DOCSLIB.ORG

USDA –APHIS-PPQ-CPHST Phoenix, AZ, And

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
USDA –APHIS-PPQ-CPHST Phoenix, AZ, And Cover – Image Copyrights 1 Cover – Image Copyrights Cover Images: Michelle Walters – USDA –APHIS-PPQ-CPHST Phoenix, AZ, http://www.cottonman.com/cotton_bolls.htm, and http://www.cotton-bales.com/. 2 Table of Contents Table of Contents Table of Contents ......................................................................................................................... 3 Authors, Reviewers, Draft Log ................................................................................................... 4 Introduction to Reference ............................................................................................................ 6 Introduction to Cotton ................................................................................................................ 11 Arthropods ................................................................................................................................. 14 Primary Pests of Cotton (Full Pest Datasheet) .................................................................. 14 Anthonomus grandis........................................................................................................... 14 Helicoverpa armigera ......................................................................................................... 25 Ostrinia furnacalis ............................................................................................................... 36 Oxycarenus hyalinipennis .................................................................................................. 46 Pectinophora gossypiella ................................................................................................... 57 Spodoptera littoralis ............................................................................................................ 68 Spodoptera litura ................................................................................................................. 78 Thaumatotibia leucotreta ................................................................................................... 90 Secondary Pest of Cotton (Truncated Datasheets) ........................................................ 101 Adoxophyes orana ............................................................................................................ 101 Autographa gamma .......................................................................................................... 106 Diabrotica speciosa .......................................................................................................... 110 Eutetranychus orientalis................................................................................................... 115 Planococcus minor ........................................................................................................... 120 Plant Pathogens ..................................................................................................................... 125 Primary Pests of Cotton (Full Pest Datasheet) ................................................................ 125 Phytophthora boehmeriae ............................................................................................... 125 Appendix A: Diagnostic Resource Contacts ........................................................................ 135 Appendix B: Glossary of Terms ............................................................................................. 137 Appendix C: FY10 & 11 CAPS Prioritized Pest List and Commodity Matrix .................. 142 Appendix D: FY12 CAPS Prioritized Pest List and Commodity Matrix ............................ 146 3 Authors, Reviewers, Draft Log Authors, Reviewers, Draft Log Authors CAPS Commenters Lydia Brown Robert Balaam Assistant in Extension Greater Caribbean Safeguarding Initiative (GCSI) Agronomic Crops IPM Florida Program Manager University of Arizona – USDA-APHIS-PPQ Arizona Pest Management Center Miami, FL. Maricopa Agricultural Center 37860 W. Smith-Enke Road Maricopa, AZ 85138 [email protected] Shujuan Li, Ph.D. Parul Patel Post Doctoral Associate Offshore Pest Information Program University of Arizona – Int'l Pest Information Coordinator Arizona Pest Management Center OPIS Program Manager Maricopa Agricultural Center USDA-APHIS-PPQ 37860 W. Smith-Enke Road Riverdale, MD. Maricopa, AZ 85138 Peter Ellsworth, Ph.D. Ian Foley IPM Specialist, Professor & State IPM Coordinator, Pest Management Program Manager Director, Arizona Pest Management Center State Survey Coordinator University of Arizona – Montana Dept. of Agriculture Department of Entomology Maricopa Agricultural Center Helena, MT. 37860 W. Smith-Enke Road Maricopa, AZ 85138 [email protected] Melinda Sullivan, Ph.D. Gary Adams Plant Pathologist State Plant Health Director - Montana USDA-APHIS-PPQ-CPHST USDA-APHIS-PPQ 2301 Research Blvd., Suite 108 Helena, MT. Fort Collins, CO 80526 [email protected] Talitha Molet Erin Stiers Biological Science Technician Pest Survey Specialist (CO, KS, OK) USDA-APHIS-PPQ-CPHST USDA-APHIS-PPQ 1730 Varsity Dr., Suite 400 Topeka, KS Raleigh, NC 27606 Reviewers Colete Jacono Pest Survey Specialist (FL) USDA APHIS PPQ Gainesville Florida 4 Authors, Reviewers, Draft Log Lisa Jackson Grace O’Keefe Biological Scientist Domestic Identifier- Plant Pathologist USDA-APHIS-PPQ-CPHST USDA-APHIS-PPQ 1730 Varsity Dr., Suite 400 University Park, PA Raleigh, NC 27606 Esther Daniells Research Associate Colorado State University Fort Collins, CO 80526 Al Fournier, Ph.D. Draft Log IPM Program Manager, Adjunct Scientist November 2011 – Draft sent for CPHST review Assoc. Director, Arizona Pest Management Cent. University of Arizona December 2011 – Draft sent for CAPS review Department of Entomology Maricopa Agricultural Center March 2012 – Final draft posted on CAPS 37860 W. Smith-Enke Road Resource and Collaboration site Maricopa, AZ 85138 August 2016 – Removed outdated maps, updated mapping information Mike Matheron, Ph.D. Specialist, Plant Pathology University of Arizona School of Plant Sciences Yuma Agricultural Center 6425 W 8th St Yuma, AZ 85364 Steven Naranjo, Ph.D. Research Entomologist, Unit Leader, Acting Director, USDA-ARS, ALARC 21881 North Cardon Lane Maricopa, AZ 85138 5 Introduction to the Reference Introduction to Reference History of Commodity-Based Survey The CAPS community is made up of a large and varied group of individuals from federal, state, and university organizations who use federal (and other) funding sources to survey for and (in some cases) diagnose exotic and invasive plant pests. By finding pests early, eradication efforts will likely be less expensive and more efficient. For more information on CAPS and other Plant Protection and Quarantine (PPQ) pest detection programs see: http://www.aphis.usda.gov/plant_health/plant_pest_info/pest_detection/index.shtml. Traditionally, states have been given a list of pests. From this list each year, states choose a number of pests to incorporate in their own specialized surveys. There is certainly value in surveying for plant health threats in terms of discreet pests. However, this may not always be the most efficient means of survey. For example, a single pest may occur on a myriad of different hosts, making a comprehensive survey too time consuming and expensive. An alternative method has been suggested. Grouping important pests under the umbrella of a single commodity may be a more efficient way to look for certain pests. The rationale for choosing a commodity survey in certain instances includes the following: • Survey area will be smaller and targeted. • Resources can be more efficiently used with fewer trips to the field. • Commodities are easy to prioritize in terms of economic and regional (geographic) importance. The Center for Plant Health Science and Technology (CPHST) has been charged with developing a commodity-based survey strategy in support of the CAPS program. Two types of end products are being developed for each commodity. Each product serves a valuable yet unique purpose. The result is a set of paired documents developed for each commodity. A description of these documents is provided below: Commodity-Based Survey Reference (CSR): This document is composed of a series of pest data sheets, mini-pest risk assessments (PRAs), or early detection PRAs. The data sheets are highly graphic and illustrate the biology, survey, and identification of particular pests in appropriate detail for CAPS surveyors. The pests in this document are numerous. The pests were chosen primarily from the CAPS Analytic Hierarchy Process (AHP) prioritized pest list (Appendix C and D) and the Select Agent list (http://www.aphis.usda.gov/programs/ag_selectagent/ or http://www.aphis.usda.gov/programs/ag_selectagent/ag_bioterr_toxinlist.shtml). The AHP prioritized pest lists for FY 11’ and FY 12’ are also given in Appendices C and D. Additional pests may be added if they are cited in scientific literature as being a primary 6 Introduction to the Reference pest of the given commodity and are exotic to the United States, or if specifically requested by the CAPS National Committee or industry. States are not required to survey for all of the pests in this document, but may choose those that are particularly relevant to include in their survey. In general, this document should serve as a desk reference for survey specialists as they plan their annual surveys. Commodity-Based Survey Guidelines (CSG): This document is smaller. The list of pests is shorter than those chosen for the CSR.
Load more

Recommended publications
  • (12) United States Patent (10) Patent No.: US 7,687,533 B2 Critcher Et Al
    USOO7687533B2 (12) United States Patent (10) Patent No.: US 7,687,533 B2 Critcher et al. (45) Date of Patent: Mar. 30, 2010 (54) N-(1-ARYLPYRAZOL-4L) SULFONAMIDES EP 546391 6, 1993 AND THEIR USE AS PARASITICDES EP 59.4291 4f1994 EP 626.375 11, 1994 (75) Inventors: Douglas James Critcher, Sandwich EP 1319657 6, 2003 (GB); Nigel Derek Arthur Walshe, WO WO87,03781 7, 1987 Sandwich (GB); Christelle Lauret, WO WO91f11172 8, 1991 Sandwich (GB) WO WO93, 19053 9, 1993 WO WO93,25543 12/1993 (73) Assignees: Pfizer Inc., New York, NY (US); Pfizer WO WO94/O2518 2, 1994 Products Inc., Groton, CT (US) WO WO94, 15944 T 1994 - WO WO94,21606 9, 1994 (*) Notice: Subject to any disclaimer, the term of this WO WO95/22552 8, 1995 patent is extended or adjusted under 35 WO WO96, 11945 4f1996 U.S.C. 154(b) by 607 days. WO WO96, 15121 5, 1996 WO WO98,24767 6, 1998 (21) Appl. No.: 10/593,133 WO WO98.28278 7, 1998 WO WO98,55148 12/1998 (22) PCT Filed: Mar. 7, 2005 WO WO98,57937 12/1998 (86). PCT No.: PCT/B2005/000597 W WS 1 3. S 371 (c)(1) WO WOO1, 19798 3, 2001 (2), (4) Date: Nov.30, 2006 WO WOO2/O58690 8, 2002 WO WOO3,O37274 5, 2003 (87) PCT Pub. No.: WO2005/090313 WO WOO3,051833 6, 2003 WO WO2004/OOO318 12/2003 PCT Pub. Date: Sep. 29, 2005 WO WO2004/043951 5, 2004 WO WO2004/043951 A1 * 5, 2004 (65) Prior Publication Data WO WO2004/049797 6, 2004 US 2008/O26 1940 A1 Oct.
    [Show full text]
  • Pima County Plant List (2020) Common Name Exotic? Source
    Pima County Plant List (2020) Common Name Exotic? Source McLaughlin, S. (1992); Van Abies concolor var. concolor White fir Devender, T. R. (2005) McLaughlin, S. (1992); Van Abies lasiocarpa var. arizonica Corkbark fir Devender, T. R. (2005) Abronia villosa Hariy sand verbena McLaughlin, S. (1992) McLaughlin, S. (1992); Van Abutilon abutiloides Shrubby Indian mallow Devender, T. R. (2005) Abutilon berlandieri Berlandier Indian mallow McLaughlin, S. (1992) Abutilon incanum Indian mallow McLaughlin, S. (1992) McLaughlin, S. (1992); Van Abutilon malacum Yellow Indian mallow Devender, T. R. (2005) Abutilon mollicomum Sonoran Indian mallow McLaughlin, S. (1992) Abutilon palmeri Palmer Indian mallow McLaughlin, S. (1992) Abutilon parishii Pima Indian mallow McLaughlin, S. (1992) McLaughlin, S. (1992); UA Abutilon parvulum Dwarf Indian mallow Herbarium; ASU Vascular Plant Herbarium Abutilon pringlei McLaughlin, S. (1992) McLaughlin, S. (1992); UA Abutilon reventum Yellow flower Indian mallow Herbarium; ASU Vascular Plant Herbarium McLaughlin, S. (1992); Van Acacia angustissima Whiteball acacia Devender, T. R. (2005); DBGH McLaughlin, S. (1992); Van Acacia constricta Whitethorn acacia Devender, T. R. (2005) McLaughlin, S. (1992); Van Acacia greggii Catclaw acacia Devender, T. R. (2005) Acacia millefolia Santa Rita acacia McLaughlin, S. (1992) McLaughlin, S. (1992); Van Acacia neovernicosa Chihuahuan whitethorn acacia Devender, T. R. (2005) McLaughlin, S. (1992); UA Acalypha lindheimeri Shrubby copperleaf Herbarium Acalypha neomexicana New Mexico copperleaf McLaughlin, S. (1992); DBGH Acalypha ostryaefolia McLaughlin, S. (1992) Acalypha pringlei McLaughlin, S. (1992) Acamptopappus McLaughlin, S. (1992); UA Rayless goldenhead sphaerocephalus Herbarium Acer glabrum Douglas maple McLaughlin, S. (1992); DBGH Acer grandidentatum Sugar maple McLaughlin, S. (1992); DBGH Acer negundo Ashleaf maple McLaughlin, S.
    [Show full text]
  • Lepidoptera Learning Objective
    QUARANTINE SIGNIFICANT LEPIDOPTERA OF CONCERN TO THE SOUTHERN UNITED STATES STEVEN PASSOA USDA/APHIS/PPQ 2007 1 LEPIDOPTERA GOALS . Learn techniques of specimen preparation and submission for CAPS Lepidoptera . Develop a list of Lepidoptera of regulatory concern to the southern USA . Learn to SCREEN samples for these species in the stage most likely to be seen by diagnostic labs using the MAJOR characters. Some species are only defined by a combination of features. In those cases, using the associated key and references listed is more accurate. Give examples from the major superfamilies . Distributions and hosts mentioned are the most likely pathways 2 DEVELOP A LIST . Criteria originally modified from biocontrol of weeds list in July 1991 memo, then modified by NEPSC committee . Now widely used in APHIS as mini-PRA . Survey methodology and taxonomic recognition added to economic criteria . Results are either threats (no pathway), CAPS targets (need to survey), or a dead survey (not practical to consider) 3 WHY LABS HATE TO IDENTIFY LEPIDOPTERA . Secret society of critical characters . Constant name changes . Characters hard to see, covered with scales, or both 4 EGGS . Two types . Do not kill important finds and sent urgent . Plan to rear them in a quarantine facility . Spodoptera and Lymantria (and others) cover the eggs with scales from the female’s body 5 LARVAE . Associate leaf miners with the mine and host . Mouthparts are the “genitalia” of the larval world . Fill vials so there is no air bubble when shipping . “Burp” rubber stoppers and parafilm screw top vials . Can kill and ship in vinegar . Put loose parts in small vials 6 PUPAE .
    [Show full text]
  • Insecticides - Development of Safer and More Effective Technologies
    INSECTICIDES - DEVELOPMENT OF SAFER AND MORE EFFECTIVE TECHNOLOGIES Edited by Stanislav Trdan Insecticides - Development of Safer and More Effective Technologies http://dx.doi.org/10.5772/3356 Edited by Stanislav Trdan Contributors Mahdi Banaee, Philip Koehler, Alexa Alexander, Francisco Sánchez-Bayo, Juliana Cristina Dos Santos, Ronald Zanetti Bonetti Filho, Denilson Ferrreira De Oliveira, Giovanna Gajo, Dejane Santos Alves, Stuart Reitz, Yulin Gao, Zhongren Lei, Christopher Fettig, Donald Grosman, A. Steven Munson, Nabil El-Wakeil, Nawal Gaafar, Ahmed Ahmed Sallam, Christa Volkmar, Elias Papadopoulos, Mauro Prato, Giuliana Giribaldi, Manuela Polimeni, Žiga Laznik, Stanislav Trdan, Shehata E. M. Shalaby, Gehan Abdou, Andreia Almeida, Francisco Amaral Villela, João Carlos Nunes, Geri Eduardo Meneghello, Adilson Jauer, Moacir Rossi Forim, Bruno Perlatti, Patrícia Luísa Bergo, Maria Fátima Da Silva, João Fernandes, Christian Nansen, Solange Maria De França, Mariana Breda, César Badji, José Vargas Oliveira, Gleberson Guillen Piccinin, Alan Augusto Donel, Alessandro Braccini, Gabriel Loli Bazo, Keila Regina Hossa Regina Hossa, Fernanda Brunetta Godinho Brunetta Godinho, Lilian Gomes De Moraes Dan, Maria Lourdes Aldana Madrid, Maria Isabel Silveira, Fabiola-Gabriela Zuno-Floriano, Guillermo Rodríguez-Olibarría, Patrick Kareru, Zachaeus Kipkorir Rotich, Esther Wamaitha Maina, Taema Imo Published by InTech Janeza Trdine 9, 51000 Rijeka, Croatia Copyright © 2013 InTech All chapters are Open Access distributed under the Creative Commons Attribution 3.0 license, which allows users to download, copy and build upon published articles even for commercial purposes, as long as the author and publisher are properly credited, which ensures maximum dissemination and a wider impact of our publications. After this work has been published by InTech, authors have the right to republish it, in whole or part, in any publication of which they are the author, and to make other personal use of the work.
    [Show full text]
  • EPPO Reporting Service
    ORGANISATION EUROPEENNE EUROPEAN AND MEDITERRANEAN ET MEDITERRANEENNE PLANT PROTECTION POUR LA PROTECTION DES PLANTES ORGANIZATION EPPO Reporting Service NO. 1 PARIS, 2021-01 General 2021/001 New data on quarantine pests and pests of the EPPO Alert List 2021/002 Update on the situation of quarantine pests in the Russian Federation 2021/003 Update on the situation of quarantine pests in Tajikistan 2021/004 Update on the situation of quarantine pests in Uzbekistan 2021/005 New and revised dynamic EPPO datasheets are available in the EPPO Global Database Pests 2021/006 Anoplophora glabripennis eradicated from Austria 2021/007 Popillia japonica is absent from Germany 2021/008 First report of Scirtothrips aurantii in Spain 2021/009 Agrilus planipennis found in Saint Petersburg, Russia 2021/010 First report of Spodoptera frugiperda in Syria 2021/011 Spodoptera frugiperda found in New South Wales, Australia 2021/012 Spodoptera ornithogalli (Lepidoptera Noctuidae - yellow-striped armyworm): addition to the EPPO Alert List 2021/013 First report of Xylosandrus compactus in mainland Spain 2021/014 First report of Eotetranychus lewisi in mainland Portugal 2021/015 First report of Meloidogyne chitwoodi in Spain 2021/016 Update on the situation of the potato cyst nematodes Globodera rostochiensis and G. pallida in Portugal Diseases 2021/017 First report of tomato brown rugose fruit virus in Belgium 2021/018 Update on the situation of tomato brown rugose fruit virus in Spain 2021/019 Update on the situation of Acidovorax citrulli in Greece with findings
    [Show full text]
  • Managing Armyworms in Pastures and Hayfields
    DIVISION OF AGRICULTURE RESEARCH & EXTENSION Agriculture and Natural Resources University of Arkansas System FSA7083 Managing Armyworms in Pastures and Hayfields Kelly Loftin Introduction (Spodoptera ornithogalli) and beet Associate Professor and armyworm (Spodoptera exigua) may Extension Entomologist Two species of armyworms can be attack forages but seldom reach pest significant pests of Arkansas forage status on Arkansas forage. and pasture production. Both species Gus Lorenz belong in the family Noctuidae along Damage from true armyworm Professor - Extension with other garden and agronomic and fall armyworm can seem to Entomologist and IPM pests such as cutworms, bollworms appear overnight. Although the Coordinator and budworms. damage might appear overnight, larvae have likely been feeding for a Ricky Corder In Arkansas, the “true” armyworm week or more before they or their (Pseudaletia unipuncta) is more of a damage appear. This is because when Program Associate ­ spring pest of cool-season grasses the worms are small (early instars) Entomology and tall fescue. The fall armyworm they do not eat much. It is not until (FAW) (Spodoptera frugiperda) is the fifth and sixth instar that the a summer/fall pest primarily of caterpillars begin consuming large bermuda grass, but it can also damage amounts of forage (Figure 1). In addi­ fall-seeded, newly established winter tion, large armyworms may move annuals, fescue and orchardgrass. into an uninfested field (or area of a field) adjacent to a field that was just In southern Arkansas, we can defoliated. Because armyworms are expect to see fall armyworm damage so destructive and compete with live- in bermudagrass as early as July.
    [Show full text]
  • UNIVERSIDAD AUTONOMA METROPOLITANA UNIDAD IZTAPALAPA Casa Abierta Al Tiempo
    UNIVERSIDAD AUTONOMA METROPOLITANA UNIDAD IZTAPALAPA Casa abierta al tiempo DIVISION DE CIENCIAS BIOLOGICAS Y DE LA SALUD DETERMINACIÓN DE LA ACTIVIDAD ANTIINFLAMATORIA DE DOS MUESTRAS DE SPHAERALCEA ANGUSTIFOLIA Y LA INTERACCIÓN DEL EXTRACTO ACTIVO CON FÁRMACOS DE USO CLÍNICO PROYECTO DOCENTE DE INVESTIGACION (PDI) que presenta Berenice Guadarrama Flores para obtener el titulo de Licenciada en Biología Experimental Directora de PDI: Dra. Mariana Meckes Fischer Codirector de PDI: Dr. Rubén Román Ramos MÉXICO DICIEMBRE, 2006 Hemos de recorrer el tiempo con sus segundos extendidos como alas buscando, buscando, buscando siguiendo ideas, persiguiendo sueños….. América Silenciosa* El presente trabajo de investigación se realizó en la Unidad de Investigación Médica en Farmacología de Productos Naturales, de la Coordinación de Investigación en Salud del Instituto Mexicano del Seguro Social, Hospital de Pediatría del Centro Médico Nacional Siglo XXI. El estudio es parte del proyecto “Estudio químico-biológico de Sphaeralcea angustifolia y desarrollo de procedimientos biotecnológicos y análisis metrológico para la obtención de un potencial fármaco antirreumático de aplicación tópica apoyado por CONACYT (SALUD- 2004-CO1-50). ASESORES DE PDI: Dra. Mariana Meckes Fischer Instituto Mexicano del Seguro Social Dr. Rubén Román Ramos Universidad Autónoma Metropolitana Unidad Iztapalapa AGRADECIMIENTOS Hace poco más de cuatro años que mi vida cambió por completo. Jamás había tenido la sensación de vivir fuera de casa, ni tener que encarar al tiempo con la certeza de quien se sabe valiente entre caminos. No obstante, con el paso del tiempo, las casualidades y los distintos espejos del mundo te muestran que la felicidad es una fuerza maravillosa que se encuentra dentro de nosotros mismos para creer firmemente en el futuro.
    [Show full text]
  • Towards an Updated Checklist of the Libyan Flora
    Towards an updated checklist of the Libyan flora Article Published Version Creative Commons: Attribution 3.0 (CC-BY) Open access Gawhari, A. M. H., Jury, S. L. and Culham, A. (2018) Towards an updated checklist of the Libyan flora. Phytotaxa, 338 (1). pp. 1-16. ISSN 1179-3155 doi: https://doi.org/10.11646/phytotaxa.338.1.1 Available at http://centaur.reading.ac.uk/76559/ It is advisable to refer to the publisher’s version if you intend to cite from the work. See Guidance on citing . Published version at: http://dx.doi.org/10.11646/phytotaxa.338.1.1 Identification Number/DOI: https://doi.org/10.11646/phytotaxa.338.1.1 <https://doi.org/10.11646/phytotaxa.338.1.1> Publisher: Magnolia Press All outputs in CentAUR are protected by Intellectual Property Rights law, including copyright law. Copyright and IPR is retained by the creators or other copyright holders. Terms and conditions for use of this material are defined in the End User Agreement . www.reading.ac.uk/centaur CentAUR Central Archive at the University of Reading Reading’s research outputs online Phytotaxa 338 (1): 001–016 ISSN 1179-3155 (print edition) http://www.mapress.com/j/pt/ PHYTOTAXA Copyright © 2018 Magnolia Press Article ISSN 1179-3163 (online edition) https://doi.org/10.11646/phytotaxa.338.1.1 Towards an updated checklist of the Libyan flora AHMED M. H. GAWHARI1, 2, STEPHEN L. JURY 2 & ALASTAIR CULHAM 2 1 Botany Department, Cyrenaica Herbarium, Faculty of Sciences, University of Benghazi, Benghazi, Libya E-mail: [email protected] 2 University of Reading Herbarium, The Harborne Building, School of Biological Sciences, University of Reading, Whiteknights, Read- ing, RG6 6AS, U.K.
    [Show full text]
  • Checklist of the Vascular Alien Flora of Catalonia (Northeastern Iberian Peninsula, Spain) Pere Aymerich1 & Llorenç Sáez2,3
    BOTANICAL CHECKLISTS Mediterranean Botany ISSNe 2603-9109 https://dx.doi.org/10.5209/mbot.63608 Checklist of the vascular alien flora of Catalonia (northeastern Iberian Peninsula, Spain) Pere Aymerich1 & Llorenç Sáez2,3 Received: 7 March 2019 / Accepted: 28 June 2019 / Published online: 7 November 2019 Abstract. This is an inventory of the vascular alien flora of Catalonia (northeastern Iberian Peninsula, Spain) updated to 2018, representing 1068 alien taxa in total. 554 (52.0%) out of them are casual and 514 (48.0%) are established. 87 taxa (8.1% of the total number and 16.8 % of those established) show an invasive behaviour. The geographic zone with more alien plants is the most anthropogenic maritime area. However, the differences among regions decrease when the degree of naturalization of taxa increases and the number of invaders is very similar in all sectors. Only 26.2% of the taxa are more or less abundant, while the rest are rare or they have vanished. The alien flora is represented by 115 families, 87 out of them include naturalised species. The most diverse genera are Opuntia (20 taxa), Amaranthus (18 taxa) and Solanum (15 taxa). Most of the alien plants have been introduced since the beginning of the twentieth century (70.7%), with a strong increase since 1970 (50.3% of the total number). Almost two thirds of alien taxa have their origin in Euro-Mediterranean area and America, while 24.6% come from other geographical areas. The taxa originated in cultivation represent 9.5%, whereas spontaneous hybrids only 1.2%. From the temporal point of view, the rate of Euro-Mediterranean taxa shows a progressive reduction parallel to an increase of those of other origins, which have reached 73.2% of introductions during the last 50 years.
    [Show full text]
  • Die-Back of Cold Tolerant Eucalypts Associated with Phytophthora Spp
    Die-back of cold tolerant eucalypts associated with Phytophthora spp. in South Africa By Bruce O’clive Zwelibanzi Maseko Submitted in partial fulfilment of the requirements for the degree Philosophiae Doctor In the Faculty of Natural & Agricultural Sciences University of Pretoria Pretoria Supervisor: Prof. T.A Coutinho Co- supervisor: Dr T.I Burgess Prof. M.J Wingfield Prof. B.D Wingfield 2010 © University of Pretoria TABLE OF CONTENTS Page Declaration i Acknowledgements ii Preface iii CHAPTER DIEBACK OF COLD-TOLERANT EUCALYPTS ASSOCIATED 1 ONE WITH PHYTOPHTHORA SPP. IN SOUTH AFRICA: A LITERATURE REVIEW 1 Introduction 1 2 Overview of the genus Phytophthora 3 2.1 Disease cycle of Phytophthora 4 2.2 Taxonomic history of the genus Phytophthora 4 3 Impact of Phytophthora diseases 5 3.1 Phytophthora die-back of eucalypts 7 3.1.1 Phytophthora related diseases in Eucalyptus nurseries 7 3.1.2 Phytophthora related disease symptoms in Eucalyptus plantations 8 3.1.3 Physiological and anatomical response to bark injury 9 3.1.4 Variation of disease susceptibility amongst Eucalyptus spp. 10 3.1.5 Variation in pathogenicity among Phytophthora isolates 10 3.1.6 Assessment host tolerance and pathogenicity of Phytophthora spp. 11 4 Role of environmental factors in the development of Phytophthora 11 dieback on eucalypts 4.1 Soil Moisture 11 4.2 Temperature 12 4.3 Soil nutrition 13 5 Management of Phytophthora die-back in eucalypt plantations 13 5.1 Quarantine and sanitation 13 5.2 Silvicultural practices 14 5.3 Breeding and selection for disease resistance 14 5.4 Importance of maintaining genetic diversity 15 5.5 Knowledge of the disease epidemiology 15 6 Identification of Phytophthora spp.
    [Show full text]
  • Flora and Vegetation of the Mohawk Dunes, Arizona, Felger, Richard Stephen
    FLORA AND VEGETATION OF THE MOHAWK DUNES, ARIZONA Richard Stephen Felger Dale Scott Turner Michael F. Wilson Drylands Institute The Nature Conservancy Drylands Institute 2509 North Campbell, #405 1510 E. Fort Lowell 2509 North Campbell, #405 Tucson, AZ 85719, U.S.A. Tucson, AZ 85719, U.S.A. Tucson, AZ 85719, U.S.A. [email protected] ABSTRACT One-hundred twenty-two species of seed plants, representing 95 genera and 35 families are docu- mented for the 7,700 ha Mohawk Dune Field and its immediate surroundings, located in Yuma County, Arizona, USA. Three major habitats were studied: dunes, adjacent sand flats, and playa. The dunes (including interdune swales) support 78 species, of which 13 do not occur on the adjacent non-dune habitats. The adjacent non-dune habitats (sand flats and playa) support 109 species, of which 43 were not found on the dunes. The total flora has 81 annual species, or 66% of the flora. The dune flora has 63 annual (ephemeral) species, or 81% of the flora—one of the highest percentages of annuals among any regional flora. Of these dune annuals, 53 species (84%) develop during the cool season. No plant taxon is endemic to the Mohawk region. There are 8 dune, or sand adapted, endemics— Cryptantha ganderi, Dimorphocarpa pinnatifida, Dicoria canescens, Ditaxis serrata, Pleuraphis rigida, Psorothamnus emoryi, Stephanomeria schottii, Tiquilia plicata—all of which are found on nearby dune systems. Two of them (C. ganderi and S. schottii) are of limited distribution, especially in the USA, and have G2 Global Heritage Status Rank. There are four non-native species in the dune flora (Brassica tournefortii, Mollugo cerviana, Sonchus asper, Schismus arabicus), but only Brassica and Schismus seem to pose serious threats to the dune ecosystem at this time.
    [Show full text]
  • Vegetation Community Responses to Juniper Slash/Burn and Broadcast Burn
    Vegetation Community Responses to Juniper Slash/Burn and Broadcast Burn on A Semi-Desert Tobosa Grassland by Kimberly Sue Cole-Snow A Thesis Presented in Partial Fulfillment of the Requirements of the Degree Master of Science Approved November 2015 by the Graduate Supervisory Committee: Eddie Alford, Chair William Miller Douglas Green ARIZONA STATE UNIVERSITY December 2015 ABSTRACT Modern management techniques to maintain rangelands and deter encroachment of juniper into grassland habitats currently includes fire prescription. Additionally, a large body of research has indicated that fire has multiple benefits to grasslands resulting in increased diversity of flora and fauna. In the semi-arid grassland of the Agua Fria National Monument, fire treatments may be able to provide similar advantages. This study considers two methods of fire prescription on the Agua Fria National Monument within central Arizona: 1) Juniper thinning with pile burning; 2) Broadcast burning. The Agua Fria National Monument upland ecosystem has limited research focusing on semi-arid grassland and juniper stand’s response to implemented treatments over time. The four year monitoring duration of this study aids in assessing the outcome of treatments and reaching the objectives of the management plan. Vegetation in 981 quadrats was measured for species richness, cover, densities, height, and biomass during the fire prescription period from 2009 through 2013. The study was divided into two treatment types: 1) Juniper cutting and pile burn; 2) Broadcast burn areas in open grasslands. Results of this study provide consistent examples of vegetative change and community movement towards positive response. Percent composition of overall vegetation is 5 – 30% with >50% of litter, bare ground and rock cover.
    [Show full text]