DOCSLIB.ORG

Annotated Catalogue of Australian Weevils (Coleoptera: Curculionoidea)

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Annotated Catalogue of Australian Weevils (Coleoptera: Curculionoidea) Zootaxa 3896 (1): 001–481 ISSN 1175-5326 (print edition) www.mapress.com/zootaxa/ Monograph ZOOTAXA Copyright © 2014 Magnolia Press ISSN 1175-5334 (online edition) http://dx.doi.org/10.11646/zootaxa.3896.1.1 http://zoobank.org/urn:lsid:zoobank.org:pub:457B8988-DBF5-432B-9F30-A7BE0344CDCE ZOOTAXA 3896 Annotated catalogue of Australian weevils (Coleoptera: Curculionoidea) KIMBERI R. PULLEN, DEBBIE JENNINGS & ROLF G. OBERPRIELER Weir’s Wonderful Weevil—Tomweirius mirus Magnolia Press Auckland, New Zealand Accepted by R. Anderson: 14 Jul. 2014; published: 18 Dec. 2014 KIMBERI R. PULLEN, DEBBIE JENNINGS & ROLF G. OBERPRIELER Annotated catalogue of Australian weevils (Coleoptera: Curculionoidea) (Zootaxa 3896) 481 pp.; 30 cm. 18 Dec. 2014 ISBN 978-1-77557-597-9 (paperback) ISBN 978-1-77557-598-6 (Online edition) FIRST PUBLISHED IN 2014 BY Magnolia Press P.O. Box 41-383 Auckland 1346 New Zealand e-mail: [email protected] http://www.mapress.com/zootaxa/ © 2014 Magnolia Press All rights reserved. No part of this publication may be reproduced, stored, transmitted or disseminated, in any form, or by any means, without prior written permission from the publisher, to whom all requests to reproduce copyright material should be directed in writing. This authorization does not extend to any other kind of copying, by any means, in any form, and for any purpose other than private research use. ISSN 1175-5326 (Print edition) ISSN 1175-5334 (Online edition) 2 · Zootaxa 3896 (1) © 2014 Magnolia Press PULLEN ET AL. Annotated catalogue of Australian weevils (Coleoptera: Curculionoidea) KIMBERI R. PULLEN, DEBBIE JENNINGS & ROLF G. OBERPRIELER1 CSIRO, Australian National Insect Collection, GPO Box 1700, Canberra, ACT 2601, Australia. E-mail: [email protected], [email protected], [email protected]. 1Corresponding author Table of contents Abstract . 4 Introduction . 4 Discovery and documentation of the Australian weevil fauna . 6 Composition of the Australian weevil fauna . 13 The burden of synonymy . 19 Materials and methods . 23 Acknowledgements . 25 Summary of taxonomic and nomenclatural changes. 26 New taxa . 26 New names . 26 New generic synonymies . 26 New species synonymies . 26 New combinations . 27 Type species designations . 29 Lectotype designations . 29 Catalogue . 30 Synopsis of family-level classification . 30 Taxa occurring in Australia . 33 Family NEMONYCHIDAE Bedel, 1882 . 33 Subfamily Rhinorhynchinae Voss, 1922 . 33 Family ANTHRIBIDAE Billberg, 1820 . 34 Subfamily Anthribinae Billberg, 1820 . 34 Subfamily Choraginae Kirby, 1819 . 41 Family BELIDAE Schoenherr, 1826 . 43 Subfamily Belinae Schoenherr, 1826 . 43 Family ATTELABIDAE Billberg, 1820 . 50 Subfamily Rhynchitinae Gistel, 1848 . 50 Subfamily Attelabinae Billberg, 1820 . 53 Family CARIDAE Thompson, 1992 . 56 Family BRENTIDAE Billberg, 1820 . 56 Subfamily Eurhynchinae Lacordaire, 1863 . 56 Subfamily Brentinae Billberg, 1820 . 57 Subfamily Apioninae Schoenherr, 1823 . 65 Subfamily Nanophyinae Gistel, 1848 . 70 Family CURCULIONIDAE Latreille, 1802 . 71 Subfamily Dryophthorinae Schoenherr, 1825 . 71 Subfamily Platypodinae Shuckard, 1840 . 74 Subfamily Brachycerinae Billberg, 1820 . 78 Subfamily Cyclominae Schoenherr, 1826. 82 Unplaced to Subfamily . 121 Subfamily Entiminae Schoenherr, 1823 . 134 Subfamily Curculioninae Latreille, 1802 . 183 Subfamily Molytinae Schoenherr, 1823 . 218 Subfamily Conoderinae Schoenherr, 1833 . ..
Load more

Recommended publications
  • I. Origin and Diversification of Insect Wings II. Wing Color Patterns And
    DIVISION OF EVOLUTIONARY DEVELOPMENTAL BIOLOGY functional effects of altered transcription of each of these wing genes in the ancestrally wingless firebrats. In addition, we are performing comparative analyses of the function of these same genes in “primitively winged” (hemimetabolous) Professor NIIMI, Teruyuki insects, to obtain additional clues relevant to understanding the origin and evolution of insect wings. Assistant Professor: OHDE, Takahiro Interestingly, our previous work showed that vg express- ANDO, Toshiya ing epidermal tissue forms lateral outgrowths in non-winged Technical Staff: MIZUTANI, Takeshi NIBB Research Fellow: MORITA, Shinichi segments in the mealworm beetle (Ohde et al., 2013). From Visiting Graduate Student: MASE, Mutsuki these facts, we hypothesize that ancestral lateral body wall YATOMI, Johichiro outgrowths evolved into functional wings. To test this YUZAKI, Karen hypothesis, we are now comparing the role of vg and other KONISHI, Yusuke “wing genes” between wings and lateral outgrowths in a Technical Assistant: KAWAGUCHI, Haruka MORITA, Junko basal winged insect, Gryllus bimaculatus, and non-winged Secretary: SAITO, Eiko insect, Thermobia domestica (Figure 1). II. Wing color patterns and mimicry of The Division of Evolutionary Developmental Biology was ladybird beetles started in June 2015. We focus on the evolutionary novelties Insect wing color patterns demonstrate a tremendous range acquired by insects through evolution, in order to elucidate of diversity and have evolved to fulfill various ecologi- the molecular and evolutionary mechanisms leading to the cally important functions such as intraspecific sexual sig- large variety of traits that they display. From this wealth naling, mimesis, mimicry, and warning against predators. of exciting traits, our lab currently focuses on promoting The molecular mechanisms responsible for generating such research into (1) the origin and diversification of insect patterns, however, remain unknown for most species.
    [Show full text]
  • 1 It's All Geek to Me: Translating Names Of
    IT’S ALL GEEK TO ME: TRANSLATING NAMES OF INSECTARIUM ARTHROPODS Prof. J. Phineas Michaelson, O.M.P. U.S. Biological and Geological Survey of the Territories Central Post Office, Denver City, Colorado Territory [or Year 2016 c/o Kallima Consultants, Inc., PO Box 33084, Northglenn, CO 80233-0084] ABSTRACT Kids today! Why don’t they know the basics of Greek and Latin? Either they don’t pay attention in class, or in many cases schools just don’t teach these classic languages of science anymore. For those who are Latin and Greek-challenged, noted (fictional) Victorian entomologist and explorer, Prof. J. Phineas Michaelson, will present English translations of the scientific names that have been given to some of the popular common arthropods available for public exhibits. This paper will explore how species get their names, as well as a brief look at some of the naturalists that named them. INTRODUCTION Our education system just isn’t what it used to be. Classic languages such as Latin and Greek are no longer a part of standard curriculum. Unfortunately, this puts modern students of science at somewhat of a disadvantage compared to our predecessors when it comes to scientific names. In the insectarium world, Latin and Greek names are used for the arthropods that we display, but for most young entomologists, these words are just a challenge to pronounce and lack meaning. Working with arthropods, we all know that Entomology is the study of these animals. Sounding similar but totally different, Etymology is the study of the origin of words, and the history of word meaning.
    [Show full text]
  • Norsk Lovtidend
    Nr. 7 Side 1067–1285 NORSK LOVTIDEND Avd. I Lover og sentrale forskrifter mv. Nr. 7 Utgitt 30. juli 2015 Innhold Side Lover og ikrafttredelser. Delegering av myndighet 2015 Juni 19. Ikrafts. av lov 19. juni 2015 nr. 60 om endringer i helsepersonelloven og helsetilsynsloven (spesialistutdanningen m.m.) (Nr. 674) ................................................................1079................................ Juni 19. Ikrafts. av lov 19. juni 2015 nr. 77 om endringar i lov om Enhetsregisteret m.m. (registrering av sameigarar m.m.) (Nr. 675) ................................................................................................1079 ..................... Juni 19. Deleg. av Kongens myndighet til Helse- og omsorgsdepartementet for fastsettelse av forskrift for å gi helselover og -forskrifter hel eller delvis anvendelse på Svalbard og Jan Mayen (Nr. 676) ................................................................................................................................1080............................... Juni 19. Ikrafts. av lov 19. juni 2015 nr. 59 om endringer i helsepersonelloven mv. (vilkår for autorisasjon) (Nr. 678) ................................................................................................................................1084 ..................... Juni 19. Ikrafts. av lov 13. mars 2015 nr. 12 om endringer i stiftelsesloven (stiftelsesklagenemnd) (Nr. 679) ................................................................................................................................................................1084
    [Show full text]
  • Zootaxa, Coleoptera, Attelabidae, Apoderinae, Hoplapoderini
    Zootaxa 1089: 37–47 (2005) ISSN 1175-5326 (print edition) www.mapress.com/zootaxa/ ZOOTAXA 1089 Copyright © 2005 Magnolia Press ISSN 1175-5334 (online edition) A new genus and species of Hoplapoderini from Madagascar (Coleoptera: Attelabidae: Apoderinae) SILVANO BIONDI Via E. di Velo 137, I-36100 Vicenza - Italy. email: [email protected] Abstract Madapoderus pacificus, a new genus and species of hoplapoderine attelabid beetles, is described from Madagascar. A key to the genera of Hoplapoderini and field observations on the host plant and reproductive behaviour of the new species are provided. Key words: Attelabidae, Apoderinae, Hoplapoderini, Madagascar, new genus, new species, Grewia Introduction In May 2002, among specimens of Attelabidae collected in Madagascar by David Hauck some months earlier, I received two males belonging to the apoderine tribe Hoplapoderini that could not be assigned to any known genus. A study of the rich collection of Madagascan attelabids at the Muséum National d’Histoire Naturelle, Paris, a few months later confirmed this diagnosis. During a month-long collecting expedition in Madagascar in December 2003 and January 2004, I collected the new taxon again, at a different locality, and could carry out some observations on its behaviour. Systematics Tribe Hoplapoderini Voss, 1926 Voss (1926) defined his tribe Hoplapoderini largely on the basis of features of the head and elytra. The new Madagascan genus fits into this tribe due to its tapered head, with maximum width near the basis, and its tuberculate elytra. Voss also provided a key to the Accepted by Q. Wang: 7 Oct. 2005; published: 2 Dec. 2005 37 ZOOTAXA genera of the tribe, but this is largely inadequate because of its heavy reliance on the 1089 presence and shape of what he called “abdominal lobes” (“Abdominallappen”).
    [Show full text]
  • Curculio a Newsletter Devoted to Dissemination of Knowledge About Curculionoidea
    CURCULIO A NEWSLETTER DEVOTED TO DISSEMINATION OF KNOWLEDGE ABOUT CURCULIONOIDEA NO. 41 - MARCH 1997 CANADIAN MUSEUM OF NATURE P.O. BOX 3443, STATION D EDITED BY OTTAWA, ON. K1P 6P4 ROBERT S. ANDERSON CANADA Mike Morris (retired) September 1992, Poland CURCULIO EDITORIAL COMMENTS Yes, this number of CURCULIO is late. It should have been prepared and sent out in September of 1996, but our museum has been going through a move to new facilities and things have been in turmoil. We are now settled in and most services are up and running again. The collections, which were packed away for the move, are also now accessible again. Seems that things went quite well and in fact our Entomology section fared quite well as the move into our new facilities resulted in a great deal more space than we already had. We’re now getting the laboratories prepared and should be back to full speed in the near future. Our mailing address has not changed! On another note, congratulations are in order for Rolf Oberprieler who has accepted the weevil systematics position at CSIRO in Canberra, Australia. This will be a great new challenge for Rolf and one in which we can all be sure he will fare admirably. The Australian weevil fauna is exceptionally diverse and interesting and with the recent books by Elwood Zimmerman, a great base has been set for further and more detailed work on the fauna. I understand Rolf will be there sometime this summer. Now all he has to do is master ‘G’Day’ and ‘mate’ and he’ll have it made! Best wishes to Rolf and his family.
    [Show full text]
  • The Beetle Fauna of Dominica, Lesser Antilles (Insecta: Coleoptera): Diversity and Distribution
    INSECTA MUNDI, Vol. 20, No. 3-4, September-December, 2006 165 The beetle fauna of Dominica, Lesser Antilles (Insecta: Coleoptera): Diversity and distribution Stewart B. Peck Department of Biology, Carleton University, 1125 Colonel By Drive, Ottawa, Ontario K1S 5B6, Canada stewart_peck@carleton. ca Abstract. The beetle fauna of the island of Dominica is summarized. It is presently known to contain 269 genera, and 361 species (in 42 families), of which 347 are named at a species level. Of these, 62 species are endemic to the island. The other naturally occurring species number 262, and another 23 species are of such wide distribution that they have probably been accidentally introduced and distributed, at least in part, by human activities. Undoubtedly, the actual numbers of species on Dominica are many times higher than now reported. This highlights the poor level of knowledge of the beetles of Dominica and the Lesser Antilles in general. Of the species known to occur elsewhere, the largest numbers are shared with neighboring Guadeloupe (201), and then with South America (126), Puerto Rico (113), Cuba (107), and Mexico-Central America (108). The Antillean island chain probably represents the main avenue of natural overwater dispersal via intermediate stepping-stone islands. The distributional patterns of the species shared with Dominica and elsewhere in the Caribbean suggest stages in a dynamic taxon cycle of species origin, range expansion, distribution contraction, and re-speciation. Introduction windward (eastern) side (with an average of 250 mm of rain annually). Rainfall is heavy and varies season- The islands of the West Indies are increasingly ally, with the dry season from mid-January to mid- recognized as a hotspot for species biodiversity June and the rainy season from mid-June to mid- (Myers et al.
    [Show full text]
  • Fossil History of Curculionoidea (Coleoptera) from the Paleogene
    geosciences Review Fossil History of Curculionoidea (Coleoptera) from the Paleogene Andrei A. Legalov 1,2 1 Institute of Systematics and Ecology of Animals, Siberian Branch, Russian Academy of Sciences, Ulitsa Frunze, 11, 630091 Novosibirsk, Novosibirsk Oblast, Russia; [email protected]; Tel.: +7-9139471413 2 Biological Institute, Tomsk State University, Lenin Ave, 36, 634050 Tomsk, Tomsk Oblast, Russia Received: 23 June 2020; Accepted: 4 September 2020; Published: 6 September 2020 Abstract: Currently, some 564 species of Curculionoidea from nine families (Nemonychidae—4, Anthribidae—33, Ithyceridae—3, Belidae—9, Rhynchitidae—41, Attelabidae—3, Brentidae—47, Curculionidae—384, Platypodidae—2, Scolytidae—37) are known from the Paleogene. Twenty-seven species are found in the Paleocene, 442 in the Eocene and 94 in the Oligocene. The greatest diversity of Curculionoidea is described from the Eocene of Europe and North America. The richest faunas are known from Eocene localities, Florissant (177 species), Baltic amber (124 species) and Green River formation (75 species). The family Curculionidae dominates in all Paleogene localities. Weevil species associated with herbaceous vegetation are present in most localities since the middle Paleocene. A list of Curculionoidea species and their distribution by location is presented. Keywords: Coleoptera; Curculionoidea; fossil weevil; faunal structure; Paleocene; Eocene; Oligocene 1. Introduction Research into the biodiversity of the past is very important for understanding the development of life on our planet. Insects are one of the Main components of both extinct and recent ecosystems. Coleoptera occupied a special place in the terrestrial animal biotas of the Mesozoic and Cenozoics, as they are characterized by not only great diversity but also by their ecological specialization.
    [Show full text]
  • In Mississippi
    Biodiversity of Bariditae (Coleoptera: Curculionidae: Conoderinae) in Mississippi By TITLE PAGE Ryan J. Whitehouse Approved by: Richard L. Brown (Major Professor) Robert S. Anderson Gerald T. Baker Kenneth Willeford (Graduate Coordinator) George M. Hopper (Dean, College of Agriculture and Life Sciences) A Thesis Submitted to the Faculty of Mississippi State University in Partial Fulfillment of the Requirements for the Degree of Master of Science in Agricultural Life Sciences in the Department of Biochemistry, Molecular Biology, Entomology & Plant Pathology Mississippi State, Mississippi May 2020 Copyright by COPYRIGHT PAGE Ryan J. Whitehouse 2020 Name: Ryan J. Whitehouse ABSTRACT Date of Degree: May 1, 2020 Institution: Mississippi State University Major Field: Agricultural Life Sciences Major Professor: Richard L. Brown Title of Study: Biodiversity of Bariditae (Coleoptera: Curculionidae: Conoderinae) in Mississippi Pages in Study: 262 Candidate for Degree of Master of Science A survey of Bariditae in Mississippi resulted in records of 75 species in 32 genera and included two undescribed species and 36 new state records. An additional two species were recognized as possibly occurring in Mississippi as well. Diagnoses for all of the genera and species in the state are provided and keys to the genera as well as all of the species were made. Species were found in every county within Mississippi and are representative of the Bariditae fauna of the southeastern United States. Open, prairie-like habitats and aquatic wetland habitats were the habitats with the highest biodiversity of Bariditae in the state. Species of Baris, Geraeus, Linogeraeus, and Odontocorynus, were found in the highest numbers and Linogeraeus and Sibariops were found to be the most speciose genera in the state.
    [Show full text]
  • Bulletin UASVM Agriculture 69(2)/2012
    Bulletin UASVM serie Agriculture 69(2)/2012 Print ISSN 1843-5246; Electronic ISSN 1843-5386 Parameters Researches Regarding the Structural Parameters of the Populations of Rhynchitidae and Attelabidae in Romania Iuliana ANTONIE “Lucian Blaga” University, The Faculty of Agricultural Sciences, Food Industry and the Protection of the Environment, Sibiu, 7-9 Dr. Ion Raţiu, 550012, Sibiu, Romania: [email protected] Abstract. The study of the two families took into account the economic factor, because there are not few species of Rhynchitidae and Attelabidae that produced important damages in the vine, orchard, and forest areas as well as in the agricultural cultures. The researches took place during 1996-2006. The fauna material was collected during the travels to different localities in the country. In some investigated localities the collecting and the observations in the field were extended for at least 2-3 days and for the vine ecosystems with a great attack of Byctiscus betulae the researches lasted for 3-4 years, at regulated intervals of 3-4 weeks. In order to establish the structural parameters there was processed a rich material of over 1300 adult samples belonging to 17 species from a total of 29, which are to be found in Romania. The material comes from 42 localities. The way of collecting was: directly with the hand, with the entomologic net, by drillings in the soil and by using the device of obtaining the zoophagous parasites. Keywords: Ecology, structural parameters, Rhynchitidae and Attelabidae INTRODUCTION The species Rhynchitidae and Attelabidae (Coleoptera, Curculionoidea) are a relatively small group of insects, whose research represents both a scientific and practical interest (Becker, 1954).
    [Show full text]
  • (Coleoptera) from European Eocene Ambers
    geosciences Review A Review of the Curculionoidea (Coleoptera) from European Eocene Ambers Andrei A. Legalov 1,2 1 Institute of Systematics and Ecology of Animals, Siberian Branch, Russian Academy of Sciences, Frunze Street 11, 630091 Novosibirsk, Russia; [email protected]; Tel.: +7-9139471413 2 Biological Institute, Tomsk State University, Lenina Prospekt 36, 634050 Tomsk, Russia Received: 16 October 2019; Accepted: 23 December 2019; Published: 30 December 2019 Abstract: All 142 known species of Curculionoidea in Eocene amber are documented, including one species of Nemonychidae, 16 species of Anthribidae, six species of Belidae, 10 species of Rhynchitidae, 13 species of Brentidae, 70 species of Curcuionidae, two species of Platypodidae, and 24 species of Scolytidae. Oise amber has eight species, Baltic amber has 118 species, and Rovno amber has 16 species. Nine new genera and 18 new species are described from Baltic amber. Four new synonyms are noted: Palaeometrioxena Legalov, 2012, syn. nov. is synonymous with Archimetrioxena Voss, 1953; Paleopissodes weigangae Ulke, 1947, syn. nov. is synonymous with Electrotribus theryi Hustache, 1942; Electrotribus erectosquamata Rheinheimer, 2007, syn. nov. is synonymous with Succinostyphlus mroczkowskii Kuska, 1996; Protonaupactus Zherikhin, 1971, syn. nov. is synonymous with Paonaupactus Voss, 1953. Keys for Eocene amber Curculionoidea are given. There are the first records of Aedemonini and Camarotini, and genera Limalophus and Cenocephalus in Baltic amber. Keywords: Coleoptera; Curculionoidea; fossil weevil; new taxa; keys; Palaeogene 1. Introduction The Curculionoidea are one of the largest and most diverse groups of beetles, including more than 62,000 species [1] comprising 11 families [2,3]. They have a complex morphological structure [2–7], ecological confinement, and diverse trophic links [1], which makes them a convenient group for characterizing modern and fossil biocenoses.
    [Show full text]
  • Temporal Lags and Overlap in the Diversification of Weevils and Flowering Plants
    Temporal lags and overlap in the diversification of weevils and flowering plants Duane D. McKennaa,1, Andrea S. Sequeirab, Adriana E. Marvaldic, and Brian D. Farrella aDepartment of Organismic and Evolutionary Biology, Harvard University, Cambridge, MA 02138; bDepartment of Biological Sciences, Wellesley College, Wellesley, MA 02481; and cInstituto Argentino de Investigaciones de Zonas Aridas, Consejo Nacional de Investigaciones Científicas y Te´cnicas, C.C. 507, 5500 Mendoza, Argentina Edited by May R. Berenbaum, University of Illinois at Urbana-Champaign, Urbana, IL, and approved March 3, 2009 (received for review October 22, 2008) The extraordinary diversity of herbivorous beetles is usually at- tributed to coevolution with angiosperms. However, the degree and nature of contemporaneity in beetle and angiosperm diversi- fication remain unclear. Here we present a large-scale molecular phylogeny for weevils (herbivorous beetles in the superfamily Curculionoidea), one of the most diverse lineages of insects, based on Ϸ8 kilobases of DNA sequence data from a worldwide sample including all families and subfamilies. Estimated divergence times derived from the combined molecular and fossil data indicate diversification into most families occurred on gymnosperms in the Jurassic, beginning Ϸ166 Ma. Subsequent colonization of early crown-group angiosperms occurred during the Early Cretaceous, but this alone evidently did not lead to an immediate and ma- jor diversification event in weevils. Comparative trends in weevil diversification and angiosperm dominance reveal that massive EVOLUTION diversification began in the mid-Cretaceous (ca. 112.0 to 93.5 Ma), when angiosperms first rose to widespread floristic dominance. These and other evidence suggest a deep and complex history of coevolution between weevils and angiosperms, including codiver- sification, resource tracking, and sequential evolution.
    [Show full text]
  • Coleoptera, Curculionidae, Baridinae), with Notes on Sexually Dimorphic Characters
    Dtsch. Entomol. Z. 61 (2) 2014, 105–119 | DOI 10.3897/dez.61.8142 museum für naturkunde A taxonomic revision of Parallelodemas Faust from South China (Coleoptera, Curculionidae, Baridinae), with notes on sexually dimorphic characters Jens Prena1, Runzhi Zhang1 1 Key Laboratory of Zoological Systematics and Evolution, Institute of Zoology, Chinese Academy of Sciences, Beijing 100101, P. R. China http://zoobank.org/B449C54C-A8A8-4B00-826A-ED41A3BE9D53 Corresponding author: Runzhi Zhang ([email protected]) Abstract Received 19 June 2014 Accepted 19 August 2014 Nine species of Parallelodemas Faust are reported from China. In addition to the pre- Published 17 September 2014 viously recorded P. impar Voss, we found P. docile Faust, P. vicinum Faust and the fol- lowing six species newly described herein: P. dimetans sp. n., P. feae sp. n., P. petilum Academic editor: sp. n., P. plumosum sp. n., P. setifrons sp. n. and P. tumens sp. n. Parallelodemas tarsale James Liebherr Voss from Java is transferred to Lepidomyctides Yoshihara and Morimoto (comb. n.). Lectotypes are designated for P. docile, P. imperfectum Faust, P. perfectum Faust, P. tar- dum Faust and P. vicinum. Several morphological modifications with unknown functions Key Words are documented, illustrated and discussed. Males of some species have special setae on rostrum, antennal scape and mesotarsus. A medially notched epistome apparently oc- weevils curs in both sexes but seems to wear off in females, probably during the preparation of sexual dimorphism oviposition sites. The mandible is unusual in having a convex, edentate inner face and exodontous mandible incisor-like structures on the outer face.
    [Show full text]