List of Regulated Pests in Republic of Korea 2006

Total Page:16

File Type:pdf, Size:1020Kb

List of Regulated Pests in Republic of Korea 2006 List of Regulated Pests in Repbulic of Korea, 2006 ► Prohibited Pest : 72 species No. Scientific Name Remarks 1 Anarsia lineatella Zeller 2 Anastrepha distincta Greene Tephritidae 3 Anastrepha fraterculus (Wiedemann) Tephritidae 4 Anastrepha ludens (Loew) Tephritidae 5 Anastrepha obliqua (Macquart) Tephritidae 6 Anastrepha pseudoparallela (Loew) Tephritidae 7 Anastrepha serpentina Tephritidae 8 Anastrepha striata Shiner Tephritidae 9 Anastrepha suspensa (Loew) Tephritidae 10 Apple proliferation Apple proliferation witches' broom 11 Bactrocera aquilonis (May) Tephritidae 12 Bactrocera carambolae (Drew & Hancock) Tephritidae 13 Bactrocera correcta (Bezzi) Tephritidae 14 Bactrocera cucumis (French) Tephritidae 15 Bactrocera cucurbitae (Coquillett) Tephritidae 16 Bactrocera dorsalis (Hendel) Tephritidae 17 Bactrocera fraunfeldi Schiner Tephritidae 18 Bactrocera halfordiae (Tryon) Tephritidae 19 Bactrocera jarvisi (Tryon) Tephritidae 20 Bactrocera kraussi (Hardy) Tephritidae 21 Bactrocera latifrons (Hendel) Tephritidae 22 Bactrocera murrayi (Perkins) Tephritidae 23 Bactrocera neohumeralis (Hardy) Tephritidae 24 Bactrocera opiliae (Drew and Hardy) Tephritidae 25 Bactrocera papayae (Drew & Hancock) Tephritidae 26 Bactrocera tau (Walker) Tephritidae 27 Bactrocera trivialis (Drew) Tephritidae 28 Bactrocera tryoni (Froggatt) Tephritidae 29 Bactrocera tsuneonsis (Miyake) Tephritidae 30 Bactrocera tuberculata (Bezzi) Tephritidae 31 Bactrocera umbrosa (Fabricius) Tephritidae 32 Bactrocera zonata (Saunders) Tephritidae 33 Balansia oryzae-sativae Udbatta disease 34 Bursaphelenchus xylophilus (Steiner & Buher) 35 Carpomya pardalina 36 Ceratitis capitata (Wiedemann) Tephritidae 37 Ceratitis quinaria (Bezzi) Tephritidae 38 Ceratitis rosa Karsch Tephritidae 39 Citrus greening Citrus greening disease 40 Conotrachelus nenuphar (Herbst) 41 Cronartium coleosporioides Stalactiform blister rust 42 Cryptophlebia leucotreta (Meyrick) 43 Cydia funebrana Treitschke 44 Cydia pomonella (L.) 45 Cylas formicarius (Fabricius) 46 Ditylenchus angustus (Butler) 47 Erwinia amylovora Fireblight 48 Euscepes postfasciatus (Fairmaire) 49 Globodera pallida (Stone) 50 Globodera rostochiensis (Wollenweber) 51 Grapevine flavescence Doree Grapevine flavescence Doree 52 Grapholita prunivorana Ragonot 53 Grapholitha inopinata Heinrich 54 Grapholitha prunivora (Walsh) 55 Leptinotarsa decemlineata (Say) 56 Mayetiola destructor (Say) 57 Peronospora tabacina Downy mildew 58 Phytophthora ramorum 59 Plum pox potyvirus 60 Potato spindle tuber viroid 61 Radopholus citrophilus Huttel et al. 62 Radopholus similis (Cobb) Thorene 63 Rhagoletis cerasi (Linnaeus) 64 Rhagoletis cingulata 65 Rhagoletis completa Gresson 66 Rhagoletis fausta (Osten Sacken) 67 Rhagoletis indifferens Curran 68 Rhagoletis pomonella (Walsh) 69 Rhagoletis suavis (Loew) 70 Synchytrium endobioticum Potato wart disease 71 Xylella fastidiosa Pierce's disease 72 Zonosemata electa (Say) ► Controlled Pests : 1,998 species No. Scientific Name Remarks 1 Abgrallaspis cyanophylli (Signoret) Diaspididae 2 Abutilon mosaic virus Abutilon mosaic virus 3 Acalolepta cervina (Hope) Cerambycidae 4 Acalolepta spp. Cerambycidae 5 Acalymma vittatum (Fabricius) Chrysomelidae 6 Acanthiophilus helianthi (Rossi) Tephritidae 7 Acanthoscelides obtectus (Say) Bruchidae 8 Acaudaleyrodes citri (Priesne & Hosny) Aleyrodidae 9 Aceria diospyri Keifer Eriophyidae 10 Aceria tulipae (Keifer) Eriophyidae 11 Achaea janata Noctuidae 12 Acheta domesticus Gryllidae 13 Acia lineatifrons (Naude) Cicadellidae 14 Acicnemis spp. Curculionidae 15 Acledra dimidiaticollis Spinola Pentatomidae 16 Acleris gloverana (Walsingham) Tortricidae 17 Acleris variana (Faernald) Tortricidae 18 Acremoniella atra 19 Acremonium diospyri (Crandall) W. Gams Persimmon wilt 20 Acremonium strictum W. Gams Acremonium wilt 21 Acrobasis tricolorella Pyralidae 22 Acroconiediella tropaeoli (C.N. Carter) Leaf spot 23 Acrolepiopsis assectella (Zeel.) Yponomeutidae 24 Acrosporium tingitaninum (C.N. Carter) Subram. Powdery mildew 25 Acrosternum hilare (Say) Pentatomidae 26 Aculops lycopersici (Tryon) Eriophyidae 27 Aculus cornutus (Banks) Eriophyidae 28 Aculus schlechtenndali (Nalepa) Eriophyidae 29 Acutaspis albopicta (Cockerell) Diaspididae 30 Acutaspis umbonifera (Newstead) Diaspididae 31 Acyrthosiphon lactucae (Passerini) Aphididae 32 Adelges laricis potaninilaricis Zhang Adelgidae 33 Adoretus versutus Scarabaeidae 34 Aegorhinus superciliosus Guerin Curculionidae 35 Aelia rostrata Boh Pentatomidae 36 Aeolesthes induta Newman Cerambycidae 37 Aeolesthes sarta (Solsky) Cerambycidae 38 Aggorhinus phaleratus Erichson Curculionidae 39 Agrilus occipitalis Eschscholtz Buprestidae 40 Agrilus ruficollis (Fabricius) Buprestidae 41 Agrilus sinuatus (Olivier) Buprestidae 42 Agriolimax agrestis Linnaeus Limacidae 43 Agriotes lineatus (Linnaeus) Elateridae 44 Agromyza parvicornis Loew Agromyzidae 45 Agrypnus variabilis (Candeze) Elateridae 46 Alcidodes juglans Chao Curculionidae 47 Alcidodes waltoni (Boheman) Curculionidae 48 Aleurocanthus cinnamomi Takahashi Aleyrodidae 49 Aleurocanthus husaini Corbett Aleyrodidae 50 Aleurocanthus woglumi Ashby Aleyrodidae 51 Aleurodicus capiangae Bondar Aleyrodidae 52 Aleurodicus dispersus Russell Aleyrodidae 53 Aleurodicus dugesii Aleyrodidae 54 Aleurolobus citri Takahashi Aleyrodidae 55 Aleurolobus mariatti (Quaintance) Aleyrodidae 56 Aleurothrixus floccosus (Maskell) Aleyrodidae 57 Aleurothrixus porteri Quaim & Baker Aleyrodidae 58 Aleurotrachelus camelliae (Kuwana) Aleyrodidae 59 Aleurotuberculatus aucubae (Kuwana) Aleyrodidae 60 Aleurotuberculatus similis Takahashi Aleyrodidae 61 Aleyrodes proletella (Linnaeus) Aleyrodidae 62 Algarobius prosopis (LeConte) Bruchidae 63 Allantus cinctus (Linnaeus) Tenthredinidae 64 Allococcus morrisoni Ezzat & McConnell Pseudococcidae 65 Alsophila aescularia (Denis & Schiffermuller) Geometridae 66 Alsophila pometaria (Harris) Geometridae 67 Alternaria dianthicola Neergaard Carnation bud rot 68 Alternaria triticina Prasada & Prabhu Leaf blight 69 Altica chalybea llligr Chrysomelidae 70 Alticinae Chrysomelidae 71 Amauromyza maculosa (Malloch) Agromyzidae 72 Amblypelta brevicornis Brown Coreidae 73 Amblypelta lutescens Coreidae 74 Amblypelta nitida Stal Coreidae 75 Ambrosiodmus rubricollis (Eichoff) Scolytidae 76 Ambrosiodmus tachygraphus (Zimmermann) Scolytidae 77 Ametastegia glabrata (Fallen) Tenthredinidae 78 Ametastegia tener Tenthredinidae 79 Amnemus quadrituberculatus (Boheman) Curculionidae 80 Amorbia emigratella Busck Tortricidae 81 Ampeloglypter ater LeConte Curculionidae 82 Ampeloglypter sesostris LeConte Curculionidae 83 Amphimallon solstitialis (Linnaeus) Scarabaeidae 84 Amphipyra pyramidoides (Guenee) Noctuidae 85 Amrasca splendens (Ghauri) Cicadellidae 86 Amsinckia intermedia Coast fiddleneck 87 Anaceratgallia venosa (Fourcroy) Cicadellidae 88 Anaphothrips occidentalis Moulton Thripidae 89 Anaphothrips sudanensis Trybom Thripidae 90 Anasa tristis (De Geer) Coreidae 91 Ancognatha scarabaeoides Burmeister Scarabaeidae 92 Ancylis comptana fragariae (Walsh & Riley) Tortricidae 93 Andean potato latent virus Andean potato latent virus 94 Andean potato mottle virus Andean potato mottle virus 95 Angiosorus solani Thirumumlachar & Obrien Potato smut 96 Anguina agrostis (steinbuch) Filipjey Anguinidae 97 Anisandrus pyri (Peck) Scolytidae 98 Anisogramma anomala (Peck) E. MuLLER Eastern filbert blight 99 Anisoplia austriaca (Herbst) Scarabaeidae 100 Anomothrips associatus Thripidae 101 Anoplocnemis curipes (Fabricius) Coreidae 102 Anoplodera mitens (Forst) Cerambycidae 103 Anoplodera spp. Cerambycidae 104 Anoplognathus spp. Scarabaeidae 105 Anoplolepis gracilipes Formicidae 106 Anoplolepis longipes (Jerdon) Formicidae 107 Anthonomus eugennii Cano Curculionidae 108 Anthonomus grandis Boheman Curculionidae 109 Anthonomus quadrigibbus Say Curculionidae 110 Anthonomus signatus Say Curculionidae 111 Anthonomus vestitus Boheman Curculionidae 112 Anticarsia gemmatalis Hubner Noctuidae 113 Antigastra catalaunalis Pyralidae 114 Aonidiella aurantii (Maskell) Diaspididae 115 Aonidiella comperei Mckenzie Diaspididae 116 Aonidiella inornata Mckenzie Diaspididae 117 Aonidiella orientalis (Newstead) Diaspididae 118 Aonidomytilus albus (Cockerell) Diaspididae 119 Apate indistincta Murray Bostrichidae 120 Apate monachus F. Bostrichidae 121 Apate spp. Bostrichidae 122 Apate terebrans (Pallas) Bostrichidae 123 Aphanomyces euteiches Drechs. Root rot 124 Aphelenchoides bicaudatus Aphelenchoididae 125 Aphelenchoides blastophthorus Frankin Aphelenchoididae 126 Aphelenchoides spp. Aphelenchoididae 127 Aphis fabae Scopoli Aphididae 128 Aphis illinoisensis Shimer Aphididae 129 Aphis intybi Koch Aphididae 130 Aphis maidiradicis Forbes Aphididae 131 Aphis pomi De Geer Aphididae 132 Aphtona euphorbiae (Schrank) Chrysomelidae 133 Apocheima cinerarius Geometridae 134 Apple decline Phytoplasma Apple decline 135 Apple fruit crinkle viroid 136 Apple necrosis virus Apple necrosis virus 137 Apple rubbery wood disease Apple rubbery wood disease 138 Apple skin scar viroid Apple skin scar viroid 139 Apsylla cistellata Buckton Psyllidae 140 Arabis mosaic virus Arabis mosaic virus 141 Aradus cinnamomeus Panzer Aradidae 142 Archips argyrospila (Walker) Tortricidae 143 Archips cerasivoranus Tortricidae 144 Archips micaceana Walker Tortricidae 145 Archips occidentalis (Walsingham) Tortricidae 146 Archips podana (Scopoli) Tortricidae 147 Archips rosana (Linnaeus) Tortricidae 148 Argyrotaenia citrana (Fernald) Tortricidae 149 Argyrotaenia pulchellana (Haworth) Tortricidae
Recommended publications
  • Genetically Modified Baculoviruses for Pest
    INSECT CONTROL BIOLOGICAL AND SYNTHETIC AGENTS This page intentionally left blank INSECT CONTROL BIOLOGICAL AND SYNTHETIC AGENTS EDITED BY LAWRENCE I. GILBERT SARJEET S. GILL Amsterdam • Boston • Heidelberg • London • New York • Oxford Paris • San Diego • San Francisco • Singapore • Sydney • Tokyo Academic Press is an imprint of Elsevier Academic Press, 32 Jamestown Road, London, NW1 7BU, UK 30 Corporate Drive, Suite 400, Burlington, MA 01803, USA 525 B Street, Suite 1800, San Diego, CA 92101-4495, USA ª 2010 Elsevier B.V. All rights reserved The chapters first appeared in Comprehensive Molecular Insect Science, edited by Lawrence I. Gilbert, Kostas Iatrou, and Sarjeet S. Gill (Elsevier, B.V. 2005). All rights reserved. No part of this publication may be reproduced or transmitted in any form or by any means, electronic or mechanical, including photocopy, recording, or any information storage and retrieval system, without permission in writing from the publishers. Permissions may be sought directly from Elsevier’s Rights Department in Oxford, UK: phone (þ44) 1865 843830, fax (þ44) 1865 853333, e-mail [email protected]. Requests may also be completed on-line via the homepage (http://www.elsevier.com/locate/permissions). Library of Congress Cataloging-in-Publication Data Insect control : biological and synthetic agents / editors-in-chief: Lawrence I. Gilbert, Sarjeet S. Gill. – 1st ed. p. cm. Includes bibliographical references and index. ISBN 978-0-12-381449-4 (alk. paper) 1. Insect pests–Control. 2. Insecticides. I. Gilbert, Lawrence I. (Lawrence Irwin), 1929- II. Gill, Sarjeet S. SB931.I42 2010 632’.7–dc22 2010010547 A catalogue record for this book is available from the British Library ISBN 978-0-12-381449-4 Cover Images: (Top Left) Important pest insect targeted by neonicotinoid insecticides: Sweet-potato whitefly, Bemisia tabaci; (Top Right) Control (bottom) and tebufenozide intoxicated by ingestion (top) larvae of the white tussock moth, from Chapter 4; (Bottom) Mode of action of Cry1A toxins, from Addendum A7.
    [Show full text]
  • Lepidoptera: Tortricidae: Tortricinae) and Evolutionary Correlates of Novel Secondary Sexual Structures
    Zootaxa 3729 (1): 001–062 ISSN 1175-5326 (print edition) www.mapress.com/zootaxa/ Monograph ZOOTAXA Copyright © 2013 Magnolia Press ISSN 1175-5334 (online edition) http://dx.doi.org/10.11646/zootaxa.3729.1.1 http://zoobank.org/urn:lsid:zoobank.org:pub:CA0C1355-FF3E-4C67-8F48-544B2166AF2A ZOOTAXA 3729 Phylogeny of the tribe Archipini (Lepidoptera: Tortricidae: Tortricinae) and evolutionary correlates of novel secondary sexual structures JASON J. DOMBROSKIE1,2,3 & FELIX A. H. SPERLING2 1Cornell University, Comstock Hall, Department of Entomology, Ithaca, NY, USA, 14853-2601. E-mail: [email protected] 2Department of Biological Sciences, University of Alberta, Edmonton, Canada, T6G 2E9 3Corresponding author Magnolia Press Auckland, New Zealand Accepted by J. Brown: 2 Sept. 2013; published: 25 Oct. 2013 Licensed under a Creative Commons Attribution License http://creativecommons.org/licenses/by/3.0 JASON J. DOMBROSKIE & FELIX A. H. SPERLING Phylogeny of the tribe Archipini (Lepidoptera: Tortricidae: Tortricinae) and evolutionary correlates of novel secondary sexual structures (Zootaxa 3729) 62 pp.; 30 cm. 25 Oct. 2013 ISBN 978-1-77557-288-6 (paperback) ISBN 978-1-77557-289-3 (Online edition) FIRST PUBLISHED IN 2013 BY Magnolia Press P.O. Box 41-383 Auckland 1346 New Zealand e-mail: [email protected] http://www.mapress.com/zootaxa/ © 2013 Magnolia Press 2 · Zootaxa 3729 (1) © 2013 Magnolia Press DOMBROSKIE & SPERLING Table of contents Abstract . 3 Material and methods . 6 Results . 18 Discussion . 23 Conclusions . 33 Acknowledgements . 33 Literature cited . 34 APPENDIX 1. 38 APPENDIX 2. 44 Additional References for Appendices 1 & 2 . 49 APPENDIX 3. 51 APPENDIX 4. 52 APPENDIX 5.
    [Show full text]
  • Moths of Poole Harbour Species List
    Moths of Poole Harbour is a project of Birds of Poole Harbour Moths of Poole Harbour Species List Birds of Poole Harbour & Moths of Poole Harbour recording area The Moths of Poole Harbour Project The ‘Moths of Poole Harbour’ project (MoPH) was established in 2017 to gain knowledge of moth species occurring in Poole Harbour, Dorset, their distribution, abundance and to some extent, their habitat requirements. The study area uses the same boundaries as the Birds of Poole Harbour (BoPH) project. Abigail Gibbs and Chris Thain, previous Wardens on Brownsea Island for Dorset Wildlife Trust (DWT), were invited by BoPH to undertake a study of moths in the Poole Harbour recording area. This is an area of some 175 square kilometres stretching from Corfe Castle in the south to Canford Heath in the north of the conurbation and west as far as Wareham. 4 moth traps were purchased for the project; 3 Mercury Vapour (MV) Robinson traps with 50m extension cables and one Actinic, Ultra-violet (UV) portable Heath trap running from a rechargeable battery. This was the capability that was deployed on most of the ensuing 327 nights of trapping. Locations were selected using a number of criteria: Habitat, accessibility, existing knowledge (previously well-recorded sites were generally not included), potential for repeat visits, site security and potential for public engagement. Field work commenced from late July 2017 and continued until October. Generally, in the years 2018 – 2020 trapping field work began in March/ April and ran on until late October or early November, stopping at the first frost.
    [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]
  • Microlepidoptera.Hu 12: 83–94|19.06.2017|HU ISSN 2062–6738 83
    DOI: 10.24386/Microlep.2017.12.83 Microlepidoptera.hu 12: 83–94|19.06.2017|HU ISSN 2062–6738 83 New findings of the case-bearing moth genus Coleophora from the Balkan Peninsula with the description of Coleophora vardarella sp. nov. (Lepidoptera: Coleophoridae) Ignác Richter Abstract. Present article brings information about new findings of case–bearing moths (Lepidoptera: Coleophoridae) from the Balkan Peninsula. Several species of the genus Coleophora were recorded for the first time for some of the Balkan countries. Coleophora herniariae, C. daglarica and C. albipennella are recorded as new for the fauna of Europe. The description Coleophora vardarella Richter, sp. nov., from Macedonia is given. Keywords. Lepidoptera, Coleophoridae, Coleophora vardarella sp. nov., Coleophora herniariae, Coleophora daglarica, Coleophora albipennella, Macedonia, the Balkan Peninsula. Author’s address. Ignác Richter | Malá Čausa 289, SK–971 01, Slovakia E-mail: [email protected] Introduction Intensive faunistic research of small moths (“Microlepidoptera”) of the Balkan Peninsula continues for several decades already and lasts until the recent times. The family Coleophoridae Bruand, 1850 belongs to the less known moths of the Balkans, therefore our focus has been oriented towards this large Lepidoptera family. Faunistic and systematic studies of this moth group in the Balkans resulted in interesting findings. One of the most important recent works about the genera Coleophora Hübner, 1822 and Goniodoma Zeller, 1849 of the Balkan Peninsula is the contribution of Richter & Pastorális (2015). Results of surveys conducted by seni- or author, executed in the years 2010–2014 at different sites of Croatia, Montene- gro, Macedonia, and Bulgaria were presented.
    [Show full text]
  • Comitetul De Redacţie
    Analele Ştiinţifice ale Universităţii „Al. I. Cuza” Iaşi, s. Biologie animală, Tom LIII, 2007 LEAF-MINING INSECTS ENCOUNTERED IN THE FOREST RESERVE OF HÂRBOANCA, VASLUI COUNTY Alina-Maria STOLNICU “Alexandru Ioan Cuza” University, Iasi, the Faculty of Biology, Carol I Blvd., no. 22, 700505, Iaşi, Romania e-mail: [email protected] Abstract. As a result of a series of studies conducted within the Forest Reserve of Hârboanca (Vaslui) between June 2005 and October 2006, there were identified 60 species of leaf-mining insects, belonging to 14 families, from three different orders: Lepidoptera (83%), Diptera (12%) and Hymenoptera (5%). The “mines” caused by the larvae of these insects were identified on 34 different species of hosting plants, mostly wooden plants. The leaf-mining Lepidoptera and Hymenoptera larvae are more likely to grow on wooden plants, while those belonging to the Diptera order prefer herbaceous plants. One of the species, Phyllonorycter issikii (Kumata) found here was signaled for the first time in Romanian fauna, while other ten species were encountered for the first time in Moldavia. Keywords: leaf-mining insects, Forest Reserve of Hârboanca, Romanian, fauna. Rezumat. Insecte miniere semnalate în Rezervaţia Forestieră Hârboanca (Vaslui). În urma studiilor efectuate în Rezervaţia Forestieră Hârboanca (Vaslui) în perioada iunie 2005 - octombrie 2006 s-au identificat 60 de specii de insecte miniere care aparţin la 14 familii, grupate în 3 ordine: Lepidoptera (83%), Diptera (12%) şi Hymenoptera (5%). Minele provocate de larvele insectelor miniere au fost identificate pe 34 de specii de plante-gazdă, majoritatea fiind de esenţă lemnoasă. Larvele lepidopterelor şi himenopterelor miniere se dezvoltă mai mult pe plantele lemnoase, în schimb dipterele preferă plantele ierboase.
    [Show full text]
  • Epiphyas Postvittana (Light Brown Apple Moth) Page 1 of 22
    Crop Protection Compendium report - Epiphyas postvittana (light brown apple moth) Page 1 of 22 Crop Protection Compendium Selected sections for: Epiphyas postvittana (light brown apple moth) Identity Taxonomic Tree Summary of Invasiveness Notes on Taxonomy and Nomenclature Description Distribution Distribution Table History of Introduction and Spread Habitat Habitat List Hosts/Species Affected Host Plants and Other Plants Affected Growth Stages Symptoms List of Symptoms/Signs Biology and Ecology Air Temperature Means of Movement and Dispersal Pathway Vectors Plant Trade Notes on Natural Enemies Natural enemies Impact Summary Impact: Economic Risk and Impact Factors Uses List Diagnosis Detection and Inspection Similarities to Other Species/Conditions Prevention and Control References Contributors Images Datasheet Type(s): Pest Identity Preferred Scientific Name Epiphyas postvittana Walker Preferred Common Name light brown apple moth Other Scientific Names Archips postvittanus Walker Austrotortrix postvittana Walker Cacoecia postvittana Walker Teras postvittana Walker Tortrix postvittana Walker International Common Names English apple leafroller, Australian leafroller, light-brown apple moth French pyrale brun pâle de la pomme EPPO code TORTPO (Epiphyas postvittana) Taxonomic Tree Domain: Eukaryota Kingdom: Metazoa Phylum: Arthropoda Subphylum: Uniramia Class: Insecta Order: Lepidoptera Family: Tortricidae Genus: Epiphyas Species: Epiphyas postvittana Summary of Invasiveness http://www.cabi.org/cpc/DatasheetDetailsReports.aspx?&iSectionId=110*0/141*0/23*0/122*0/103*0/1... 10/13/2011 Crop Protection Compendium report - Epiphyas postvittana (light brown apple moth) Page 2 of 22 E. postvittana is a small, bell-shaped moth, whose caterpillars feed on a very wide range of plants. The eggs, larvae and pupae can be associated with plant material and readily transported.
    [Show full text]
  • Genomewide Screening and Transcriptional Profile Analysis Of
    Insect Science (2012) 19, 55–63, DOI 10.1111/j.1744-7917.2011.01427.x ORIGINAL ARTICLE Genome-wide screening and transcriptional profile analysis of desaturase genes in the European corn borer moth Bingye Xue1,†, Alejandro P. Rooney2 and Wendell L. Roelofs1 1Department of Entomology, NYSAES-Cornell University, Geneva, NY, 2Crop Bioprotection Research Unit, National Center for Agricultural Utilization Research, Agricultural Research Service, U.S. Department of Agriculture, Peoria, IL, USA Abstract Acyl-coenzyme A (Acyl-CoA) desaturases play a key role in the biosynthesis of female moth sex pheromones. Desaturase genes are encoded by a large multigene family, and they have been divided into five subgroups on the basis of biochemical functionality and phylogenetic affinity. In this study both copy numbers and transcriptional levels of desaturase genes in the European corn borer (ECB), Ostrinia nubilalis, were investigated. The results from genome-wide screening of ECB bacterial artificial chromosome (BAC) library indicated there are many copies of some desaturase genes in the genome. An open reading frame (ORF) has been isolated for the novel desaturase gene ECB ezi-11β from ECB gland complementary DNA and its functionality has been analyzed by two yeast expression systems. No functional activities have been detected for it. The expression levels of the four desaturase genes both in the pheromone gland and fat body of ECB and Asian corn borer (ACB), O. furnacalis, were determined by real-time polymerase chain reaction. In the ECB gland, 11 is the most abundant, although the amount of 14 is also considerable. In the ACB gland, 14 is the most abundant and is 100 times more abundant than all the other three combined.
    [Show full text]
  • Insect Biochemistry and Molecular Biology 41 (2011) 715E722
    Insect Biochemistry and Molecular Biology 41 (2011) 715e722 Contents lists available at ScienceDirect Insect Biochemistry and Molecular Biology journal homepage: www.elsevier.com/locate/ibmb Terminal fatty-acyl-CoA desaturase involved in sex pheromone biosynthesis in the winter moth (Operophtera brumata) Bao-Jian Ding a,*, Marjorie A. Liénard a, Hong-Lei Wang a, Cheng-Hua Zhao b, Christer Löfstedt a a Functional Zoology, Department of Biology, Lund University, Sölvegatan 37, SE-223 62 Lund, Sweden b State Key Laboratory of Integrated Management of Pest Insects and Rodents, Institute of Zoology, The Chinese Academy of Sciences, 100080 Beijing, China article info abstract Article history: The winter moth (Operophtera brumata L., Lepidoptera: Geometridae) utilizes a single hydrocarbon, Received 1 April 2011 1,Z3,Z6,Z9-nonadecatetraene, as its sex pheromone. We tested the hypothesis that a fatty acid precursor, Received in revised form Z11,Z14,Z17,19-nonadecanoic acid, is biosynthesized from a-linolenic acid, through chain elongation by 16 May 2011 one 2-carbon unit, and subsequent methyl-terminus desaturation. Our results show that labeled a- Accepted 16 May 2011 linolenic acid is indeed incorporated into the pheromone component in vivo. A fatty-acyl-CoA desaturase gene that we found to be expressed in the abdominal epidermal tissue, the presumed site of biosynthesis Keywords: for type II pheromones, was characterized and expressed heterologously in a yeast system. The trans- Methyl-terminus desaturase In vivo labeling genic yeast expressing this insect derived gene could convert Z11,Z14,Z17-eicosatrienoic acid into Yeast expression Z11,Z14,Z17,19-eicosatetraenoic acid. These results provide evidence that a terminal desaturation step is Epidermal tissue involved in the winter moth pheromone biosynthesis, prior to the decarboxylation.
    [Show full text]
  • Minnesota's Top 124 Terrestrial Invasive Plants and Pests
    Photo by RichardhdWebbWebb 0LQQHVRWD V7RS 7HUUHVWULDO,QYDVLYH 3ODQWVDQG3HVWV 3ULRULWLHVIRU5HVHDUFK Sciencebased solutions to protect Minnesota’s prairies, forests, wetlands, and agricultural resources Contents I. Introduction .................................................................................................................................. 1 II. Prioritization Panel members ....................................................................................................... 4 III. Seventeen criteria, and their relative importance, to assess the threat a terrestrial invasive species poses to Minnesota ...................................................................................................................... 5 IV. Prioritized list of terrestrial invasive insects ................................................................................. 6 V. Prioritized list of terrestrial invasive plant pathogens .................................................................. 7 VI. Prioritized list of plants (weeds) ................................................................................................... 8 VII. Terrestrial invasive insects (alphabetically by common name): criteria ratings to determine threat to Minnesota. .................................................................................................................................... 9 VIII. Terrestrial invasive pathogens (alphabetically by disease among bacteria, fungi, nematodes, oomycetes, parasitic plants, and viruses): criteria ratings
    [Show full text]
  • (Hymenoptera: Vespoidea: Eumenidae) in New Zealand
    New Zealand Entomologist, 1994, Vol. 17 29 REFERENCES Baylis, G.T.S., 1948: Vegetation of Great Island, Three Kings group. Records ofthe Auckland Institute and Museum 3: 239-252. , 1951: Incipient forest regeneration on Great Island, Three Kings group. Records ofthe Auckland Institute and Museum 4: 103-109. , 1958: A botanical survey of the small islands of the Three Kings group. Records of the Auckland Institute and Museum 5: 1-12. Brook, F.J. ; Laurenson, C.M., 1992: Ecology and morphological variation in Placostylus bollonsi (Gastropoda: Bulimulidae) at Three Kings Islands, New Zealand. Records ofthe Auckland Institute and Museum 29: 135-166. Cranwell, L.M., 1962: Endemism and isolation in the Three Kings Islands, New Zealand- with notes on pollen and spore types of the endemics. Records ofthe Auckland Institute andMuseum 5: 215-232. Hayward. B.W. ; Moore, P.R., 1987: Geology of the Three Kings Islands, northern New Zealand. Records of the Auckland Institute and Museum 24: 215-232. Ramsay, G.W., 1971: The D.S.I.R. Entomology Division 1970 expedition to the Three Kings Islands. New Zealand Entomologist 5: 13-17. Taylor, R.W., 1962: The ants of the Three Kings Islands. Records of the Auckland Institute and Museum 5: 251-254. Biology of Ancistrocerus gazella (Hymenoptera: Vespoidea: Eumenidae) in New Zealand A.C. HARRIS Otago Museum, P.O. Box 6202, Great King Street, Dunedin, New Zealand ABSTRACT Ancistrocerus gazella (Panzer, 1798) is common in Central Otago, New Zealand. Details are provided of its typically tubular, generally multicelled nests in hollow stems, artificial trap nests, abandoned wood-boring insect galleries, cracks and holes in stone walls and old nail and bolt holes in cement, concrete and wood.
    [Show full text]
  • ESTUDIS DE A11 ACIL-Coa DESSATURASES IMPLICADES EN
    ESTUDIS DE '11 ACIL-CoA DESSATURASES IMPLICADES EN LA BIOSÍNTESI DE FEROMONES SEXUALS DE LEPIDÒPTERS Montserrat Serra Mas Barcelona, 2006 DEPARTAMENT DE BIOQUÍMICA I BIOLOGIA MOLECULAR FACULTAT DE BIOLOGIA Programa de Doctorat de Biotecnologia Bienni 2002/2004 ESTUDIS DE '11-ACIL-CoA DESSATURASES IMPLICADES EN LA BIOSÍNTESI DE FEROMONES SEXUALS DE LEPIDÒPTERS Memòria presentada per Montserrat Serra Mas per optar al títol de Doctor per la Universitat de Barcelona Treball realitzat en el Departament de Química Orgànica Biològica de l’Institut d’Investigacions Químiques i Ambientals de Barcelona (C.S.I.C.) Directors Tutor Jordi Bujons Vilàs Montserrat Busquets Abió Científic titular Professora titular Dpt. Química Orgànica Biològica Dpt. Bioquímica y Biologia Molecular Institut d’Investigacions Químiques Facultat de Biologia i Ambientals de Barcelona Universitat de Barcelona (I.I.Q.A.B.-C.S.I.C.) Gemma Fabriàs Domingo Investigador científic Dpt. Química Orgànica Biològica Institut d’Investigacions Químiques i Ambientals de Barcelona (I.I.Q.A.B.-C.S.I.C.) What we know is a drop. What we don't know is an ocean. Isaac Newton (1643-1727) Como siempre: lo urgente no deja tiempo para lo Importante. Mafalda AGRAÏMENTS Quan s’arriba al punt de redactar els agraïments de la tesi doctoral vol dir que ja queda poca cosa per fer. A més, aquest és un apartat especialment important ja que saps del cert que aquestes dues pàgines les llegirà tothom. En aquest moment mires enrera i recordes el dia en el que vas entrar per primera vegada en un laboratori. Tenia claríssim que la meva especialitat havia d’ésser la bioquímica i els meus primers passos els vaig donar en un laboratori de la setena planta de la facultat de Química.
    [Show full text]