DOCSLIB.ORG

1 Non-Host Plant of Aphrophoridae in an Adandoned After a Fire

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
1 Non-Host Plant of Aphrophoridae in an Adandoned After a Fire Non-host plant of Aphrophoridae in an adandoned after a fire olive orchard (year 2017) Rosaceae Sanguisorbaverrucosa Polygonaceae Rum ex bucephalophorus Molineriella laevis Lolium rigidum Poaceae Hordeum murinum Bromustectorum Bromushordeadeus Plantaginaceae Plantago lanceolata Linaria spartea Orobanchaceae Orobancheramosa Lamiaceae Stachisarvensis Vicia sp. Vicia lutea Vicia angustifolia Trifolium tomentosum Trifolium dubium Fabaceae Trifolium campestre Trifolium arvense Trifolium angustifolium Lupinusangustifolius Lathyrusangulatus Hymenocarpos lotoides Euphorbiaceae Euphorbia segetalis Convolvulaceae Convolvulus arvensis Spergularia purpurea Petrorhagiananteuilii Campanulaceae Jasione m ontana Brassicaceae Brassica barrelieri Senecio vulgaris Logfia gallica Asteraceae Filago vulgaris Crepis vesicaria Andryala integrifolia 21-04-2017 26-04-2017 06-05-2017 15-05-2017 25-05-2017 X21.04.2017 X26.04.2017 X06.05.2017 X15.05.2017 X25.05.2017 0.0 0.4 0.8 1.0 Figure S1. Heatmap plot showing the percentage of plant taxa identified through the collection period (year 2017) (non-host plants) (dark purple to yellow) in an abandoned after a fire olive orchard. Families are indicated at the left of the plant species name. 1 Non-host plant of Aphrophoridae in an integrated olive orchard (year 2017) Sherardiaarvensis Rubiaceae Galium parisiense Euphorbiaceae Euphorbia segetalis Cruciata pedemontana Euphorbia falcata Rosaceae Sanguisorba verrucosa Convolvulaceae Convolvulus arvensis Rumex induratus Silene gallica Caryophyllaceae Polygonaceae Rumex bucephalophorus Petrorhagia nanteuilii Rumex acetosella Cerastium brachypetalum Jasione montana Vulpia sp. Campanulaceae Campanula rapunculus Poaceae N.id. Campanulalusitanica Mibora minima Brassicaceae Raphanus raphanistrum Molineriella laevis Brassica barrelieri Lolium rigidum Boraginaceae Poaceae Hordeummurinum Echiumplantagineum Bromus tectorum Tolpis barbata Briza media Leontodon taraxacoides Bromus madritensis Logfia gallica Bromus hordeaceus Hypochaeris sp. Hedypnois cretica Avena barbata Chrysanthemum segetum Veronica arvensis Coleostephus myconis Plantaginaceae Plantago lanceolata Asteraceae Parentucellia latifolia Chamaemelum mixtum Orobanche ramosa Chondrilla juncea Orobanchaceae Bartsia trixago Crepis capillaris Calendulaarvensis Lamiaceae Stachys arvensis Lavandula pedunculata Andryala integrifolia Geraniaceae Geraniummolle Anthemis arvensis Vicia sp. Foeniculumvulgare Vicia lutea 21-04-2017 26-04-2017 06-05-2017 15-05-2017 25-05-2017 Vicia angustifolia Trifolium sp. Trifolium tomentosum Trifolium glomeratum Trifoliumdubium Trifolium cernuum Trifolium campestre Fabaceae Trifolium arvense Ornithopus compressus 0 5 10 20 Medicagosp. Medicagopolymorpha Medicago arabica Lathyrus cicera Lathyrus angulatus Hymenocarpos lotoides Fabaceae N. Id. Astragaluspelecinus 21-04-2017 26-04-2017 06-05-2017 15-05-2017 25-05-2017 Figure S2. Heatmap plot showing the percentage of plant taxa identified through the collection period (year 2017) (non-host plants) (dark purple to yellow) in an integrated olive orchard. N. id after taxa means not identified specimens belonging to that group. Families are indicated at the left of the plant species name. 2 Non-host plant (≥1%) of Aphrophoridae in an abandoned after a fire olive orchard (year 2018) Violaceae Viola kitaibeliana Euphorbiaceae Euphorbia sp. Rubiaceae Galium parisiense Crassulaceae Crassula tillaea Rosaceae Sanguisorbaverrucosa Convolvulaceae Convolvulus arvensis Aphanesaustralis Spergula arvensis Polygonaceae Rumexbucephalophorus Stellaria media Bromus tectorum Caryophylaceae Petrorhagia nanteuilii Bromus hordeaceus Moenchia erecta Bromus sterilis Cerastium brachypetalum Bromus diandrus Campanulaceae Jasione montana Poaceae Molineriella laevis Brassica barrelieri Avena barbata Brassicaceae Teesdalia coronopifolia Poaceae N. id. Raphanusraphanistrum Vulpia ciliata Filago vulgaris Cynodon dactylon Chrysanthemum segetum Linaria spartea Chamaemelummixtum Plantaginaceae Veronica arvensis Chondrilla juncea Bartsia trixago Crepis capillaris Oronbachaceae Orobanchesp. Andryala integrifolia Parentucellia latifolia Asteraceae Logfia gallica Not identified Senecio vulgaris Lamiaceae Stachis arvensis Calendula arvensis Geraniaceae Erodium botrys Leontodon taraxacoides Astragalus pelecinus Hypochaeris sp. Ornithopuscompressus Asteraceae N. id. Trifolium arvense Tolpis barbata Fabaceae N. id. Trifolium subterraneum Fabaceae Trifolium glomeratum Trifolium tomentosum Trifolium cernuum Hymenocarpos lotoides Trifolium sp. 27/03/2018 05/04/2018 17/04/2018 24/04/2018 04/05/2018 10/05/2018 24/05/2018 29/05/2018 04/06/2018 12/06/2018 21/06/2018 27/06/2018 03/07/2018 10/07/2018 20/07/2018 25/07/2018 01/08/2018 Medicagosp. T.barbata 27/03/2018 05/04/2018 17/04/2018 24/04/2018 04/05/2018 10/05/2018 24/05/2018 29/05/2018 04/06/2018 12/06/2018 21/06/2018 27/06/2018 03/07/2018 10/07/2018 20/07/2018 25/07/2018 01/08/2018 05 910 Figure S3. Heatmap plot showing the percentage of plant taxa identified with ≥ 1% of coverage through the collection period (year 2018) (dark purple to yellow) (non- host plants) in an abandoned after a fire olive orchard (non-host plants). N. id. after taxa means not identified specimens belonging to that group. Families are indicated at the left of the plant species name. 3 Non-host plant (<1%) of Aphrophoridae in an abandoned after a fire olive orchard (year 2018) Vicia villosa Vicia articulata Rubiaceae Sherardia arvensis Vicia angustifolia Cruciata pedemontana Trifolium repens Primulaceae Asterolinon linum-stellatum Trifolium campestre Polygonaceae Rumexacetosella Trifolium angustifolium Fabaceae Medicagorigidula Mibora minima Medicagopolymorpha Lolium sp. Medicagoarabica Lolium rigidum Lupinussp. Hordeum murinum Poaceae Lathyrussp. Hordeum geniculatum Lathyrusangulatus Briza media Briza maxima Genista sp. Spergularia purpurea Bromus madritensis Caryophylaceae Plantagosp. Cerastium sp. Plantaginaceae Plantagomajor Cerastium glomeratum Plantagolanceolata Brassicaceae Cardamine hirsuta Papaveraceae Papaversp. Capsella bursa-pastoris Orchideaceae Orchidaceae Boraginaceae Myosotis persoonii Oronbachaceae Orobancheramosa Myosotis discolor Orobanchaceae Orobancheclausonis Hypochaeris radicata Hypochaeris glabra Lamium purpureum Lamiaceae Hedypnois cretica Lamium amplexicaule Asteraceae Hypericaceae Galactites tomentosus Hypericum perforatum Filagopyramidata Geraniaceae Geranium dissectum Cnicus benedictus Erodium moschatum Foeniculum vulgare Gentianaceae Centaurium majus Apiaceae Amaranthaceae Chenopodium album 27/03/2018 05/04/2018 17/04/2018 24/04/2018 04/05/2018 10/05/2018 24/05/2018 29/05/2018 04/06/2018 12/06/2018 21/06/2018 27/06/2018 03/07/2018 10/07/2018 20/07/2018 25/07/2018 01/08/2018 27/03/2018 05/04/2018 17/04/2018 24/04/2018 04/05/2018 10/05/2018 24/05/2018 29/05/2018 04/06/2018 12/06/2018 21/06/2018 27/06/2018 03/07/2018 10/07/2018 20/07/2018 25/07/2018 01/08/2018 0.0 0.2 0.3 0.5 Figure S4. Heatmap plot showing the percentage of plant taxa identified with <1% of coverage through the collection period (year 2018) (dark purple to yellow) in an abandoned olive orchard (non-host plants). N. id after taxa means not identified specimens belonging to that group. Families are indicated at the left of the plant species name. 4 Non-host plant (≥1%) of Aphrophoridae in an integrated olive orchard (year 2018) Figure S5. Heatmap plot showing the percentage of plants taxa identified with ≥1% of coverage through the collection period (year 2018) without Aphrophoridae nymphs. (dark purple to yellow) in an integrated olive orchard (non-host plants). N. id. after taxa means not identified specimens belonging to that group. Families are indicated at the left of the plant species name. 5 Non-host plant (<1%) of Aphrophoridae in an integrated olive orchard (year 2018) Valerianaceae Valerianella coronata Medicago arabica Rubiaceae Galium aparine Vicia lutea Primulaceae Anagallis arvensis Vicia lathyroides Polygonaceae Rumex acetosella Vicia hirsuta Rumex induratus Trifolium tomentosum Mibora minima Trifolium stellatum Lolium sp. Trifolium repens Lolium rigidum Trifolium micranthum Poaceae Fabaceae Bromus sterilis Trifolium cernuum Briza maxima Trifolium camprestre Bromus hordeaceus Medicago rigidula Misopates orontium Medicago polymorpha Plantaginaceae Linaria spartea Lupinus sp. Papaveraceae N. id. Lathyrus sp. Papaveraceae Papaver sp. Lupinus gredensis Papaver dubium Lathyrus angulatus Orobanche sp. Convolvulaceae Convolvulus arvensis Orobanchaceae Orobanche ramosa Spergularia purpurea Bartsia trixago Caryophyllaceae Dianthus sp. Orchidiaceae Orchidaceae N. id. Cerastium glomeratum Lamiun purpureum Raphanus raphanistrum Lamiaceae Lavandula pedunculata Brassicaceae Capsella bursa-pastoris Lamium amplexicaule Arabidopsis thaliana Hypericaceae Hypericum perforatum Boraginaceae Myosotis sp. Geraniaceae Logfia minima Geraniaceae Erodium botrys Asteraceae Hypochaeris radicata Galactites tomentosus Cnicus benedictus Apiaceae Foeniculum vulgare Eryngium campestre 27/03/2018 05/04/2018 17/04/2018 24/04/2018 04/05/2018 10/05/2018 24/05/2018 29/05/2018 04/06/2018 12/06/2018 21/06/2018 27/06/2018 03/07/2018 10/07/2018 20/07/2018 25/07/2018 01/08/2018 E.campestre 27/03/2018 05/04/2018 17/04/2018 24/04/2018 04/05/2018 10/05/2018 24/05/2018 29/05/2018 04/06/2018 12/06/2018 21/06/2018 27/06/2018 03/07/2018 10/07/2018 20/07/2018 25/07/2018 01/08/2018 0.0 0.2 0.4 0.5 0.7 Figure S6. Heatmap plot showing the percentage of plant taxa identified with <1% of coverage through
Load more

Recommended publications
  • BGBM Annual Report 2017–2019
    NETWORKING FOR DIVERSITY Annual Report 2017 – 2019 2017 – BGBM BGBM Annual Report 2017 – 2019 Cover image: Research into global biodiversity and its significance for humanity is impossible without networks. The topic of networking can be understood in different ways: in the natural world, with the life processes within an organism – visible in the network of the veins of a leaf or in the genetic diversity in populations of plants – networking takes place by means of pollen, via pollinators or the wind. In the world of research, individual objects, such as a particular plant, are networked with the data obtained from them. Networking is also crucial if this data is to be effective as a knowledge base for solving global issues of the future: collaboration between scientific experts within and across disciplines and with stakeholders at regional, national and international level. Contents Foreword 5 Organisation 56 A network for plants 6 Facts and figures 57 Staff, visiting scientists, doctoral students 57 Key events of 2017 – 2019 10 Affiliated and unsalaried scientists, volunteers 58 BGBM publications 59 When diversity goes online 16 Species newly described by BGBM authors 78 Families and genera newly described by BGBM authors 82 On the quest for diversity 20 Online resources and databases 83 Externally funded projects 87 Invisible diversity 24 Hosted scientific events 2017 – 2019 92 Collections 93 Humboldt 2.0 30 Library 96 BGBM Press: publications 97 Between East and West 36 Botanical Museum 99 Press and public relations 101 At the service of science 40 Visitor numbers 102 Budget 103 A research museum 44 Publication information 104 Hands-on science 50 Our symbol, the corncockle 52 4 5 Foreword BGBM Annual Report 2017 – 2019 We are facing vital challenges.
    [Show full text]
  • Functional Ecology Published by John Wiley & Sons Ltd on Behalf of British Ecological Society
    Received: 22 June 2017 | Accepted: 14 February 2018 DOI: 10.1111/1365-2435.13085 RESEARCH ARTICLE Insular woody daisies (Argyranthemum, Asteraceae) are more resistant to drought- induced hydraulic failure than their herbaceous relatives Larissa C. Dória1 | Diego S. Podadera2 | Marcelino del Arco3 | Thibaud Chauvin4,5 | Erik Smets1 | Sylvain Delzon6 | Frederic Lens1 1Naturalis Biodiversity Center, Leiden University, Leiden, The Netherlands; 2Programa de Pós-Graduação em Ecologia, UNICAMP, Campinas, São Paulo, Brazil; 3Department of Plant Biology (Botany), La Laguna University, La Laguna, Tenerife, Spain; 4PIAF, INRA, University of Clermont Auvergne, Clermont-Ferrand, France; 5AGPF, INRA Orléans, Olivet Cedex, France and 6BIOGECO INRA, University of Bordeaux, Cestas, France Correspondence Frederic Lens Abstract Email: [email protected] 1. Insular woodiness refers to the evolutionary transition from herbaceousness to- Funding information wards derived woodiness on (sub)tropical islands and leads to island floras that have Conselho Nacional de Desenvolvimento a higher proportion of woody species compared to floras of nearby continents. Científico e Tecnológico, Grant/Award Number: 206433/2014-0; French National 2. Several hypotheses have tried to explain insular woodiness since Darwin’s original Agency for Research, Grant/Award Number: observations, but experimental evidence why plants became woody on islands is ANR-10-EQPX-16 and ANR-10-LABX-45; Alberta Mennega Stichting scarce at best. 3. Here, we combine experimental measurements of hydraulic failure in stems (as a Handling Editor: Rafael Oliveira proxy for drought stress resistance) with stem anatomical observations in the daisy lineage (Asteraceae), including insular woody Argyranthemum species from the Canary Islands and their herbaceous continental relatives. 4. Our results show that stems of insular woody daisies are more resistant to drought- induced hydraulic failure than the stems of their herbaceous counterparts.
    [Show full text]
  • Asteraceae) and Its Implications to the Taxonomic Position of the Genus Pietrosia
    Phytotaxa 197 (4): 282–290 ISSN 1179-3155 (print edition) www.mapress.com/phytotaxa/ PHYTOTAXA Copyright © 2015 Magnolia Press Article ISSN 1179-3163 (online edition) http://dx.doi.org/10.11646/phytotaxa.197.4.5 First mature fruit description of Pietrosia laevitomentosa (Asteraceae) and its implications to the taxonomic position of the genus Pietrosia ANCA MANOLE Plant and Animal Cytobiology Department, Institute of Biology Bucharest of the Romanian Academy, 296 Splaiul Independentei, 060031 Bucharest, Romania; email: [email protected] Abstract For the first time we describe the morphology and anatomy of mature achenes bearing fertile seeds of Pietrosia laevito- mentosa, an endemic plant species in the Eastern Carpathians. The new diagnostic features of the genus Pietrosia justify its taxonomic recognition as separate from Andryala; those are the achene size (between 2.5 and 4.3 mm long), the deciduous pappus, the single-rimmed achene apex, the elongate exocarpic cells, the complete ring of mesocarpic sclerenchyma (up to 11-layered), and the number and localization of the vascular bundles (5 bundles, in the small ribs). Furthermore, our data may also serve to reconsider the species ecology and conservation strategies. Key words: carpology, Compositae, conservation, Eastern Carpathians, endangered species, endemism, Romania, sexual propagation Introduction Pietrosia laevitomentosa Nyár. in Sennikov (1999: 78) is still an enigmatic species despite being the subject of active scientific interest after its discovery fifty years ago. It was the only species assigned to the genus Andryala found so far north, as all the other species occur in the Mediterranean Region and Macaronesia (Lucas & Synge 1978). According to published reports, the plant has a very restricted distribution in an area of about 150 square meters on rocky slopes of the Pietrosul Bistriţei Mountain (Eastern Carpathians, Romania).
    [Show full text]
  • Hymenoptera, Vespidae, Masarinae) in Morocco
    Research Collection Journal Article Flower associations and nesting of the pollen wasp Quartinia major Kohl, 1898 (Hymenoptera, Vespidae, Masarinae) in Morocco Author(s): Mauss, Volker; Müller, Andreas; Prosi, Rainer Publication Date: 2018 Permanent Link: https://doi.org/10.3929/ethz-b-000249947 Originally published in: Journal of Hymenoptera Research 62, http://doi.org/10.3897/jhr.62.22879 Rights / License: Creative Commons Attribution 4.0 International This page was generated automatically upon download from the ETH Zurich Research Collection. For more information please consult the Terms of use. ETH Library JHR 62: 15–31Flower (2018) associations and nesting of the pollen wasp Quartinia major Kohl, 1898... 15 doi: 10.3897/jhr.62.22879 RESEARCH ARTICLE http://jhr.pensoft.net Flower associations and nesting of the pollen wasp Quartinia major Kohl, 1898 (Hymenoptera, Vespidae, Masarinae) in Morocco Volker Mauss1, Andreas Müller2, Rainer Prosi3 1 Staatliches Museum für Naturkunde, Abt. Entomologie, Rosenstein 1, D-70191 Stuttgart, Germany 2 ETH Zürich, Institute of Agricultural Sciences, Biocommunication and Entomology, Schmelzbergstraße 9/LFO, CH-8092 Zürich, Switzerland 3 Lerchenstraße 81, D-74564 Crailsheim, Germany Corresponding author: Volker Mauss ([email protected]) Academic editor: J. Neff | Received 9 December 2017 | Accepted 4 January 2018 | Published 26 February 2018 http://zoobank.org/426192A5-7E3A-46CD-9CDF-48A8FBD63AC5 Citation: Mauss V, Müller A, Prosi R (2018) Flower associations and nesting of the pollen wasp Quartinia major Kohl, 1898 (Hymenoptera, Vespidae, Masarinae) in Morocco. Journal of Hymenoptera Research 62: 15–31. https://doi. org/10.3897/jhr.62.22879 Abstract Females of Quartinia major Kohl were observed to visit flowers of Pulicaria mauritanica Batt., Cladanthus arabicus (L.) Cass.
    [Show full text]
  • Fort Ord Natural Reserve Plant List
    UCSC Fort Ord Natural Reserve Plants Below is the most recently updated plant list for UCSC Fort Ord Natural Reserve. * non-native taxon ? presence in question Listed Species Information: CNPS Listed - as designated by the California Rare Plant Ranks (formerly known as CNPS Lists). More information at http://www.cnps.org/cnps/rareplants/ranking.php Cal IPC Listed - an inventory that categorizes exotic and invasive plants as High, Moderate, or Limited, reflecting the level of each species' negative ecological impact in California. More information at http://www.cal-ipc.org More information about Federal and State threatened and endangered species listings can be found at https://www.fws.gov/endangered/ (US) and http://www.dfg.ca.gov/wildlife/nongame/ t_e_spp/ (CA). FAMILY NAME SCIENTIFIC NAME COMMON NAME LISTED Ferns AZOLLACEAE - Mosquito Fern American water fern, mosquito fern, Family Azolla filiculoides ? Mosquito fern, Pacific mosquitofern DENNSTAEDTIACEAE - Bracken Hairy brackenfern, Western bracken Family Pteridium aquilinum var. pubescens fern DRYOPTERIDACEAE - Shield or California wood fern, Coastal wood wood fern family Dryopteris arguta fern, Shield fern Common horsetail rush, Common horsetail, field horsetail, Field EQUISETACEAE - Horsetail Family Equisetum arvense horsetail Equisetum telmateia ssp. braunii Giant horse tail, Giant horsetail Pentagramma triangularis ssp. PTERIDACEAE - Brake Family triangularis Gold back fern Gymnosperms CUPRESSACEAE - Cypress Family Hesperocyparis macrocarpa Monterey cypress CNPS - 1B.2, Cal IPC
    [Show full text]
  • APPENDIX D Biological Technical Report
    APPENDIX D Biological Technical Report CarMax Auto Superstore EIR BIOLOGICAL TECHNICAL REPORT PROPOSED CARMAX AUTO SUPERSTORE PROJECT CITY OF OCEANSIDE, SAN DIEGO COUNTY, CALIFORNIA Prepared for: EnviroApplications, Inc. 2831 Camino del Rio South, Suite 214 San Diego, California 92108 Contact: Megan Hill 619-291-3636 Prepared by: 4629 Cass Street, #192 San Diego, California 92109 Contact: Melissa Busby 858-334-9507 September 29, 2020 Revised March 23, 2021 Biological Technical Report CarMax Auto Superstore TABLE OF CONTENTS EXECUTIVE SUMMARY ................................................................................................ 3 SECTION 1.0 – INTRODUCTION ................................................................................... 6 1.1 Proposed Project Location .................................................................................... 6 1.2 Proposed Project Description ............................................................................... 6 SECTION 2.0 – METHODS AND SURVEY LIMITATIONS ............................................ 8 2.1 Background Research .......................................................................................... 8 2.2 General Biological Resources Survey .................................................................. 8 2.3 Jurisdictional Delineation ...................................................................................... 9 2.3.1 U.S. Army Corps of Engineers Jurisdiction .................................................... 9 2.3.2 Regional Water Quality
    [Show full text]
  • 2004 Vegetation Classification and Mapping of Peoria Wildlife Area
    Vegetation classification and mapping of Peoria Wildlife Area, South of New Melones Lake, Tuolumne County, California By Julie M. Evens, Sau San, and Jeanne Taylor Of California Native Plant Society 2707 K Street, Suite 1 Sacramento, CA 95816 In Collaboration with John Menke Of Aerial Information Systems 112 First Street Redlands, CA 92373 November 2004 Table of Contents Introduction.................................................................................................................................................... 1 Vegetation Classification Methods................................................................................................................ 1 Study Area ................................................................................................................................................. 1 Figure 1. Survey area including Peoria Wildlife Area and Table Mountain .................................................. 2 Sampling ................................................................................................................................................ 3 Figure 2. Locations of the field surveys. ....................................................................................................... 4 Existing Literature Review ......................................................................................................................... 5 Cluster Analyses for Vegetation Classification .........................................................................................
    [Show full text]
  • BOLLETTINO DELLA SOCIETÀ ENTOMOLOGICA ITALIANA Non-Commercial Use Only
    BOLL.ENTOMOL_150_2_cover.qxp_Layout 1 07/09/18 07:42 Pagina a Poste Italiane S.p.A. ISSN 0373-3491 Spedizione in Abbonamento Postale - 70% DCB Genova BOLLETTINO DELLA SOCIETÀ ENTOMOLOGICA only ITALIANA use Volume 150 Fascicolo II maggio-agosto 2018Non-commercial 31 agosto 2018 SOCIETÀ ENTOMOLOGICA ITALIANA via Brigata Liguria 9 Genova BOLL.ENTOMOL_150_2_cover.qxp_Layout 1 07/09/18 07:42 Pagina b SOCIETÀ ENTOMOLOGICA ITALIANA Sede di Genova, via Brigata Liguria, 9 presso il Museo Civico di Storia Naturale n Consiglio Direttivo 2018-2020 Presidente: Francesco Pennacchio Vice Presidente: Roberto Poggi Segretario: Davide Badano Amministratore/Tesoriere: Giulio Gardini Bibliotecario: Antonio Rey only Direttore delle Pubblicazioni: Pier Mauro Giachino Consiglieri: Alberto Alma, Alberto Ballerio,use Andrea Battisti, Marco A. Bologna, Achille Casale, Marco Dellacasa, Loris Galli, Gianfranco Liberti, Bruno Massa, Massimo Meregalli, Luciana Tavella, Stefano Zoia Revisori dei Conti: Enrico Gallo, Sergio Riese, Giuliano Lo Pinto Revisori dei Conti supplenti: Giovanni Tognon, Marco Terrile Non-commercial n Consulenti Editoriali PAOLO AUDISIO (Roma) - EMILIO BALLETTO (Torino) - MAURIZIO BIONDI (L’Aquila) - MARCO A. BOLOGNA (Roma) PIETRO BRANDMAYR (Cosenza) - ROMANO DALLAI (Siena) - MARCO DELLACASA (Calci, Pisa) - ERNST HEISS (Innsbruck) - MANFRED JÄCH (Wien) - FRANCO MASON (Verona) - LUIGI MASUTTI (Padova) - MASSIMO MEREGALLI (Torino) - ALESSANDRO MINELLI (Padova)- IGNACIO RIBERA (Barcelona) - JOSÉ M. SALGADO COSTAS (Leon) - VALERIO SBORDONI (Roma) - BARBARA KNOFLACH-THALER (Innsbruck) - STEFANO TURILLAZZI (Firenze) - ALBERTO ZILLI (Londra) - PETER ZWICK (Schlitz). ISSN 0373-3491 BOLLETTINO DELLA SOCIETÀ ENTOMOLOGICA ITALIANA only use Fondata nel 1869 - Eretta a Ente Morale con R. Decreto 28 Maggio 1936 Volume 150 Fascicolo II maggio-agosto 2018Non-commercial 31 agosto 2018 REGISTRATO PRESSO IL TRIBUNALE DI GENOVA AL N.
    [Show full text]
  • How Many of Cassini Anagrams Should There Be? Molecular
    TAXON 59 (6) • December 2010: 1671–1689 Galbany-Casals & al. • Systematics and phylogeny of the Filago group How many of Cassini anagrams should there be? Molecular systematics and phylogenetic relationships in the Filago group (Asteraceae, Gnaphalieae), with special focus on the genus Filago Mercè Galbany-Casals,1,3 Santiago Andrés-Sánchez,2,3 Núria Garcia-Jacas,1 Alfonso Susanna,1 Enrique Rico2 & M. Montserrat Martínez-Ortega2 1 Institut Botànic de Barcelona (CSIC-ICUB), Pg. del Migdia s.n., 08038 Barcelona, Spain 2 Departamento de Botánica, Facultad de Biología, Universidad de Salamanca, 37007 Salamanca, Spain 3 These authors contributed equally to this publication. Author for correspondence: Mercè Galbany-Casals, [email protected] Abstract The Filago group (Asteraceae, Gnaphalieae) comprises eleven genera, mainly distributed in Eurasia, northern Africa and northern America: Ancistrocarphus, Bombycilaena, Chamaepus, Cymbolaena, Evacidium, Evax, Filago, Logfia, Micropus, Psilocarphus and Stylocline. The main morphological character that defines the group is that the receptacular paleae subtend, and more or less enclose, the female florets. The aims of this work are, with the use of three chloroplast DNA regions (rpl32-trnL intergenic spacer, trnL intron, and trnL-trnF intergenic spacer) and two nuclear DNA regions (ITS, ETS), to test whether the Filago group is monophyletic; to place its members within Gnaphalieae using a broad sampling of the tribe; and to investigate in detail the phylogenetic relationships among the Old World members of the Filago group and provide some new insight into the generic circumscription and infrageneric classification based on natural entities. Our results do not show statistical support for a monophyletic Filago group.
    [Show full text]
  • Flora Mediterranea 26
    FLORA MEDITERRANEA 26 Published under the auspices of OPTIMA by the Herbarium Mediterraneum Panormitanum Palermo – 2016 FLORA MEDITERRANEA Edited on behalf of the International Foundation pro Herbario Mediterraneo by Francesco M. Raimondo, Werner Greuter & Gianniantonio Domina Editorial board G. Domina (Palermo), F. Garbari (Pisa), W. Greuter (Berlin), S. L. Jury (Reading), G. Kamari (Patras), P. Mazzola (Palermo), S. Pignatti (Roma), F. M. Raimondo (Palermo), C. Salmeri (Palermo), B. Valdés (Sevilla), G. Venturella (Palermo). Advisory Committee P. V. Arrigoni (Firenze) P. Küpfer (Neuchatel) H. M. Burdet (Genève) J. Mathez (Montpellier) A. Carapezza (Palermo) G. Moggi (Firenze) C. D. K. Cook (Zurich) E. Nardi (Firenze) R. Courtecuisse (Lille) P. L. Nimis (Trieste) V. Demoulin (Liège) D. Phitos (Patras) F. Ehrendorfer (Wien) L. Poldini (Trieste) M. Erben (Munchen) R. M. Ros Espín (Murcia) G. Giaccone (Catania) A. Strid (Copenhagen) V. H. Heywood (Reading) B. Zimmer (Berlin) Editorial Office Editorial assistance: A. M. Mannino Editorial secretariat: V. Spadaro & P. Campisi Layout & Tecnical editing: E. Di Gristina & F. La Sorte Design: V. Magro & L. C. Raimondo Redazione di "Flora Mediterranea" Herbarium Mediterraneum Panormitanum, Università di Palermo Via Lincoln, 2 I-90133 Palermo, Italy [email protected] Printed by Luxograph s.r.l., Piazza Bartolomeo da Messina, 2/E - Palermo Registration at Tribunale di Palermo, no. 27 of 12 July 1991 ISSN: 1120-4052 printed, 2240-4538 online DOI: 10.7320/FlMedit26.001 Copyright © by International Foundation pro Herbario Mediterraneo, Palermo Contents V. Hugonnot & L. Chavoutier: A modern record of one of the rarest European mosses, Ptychomitrium incurvum (Ptychomitriaceae), in Eastern Pyrenees, France . 5 P. Chène, M.
    [Show full text]
  • 39. El Género Andryala L. (Compositae, Cichorieae) En La Península Ibérica Y Baleares: Una Nueva Especie E Híbridos Interespecíficos
    296 Acta Botanica Malacitana 40. 2015 39. EL GÉNERO ANDRYALA L. (COMPOSITAE, CICHORIEAE) EN LA PENÍNSULA IBÉRICA Y BALEARES: UNA NUEVA ESPECIE E HÍBRIDOS INTERESPECÍFICOS Salvador TALAVERA y María TALAVERA Recibido el 2 de noviembre de 2015, aceptado para su publicación el 9 de noviembre de 2015 The genus Andryala L. (Compositae, Cichorieae) in the Iberian Peninsula and Balearic Islands: a new species and interspecific hybrids Palabras clave. Corología, sistemática, taxonomía, tipificación, novedades taxonómicas. Key words. Chorology, Systematic, taxonomy, tipification, new records. El género Andryala L. reúne cerca de especie más común en la Península Ibérica. 20 especies, con dos centros de diversidad, De hecho, aunque las especies presentes en el la Región Mediterránea y Macaronesia territorio de esta flora están bien diferenciadas (archipiélagos de Madeira y Canarias), con morfológicamente, la presencia de los la mayor concentración de taxones en el NW híbridos dificulta bastante su identificación. de África, sobre todo en Marruecos y Argelia. En la Península Ibérica e islas Baleares se han Estudios moleculares han mostrado que el reconocido 6 especies, una de ellas, Andryala género Andryala forma un grupo monofilético cintrana, nueva para la ciencia, y en todas, junto con Schlagintweitia Griseb., Hieracium excepto en A. agardhii Haens. ex DC., se han L., Hispidella Lam. y Pilosella Vaill., los cuales encontrado híbridos interespecíficos, algunos constituyen la subtribu Hieraciinae de la tribu de ellos ya indicados por García Adá et al. Cichorieae (Asteraceae). Schlagintweitia es (1996) y García Adá (1992). el género basal de la subtribu; Andryala es el En el presente trabajo se relacionan género hermano de Hieracium, Hispidella y las especies reconocidas para el territorio Pilosella.
    [Show full text]
  • Baja California, Mexico, and a Vegetation Map of Colonet Mesa Alan B
    Aliso: A Journal of Systematic and Evolutionary Botany Volume 29 | Issue 1 Article 4 2011 Plants of the Colonet Region, Baja California, Mexico, and a Vegetation Map of Colonet Mesa Alan B. Harper Terra Peninsular, Coronado, California Sula Vanderplank Rancho Santa Ana Botanic Garden, Claremont, California Mark Dodero Recon Environmental Inc., San Diego, California Sergio Mata Terra Peninsular, Coronado, California Jorge Ochoa Long Beach City College, Long Beach, California Follow this and additional works at: http://scholarship.claremont.edu/aliso Part of the Biodiversity Commons, Botany Commons, and the Ecology and Evolutionary Biology Commons Recommended Citation Harper, Alan B.; Vanderplank, Sula; Dodero, Mark; Mata, Sergio; and Ochoa, Jorge (2011) "Plants of the Colonet Region, Baja California, Mexico, and a Vegetation Map of Colonet Mesa," Aliso: A Journal of Systematic and Evolutionary Botany: Vol. 29: Iss. 1, Article 4. Available at: http://scholarship.claremont.edu/aliso/vol29/iss1/4 Aliso, 29(1), pp. 25–42 ’ 2011, Rancho Santa Ana Botanic Garden PLANTS OF THE COLONET REGION, BAJA CALIFORNIA, MEXICO, AND A VEGETATION MAPOF COLONET MESA ALAN B. HARPER,1 SULA VANDERPLANK,2 MARK DODERO,3 SERGIO MATA,1 AND JORGE OCHOA4 1Terra Peninsular, A.C., PMB 189003, Suite 88, Coronado, California 92178, USA ([email protected]); 2Rancho Santa Ana Botanic Garden, 1500 North College Avenue, Claremont, California 91711, USA; 3Recon Environmental Inc., 1927 Fifth Avenue, San Diego, California 92101, USA; 4Long Beach City College, 1305 East Pacific Coast Highway, Long Beach, California 90806, USA ABSTRACT The Colonet region is located at the southern end of the California Floristic Province, in an area known to have the highest plant diversity in Baja California.
    [Show full text]