DOCSLIB.ORG

Caenocholax Fenyesi an Oil Palm Pest (Solulu Et Al

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Caenocholax Fenyesi an Oil Palm Pest (Solulu Et Al morphologically. The males and females of only two spec- ies of this family have been described so far, and even these matches might be conjectural. Among the 108 Myr- mecolacidae described, the ant hosts of only eight species of males are known (see tables 1 and 2 in electronic The discovery after 94 Appendix A, available on The Royal Society’s Publi- cations Web site). The rest of the species have been years of the elusive female described from free-living males that have been caught of a myrmecolacid in traps. Previous records of female myrmecolacids were mostly (Strepsiptera), and the of single specimens, except for two instances from Papua New Guinea: 15 specimens of Stichotrema jeyasothiae cryptic species of Kathirithamby (Kathirithamby et al. 2001) and large num- bers of female S. dallatorreanum Hofeneder, a parasite of Caenocholax fenyesi an oil palm pest (Solulu et al. 1998). Females parasitic in Hapithus agitator Uhler (Gryllidae) were originally ident- Pierce sensu lato ified as C. fenyesi (Cook et al. 1996). However, molecular analysis confirmed that this identification was incorrect 1* Jeyaraney Kathirithamby (Halbert et al. 2001). Kathirithamby & Hamilton (1992) 2 and J. Spencer Johnston discussed the intriguing phenomenon of the scarcity of 1Department of Zoology, University of Oxford, South Parks Road, female Myrmecolacidae. Oxford OX1 3PS, UK Male C. fenyesi, described by Pierce in 1909, is the type 2Department of Entomology, Texas A&M University, College Station, TX 77843-2475, USA species by monotypy and we here propose two nominotyp- * Author for correspondence ( [email protected]). ical subspecies of the Fenyesi group. Kifune (1979) stated that, except for records dating from 1935 of a dead male Recd 20.05.03; Accptd 08.07.03; Online 17.09.03 in a banana thrash boat from Panama and Argentina Due to its extreme sexual dimorphism and disparate (Bohart 1941), no distributional data are available. How- hosts, no female myrmecolacid has been matched to ever, males of morphologically identical C. fenyesi sensu its conspecific male to date. Here, for the first time lato have since been found in large numbers in traps from to our knowledge, a morphological description is the neotropics and southern USA (Kathirithamby 1992; given of the matched female and male myrmecola- Kathirithamby & Hughes 2002), and are parasitic in sev- cid, Caenocholax fenyesi waloffi ssp. nov. from eral species of ants throughout the neotropics and south- Veracruz, Mexico: the female parasitic in a cricket ern USA (see table 1 in electronic Appendix A). and the male parasitic in an ant. For examined seg- We present, to our knowledge, the first morphological ments of DNA, the male and female are identical. description of a female myrmecolacid, parasitic in a cricket Male C. fenyesi Pierce sensu lato was described 94 Macroanaxipha mecilenta (Saussure) and that was con- years ago from Veracruz. The male from Texas firmed by molecular characterization as a 100% match to USA, which, for the same DNA segments, shows a sexually dimorphic male parasitic in an ant Dolichoderus 15% divergence from the morphologically identical bispinosus Olivier (J. Kathirithamby, L. D. Ross, G. Moya- male from Veracruz, is given subspecies status, and Raygoza, D. P. Hughes and J. S. Johnston, unpublished is named Caenocholax fenyesi texensis ssp. nov. The data). It has hitherto been impossible to match males and discovery of the female finally enables many inter- females of Myrmecolacidae because of their heterotrophic esting studies to be pursued, such as speciation in heteronomous biology and their extreme sexual dimor- morphologically cryptic taxa, the sexes of which phism. Now, however, with the help of molecular tools, parasitize disparate hosts. Caenocholax fenyesi one such match has been established. sensu lato may also be evaluated for biocontrol of During the present study it was also found that the male the red imported fire ant, Solenopsis invicta Buren, C. fenyesi sensu lato from Texas parasitic in Solenopsis which is a pest in the USA and Australia. invicta Buren is 15% divergent from the morphologically Keywords: Strepsiptera; Myrmecolacidae; identical male from Mexico, parasitic in D. bispinosus Caenocholax fenyesi sensu lato; Mexico; Texas (J. Kathirithamby, L. D. Ross, G. Moya-Raygoza, D. P. Hughes and J. S. Johnston, unpublished data). Hence, C. 1. INTRODUCTION fenyesi sensu lato from Texas is given subspecies status. The discovery of a female myrmecolacid parasitic in an It is not clear whether these are (hitherto unrecognized) orthopteran comes 94 years after the free-living male reproductive isolated sibling species that parasitize dispar- Caenocholax fenyesi sensu lato was described from the same ate hosts, or if the sexes exhibit distinct (disparate) host area in Mexico (Pierce 1909), and is a major breakthrough preferences in the absence of any barriers to gene flow in the study of Strepsiptera. The family Myrmecolacidae between races. exhibits an extreme form of heterotrophic heteronomy (Kathirithamby 1991), where males develop in ants, and the females in grasshoppers, crickets and mantids (a) Myrmecolacidae Saunders (Ogloblin 1939; Kathirithamby 1989; Kathirithamby & Myrmecolacides Saunders (1872). Hamilton 1992). This feature, together with the fact that Myrmecolacidae Pierce (1908). the sexes exhibit extreme dimorphism in Strepsiptera, Strichotrematoidae Hofeneder (1910). means that it is impossible to match females and males Stichotrematidae Hofeneder (1910). Proc. R. Soc. Lond. B (Suppl.) 271, S5–S8 (2004) S5 2003 The Royal Society DOI 10.1098/rsbl.2003.0078 S6 J. Kathirithamby and J. S. Johnston Discovery of an elusive female myrmecolacid (b) Caenocholax Pierce Hughes et al. 2003) from Veracruz, Mexico (J. Kathiri- Caenocholax Pierce (1909). thamby, L. D. Ross, G. Moya-Raygoza, D. P. Hughes and Type species: male, Caenocholax fenyesi Pierce, Co´rdoba, J. S. Johnston, unpublished data) (figure 1d). Veracruz, Mexico USNM type 10081, originally part of Distribution: tropical species—neotropical. the Fenyes collection at the California Academy of Sciences, San Francisco. (v) DNA analysis Aedeagus: shield-shaped with a pair of lateral spines and The female parasitic in the cricket M. macilenta is 100% a ventral projection. identical to the male parasitic in the ant D. bispinosus (J. Host: unknown. Kathirithamby, L. D. Ross, G. Moya-Raygoza, D. P. Hughes and J. S. Johnston, unpublished data). (c) Caenocholax fenyesi Pierce sensu lato Caenocholax fenyesi Pierce (1909, 1911, 1918); Bohart (vi) Collection of taxa (1941); Kifune & Brailovsky (1987, 1988, 1997); Estacio´n de Biologı´a Tropical ‘Los Tuxtlas’, Instituto de Kathirithamby & Johnston (1992); Maes & Kathirithamby Biologı´a UNAM, 30 km Carretera Catemaco, Montepio (1993); Kathirithamby & Peck (1994); Kathirithamby & Apdo, San Andre´s, Tuxtla, Veracruz, Mexico, (18°35Ј N Hughes (2002). 95° 5Ј W), between 20 and 24 June 2002. (d) Synonymy Caenocholax brasiliensis Oliveira & Kogan (1959), Teso´n& (vii) Etymology de Remes Lenicov (1979) (sym. nov.) is synonymized with C. fenyesi waloffi ssp. nov. is named after the late Nadia C. fenyesi sensu lato based on the unique structure of the Waloff. aedeagus and the ninth abdominal segment. (viii) Voucher specimens Two neotenic female endoparasitic in Macroanaxipha mac- 2. DESCRIPTION ilenta (Saussure) (Orthoptera), Mexico: Estacio´n de Biol- (a) Caenocholax fenyesi waloffi ssp. nov ogı´a Tropical ‘Los Tuxtlas’, Instituto de Biologı´a UNAM, (i) Female 30 km Carretera Catemaco, Montepio Apdo, San Andre´s, The extruded cephalothorax lies flat on the host abdomen Tuxtla, Veracruz, Mexico, (18°35ЈN, 95°5ЈW), June 2002 (figure 1a–c), light brown with rounded anterior region; (G. Moya-Raygoza) (Coleccio´n Nacional de Insectos, brood canal opening broad. The cephalothorax always Instituto de Biologia, Universidad Nacional Auto´noma de extrudes through the abdominal pleurites of the host and Mexico, Mexico City, in alcohol). is cryptic (figure 1a). Numerous spines on inner surface Two neotenic female endoparasitic in M. macilenta, Mex- of mandibles (figure 1c). ico: same data as above (Oxford University Museum of Genital apertures/invaginations in the apron: one on each Natural History, Oxford, UK, in alcohol). of the second and third abdominal segments. Two male pupa endoparasitic in Dolichoderus bispinosus Cephalothorax length of 0.55 mm; width of 0.43 mm. Olivier (Formicidae), Mexico: same data as above, June Brood canal opening length of 0.18 mm; width of 2002 (D. P. Hughes) (Coleccio´n Nacional de Insectos, 0.33 mm. Instituto de Biologia, Universidad Nacional Auto´noma de Total length of female of 1.91 mm. Mexico, Mexico City, in alcohol). First-instar larva: total length of 0.89 mm. Two male pupa endoparasitic in D. bispinosus, Mexico: same data as above (University Museum of Natural His- (ii) Host tory, Oxford, UK, in alcohol). Macroanaxipha macilenta (Saussure) (Orthoptera: Grylli- dae: Trigonidiinae) (figure 1a) is most abundant during the evening after 18.00. (b) Caenocholax fenyesi texensis ssp. nov Distribution: neotropical. (i) Male The morphologically identical males from Texas, USA, collected from Bee Creek and Lick Creek, are 16.5% and (iii) Male 14.3% divergent, respectively, based upon D2 and V2 Morphologically identical males have been described from nuclear gene alignments from male C. fenyesi waloffi ssp. Texas (Kathirithamby & Johnston 1992), the Bahamas nov. from Veracruz (J. Kathirithamby, L. D. Ross, G.
Load more

Recommended publications
  • Insect Ecology-An Ecosystem Approach
    FM-P088772.qxd 1/24/06 11:11 AM Page xi PREFACE his second edition provides an updated and expanded synthesis of feedbacks and interactions between insects and their environment. A number of recent studies have T advanced understanding of feedbacks or provided useful examples of principles. Mo- lecular methods have provided new tools for addressing dispersal and interactions among organisms and have clarified mechanisms of feedback between insect effects on, and responses to, environmental changes. Recent studies of factors controlling energy and nutri- ent fluxes have advanced understanding and prediction of interactions among organisms and abiotic nutrient pools. The traditional focus of insect ecology has provided valuable examples of adaptation to environmental conditions and evolution of interactions with other organisms. By contrast, research at the ecosystem level in the last 3 decades has addressed the integral role of her- bivores and detritivores in shaping ecosystem conditions and contributing to energy and matter fluxes that influence global processes. This text is intended to provide a modern per- spective of insect ecology that integrates these two traditions to approach the study of insect adaptations from an ecosystem context. This integration substantially broadens the scope of insect ecology and contributes to prediction and resolution of the effects of current envi- ronmental changes as these affect and are affected by insects. This text demonstrates how evolutionary and ecosystem approaches complement each other, and is intended to stimulate further integration of these approaches in experiments that address insect roles in ecosystems. Both approaches are necessary to understand and predict the consequences of environmental changes, including anthropogenic changes, for insects and their contributions to ecosystem structure and processes (such as primary pro- ductivity, biogeochemical cycling, carbon flux, and community dynamics).
    [Show full text]
  • In the Red Imported Fire Ant Solenopsis Invicta
    University of Texas at Tyler Scholar Works at UT Tyler Biology Theses Biology Fall 11-1-2015 The oD wnregulation of Short Neuropeptide Receptor (SNPFR) in the Red Imported Fire Ant Solenopsis Invicta (Hymenoptera: Formicidae) and the Tawny Crazy Ant Nylanderia Fulva (Hymenoptera: Formicidae) using RNA Interference, and the Use of an Anthranilic Diamide as a Novel Management Technique Megan Rudolph Follow this and additional works at: https://scholarworks.uttyler.edu/biology_grad Part of the Biology Commons Recommended Citation Rudolph, Megan, "The oD wnregulation of Short Neuropeptide Receptor (SNPFR) in the Red Imported Fire Ant Solenopsis Invicta (Hymenoptera: Formicidae) and the Tawny Crazy Ant Nylanderia Fulva (Hymenoptera: Formicidae) using RNA Interference, and the Use of an Anthranilic Diamide as a Novel Management Technique" (2015). Biology Theses. Paper 31. http://hdl.handle.net/10950/307 This Thesis is brought to you for free and open access by the Biology at Scholar Works at UT Tyler. It has been accepted for inclusion in Biology Theses by an authorized administrator of Scholar Works at UT Tyler. For more information, please contact [email protected]. THE DOWNREGULATION OF SHORT NEUROPEPTIDE F RECEPTOR (SNPFR) IN THE RED IMPORTED FIRE ANT SOLENOPSIS INVICTA (HYMENOPTERA: FORMICIDAE) AND THE TAWNY CRAZY ANT NYLANDERIA FULVA (HYMENOPTERA: FORMICIDAE) USING RNA INTERFERENCE, AND THE USE OF AN ANTHRANILIC DIAMIDE AS A NOVEL MANAGEMENT TECHNIQUE by MEGAN RUDOLPH A thesis submitted in partial fulfillment of the requirements for the degree of Masters of Science of Biology Department of Biology Blake Bextine, Ph.D., Committee Chair College of Arts and Sciences The University of Texas at Tyler November 2015 Acknowledgements I would like to begin my thanking my amazing family, whose unconditional love and support has helped me through this challenging and rewarding endeavor.
    [Show full text]
  • Zootaxa, Halictophagus, Insecta, Strepsiptera, Halictophagidae
    Zootaxa 1056: 1–18 (2005) ISSN 1175-5326 (print edition) www.mapress.com/zootaxa/ ZOOTAXA 1056 Copyright © 2005 Magnolia Press ISSN 1175-5334 (online edition) A new species of Halictophagus (Insecta: Strepsiptera: Halicto- phagidae) from Texas, and a checklist of Strepsiptera from the United States and Canada JEYARANEY KATHIRITHAMBY1 & STEVEN J. TAYLOR2 1Department of Zoology, South Parks Road, Oxford OX1 3PS, U.K. [email protected] 2Center for Biodiversity, Illinois Natural History Survey, 607 East Peabody Drive (MC-652), Champaign IL 61820-6970 U.S.A. [email protected] Correspondence: Jeyaraney Kathirithamby Department of Zoology, South Parks Road, Oxford OX1 3PS, U.K.; e-mail: [email protected] Abstract A new species of Halictophagidae (Insecta: Strepsiptera), Halictophagus forthoodiensis Kathirith- amby & Taylor, is described from Texas, USA. We also present a key to 5 families, and a check-list of 11 genera and 84 species of Strepsiptera known from USA and Canada. Key words: Strepsiptera, Halictophagus, Texas, USA, Canada Introduction Five families and eighty three species of Strepsiptera have been recorded so far from USA and Canada of which thirteen are Halictophagus. Key to the families of adult male Strepsiptera found in USA and Canada 1. Mandibles absent..................................................................................... Corioxenidae – Mandibles present ........................................................................................................ 2 2. Legs with
    [Show full text]
  • X-Ray Micro-CT Reconstruction Reveals Eight Antennomeres in a New Fossil
    Palaeontologia Electronica palaeo-electronica.org X-ray micro-CT reconstruction reveals eight antennomeres in a new fossil taxon that constitutes a sister clade to Dundoxenos and Triozocera (Strepsiptera: Corioxenidae) Hans Henderickx, Jan Bosselaers, Elin Pauwels, Luc Van Hoorebeke, and Matthieu Boone ABSTRACT Eocenoxenos palintropos gen. nov. et sp.nov., a new fossil strepsipteran taxon from Baltic amber is described. The position of the new genus is based on cladistic analyses of morphological data sets. Most data of the fossil where retrieved with 3D micro-CT scan reconstructions. The new taxon is unambiguously situated as a sister group of the Dundoxenos-Triozocera clade within the Corioxenidae. The eocene taxon combines derived characteristics typical of Corioxenidae with the posession of eight antennomeres with five long flabella, a regained ancestral characteristic. Hans Henderickx. Department of Biology, Universiteit Antwerpen, Groenenborgerlaan 171, 2020 Antwerpen, Belgium (Address for correspondence: Hemelrijkstraat 4, B-2400 Mol, [email protected] Jan Bosselaers. Section of invertebrates, Royal Museum for Central Africa, B-3080 Tervuren, Belgium [email protected] Elin Pauwels. Department of Physics and Astronomy, Gent University, Proeftuinstraat 86, B-9000 Gent, Belgium [email protected] Luc Van Hoorebeke. Department of Physics and Astronomy, Gent University, Proeftuinstraat 86, B-9000 Gent, Belgium [email protected] Matthieu Boone. Department of Physics and Astronomy, Gent University, Proeftuinstraat 86, B-9000 Gent, Belgium [email protected] KEY WORDS: Strepsiptera; new genus; new species; micro-CT scan; Baltic amber fossil. INTRODUCTION similar to a trunk eclector trap (Dubois and LaPolla, 1999) often capturing invertebrates that are seldom Strepsiptera are regularly reported from Baltic encountered in the field, for example because they amber.
    [Show full text]
  • The Biodiversity and Systematics of the Entomophagous Parasitoid Strepsiptera (Insecta)
    The Biodiversity and Systematics of the entomophagous parasitoid Strepsiptera (Insecta) Jeyaraney Kathirithamby, Department of Zoology and St Hugh’s College, Oxford. [email protected] [email protected] ABSTRACT Strepsiptera are small group of entomophagous parasiroids of cosmopolitan in distribution. They parasitize seven orders of Insecta and the common hosts in Europe are Hymenoptera, Hemiptera and Thysanura. INTRODUCTION Strepsiptera are obligate endoparasites the hosts of which include Blattodea, Diptera, Hemiptera, Hymenoptera, Mantodea, Orthoptera, and Thysanura, and 33 families. The name of the group is derived form the Greek words: twisted ( Strepsi-) and wing (pteron ), and refers in particular to the twisted hind wing of the male while in flight. Representatives of the suborder Mengenillidia show more primitive characteristics and parasitise Thysanura (Lepismatidae), the only known apterygote to be parasitized. Strepsiptera are cosmopolitan in distribution and are difficult to find: often the host has to be located to find the strepsipteran. To date about 600 species have been described, but many more await description and some could be cryptic species. The group is relatively well known in Europe (Kinzelbach, 1971, 1978), where details of Strepsiptera life history have been studied in Elenchus tenuicornis Kirby (Baumert, 1958, 1959), a parasite of Delphacidae (Homoptera) and in Xenos vesparum (Christ) (Hughes et al ., 2003, 2004a, 2004b, 2005), a parasite of polistine paper wasps (Hymenoptera: Vespidae). While most strepsipterans parasitize single taxa (leafhoppers or halictid bees), the males and females in the family Myrmecolacidae parasitize hosts belonging to different orders: (Formicidae and Orthoptera, respectively) (Ogloblin, 1939, Kathirithamby and Hamilton, 1992).
    [Show full text]
  • JAMES PURSER PITTS a Cladistic Analysis of the Solenopsis Saevissima Species-Group (Hymenoptera: Formicidae) (Under the Directio
    JAMES PURSER PITTS A cladistic analysis of the Solenopsis saevissima species-group (Hymenoptera: Formicidae) (Under the direction of JOSEPH VINCENT MCHUGH and KENNETH GEORGE ROSS) The cosmopolitan genus Solenopsis Westwood 1840 contains 185 species of ants. Probably the best known species of Solenopsis are the fire ants. Several of the fire ants, including S. invicta Buren, the red imported fire ant, belong to the S. saevissima species- group, a primarily Neotropical assemblage formerly called the S. saevissima complex of the S. geminata species-group. In this study, the S. saevissima species-group is characterized, its males, queens, and larvae are described, its workers are diagnosed, a key to the group is provided, and the distributions of the species are summarized. Solenopsis altipunctata sp. nov., discovered in the Serra Geral mountains in Santa Catarina State, Brazil, is described as new. A cladistic analysis of the S. saevissima species-group, including the social parasite S. daguerrei Santschi, yields the following results based on characters from workers, males, queens, and larvae: (daguerrei + ((electra + pusillignis)+(saevissima +(pythia +((altipunctata sp. nov. + weyrauchi)+ (interrupta +(richteri +(invicta +(megergates +(quinquecuspis + macdonaghi)))))))))). It is hypothesized that the social parasite S. daguerrei occupies a basal position in this species-group and is the sister group to all other species. It is not closely related to its hosts. As such, the results do not support “Emery’s Rule,” which claims that social parasites evolve directly from their hosts in Hymenoptera. A review of literature shows that all the modern cladistic analyses that have tested “Emery’s Rule” failed to support it.
    [Show full text]
  • Curriculum Vitae (PDF)
    CURRICULUM VITAE Steven J. Taylor April 2020 Colorado Springs, Colorado 80903 [email protected] Cell: 217-714-2871 EDUCATION: Ph.D. in Zoology May 1996. Department of Zoology, Southern Illinois University, Carbondale, Illinois; Dr. J. E. McPherson, Chair. M.S. in Biology August 1987. Department of Biology, Texas A&M University, College Station, Texas; Dr. Merrill H. Sweet, Chair. B.A. with Distinction in Biology 1983. Hendrix College, Conway, Arkansas. PROFESSIONAL AFFILIATIONS: • Associate Research Professor, Colorado College (Fall 2017 – April 2020) • Research Associate, Zoology Department, Denver Museum of Nature & Science (January 1, 2018 – December 31, 2020) • Research Affiliate, Illinois Natural History Survey, Prairie Research Institute, University of Illinois at Urbana-Champaign (16 February 2018 – present) • Department of Entomology, University of Illinois at Urbana-Champaign (2005 – present) • Department of Animal Biology, University of Illinois at Urbana-Champaign (March 2016 – July 2017) • Program in Ecology, Evolution, and Conservation Biology (PEEC), School of Integrative Biology, University of Illinois at Urbana-Champaign (December 2011 – July 2017) • Department of Zoology, Southern Illinois University at Carbondale (2005 – July 2017) • Department of Natural Resources and Environmental Sciences, University of Illinois at Urbana- Champaign (2004 – 2007) PEER REVIEWED PUBLICATIONS: Swanson, D.R., S.W. Heads, S.J. Taylor, and Y. Wang. A new remarkably preserved fossil assassin bug (Insecta: Heteroptera: Reduviidae) from the Eocene Green River Formation of Colorado. Palaeontology or Papers in Palaeontology (Submitted 13 February 2020) Cable, A.B., J.M. O’Keefe, J.L. Deppe, T.C. Hohoff, S.J. Taylor, M.A. Davis. Habitat suitability and connectivity modeling reveal priority areas for Indiana bat (Myotis sodalis) conservation in a complex habitat mosaic.
    [Show full text]
  • Hymenoptera: Formicidae)
    View metadata, citation and similar papers at core.ac.uk brought to you by CORE provided by Texas A&M University INVASIVE INTERACTIONS OF Monomorium minimum (HYMENOPTERA: FORMICIDAE) AND Solenopsis invicta (HYMENOPTERA: FORMICIDAE) INFECTED WITH Thelohania solenopsae (MICROSPORIDA: THELOHANIIDAE) A Thesis by MOLLY ELIZABETH KECK Submitted to the Office of Graduate Studies of Texas A&M University in partial fulfillment of the requirements for the degree of MASTER OF SCIENCE May 2005 Major Subject: Entomology INVASIVE INTERACTIONS OF Monomorium minimum (HYMENOPTERA: FORMICIDAE) AND Solenopsis invicta (HYMENOPTERA: FORMICIDAE) INFECTED WITH Thelohania solenopsae (MICROSPORIDA: THELOHANIIDAE) A Thesis by MOLLY ELIZABETH KECK Submitted to Texas A&M University in partial fulfillment of the requirements for the degree of MASTER OF SCIENCE Approved as to style and content by: ______________________________ ______________________________ Roger E. Gold Norman O. Dronen (Chair of Committee) (Member) ______________________________ ______________________________ S. Bradleigh Vinson Kevin Heinz (Member) (Head of Department) May 2005 Major Subject: Entomology iii ABSTRACT Invasive Interactions of Monomorium minimum (Hymenoptera: Formicidae) and Solenopsis invicta (Hymenoptera: Formicidae) Infected with Thelohania solenopsae (Microsporida: Thelohaniidae). (May 2005) Molly Elizabeth Keck, B.S., Texas A&M University Chair of Advisory Committee: Dr. Roger E. Gold Thelohania solenopsae Knell, Alan, and Hazard is an internal microsporidian that parasitizes the red imported fire ant, Solenopsis invicta Buren. This experiment studied the invasive interactions between the native United States ant, Monomorium minimum (Buckley), and S. invicta colonies infected with T. solenopsae and S. invicta colonies free of parasites. This study utilized S. invicta colonies of 100, 300, 600, 800, and 1000 workers to determine the ability of 1000 M.
    [Show full text]
  • The First Fossil Free-Living Late Instar Larva of Strepsiptera (Insecta)
    77 (1): 125 –140 2019 © Senckenberg Gesellschaft für Naturforschung, 2019. The first fossil free-living late instar larva of Strepsi ptera (Insecta) Hans Pohl*, 1, Jörg U. Hammel1, 2, Adrian Richter 1 & Rolf G. Beutel1 1 Institut für Zoologie und Evolutionsforschung, Friedrich-Schiller-Universitat Jena, Erbertstrasse 1, 07743 Jena, Germany; Hans Pohl * [[email protected]]; Rolf G. Beutel [[email protected]]; Adrian Richter [[email protected]] — 2 Institute of Materials Research, Helmholtz-Zentrum Geesthacht, Outstation at DESY, Notkestrasse 85, 22607 Hamburg, Germany; Jörg U. Hammel [joerg.hammel @hzg.de] — * Corresponding author Accepted on March 15, 2019. Published online at www.senckenberg.de/arthropod-systematics on May 17, 2019. Published in print on June 03, 2019. Editors in charge: André Nel & Klaus-Dieter Klass. Abstract. A fossil Cenozoic late instar strepsipteran larva is described and evaluated phylogenetically. The single specimen is embedded in Eocene Baltic amber. The short antennal buds, mandibles not intercrossing in the midline, unsegmented tarsi, and the elongated slender claws clearly indicate that it is not an adult female but a late larval instar. The low number of ommatidia of the compound eyes strongly suggests that it is an immature female. Besides this, wing buds are missing in contrast to male puparia of Mengenillidae. Phylogenetic analyses of characters of female late instar larvae indicate that the species belongs to the stem group of Strepsiptera. The presence of dis- tinctly developed mouthparts and legs show that the larva does not belong to Stylopidia. The presence of a distinct clypeolabral suture, a large labrum, and claws which are elongated but not fliform exclude it from crown group Strepsiptera.
    [Show full text]
  • (Strepsiptera: Stylopidae) from Dominican Amber
    March - April 2010 227 SYSTEMATICS, MORPHOLOGY AND PHYSIOLOGY New Fossil Stylops (Strepsiptera: Stylopidae) from Dominican Amber MARCOS KOGAN1, GEORGE POINAR JR2 1Integrated Plant Protection Center and Dept of Horticulture; 2Dept of Zoology. Oregon State Univ, Corvallis, Oregon, 97331, USA; [email protected]; [email protected] Edited by Roberto A Zucchi Neotropical Entomology 39(2):227-234 (2010) ABSTRACT - Description of a new species of the genus Stylops from Dominican amber expands the number of families of this order represented by fossils of the mid-Eocene in the Neotropical region. The specimen described herein is reasonably well preserved, except for the tip of the abdomen that hampered observation of the aedeagus. The specimen fi ts defi nition of the comtemporary genus Stylops and differs from a related species, Jantarostylops kinzelbachi Kulicka, from Baltic amber, by the larger number of ommatidia, relative proportion of antennal segments, and venation of hind wings. The specimen differs from other contemporary species of Nearctic Stylops in, among other characters, the smaller size, sub-costa detached from costa and maxillary structure. Discovery of this fossil species of Stylops provides evidence of a possibly more temperate climate in the Antilles, since most contemporary species of the genus occur predominantly in the temperate zones of the Nearctic, Palearctic, and Oriental regions. All known species of the genus parasitize bees of the genus Andrena (sensu lato). Existence of a fossil andrenid, Protandrena eickworti Rozen Jr, of the same Dominican amber, offers evidence of a potential host for this new species of Stylops. KEY WORDS: Fossil insect, Neotropical Strepsiptera, Jantarostylops, Protandrena For a relatively rare group of insects, Strepsiptera are and male puparium in planthoppers of two families: well represented in the Dominican amber (Table 1).
    [Show full text]
  • Potential Biological Control Agents for the Red Imported Fire Ant
    ENTO-008 03/14 Potential Biological Control Agents for the Red Imported Fire Ant Bastiaan M. Drees and establishing native natural enemies into pest Extension Entomologist Emeritus areas, or mass-rearing and releasing new exotic Texas A&M AgriLife Extension Service natural enemies. This last approach is known as Robert Puckett importation biological control. Associate Research Scientist Texas A&M AgriLife Research The first step is to search for promising natural enemies in the ant’s native home, considering for importation and release in the United States The red imported fire ant,Solenopsis invicta only natural enemies that specifically attack the Buren (Hymenoptera: Formicidae), arrived in red imported fire ant. Native ant species compete the United States from South America with with imported fire ants for food and can reduce few parasites or pathogens that regulate the imported fire ant populations through competi- ant’s populations (Wojcik 1998), (see Natural tion for resources. Some native ants also attack Enemies of Fire Ants). This lack of natural ene- and kill young fire ant queens as they begin to mies is one factor that has allowed the ant to establish colonies in new territories. spread and dominate resources in its non-native The importation of exotic natural enemies must range (Porter 1998). Fire ant densities are many be approved by the United States Department of times greater in the United States than in South Agriculture–Animal and Plant Health Inspec- America where a variety of natural enemies tion Service (USDA–APHIS). Once approved for attack this pest. Attempts are currently under- importation and release in the United States, the way in the United States to augment natural exotic natural enemy is reared in large numbers and enemies in order to reduce its impact.
    [Show full text]
  • Background and General Information 2
    United States Department of National Program 304: Agriculture Agricultural Crop Protection and Research Service Quarantine National Program Staff August 2007 TABLE OF CONTENTS Background and General Information 2 Component I: Identification and Classification of Insects and Mites 5 Component II: Biology of Pests and Natural Enemies (Including Microbes) 8 Component III: Plant, Pest, and Natural Enemy Interactions and Ecology 17 Component IV: Postharvest, Pest Exclusion, and Quarantine Treatment 24 Component V: Pest Control Technologies 30 Component VI: Integrated Pest Management Systems and Areawide Suppression 41 Component VII: Weed Biology and Ecology 48 Component VIII: Chemical Control of Weeds 53 Component IX: Biological Control of Weeds 56 Component X: Weed Management Systems 64 APPENDIXES – Appendix 1: ARS National Program Assessment 70 Appendix 2: Documentation of NP 304 Accomplishments 73 NP 304 Accomplishment Report, 2001-2006 Page 2 BACKGROUND AND GENERAL INFORMATION THE AGRICULTURAL RESEARCH SERVICE The Agricultural Research Service (ARS) is the intramural research agency for the U.S. Department of Agriculture (USDA), and is one of four agencies that make up the Research, Education, and Economics mission area of the Department. ARS research comprises 21 National Programs and is conducted at 108 laboratories spread throughout the United States and overseas by over 2,200 full-time scientists within a total workforce of 8,000 ARS employees. The research in National Program 304, Crop Protection and Quarantine, is organized into 140 projects, conducted by 236 full-time scientists at 41 geographic locations. At $102.8 million, the fiscal year (FY) 2007 net research budget for National Program 304 represents almost 10 percent of ARS’s total FY 2007 net research budget of $1.12 billion.
    [Show full text]