2017 Summit + SES Meeting
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The Predatory Mite (Acari, Parasitiformes: Mesostigmata (Gamasina); Acariformes: Prostigmata) Community in Strawberry Agrocenosis
Acta Universitatis Latviensis, Biology, 2004, Vol. 676, pp. 87–95 The predatory mite (Acari, Parasitiformes: Mesostigmata (Gamasina); Acariformes: Prostigmata) community in strawberry agrocenosis Valentîna Petrova*, Ineta Salmane, Zigrîda Çudare Institute of Biology, University of Latvia, Miera 3, Salaspils LV-2169, Latvia *Corresponding author, E-mail: [email protected]. Abstract Altogether 37 predatory mite species from 14 families (Parasitiformes and Acariformes) were collected using leaf sampling and pit-fall trapping in strawberry fi elds (1997 - 2001). Thirty- six were recorded on strawberries for the fi rst time in Latvia. Two species, Paragarmania mali (Oud.) (Aceosejidae) and Eugamasus crassitarsis (Hal.) (Parasitidae) were new for the fauna of Latvia. The most abundant predatory mite families (species) collected from strawberry leaves were Phytoseiidae (Amblyseius cucumeris Oud., A. aurescens A.-H., A. bicaudus Wainst., A. herbarius Wainst.) and Anystidae (Anystis baccarum L.); from pit-fall traps – Parasitidae (Poecilochirus necrophori Vitz. and Parasitus lunaris Berl.), Aceosejidae (Leioseius semiscissus Berl.) and Macrochelidae (Macrocheles glaber Müll). Key words: agrocenosis, diversity, predatory mites, strawberry. Introduction Predatory mites play an important ecological role in terrestrial ecosystems and they are increasingly being used in management for biocontrol of pest mites, thrips and nematodes (Easterbrook 1992; Wright, Chambers 1994; Croft et al. 1998; Cuthbertson et al. 2003). Many of these mites have a major infl uence on nutrient cycling, as they are predators on other arthropods (Santos 1985; Karg 1993; Koehler 1999). In total, investigations of mite fauna in Latvia were made by Grube (1859), who found 28 species, Eglītis (1954) – 50 species, Kuznetsov and Petrov (1984) – 85 species, Lapiņa (1988) – 207 species, and Salmane (2001) – 247 species. -
Integrated Pest Management: Current and Future Strategies
Integrated Pest Management: Current and Future Strategies Council for Agricultural Science and Technology, Ames, Iowa, USA Printed in the United States of America Cover design by Lynn Ekblad, Different Angles, Ames, Iowa Graphics and layout by Richard Beachler, Instructional Technology Center, Iowa State University, Ames ISBN 1-887383-23-9 ISSN 0194-4088 06 05 04 03 4 3 2 1 Library of Congress Cataloging–in–Publication Data Integrated Pest Management: Current and Future Strategies. p. cm. -- (Task force report, ISSN 0194-4088 ; no. 140) Includes bibliographical references and index. ISBN 1-887383-23-9 (alk. paper) 1. Pests--Integrated control. I. Council for Agricultural Science and Technology. II. Series: Task force report (Council for Agricultural Science and Technology) ; no. 140. SB950.I4573 2003 632'.9--dc21 2003006389 Task Force Report No. 140 June 2003 Council for Agricultural Science and Technology Ames, Iowa, USA Task Force Members Kenneth R. Barker (Chair), Department of Plant Pathology, North Carolina State University, Raleigh Esther Day, American Farmland Trust, DeKalb, Illinois Timothy J. Gibb, Department of Entomology, Purdue University, West Lafayette, Indiana Maud A. Hinchee, ArborGen, Summerville, South Carolina Nancy C. Hinkle, Department of Entomology, University of Georgia, Athens Barry J. Jacobsen, Department of Plant Sciences and Plant Pathology, Montana State University, Bozeman James Knight, Department of Animal and Range Science, Montana State University, Bozeman Kenneth A. Langeland, Department of Agronomy, University of Florida, Institute of Food and Agricultural Sciences, Gainesville Evan Nebeker, Department of Entomology and Plant Pathology, Mississippi State University, Mississippi State David A. Rosenberger, Plant Pathology Department, Cornell University–Hudson Valley Laboratory, High- land, New York Donald P. -
Proceedings of a Workshop on Biodiversity Dynamics on La Réunion Island
PROCEEDINGS OF A WORKSHOP ON BIODIVERSITY DYNAMICS ON LA RÉUNION ISLAND ATELIER SUR LA DYNAMIQUE DE LA BIODIVERSITE A LA REUNION SAINT PIERRE – SAINT DENIS 29 NOVEMBER – 5 DECEMBER 2004 29 NOVEMBRE – 5 DECEMBRE 2004 T. Le Bourgeois Editors Stéphane Baret, CIRAD UMR C53 PVBMT, Réunion, France Mathieu Rouget, National Biodiversity Institute, South Africa Ingrid Nänni, National Biodiversity Institute, South Africa Thomas Le Bourgeois, CIRAD UMR C53 PVBMT, Réunion, France Workshop on Biodiversity dynamics on La Reunion Island - 29th Nov. to 5th Dec. 2004 WORKSHOP ON BIODIVERSITY DYNAMICS major issues: Genetics of cultivated plant ON LA RÉUNION ISLAND species, phytopathology, entomology and ecology. The research officer, Monique Rivier, at Potential for research and facilities are quite French Embassy in Pretoria, after visiting large. Training in biology attracts many La Réunion proposed to fund and support a students (50-100) in BSc at the University workshop on Biodiversity issues to develop (Sciences Faculty: 100 lecturers, 20 collaborations between La Réunion and Professors, 2,000 students). Funding for South African researchers. To initiate the graduate grants are available at a regional process, we decided to organise a first or national level. meeting in La Réunion, regrouping researchers from each country. The meeting Recent cooperation agreements (for was coordinated by Prof D. Strasberg and economy, research) have been signed Dr S. Baret (UMR CIRAD/La Réunion directly between La Réunion and South- University, France) and by Prof D. Africa, and former agreements exist with Richardson (from the Institute of Plant the surrounding Indian Ocean countries Conservation, Cape Town University, (Madagascar, Mauritius, Comoros, and South Africa) and Dr M. -
Microscopic Anatomy of Eukoenenia Spelaea (Palpigradi) — a Miniaturized Euchelicerate
MICROSCOPIC ANATOMY OF EUKOENENIA SPELAEA (PALPIGRADI) — A MINIATURIZED EUCHELICERATE Sandra Franz-Guess Gröbenzell, Deutschland 2019 For my wife ii Diese Dissertation wurde angefertigt unter der Leitung von Herrn Prof. Dr. J. Matthias Starck im Bereich von Department Biologie II an der Ludwig‐Maximilians‐Universität München Erstgutachter: Prof. Dr. J. Matthias Starck Zweitgutachter: Prof. Dr. Roland Melzer Tag der Abgabe: 18.12.2018 Tag der mündlichen Prüfung: 01.03.2019 iii Erklärung Ich versichere hiermit an Eides statt, dass meine Dissertation selbständig und ohne unerlaubte Hilfsmittel angefertigt worden ist. Die vorliegende Dissertation wurde weder ganz, noch teilweise bei einer anderen Prüfungskommission vorgelegt. Ich habe noch zu keinem früheren Zeitpunkt versucht, eine Dissertation einzureichen oder an einer Doktorprüfung teilzunehmen. Gröbenzell, den 18.12.2018 Sandra Franz-Guess, M.Sc. iv List of additional publications Publication I Czaczkes, T. J.; Franz, S.; Witte, V.; Heinze, J. 2015. Perception of collective path use affects path selection in ants. Animal Behaviour 99: 15–24. Publication II Franz-Guess, S.; Klußmann-Fricke, B. J.; Wirkner, C. S.; Prendini, L.; Starck, J. M. 2016. Morphology of the tracheal system of camel spiders (Chelicerata: Solifugae) based on micro-CT and 3D-reconstruction in exemplar species from three families. Arthropod Structure & Development 45: 440–451. Publication III Franz-Guess, S.; & Starck, J. M. 2016. Histological and ultrastructural analysis of the respiratory tracheae of Galeodes granti (Chelicerata: Solifugae). Arthropod Structure & Development 45: 452–461. Publication IV Starck, J. M.; Neul, A.; Schmidt, V.; Kolb, T.; Franz-Guess, S.; Balcecean, D.; Pees, M. 2017. Morphology and morphometry of the lung in corn snakes (Pantherophis guttatus) infected with three different strains of ferlavirus. -
A NEW SPECIES of LORRYIA (ACARI: TYDEIDAE) from a TERMITE NEST in SOUTH AFRICA Alexander A
Acarina 28 (1): 47–53 © Acarina 2020 A NEW SPECIES OF LORRYIA (ACARI: TYDEIDAE) FROM A TERMITE NEST IN SOUTH AFRICA Alexander A. Khaustov1*, Elizabeth A. Hugo-Coetzee2, 3 and Sergey G. Ermilov1 1X-BIO Institute, Tyumen State University, Tyumen, Russia 2Terrestrial Invertebrate Department, National Museum, Bloemfontein, South Africa 3Department of Zoology and Entomology, University of the Free State, Bloemfontein, South Africa *corresponding author; e–mail: [email protected] ABSTRACT: A new species—Lorryia pseudoplacita sp. n.—is described from central South Africa. It was collected from a nest of the termite Trinervitermes trinervoides (Sjöstedt, 1911) (Isoptera: Termitidae). The new species differs from L. placita in the shape of the dorsal setae and in having a shorter palptarsus. KEY WORDS: Tydeoidea, systematics, morphology, SEM microscopy, Ethiopian region. DOI: 10.21684/0132-8077-2020-28-1-47-53 INTRODUCTION The family Tydeidae currently includes more Khaustov et al. 2017a, b, 2018a, b, 2019a, b). Du- than 300 species, sorted into about 30 genera; it is ring the study of mites inhabiting termite nests in a diverse group of mostly fungivorous mites, char- South Africa, a new species of Lorryia was discov- acterized by a worldwide distribution (Silva et al. ered in the nest of Trinervitermes trinervoides 2016; Kaźmierski et al. 2018). Twenty-one species (Sjöstedt, 1911) (Isoptera: Termitidae). The aim of of Tydeidae have been described from South Af- this paper is to describe the new species and to rica: Pretydeus curiosa (Ueckermann and Smith compare it with the holotype of the closely related Meyer, 1979), Ueckermannia grewiae (Uecker- L. placita (Livshitz, 1973). -
Volume: 1 Issue: 2 Year: 2019
Volume: 1 Issue: 2 Year: 2019 Designed by Müjdat TÖS Acarological Studies Vol 1 (2) CONTENTS Editorial Acarological Studies: A new forum for the publication of acarological works ................................................................... 51-52 Salih DOĞAN Review An overview of the XV International Congress of Acarology (XV ICA 2018) ........................................................................ 53-58 Sebahat K. OZMAN-SULLIVAN, Gregory T. SULLIVAN Articles Alternative control agents of the dried fruit mite, Carpoglyphus lactis (L.) (Acari: Carpoglyphidae) on dried apricots ......................................................................................................................................................................................................................... 59-64 Vefa TURGU, Nabi Alper KUMRAL A species being worthy of its name: Intraspecific variations on the gnathosomal characters in topotypic heter- omorphic males of Cheylostigmaeus variatus (Acari: Stigmaeidae) ........................................................................................ 65-70 Salih DOĞAN, Sibel DOĞAN, Qing-Hai FAN Seasonal distribution and damage potential of Raoiella indica (Hirst) (Acari: Tenuipalpidae) on areca palms of Kerala, India ............................................................................................................................................................................................................... 71-83 Prabheena PRABHAKARAN, Ramani NERAVATHU Feeding impact of Cisaberoptus -
A Snap-Shot of Domatial Mite Diversity of Coffea Arabica in Comparison to the Adjacent Umtamvuna Forest in South Africa
diversity Article A Snap-Shot of Domatial Mite Diversity of Coffea arabica in Comparison to the Adjacent Umtamvuna Forest in South Africa 1, , 2 1 Sivuyisiwe Situngu * y, Nigel P. Barker and Susanne Vetter 1 Botany Department, Rhodes University, P.O. Box 94, Makhanda 6139, South Africa; [email protected] 2 Department of Plant and Soil Sciences, University of Pretoria, P. Bag X20, Hatfield 0028, South Africa; [email protected] * Correspondence: [email protected]; Tel.: +27-(0)11-767-6340 Present address: School of Animal, Plant and Environmental Sciences, University of Witwatersrand, y Private Bag 3, Johannesburg 2050, South Africa. Received: 21 January 2020; Accepted: 14 February 2020; Published: 18 February 2020 Abstract: Some plant species possess structures known as leaf domatia, which house mites. The association between domatia-bearing plants and mites has been proposed to be mutualistic, and has been found to be important in species of economic value, such as grapes, cotton, avocado and coffee. This is because leaf domatia affect the distribution, diversity and abundance of predatory and mycophagous mites found on the leaf surface. As a result, plants are thought to benefit from increased defence against pathogens and small arthropod herbivores. This study assesses the relative diversity and composition of mites on an economically important plant host (Coffea aribica) in comparison to mites found in a neighbouring indigenous forest in South Africa. Our results showed that the coffee plantations were associated with only predatory mites, some of which are indigenous to South Africa. This indicates that coffee plantations are able to be successfully colonised by indigenous beneficial mites. -
Unexpected Effects of Local Management and Landscape Composition on Predatory Mites and Their Food Resources in Vineyards
insects Article Unexpected Effects of Local Management and Landscape Composition on Predatory Mites and Their Food Resources in Vineyards Stefan Möth 1,* , Andreas Walzer 1, Markus Redl 1, Božana Petrovi´c 1, Christoph Hoffmann 2 and Silvia Winter 1 1 Institute of Plant Protection, University of Natural Resources and Life Sciences Vienna (BOKU), Gregor-Mendel-Straße 33, 1180 Vienna, Austria; [email protected] (A.W.); [email protected] (M.R.); [email protected] (B.P.); [email protected] (S.W.) 2 Julius Kühn-Institute (JKI), Institute for Plant Protection in Fruit Crops and Viticulture, Geilweilerhof, 76833 Siebeldingen, Germany; [email protected] * Correspondence: [email protected]; Tel.: +43-1-47654-95329 Simple Summary: Sustainable agriculture becomes more important for biodiversity conservation and environmental protection. Viticulture is characterized by relatively high pesticide inputs, which could decrease arthropod populations and biological pest control in vineyards. This problem could be counteracted with management practices such as the implementation of diverse vegetation cover in the vineyard inter-rows, reduced pesticide input in integrated or organic vineyards, and a di- verse landscape with trees and hedges. We examined the influence of these factors on predatory Citation: Möth, S.; Walzer, A.; Redl, mites, which play a crucial role as natural enemies for pest mites on vines, and pollen as impor- M.; Petrovi´c,B.; Hoffmann, C.; Winter, tant alternative food source for predatory mites in 32 organic and integrated Austrian vineyards. S. Unexpected Effects of Local Predatory mites benefited from integrated pesticide management and spontaneous vegetation cover Management and Landscape in vineyard inter-rows. -
Nymphister Kronaueri Von Beeren & Tishechkin Sp. Nov., an Army Ant
BMC Zoology Nymphister kronaueri von Beeren & Tishechkin sp. nov., an army ant-associated beetle species (Coleoptera: Histeridae: Haeteriinae) with an exceptional mechanism of phoresy von Beeren and Tishechkin von Beeren and Tishechkin BMC Zoology (2017) 2:3 DOI 10.1186/s40850-016-0010-x von Beeren and Tishechkin BMC Zoology (2017) 2:3 DOI 10.1186/s40850-016-0010-x BMC Zoology RESEARCH ARTICLE Open Access Nymphister kronaueri von Beeren & Tishechkin sp. nov., an army ant-associated beetle species (Coleoptera: Histeridae: Haeteriinae) with an exceptional mechanism of phoresy Christoph von Beeren1,2* and Alexey K. Tishechkin3 Abstract Background: For more than a century we have known that a high diversity of arthropod species lives in close relationship with army ant colonies. For instance, several hundred guest species have been described to be associated with the Neotropical army ant Eciton burchellii Westwood, 1842. Despite ongoing efforts to survey army ant guest diversity, it is evident that many more species await scientific discovery. Results: We conducted a large-scale community survey of Eciton-associated symbionts, combined with extensive DNA barcoding, which led to the discovery of numerous new species, among them a highly specialized histerid beetle, which is formally described here. Analyses of genitalic morphology with support of molecular characters revealed that the new species is a member of the genus Nymphister. We provide a literature review of host records and host-following mechanisms of Eciton-associated Haeteriinae demonstrating that the new species uses an unusual way of phoretic transport to track the nomadic habit of host ants. Using its long mandibles as gripping pliers, the beetle attaches between the ants’ petiole and postpetiole. -
Surveying for Terrestrial Arthropods (Insects and Relatives) Occurring Within the Kahului Airport Environs, Maui, Hawai‘I: Synthesis Report
Surveying for Terrestrial Arthropods (Insects and Relatives) Occurring within the Kahului Airport Environs, Maui, Hawai‘i: Synthesis Report Prepared by Francis G. Howarth, David J. Preston, and Richard Pyle Honolulu, Hawaii January 2012 Surveying for Terrestrial Arthropods (Insects and Relatives) Occurring within the Kahului Airport Environs, Maui, Hawai‘i: Synthesis Report Francis G. Howarth, David J. Preston, and Richard Pyle Hawaii Biological Survey Bishop Museum Honolulu, Hawai‘i 96817 USA Prepared for EKNA Services Inc. 615 Pi‘ikoi Street, Suite 300 Honolulu, Hawai‘i 96814 and State of Hawaii, Department of Transportation, Airports Division Bishop Museum Technical Report 58 Honolulu, Hawaii January 2012 Bishop Museum Press 1525 Bernice Street Honolulu, Hawai‘i Copyright 2012 Bishop Museum All Rights Reserved Printed in the United States of America ISSN 1085-455X Contribution No. 2012 001 to the Hawaii Biological Survey COVER Adult male Hawaiian long-horned wood-borer, Plagithmysus kahului, on its host plant Chenopodium oahuense. This species is endemic to lowland Maui and was discovered during the arthropod surveys. Photograph by Forest and Kim Starr, Makawao, Maui. Used with permission. Hawaii Biological Report on Monitoring Arthropods within Kahului Airport Environs, Synthesis TABLE OF CONTENTS Table of Contents …………….......................................................……………...........……………..…..….i. Executive Summary …….....................................................…………………...........……………..…..….1 Introduction ..................................................................………………………...........……………..…..….4 -
Soil Mite Communities (Acari: Mesostigmata) As Indicators of Urban Ecosystems in Bucharest, Romania M
www.nature.com/scientificreports OPEN Soil mite communities (Acari: Mesostigmata) as indicators of urban ecosystems in Bucharest, Romania M. Manu1,5*, R. I. Băncilă2,3,5, C. C. Bîrsan1, O. Mountford4 & M. Onete1 The aim of the present study was to establish the efect of management type and of environmental variables on the structure, abundance and species richness of soil mites (Acari: Mesostigmata) in twelve urban green areas in Bucharest-Romania. Three categories of ecosystem based upon management type were investigated: protected area, managed (metropolitan, municipal and district parks) and unmanaged urban areas. The environmental variables which were analysed were: soil and air temperature, soil moisture and atmospheric humidity, soil pH and soil penetration resistance. In June 2017, 480 soil samples were taken, using MacFadyen soil core. The same number of measures was made for quantifcation of environmental variables. Considering these, we observed that soil temperature, air temperature, air humidity and soil penetration resistance difered signifcantly between all three types of managed urban green area. All investigated environmental variables, especially soil pH, were signifcantly related to community assemblage. Analysing the entire Mesostigmata community, 68 species were identifed, with 790 individuals and 49 immatures. In order to highlight the response of the soil mite communities to the urban conditions, Shannon, dominance, equitability and soil maturity indices were quantifed. With one exception (numerical abundance), these indices recorded higher values in unmanaged green areas compared to managed ecosystems. The same trend was observed between diferent types of managed green areas, with metropolitan parks having a richer acarological fauna than the municipal or district parks. -
A Guide to Biology, Dispersal, and Management of the House Fly and Related Flies for Farmers, Municipalities, and Public Health Offi Cials 3
The Fly Management Handbook A Guide to Biology, Dispersal, Connecticut and Management of the House Agricultural Fly and Related Flies for Experiment Farmers, Municipalities, and Station, Public Health Offi cials New Haven Bulletin 1013 KIRBY C. STAFFORD III, PH.D. Vice Director, State Entomologist May 2008 The Connecticut Agricultural Experiment Station New Haven, CT 06504 GENERAL ACKNOWLEDGEMENTS Thanks are given to Joyce Meader, Connecticut Cooperative Extension Service, Dr. Bruce Sherman, Connecticut Department of Agriculture, Patricia M. Beckenhaupt, Director of Health of the Northeast District Department of Health, and Dr. Louis A. Magnarelli, The Connecticut Agricultural Experiment Station (CAES), for reviewing the handbook. Their comments and suggestions were sincerely appreciated. I extend a particular thank you to James Rock (emeritus), Connecticut Cooperative Extension Service, for his considerable input and support. Thanks are also extended to Rose Bonito (CAES) for scanning illustrations and pictures and Vickie Bomba-Lewandoski (CAES) for publication and printing assistance. Much of the material on cluster flies is from a CAES fact sheet by Gale E. Ridge (available on the CAES website, www.ct.gov/caes). Thank you, Gale. Several portions on poultry IPM are based on Special Circular 338, Poultry Pest Management for Pennsylvania and the Northeast (1986), by Kirby C. Stafford III and Clarence A. Collison. ACKNOWLEDGEMENT FOR FIGURES Most sources for the pictures and illustrations are noted in the figure captions. Requests for use of photographs and illustrations by the author or CAES may be directed to the author. Permission to use any other material must be obtained from the original source. The historical 1916 illustration of the unsanitary conditions in the introduction is from the Centers for Disease Control and Prevention Public Health Image Library (8264); the stable fly and green-bottle fly in Figure 6 and 8, respectively, are from United States Department of Agriculture Farmer’s Bulletin 1408.