopic and upright parenchymatous thalli, and by the particular habitat (most Ulvella species occur in marine environments). Phylogenetic analyses of plastid encoded rbcL and tufA, and nuclear 18S rDNA sequences, pointed towards the generic placement of U. tongshanensis and also showed a close relationship with two other freshwater species, Ulvella bullata (Jao) H. ZHU et G. LIU, comb. nov. and Ulvella prasina (Jao) H. ZHU et G. LIU, comb. nov. The latter two were previously placed in the genus Jaoa and are characterized by disc–shaped to vesicular morphology. Our study once again shows that traditionally used morphological characters are poor indicators for phylogenetic relatedness in morphologically simple algae like the Ulvellaceae.
    [Show full text]
  • Journal Threatened
    Journal ofThreatened JoTT TBuilding evidenceaxa for conservation globally 10.11609/jott.2020.12.1.15091-15218 www.threatenedtaxa.org 26 January 2020 (Online & Print) Vol. 12 | No. 1 | 15091–15218 ISSN 0974-7907 (Online) ISSN 0974-7893 (Print) PLATINUM OPEN ACCESS ISSN 0974-7907 (Online); ISSN 0974-7893 (Print) Publisher Host Wildlife Information Liaison Development Society Zoo Outreach Organization www.wild.zooreach.org www.zooreach.org No. 12, Thiruvannamalai Nagar, Saravanampatti - Kalapatti Road, Saravanampatti, Coimbatore, Tamil Nadu 641035, India Ph: +91 9385339863 | www.threatenedtaxa.org Email: [email protected] EDITORS English Editors Mrs. Mira Bhojwani, Pune, India Founder & Chief Editor Dr. Fred Pluthero, Toronto, Canada Dr. Sanjay Molur Mr. P. Ilangovan, Chennai, India Wildlife Information Liaison Development (WILD) Society & Zoo Outreach Organization (ZOO), 12 Thiruvannamalai Nagar, Saravanampatti, Coimbatore, Tamil Nadu 641035, Web Design India Mrs. Latha G. Ravikumar, ZOO/WILD, Coimbatore, India Deputy Chief Editor Typesetting Dr. Neelesh Dahanukar Indian Institute of Science Education and Research (IISER), Pune, Maharashtra, India Mr. Arul Jagadish, ZOO, Coimbatore, India Mrs. Radhika, ZOO, Coimbatore, India Managing Editor Mrs. Geetha, ZOO, Coimbatore India Mr. B. Ravichandran, WILD/ZOO, Coimbatore, India Mr. Ravindran, ZOO, Coimbatore India Associate Editors Fundraising/Communications Dr. B.A. Daniel, ZOO/WILD, Coimbatore, Tamil Nadu 641035, India Mrs. Payal B. Molur, Coimbatore, India Dr. Mandar Paingankar, Department of Zoology, Government Science College Gadchiroli, Chamorshi Road, Gadchiroli, Maharashtra 442605, India Dr. Ulrike Streicher, Wildlife Veterinarian, Eugene, Oregon, USA Editors/Reviewers Ms. Priyanka Iyer, ZOO/WILD, Coimbatore, Tamil Nadu 641035, India Subject Editors 2016–2018 Fungi Editorial Board Ms. Sally Walker Dr. B. Shivaraju, Bengaluru, Karnataka, India Founder/Secretary, ZOO, Coimbatore, India Prof.
    [Show full text]
  • Paleogene Halimeda Algal Biostratigraphy from Middle Atlas and Central High Atlas (Morocco), Paleoecology, Paleogeography and Some Taxonomical Considerations
    ACTA PALAEONTOLOGICA ROMANIAE V. 8 (1-2), P. 43-90 PALEOGENE HALIMEDA ALGAL BIOSTRATIGRAPHY FROM MIDDLE ATLAS AND CENTRAL HIGH ATLAS (MOROCCO), PALEOECOLOGY, PALEOGEOGRAPHY AND SOME TAXONOMICAL CONSIDERATIONS Ovidiu N. Dragastan¹, Hans-Georg Herbig² & Mihai E. Popa¹ Abstract Halimeda-bearing deposits of the Middle Atlas Mountains and of the southern rim of the central High Atlas, bordering the Neogene Quarzazate Basin, east of Asseghmon (Morocco), were studied with regard to their lithostratigraphy, biostratigraphy, sequence stratigraphy and carbonate microfacies (Herbig, 1991; Trappe, 1992, Kuss and Herbig, 1993 and Dragastan and Herbig, 2007). The deposits were subdivided into lithostratigraphic groups and formations, according to the Hedberg stratigraphic Code. The focus was especially centered on the biostratigraphy of marine strata with a rich Halimeda microflora of Paleogene successions, first in the central High Atlas (Dragastan and Herbig, 2007) and now extended in the Middle Atlas. The aim of this study was to compare and to verify the stratigraphical value and range of Halimeda species and their associations. The defined eight Halimeda Assemblage Zones and one dasycladalean Assemblage Zone with two Subzones from the central High Atlas were very useful to correlate and to differentiate the Paleogene deposits of Bekrit-Timahdit Formation on stages and substages for middle-late Thanetian and Ypresian. Only the Lutetian - Bartonian? interval still remains not so clear in Middle Atlas region. In spite of different rates of diversity between the central High Atlas with 20 Halimeda species and only 14 Halimeda species in the Middle Atlas, the green siphonous species of the genus Halimeda showed their biostratigraphic potential to be used in the same way as dasycladaleans were used as marker or index species.
    [Show full text]
  • The Deep-Water Macroalgal Community of the East Florida Continental Shelf (USA)* M
    HELGOLANDER MEERESUNTERSUCHUNGEN Helgol~inder Meeresunters. 42, 133-163 (1988) The deep-water macroalgal community of the East Florida continental shelf (USA)* M. Dennis Hanisak & Stephen M. Blair Marine Botany Department, Harbor Branch Oceanographic Institution; 5600 Old Dixie Highway, Fort Pierce, FL 34946, USA ABSTRACT: The deep-water macroalgal community of the continental shelf off the east coast of Florida was sampled by lock-out divers from two research submersibles as part of the most detailed year-round study of a macroalgal community extending below routine SCUBA depths. A total of 208 taxa (excluding crustose corallines) were recorded; of these, 42 (20.2 %), 19 (9.1%), and 147 (70.7 %) belonged to the Chlorophyta, Phaeophyta, and Rhodophyta, respectively. Taxonomic diversity was maximal during late spring and summer and minimal during late fall and winter. The number of reproductive taxa closely followed the number of taxa present; when reproductive frequency was expressed as a percentage of the species present during each month, two peaks (January and August) were observed. Most perennial species had considerable depth ranges, with the greatest number of taxa observed from 31 to 40 m in depth. Although most of the taxa present also grow in shallow water (i.e. <10 m), there were some species whose distribution is hmited to deeper water. The latter are strongly dominated by rhodophytes. This community has a strong tropical affinity, but over half the taxa occur in warm-temperate areas. Forty-two new records (20% of the taxa identified) for Florida were listed; this includes 15 taxa whicl~ previously had been considered distributional disjuncts in this area.
    [Show full text]