DOCSLIB.ORG

Root Mealybugs of Quarantine Significance in Hawaii Arnold H

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Root Mealybugs of Quarantine Significance in Hawaii Arnold H CORE Metadata, citation and similar papers at core.ac.uk Provided by ScholarSpace at University of Hawai'i at Manoa Cooperative Extension Service Insect Pests March 2001 IP-6 Root Mealybugs of Quarantine Significance in Hawaii Arnold H. Hara, Ruth Y. Niino-DuPonte, and Christopher M. Jacobsen Department of Plant and Environmental Protection Sciences even species of root mealybug are found in Hawaii, tion is unusually heavy, it is not evident until the plant’s Sand three of them are of quarantine significance. pot is removed and the root ball is examined. A white, These root mealybugs are a serious problem for Hawaii’s waxy substance and adult female mealybugs will be export potted-plant industry because root infestations noticeable, especially between the pot and the root ball. are not easily detected unless the plants are removed Plants that are growing slowly, root-bound, or under from their pots. Potted palms and other slow growing environmental or nutritional stress are more susceptible plants are more susceptible to infestation by root mea- to root mealybug infestation. lybugs because they require lengthy bench time to at- Due to their cryptic habit (preference for dark, hid- tain marketable size. den places), little is known about root mealybug biol- Damage caused by root mealybugs is not specific. ogy. In general, depending on the species, the adult fe- The most common plant symptoms are slow growth, males (Figures 1–3) live from 27 to 57 days. White, cot- lack of vigor, and subsequent death. Unless the infesta- tony masses containing egg-laying females and/or eggs Mealybug Quarantine Pests • The rhizoecus root mealybugz, Rhizoecus hibisci The rhizoecus root mealybug is widely distrib- Kawai & Takagi (Figure 1), was discovered in Ha- uted in East and Southeast Asia and has also been waii in 1992 and has since spread to the state’s major found in Puerto Rico and Florida. The coffee root mea- potted foliage plant production areas. This mealybug lybug occurs throughout the tropics and subtropics, has been found on palms, calathea, Serrisa spp., and including Central America, South America, Africa, ‘Tifdwarf’ bermudagrass. Micronesia, India, Sri Lanka, Philippines, and Florida. The pineapple mealybug is found in South America, The coffee root mealybug, Geococcus coffeae • Africa, Jamaica, Madagascar, the Dominican Repub- Green, was discovered prior to 1908. It has a very wide lic, Florida, Louisiana, and Massachusetts. host range, including aglaonema, citrus, cacao, cof- The adult female rhizoecus root mealybug is fee, croton, cyperus, dieffenbachia, ferns, mango, ole- snow-white and has an elongated oval shape up to ander, palms, philodendron, pineapple, schefflera, and about 2.35 mm long. The adult female coffee root syngonium. mealybug is also a snow-white, elongated oval shape • The pineapple mealybug, Dysmicoccus brevipes varying from 2 to 2.5 mm in length; it can be distin- Cockerelly (Figure 2), was first mentioned as occur- guished from other root mealybug species by the pres- ring in Hawaii in 1910. It can be found on the lower ence of anal hooks, which are prominent, stiff, up- stem or stalks and exposed roots of pineapple and other turned spines at the tip of each anal lobe. The adult bromeliads, as well as on coffee, banana, caladium, female pineapple mealybug is pale pink or white, sugarcane, canna, citrus, eggplant, and palms. broadly oval, and approximately 3 mm long. zAlthough six species of Rhizoecus are known in Hawaii, in this publication we use the common name, rhizoecus root mealybug, to refer only to R. hibisci. yFormerly called Pseudococcus brevipes Cockerell. Published by the College of Tropical Agriculture and Human Resources (CTAHR) and issued in furtherance of Cooperative Extension work, Acts of May 8 and June 30, 1914, in cooperation with the U.S. Department of Agriculture. Andrew G. Hashimoto, Director/Dean, Cooperative Extension Service/CTAHR, University of Hawaii at Manoa, Honolulu, Hawaii 96822. An Equal Opportunity / Affirmative Action Institution providing programs and services to the people of Hawaii without regard to race, sex, age, religion, color, national origin, ancestry, disability, marital status, arrest and court record, sexual orientation, or veteran status. CTAHR publications can be found on the Web site <http://www2.ctahr.hawaii.edu> or ordered by calling 808-956-7046 or sending e-mail to [email protected]. IP-6 Root Mealybugs of Quarantine Significance CTAHR — March 2001 1 2 Rhizoecus root mealybugs on palm roots. Pineapple mealybugs on palm roots. are normally visible on the outside of the root mass when Root mealybugs can be spread by irrigation water, an infested plant is lifted from its container. Males of re-use of previously infested pots, re-use of contami- the three species discussed here have not been observed nated media, and crawlers moving from infested plants in Hawaii, although male pineapple mealybugs have to other plants. Infestation of greenhouse bench plants been collected in Madagascar, Martinique, and the by root mealybugs can occur by introducing nursery Domican Republic. The newly hatched, immature crawl- stock that was already infested when purchased or from ers (nymphs) are the dispersal stage and are highly mo- crawlers that move in from host plants near the green- bile. Once crawlers find a suitable site, they settle down house. and begin to feed on roots with their sucking mouth- parts. The entire life cycle of a root mealybug ranges from one to four months, depending on the species, cli- Pest management matic conditions, and availability of a food source. Biological control Adult Hawaii has no known natural predators or parasites that Life cycle of a 27–57 days are specific to rhizoecus and coffee root mealybugs. root mealybug Natural predators and parasites of the pineapple mealy- bug in Hawaii include several encrytid (parasitoid) wasps and lady beetles. Cultural control Because root mealybugs are very difficult to detect and control, every effort should be made to prevent their Nymphal spread and establishment. The following practices are stages recommended: • Inspect roots of newly purchased plants by removing them from their pots. • Inspect roots of suspected plants, especially slow growing ones. Avoid pot-bound plants by re-potting when necessary. Crawler • (dispersal Egg stage) < 24 hours Drawing by James Baker, NCSU; photos by Julie Ann Yogi-Chun and A. Hara. 2 IP-6 Root Mealybugs of Quarantine Significance CTAHR — March 2001 Egg Nymph 3 Adult 4 Life stages of the rhizoecus root mealybug. Palm roots in the pot not treated with copper hydroxide (right) are more compacted and infested with mealybugs. • Use pots with inner coatings of copper hydroxide Chemical control (Spinout®), which prevents root matting and thereby Chemical control of root mealybugs requires saturation minimizes root mealybug infestations (Figure 4). of the root ball and potting medium to a degree that al- • Separate pots from the ground on raised benches or lows the pesticide to penetrate the pests’ white, waxy with plastic film over the soil. secretion. Research has demonstrated that dipping or • Do not allow water from infested areas to run onto drenching with liquid insecticide is more effective than clean areas. applying a granular formulation. Dursban® Turf & Nurs- • Remove alternate host plants from around the green- ery Product applied twice as a drench or dip at two-week house, or control mealybugs on them. intervals controls coffee root mealybug; however, it may • Use clean pots and soil; if infested, wash pots with take four to six months before the cottony, waxy secre- soap and water. tions deteriorate completely, making it difficult to de- • Keep the growing area clean of plant debris. termine treatment efficacy. This may pose a potential risk of shipment rejection by quarantine inspectors. Pineapple mealybug populations are tended by sev- Research trials ranked Dursban® 50 WP and eral species of ants, and ant-control measures (physical Dursban® Turf & Nursery Product as the least phyto- barriers, ant bait or spray) help prevent serious mealy- toxic to palms and indicated that watering palms prior bug infestations. to drenching application significantly reduced phytotox- icity. A small group of plants should be treated at the Biorational control recommended rate under the anticipated growing con- CTAHR research has demonstrated that hot-water dips ditions and observed for phytotoxic symptoms for at least are as effective as insecticides against mealybugs. Ex- 14 days before a large number of plants are treated. periments showed that submerging potted rhapis palms In the dip method, research findings indicated that in water held at 120°F (49°C) until the internal root ball submerging the plant’s entire root ball without the pot temperature reached 115°F (46°C) was 100 percent ef- in a diluted Dursban solution (1 pint per 100 gallons) fective in killing root mealybugs. Only minor phytotox- for about 30 seconds with slight agitation is nearly twice icity to raphis was observed, a chlorosis (yellowing) of as effective as dipping the plant while still in its pot. In older leaves. Drenching potted palm roots in hot water the drench method, after premoistening with irrigation at 120°F for 15 minutes will not only control mealy- or rainfall, the diluted Dursban solution is poured into bugs but will also eliminate burrowing nematodes. each potted plant container (without removing pots from 3 IP-6 Root Mealybugs of Quarantine Significance CTAHR — March 2001 plants) to saturate the soil at a rate of 10–12 fluid ounces References of solution per gallon of container size. Baker, J.R. (ed.) 1978. Insect and related pests of flowers and foli- Marathon® 60 WP is applied only as a drench and age plants. North Carolina Agric. Extension Service, AG-136. Beardsley, J.W., Jr. 1965. Notes on the pineapple mealybug com- can be incorporated with a surfactant or wetting agent plex, with descriptions of two new species (Homoptera: Pseudo- to ensure thorough distribution of solution in the pot- coccidae).
Load more

Recommended publications
  • The Scale Insect
    ZOBODAT - www.zobodat.at Zoologisch-Botanische Datenbank/Zoological-Botanical Database Digitale Literatur/Digital Literature Zeitschrift/Journal: Bonn zoological Bulletin - früher Bonner Zoologische Beiträge. Jahr/Year: 2020 Band/Volume: 69 Autor(en)/Author(s): Caballero Alejandro, Ramos-Portilla Andrea Amalia, Rueda-Ramírez Diana, Vergara-Navarro Erika Valentina, Serna Francisco Artikel/Article: The scale insect (Hemiptera: Coccomorpha) collection of the entomological museum “Universidad Nacional Agronomía Bogotá”, and its impact on Colombian coccidology 165-183 Bonn zoological Bulletin 69 (2): 165–183 ISSN 2190–7307 2020 · Caballero A. et al. http://www.zoologicalbulletin.de https://doi.org/10.20363/BZB-2020.69.2.165 Research article urn:lsid:zoobank.org:pub:F30B3548-7AD0-4A8C-81EF-B6E2028FBE4F The scale insect (Hemiptera: Coccomorpha) collection of the entomological museum “Universidad Nacional Agronomía Bogotá”, and its impact on Colombian coccidology Alejandro Caballero1, *, Andrea Amalia Ramos-Portilla2, Diana Rueda-Ramírez3, Erika Valentina Vergara-Navarro4 & Francisco Serna5 1, 4, 5 Entomological Museum UNAB, Faculty of Agricultural Science, Cra 30 N° 45-03 Ed. 500, Universidad Nacional de Colombia, Bogotá, Colombia 2 Instituto Colombiano Agropecuario, Subgerencia de Protección Vegetal, Av. Calle 26 N° 85 B-09, Bogotá, Colombia 3 Research group “Manejo Integrado de Plagas”, Faculty of Agricultural Science, Cra 30 # 45-03 Ed. 500, Universidad Nacional de Colombia, Bogotá, Colombia 4 Corporación Colombiana de Investigación Agropecuaria AGROSAVIA, Research Center Tibaitata, Km 14, via Mosquera-Bogotá, Cundinamarca, Colombia * Corresponding author: Email: [email protected]; [email protected] 1 urn:lsid:zoobank.org:author:A4AB613B-930D-4823-B5A6-45E846FDB89B 2 urn:lsid:zoobank.org:author:B7F6B826-2C68-4169-B965-1EB57AF0552B 3 urn:lsid:zoobank.org:author:ECFA677D-3770-4314-A73B-BF735123996E 4 urn:lsid:zoobank.org:author:AA36E009-D7CE-44B6-8480-AFF74753B33B 5 urn:lsid:zoobank.org:author:E05AE2CA-8C85-4069-A556-7BDB45978496 Abstract.
    [Show full text]
  • Host Diversity of Mealybugs in Thrissur District, Kerala State, India Juvin Jose* Neelankavil (H), Choolissery
    Int. J. Life. Sci. Scienti. Res., 3(3): 973-979 MAY 2017 RESEARCH ARTICLE Host Diversity of Mealybugs in Thrissur District, Kerala State, India Juvin Jose* Neelankavil (H), Choolissery. P.O., Thrissur-680541, Kerala, India *Address for Correspondence: Mr. Juvin Jose, Neelankavil (H), Choolissery. P.O., Thrissur- 680541, Kerala, India Received: 19 February 2017/Revised: 16 March 2017/Accepted: 21April 2017 ABSTRACT- Survey conducted in two summer season. 24 coccoidean species were recorded. They are belonging to the family Pseudococidae (5 species) and Monophlebidae (19 species). Among these Dysmicoccus brevipes, Dysmicoccus neobrevipes and Geococcus coffeae were three root mealybug species recorded. Associate incidence was found among certain species range i.e., Ferrisia virgata, Paracoccus marginatus, Pseudococcus longispinus, Icerya seychellarum and Coccidohystrix insolita from different spots of the district. Anoplolepis gracilipes and Solenopsis geminata and Oecophylla smaragdina were ants observed with different mealybugs colony. Key-words- Season, Mealybug, Polyphagous, Floral diversity, Thrissur district INTRODUCTION MATERIALS AND METHODS Around the world mealybugs are now common pest group. Survey conducted in 2014 and 2015 from February to May. The cosmopolitan pest risk increases in each annual turns. Collections sites were documented with Garmin GPS 60. It is a small white insect with wax covering. They always Pest incidence photos recorded with NIKON COOL PIX hide and attached underneath of stem and leaves. But AW120. Collected samples are preserved in 70% alcohol certain species prefer roots of the plant host. After with proper label. Label comprises name of location, date successful attachment they started sap feeding using their of collection and name of collectors.
    [Show full text]
  • Cropping System and Altitude As Drivers of Soil Macrobiota and Nutrient Variability for Arabica Coffee Production in Mount Elgon Region
    CROPPING SYSTEM AND ALTITUDE AS DRIVERS OF SOIL MACROBIOTA AND NUTRIENT VARIABILITY FOR ARABICA COFFEE PRODUCTION IN MOUNT ELGON REGION BY SCOLA CHERUKUT B.Sc. AGRIC (MAK) REG. NO: 2015/HD02/496U A THESIS SUBMITTED TO THE DIRECTORATE OF RESEARCH AND GRADUATE TRAINING IN PARTIAL FULFILMENT OF THE REQUIREMENT FOR AWARD OF THE DEGREE OF MASTER OF SCIENCE IN CROP SCIENCE OF MAKERERE UNIVERSITY DECEMBER, 2018 i DEDICATION I dedicate this work to God, my parents Mr. Nelson Kusuro and Mrs. Jesca Kusuro, and to my brothers and sisters for their support in my career development. ii ACKNOWLEDGEMENTS I thank the Almighty God for giving me knowledge, wisdom and good health to conduct this study. I am highly grateful to RUFORUM that provided tuition, stipend and research funds and, the Africa initiative of the Volkswagen Foundation through the project on Productivity and biological diversity in the coffee-banana system in the Mt. Elgon Region of Uganda: Establishing Trends, Linkages and Opportunities, for additional research funds. In the same respect, I thank the farmers of the Mount Elgon region especially the districts of Kapchorwa and Sironko where the research was carried out. I am greatly indebted to Assoc. Prof. Jeninah Karungi and Dr. John Baptist Tumuhairwe for their professional guidance and mentorship. May God richly bless you! I thank my parents Mr. and Mrs. Nelson Kusuro, my brothers and sisters for their love and support, this has always kept me going. It cannot go without mention the support and constant prayers of my dear friends Orapa Nicholas Ijala Tony, Chemonges Martin, and Ayot Phoebe.
    [Show full text]
  • Insectos Escama (Hemiptera: Coccomorpha) En Raíces De Café De Norte De Santander Y Valle Del Cauca, Colombia Y Descripción De Una Nueva Especie
    120Revista Colombiana de Entomología 44 (1): 120-128 (Enero - Junio 2018) DOI: 10.25100/socolen.v44i1.6757 Insectos escama (Hemiptera: Coccomorpha) en raíces de café de Norte de Santander y Valle del Cauca, Colombia y descripción de una nueva especie Scale insects (Hemiptera: Coccomorpha) in coffee roots of Norte de Santander and Valle del Cauca, Colombia, and description of a new species ALEJANDRO CABALLERO1, ANDREA AMALIA RAMOS-PORTILLA2, ZULMA NANCY GIL3 y PABLO BENAVIDES4 Resumen: Actualmente los insectos escama hipogeos (Hemiptera: Coccomorpha) son el segundo artrópodo plaga más importante de la caficultura colombiana. Para desarrollar planes de manejo integrado de este problema fitosanitario se hace necesario reconocer las especies que están asociadas al cultivo. En esta investigación se analizaron 768 especímenes de 85 muestras recolectadas en raíces de café en Norte de Santander y Valle del Cauca. Se identificaron 10 géneros reunidos en cuatro familias. Puto barberi, Toumeyella coffeae y Dysmicoccus varius fueron las especies más recurrentes. Se registra a Dysmicoccus mackenziei, Dysmicoccus radicis y Mixorthezia minima por primera vez para Colombia y a Coffea arabica como nuevo hospedante de Phenacoccus solani y se describe una nueva especie del género Pseudorhizoecus. Palabras clave: Insectos plaga, Coccoidea, Orthezioidea. Abstract: Currently, the hypogeal scale insects (Hemiptera: Coccomorpha) are the second most important problem pest arthropods for Colombian coffee crops. In order to develop integrated pest management programs, it is necessary to identify the species associated with this crop. In this study, 768 specimens from 85 samples collected from coffee roots in Norte de Santander and Valle del Cauca were analyzed. Ten genera belonging to four families were identified.
    [Show full text]
  • Philippine Bananas to Hawaii and United States Territories
    United States Department of Agriculture Animal and Plant Health Inspection Service Plant Protection and Quarantine Risk Management Document Importation of Banana, Musa spp., as Fresh, Hard Green Fruit from the Philippines to Guam, Hawaii, and the Northern Mariana Islands February 13, 2013 Plant Health Programs (PHP) Regulations, Permits and Manuals (RPM) Contact Person: Meredith Jones Introduction A Pest Risk Assessment (PRA) was submitted by the Philippine Bureau of Plant Industry (BPI) to Animal and Plant Health Inspection Service (APHIS) in December 2005 in support of a market access request for Philippine green bananas to Guam (BPI, 2005). This pest risk assessment was prepared for Dole Philippines, Inc., Dole Asia Ltd., Makati, Philippines. In May 2007, BPI amended the market access request to include Hawaii and the Northern Mariana Islands. APHIS reviewed the relevant literature and pest interception records and revised the PRA submitted by BPI (USDA, 2012a). The APHIS pest list identified 62 quarantine pests of banana which might potentially follow the pathway of fresh green bananas from the Philippines: Taxa Pest Arthropods Acari: Tenuipalpidae Brevipalpus californicus (Banks) Brevipalpus phoenicis (Geijskes) Coleoptera: Anthribidae Araecerus coffeae (Fabricius) Coleoptera: Cerambycidae Sybra alternans Wiedemann Coleoptera: Curculionidae Metamasius hemipterus Linnaeus Philicoptus waltoni (Boheman) Coleoptera: Scarabaeidae Scapanes australis Boisduval Diptera: Muscidae Atherigona orientalis Schiner Diptera: Tephritidae Bactrocera
    [Show full text]
  • Eco-Climatic Assessment of the Potential Establishment of Exotic Insects in New Zealand
    Eco-climatic assessment of the potential establishment of exotic insects in New Zealand A thesis submitted in partial fulfillment of the requirements for the Degree of Doctor of Philosophy at Lincoln University by Lora Peacock Lincoln University 2005 Contents Abstract of a thesis submitted in partial fulfillment of the requirements for the Degree of PhD Eco-climatic assessment of the potential establishment of exotic insects in New Zealand Lora Peacock To refine our knowledge and to adequately test hypotheses concerning theoretical and applied aspects of invasion biology, successful and unsuccessful invaders should be compared. This study investigated insect establishment patterns by comparing the climatic preferences and biological attributes of two groups of polyphagous insect species that are constantly intercepted at New Zealand's border. One group of species is established in New Zealand (n = 15), the other group comprised species that are not established (n = 21). In the present study the two groups were considered to represent successful and unsuccessful invaders. To provide background for interpretation of results of the comparative analysis, global areas that are climatically analogous to sites in New Zealand were identified by an eco­ climatic assessment model, CLIMEX, to determine possible sources of insect pest invasion. It was found that south east Australia is one of the regions that are climatically very similar to New Zealand. Furthermore, New Zealand shares 90% of its insect pest species with that region. South east Australia has close trade and tourism links with New Zealand and because of its proximity a new incursion in that analogous climate should alert biosecurity authorities in New Zealand.
    [Show full text]
  • Scale Insects (Hemiptera: Coccomorpha) on Coffee Roots (Coffea Arabica L.) in Colombia, with Records of Associated Ants (Hymenoptera: Formicidae)
    Cienc Tecnol Agropecuaria, Mosquera (Colombia), 20(1): 93-116 January - April / 2019 ISSN 0122-8706 ISSNe 2500-5308 93 Vegetable health and crop protection Scientific and technological research article Scale insects (Hemiptera: Coccomorpha) on coffee roots (Coffea arabica L.) in Colombia, with records of associated ants (Hymenoptera: Formicidae) Los insectos escama (Hemiptera: Coccomorpha) de raíces de café (Coffea arabica L.) en Colombia, con registros de hormigas (Hymenoptera: Formicidae) en asociación Alejandro Caballero,1* Andrea Amalia Ramos-Portilla,2 Diana Suárez-González,3 Francisco Serna,4 Zulma Nancy Gil,5 Pablo Benavides6 1 Master Degree Student, Universidad Nacional de Colombia, Facultad de Ciencias Agropecuarias. Bogotá D.C., Colombia. Email: [email protected]. Orcid: https://orcid.org/0000-0001-8237-4978 2 PhD Researcher, Instituto Colombiano Agropecuario (ICA). Bogotá D. C., Colombia. Email: [email protected]. Orcid: https://orcid.org/0000-0002-4371-0040 3 Researcher, Universidad Nacional de Colombia, Facultad de Ciencias Agrarias. Bogotá D.C., Colombia. Email: [email protected]. Orcid: https://orcid.org/0000-0002-8460-931X 4 Associated Professor, Universidad Nacional de Colombia, Facultad de Ciencias Agrarias. Bogotá D.C., Colombia. Email: [email protected]. Orcid: https://orcid.org/0000-0002-6143-9821 5 Scientific Researcher II-Entomology, Centro Nacional de Investigaciones de Café (Cenicafé). Manizales, Colombia. Email: [email protected]. Orcid: https://orcid.org/0000-0001-7013-1231 6 Leader of the Entomology Area, Centro Nacional de Investigaciones de Café (Cenicafé). Manizales, Colombia. Email: [email protected]. Orcid: https://orcid.org/0000-0003-2227-4232 Subject editor: Takumasa Kondo (Corporación Colombiana de Investigación Agropecuaria [AGROSAVIA]) Reception date: 09/06/2018 Approval date: 29/11/2018 How to cite this article: Caballero, A., Ramos-Portilla, A.
    [Show full text]
  • Scale Insects and Whiteflies (Hemiptera: Coccoidea and Aleyrodoidea) of Watsonian Kent; with a Discussion on the Impact of Naturalised Non-Native Species
    BR. J. ENT. NAT. HIST., 25: 2012 15 SCALE INSECTS AND WHITEFLIES (HEMIPTERA: COCCOIDEA AND ALEYRODOIDEA) OF WATSONIAN KENT; WITH A DISCUSSION ON THE IMPACT OF NATURALISED NON-NATIVE SPECIES 1 2 C. MALUMPHY &J.S.BADMIN 1The Food and Environment Research Agency, Sand Hutton, York YO41 1LZ, UK Email: [email protected] 2Coppice Place, Perry Wood, Selling, nr Faversham, Kent ME13 9RP ABSTRACT An annotated list of 79 species of Coccoidea (37 native, 16 naturalised introductions, 17 introduced species established on indoor plantings and 9 non- established introductions on growing plants), and 17 species of Aleyrodoidea (five native, six naturalised introductions, two introduced species established on indoor plantings and four non-established introductions on growing plants), recorded from Watsonian Kent is presented. The mealybug Balanococcus kwoni Pellizzari & Danzig, an Asian pest of bamboo, is recorded from Britain for the first time. Eleven species of scale insect and seven species of whitefly are recorded outdoors from Watsonian Kent for the first time. A third of all scale insect species and half the whitefly species found outdoors in Watsonian Kent are non-native introductions. None of the introduced species, however, appear to have any serious negative impact on native biodiversity, ecosystems, forestry or crops, although they do have an economic and aesthetic impact on ornamental plants in urban areas. Diaspidiotus pyri (Lichtenstein) has been recorded as an occasional, minor pest of apple; and the presence of non-native scales on ornamental plants has prevented the issuing of plant-passports for export. Naturalised non-native scale insect species are more abundant and frequently more damaging to ornamental plants in urban areas than native scale species.
    [Show full text]
  • Proceedings, Hawaiian Entomological Society
    PROCEEDINGS of the Hawaiian Entomological Society VOL. XXIII, NO. 2 FOR THE YEAR 1977 FEBRUARY, 1980 JANUARY The 853rd meeting of the Hawaiian Entomological Society was called to order by President Radovsky at 2:00 p.m., January 17, 1977, in the Conference Room, Bishop Museum. Members Present: Beardsley, Brennan, Hardy, Ikeda, Joyce, Koover, Kunishi, Montgomery, Papp, Radovsky, Ralph, Samuelson, Steffan, Sugerman, J.A. Tenorio, J.M. Tenorio, Tanimoto. Visitors; Neal Evenhuis, Keith Arakaki, E.A. Perry, and J.C.E. Riotte (Bishop Museum), Charles Hodges and John Stein (U.S. Forest Service). New Business: Radovsky summarized a letter from the Dir. of Nat'l Marine Fisheries Service informing the HES that we can no longer hold our meetings in their facilities. After discussing other possible sites it was decided to continue to meet at the Bishop Museum until favorable ar rangements could be made at another locality. Notes and Exhibitions Agraulis vanillae (L.): The passion vine butterfly, Agraulis vanillae (L.) was collected for the first time in Hawaii on January 14, 1977, indepen dently by Arakaki and Beardsley from Manoa Valley. Their notes follow for this new state record. Three adult specimens of Agraulis vanillae (L.) were collected on January 14, 1977 in lower Manoa, Oahu. Two females and one male were feeding on star jasmine, Jasminum multiflora. On January 15, 1977 two male specimens were taken feeding on Bougainvillea in the same area. Search for immature forms yielded several eggs and a single larva feeding on a bud ofPassiflorafoetida. At the same time five empty pupal cases were taken.
    [Show full text]
  • Checklist of the Scale Insects (Hemiptera : Sternorrhyncha : Coccomorpha) of New Caledonia
    Checklist of the scale insects (Hemiptera: Sternorrhyncha: Coccomorpha) of New Caledonia Christian MILLE Institut agronomique néo-calédonien, IAC, Axe 1, Station de Recherches fruitières de Pocquereux, Laboratoire d’Entomologie appliquée, BP 32, 98880 La Foa (New Caledonia) [email protected] Rosa C. HENDERSON† Landcare Research, Private Bag 92170 Auckland Mail Centre, Auckland 1142 (New Zealand) Sylvie CAZÈRES Institut agronomique néo-calédonien, IAC, Axe 1, Station de Recherches fruitières de Pocquereux, Laboratoire d’Entomologie appliquée, BP 32, 98880 La Foa (New Caledonia) [email protected] Hervé JOURDAN Institut méditerranéen de Biodiversité et d’Écologie marine et continentale (IMBE), Aix-Marseille Université, UMR CNRS IRD Université d’Avignon, UMR 237 IRD, Centre IRD Nouméa, BP A5, 98848 Nouméa cedex (New Caledonia) [email protected] Published on 24 June 2016 Rosa Henderson† left us unexpectedly on 13th December 2012. Rosa made all our recent c occoid identifications and trained one of us (SC) in Hemiptera Sternorrhyncha slide preparation and identification. The idea of publishing this article was largely hers. Thus we dedicate this article to our late and dear Rosa. Rosa Henderson† nous a quittés prématurément le 13 décembre 2012. Rosa avait réalisé toutes les récentes identifications de cochenilles et avait formé l’une d’entre nous (SC) à la préparation des Hemiptères Sternorrhynques entre lame et lamelle. Grâce à elle, l’idée de publier cet article a pu se concrétiser. Nous dédicaçons cet article à notre chère et regrettée Rosa. urn:lsid:zoobank.org:pub:90DC5B79-725D-46E2-B31E-4DBC65BCD01F Mille C., Henderson R. C.†, Cazères S. & Jourdan H. 2016. — Checklist of the scale insects (Hemiptera: Sternorrhyncha: Coccomorpha) of New Caledonia.
    [Show full text]
  • Root Mealybugs of Quarantine Significance in Hawaii Arnold H
    Cooperative Extension Service Insect Pests March 2001 IP-6 Root Mealybugs of Quarantine Significance in Hawaii Arnold H. Hara, Ruth Y. Niino-DuPonte, and Christopher M. Jacobsen Department of Plant and Environmental Protection Sciences even species of root mealybug are found in Hawaii, tion is unusually heavy, it is not evident until the plant’s Sand three of them are of quarantine significance. pot is removed and the root ball is examined. A white, These root mealybugs are a serious problem for Hawaii’s waxy substance and adult female mealybugs will be export potted-plant industry because root infestations noticeable, especially between the pot and the root ball. are not easily detected unless the plants are removed Plants that are growing slowly, root-bound, or under from their pots. Potted palms and other slow growing environmental or nutritional stress are more susceptible plants are more susceptible to infestation by root mea- to root mealybug infestation. lybugs because they require lengthy bench time to at- Due to their cryptic habit (preference for dark, hid- tain marketable size. den places), little is known about root mealybug biol- Damage caused by root mealybugs is not specific. ogy. In general, depending on the species, the adult fe- The most common plant symptoms are slow growth, males (Figures 1–3) live from 27 to 57 days. White, cot- lack of vigor, and subsequent death. Unless the infesta- tony masses containing egg-laying females and/or eggs Mealybug Quarantine Pests • The rhizoecus root mealybugz, Rhizoecus hibisci The rhizoecus root mealybug is widely distrib- Kawai & Takagi (Figure 1), was discovered in Ha- uted in East and Southeast Asia and has also been waii in 1992 and has since spread to the state’s major found in Puerto Rico and Florida.
    [Show full text]
  • (De Lotto) (Hemiptera: Pseudococcidae) and Trioza Erytreae
    Departamento de Zoología Facultad de Ciencias Biológicas Reducing the impact of the two invasive pests, Delottococcus aberiae (De Lotto) (Hemiptera: Pseudococcidae) and Trioza erytreae (Del Guercio) (Hemiptera: Triozidae), by strengthening sustainability and biological control in Mediterranean citrus International PhD Thesis Programa de Doctorado en Biodiversidad y Biología Evolutiva JESICA PÉREZ RODRÍGUEZ SUPERVISED BY: DR. ALEJANDRO TENA BARREDA DR. ALBERTO URBANEJA GARCÍA DR. JESÚS SELFA ARLANDIS Valencia, February 2020 Departamento de Zoología Facultad de Ciencias Biológicas Reducing the impact of the two invasive pests, Delottococcus aberiae (De Lotto) (Hemiptera: Pseudococcidae) and Trioza erytreae (Del Guercio) (Hemiptera: Triozidae), by strengthening sustainability and biological control in Mediterranean citrus International PhD Thesis Programa de Doctorado en Biodiversidad y Biología Evolutiva JESICA PÉREZ RODRÍGUEZ SUPERVISED BY: DR. ALEJANDRO TENA BARREDA DR. ALBERTO URBANEJA GARCÍA DR. JESÚS SELFA ARLANDIS Valencia, February 2020 International PhD Thesis Programa de Doctorado en Biodiversidad y Biología Evolutiva “Reducing the impact of the two invasive pests, Delottococcus aberiae (De Lotto) (Hemiptera: Pseudococcidae) and Trioza erytreae (Del Guercio) (Hemiptera: Triozidae), by strengthening sustainability and biological control in Mediterranean citrus”. Disertación presentada en la Escuela de Postgrado de la Universitat de València por: Jesica Pérez Rodríguez Como requerimiento para optar al grado de doctora por la Universitat de València La doctoranda, Los Directores de tesis, Jésica Pérez Rodríguez Dr. Alejandro Tena Barreda Dr. Alberto Urbaneja García Dr. Jesús Selfa València, February 2020 ACKNOWLEDGEMENTS En primer lugar, me gustaría agradecerles a mis directores de tesis Alberto, Alejandro y Jesús la confianza depositada en mí a lo largo de estos años. Gràcies Alberto per tots els teus suggeriments, aportacions, noves idees i consells que sempre ho han millorat tot.
    [Show full text]