DOCSLIB.ORG

Checklist of the Cerambycidae, Or Longhorned Beetles (Coleoptera) of the Western Hemisphere 2009 Version (Updated Through 31 December 2008) Miguel A

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Checklist of the Cerambycidae, Or Longhorned Beetles (Coleoptera) of the Western Hemisphere 2009 Version (Updated Through 31 December 2008) Miguel A Checklist of the Cerambycidae, or longhorned beetles (Coleoptera) of the Western Hemisphere 2009 Version (updated through 31 December 2008) Miguel A. Monné, and Larry G. Bezark, Compilers Introduction The Cerambycidae, commonly known as longhorned beetles, longicorns, capricorns, round-headed borers, timber beetles, goat beetles (bock-käfern), or sawyer beetles, comprise one of the largest and most varied families of Coleoptera, with body length alone varying from ± 2.5 mm (Cyrtinus sp.) to slightly over 17 cm (Titanus giganteus). Distributed world-wide from sea level to montane sites as high as 4,200 m elevation wherever their host plants are found, cerambycids have long been a favorite with collectors. Taxonomic interest in the family has been fairly consistent for the past century, but the description of new taxa has accelerated in recent decades thanks to the efforts of Chemsak, Linsley, Giesbert, Martins, Monné, Galileo, Napp, and other workers. This checklist builds upon the efforts of Blackwelder (1946), Chemsak & Linsley (1982), Chemsak, Linsley & Noguera (1992), and Monné & Giesbert (1994), and presently includes nearly 9,000 described species and subspecies, covering the terrestrial hemisphere from Canada and Alaska to Argentina and Chile, and including the Caribbean arc. Adult Cerambycidae, upon which most taxonomic studies in the family have been based, vary widely in their habits. Some species are nocturnal, many are attracted to artificial light, and they also may be found at night on the trunks and branches of their host plants, or on foliage. Diurnal species also may be found on or near their host plants, but many species are attracted to blossoms of shrubs and trees, where they may serve as pollinators. Most adult Cerambycidae are capable of strong flight, but there are a number of flightless genera and species. Adult feeding requirements are variable, with some species taking nourishment from sap, leaves, blossoms, fruit, bark, and fungi, often not associated with a larval host, while others take little or no nourishment beyond water. The well-developed antennae which are one of the defining characteristics of the family serve as primary olfactory organs, and are remarkably sensitive in locating suitable host plants for oviposition, often at great distances. Male cerambycid antennae usually are longer than those of the females, and may be used to find reproductive partners by tracking the pheromones produced by the females. Chemical communication plays an important role in mate location and recognition in many cerambycid species. Short-range mate recognition is mediated by contact pheromones in most species studied to date. Males recognize conspecific females by contacting them with their antennae and the selective advantage to males conferred by antennae of increased length is a possible reason for the long “horns” of many cerambycid species. There appears to be variation in whether cerambycids use volatile pheromones or not, as well as variation in which sex produces the pheromone. For example, there is evidence that females of many prionine species produce pheromones from eversible glands on the ovipositor. Females of the anoplodermatine, Migdolus fryanus Westwood, produce a volatile pheromone from glands on the prothorax. Volatile pheromones are produced by males of several species in 2 the subfamily Aseminae, although the site of pheromone release remains unknown. Males of many cerambycine species produce pheromones from glands associated with pits in the surface of prothorax. These pits account for the sexually dimorphic punctation of many cerambycines and may provide a convenient morphological indication that a species uses a volatile pheromone. To date, there is little or no evidence of communication by volatile pheromones in species of the subfamilies Disteniinae, Lamiinae, Lepturinae, Parandrinae, or Spondylidinae. Methods used to collect adult Cerambycidae include: sweeping or beating branches and foliage; attracting them to UV and MV lights, and to various types of chemical baits; and hand- picking specimens from host plants or from blossoms. More recently, fumigation (“fogging”) methods have been employed to survey canopy insect faunas, often yielding astounding numbers of longhorned beetles. Passive traps such as malaise, flight intercept, and even pitfalls also may be used, and are particularly effective over longer periods of time. Rearing adults from infested wood can be productive of series of both sexes of otherwise rarely encountered species. Larval Cerambycidae also display a variety of habits. Most species feed within dead, dying or even decaying wood, but some taxa are able to utilize living plant tissue. Girdlers (adults of the Onciderini, larvae of genera in the tribes Methiini, Hesperophanini and Elaphidiini) sever living branches or twigs, with the larvae developing within the nutrient-rich distal portion. The larvae of a few species move freely through the soil, feeding externally upon roots or tunneling up under the root crown. Digestion of cellulose appears to be aided primarily by the presence of enzymes rather than symbiotic microorganisms. In many cases, Cerambycidae are primary borers in woody plants, providing a vital "first step" in the biological recycling of these materials. Larval feeding habits typically result in frass-filled galleries or tunnels under the bark or within the sapwood of the host plant, terminating in a pupal chamber, wherein the metamorphosis from last-instar larva to pupa to adult takes place. The life spans of most species in temperate regions typically range from one to three years, but many variations exist, and cycles of from two or three months to several decades have been documented. Tropical species may be less constrained seasonally, and some populations of smaller genera literally may breed continuously, with all stages being found on and in the same pieces of wood. Most of the overall lifetime is spent in the larval stage, with adult beetles usually emerging, dispersing, reproducing, and dying within a span of but a few days to a few months. Several species of cerambycid beetles are known to damage living trees, and may seriously affect orchards and ornamental trees; others may damage coniferous or hardwood lumber, and a few taxa can damage row crops. The majority of species, however occur within uncultivated or forested habitats, and while they are of great ecological importance within these natural ecosystems, they are of little human economic significance. Because of their close evolutionary linkage to their host plants, cerambycid beetles may be valuable bio-indicators of forest health and diversity, with differing suites of species found within primary forest habitats than those which occur within disturbed areas or secondary growth. Checklist order Subfamilies are arranged in traditional checklist order, although Napp (1994) has provided a phylogenetic analysis which suggests the following sequence: Anoplodermatinae, Parandrinae, Prioninae, Spondylidinae, Lepturinae, Aseminae, Cerambycinae, Lamiinae. Tribal 3 classifications within the subfamilies have not been evaluated phylogenetically, so their ordering is alphabetical. It is acknowledged that this results in the artificial separation of similar- appearing (and undoubtedly closely related) taxa (i.e., Anaglyptini – Clytini – Tillomorphini; Acanthocinini – Colobotheiini; Bothriospilini – Torneutini), and the breakup of the lamiine tribes with bifid tarsal claws. However, the functional value of a checklist is as an organizing reference tool, and for that reason-- and until such time as a tribal phylogeny has been determined-- the ordering is arranged for ease of use. Genera and species also are listed alphabetically. Citation of author, year and page number follows each taxon name, with synonymies cited in italics. Geographical distributions listed reflect the present knowledge of the authors and previous published data, and are subject to expansion as new information is contributed. An effort has been made to verify all contributed records, but the possibility exists that some erroneous identifications have led to incorrect distributional parameters for some species. These are corrected as we become aware of them. State or other provincial citations have been used where known for some larger countries to more accurately indicate known ranges. For more complete references by species, the authors refer the reader to Monné, 1993, et seq., Catalogue of the Cerambycidae of the Western Hemisphere (Parts 1 - 22), and Monné, 2005-6 (Part I, II, and III). A bibliography of systematic and distributional references is provided at the end of the checklist. The status of the disteniine longhorns has been the subject of considerable debate, and at various times they have been treated as a separate family, the Disteniidae. The issue remains open to debate, and for the purposes of this list we have employed the taxonomic placement of Lawrence & Newton, 1995, as a cerambycid subfamily, Disteniinae. Geographical abbreviations used in the list: Argentina BA = Buenos Aires; CA = Catamarca; CD = Córdoba; CH = Chaco; CO = Corrientes; CT = Chubut; ER = Entre Ríos; FO = Formosa; JU = Jujuy; LP = La Pampa; LR = La Rioja; ME = Mendoza; MI = Misiones; NE = Neuquén; RN = Río Negro; SA = Salta; SC = Santa Cruz; SE = Santiago del Estero; SF = Santa Fe; SJ = San Juan; SL = San Luis; TU = Tucumán. Bolivia BN = Beni; CO = Cochabamba; CQ = Chuquisaca; LP = La Paz; OR = Oruro; PN = Pando; PT = Potosi; SC = Santa
Load more

Recommended publications
  • Download Download
    March 29 2019 INSECTA 19 urn:lsid:zoobank. A Journal of World Insect Systematics org:pub:245CB278-D68A- UNDI M 4248-B9BC-8DB801F5A1EC 0695 Descriptions of one new genus and seven new species of Rhinotragini (Coleoptera: Cerambycidae: Cerambycinae) James E. Wappes American Coleoptera Museum 8734 Paisano Pass San Antonio, TX 78255-3523, USA Antonio Santos-Silva Museu de Zoologia Universidade de São Paulo São Paulo, SP, Brazil Date of issue: March 29, 2019 CENTER FOR SYSTEMATIC ENTOMOLOGY, INC., Gainesville, FL James E. Wappes and Antonio Santos-Silva Descriptions of one new genus and seven new species of Rhinotragini (Coleoptera: Cerambycidae: Cerambycinae) Insecta Mundi 0695: 1–19 ZooBank Registered: urn:lsid:zoobank.org:pub:245CB278-D68A-4248-B9BC-8DB801F5A1EC Published in 2019 by Center for Systematic Entomology, Inc. P.O. Box 141874 Gainesville, FL 32614-1874 USA http://centerforsystematicentomology.org/ Insecta Mundi is a journal primarily devoted to insect systematics, but articles can be published on any non- marine arthropod. Topics considered for publication include systematics, taxonomy, nomenclature, checklists, faunal works, and natural history. Insecta Mundi will not consider works in the applied sciences (i.e. medical entomology, pest control research, etc.), and no longer publishes book reviews or editorials. Insecta Mundi publishes original research or discoveries in an inexpensive and timely manner, distributing them free via open access on the internet on the date of publication. Insecta Mundi is referenced or abstracted by several sources, including the Zoological Record and CAB Abstracts. Insecta Mundi is published irregularly throughout the year, with completed manuscripts assigned an individual number. Manuscripts must be peer reviewed prior to submission, after which they are reviewed by the editorial board to ensure quality.
    [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]
  • (Coleoptera) of Peru Miguel A
    University of Nebraska - Lincoln DigitalCommons@University of Nebraska - Lincoln Center for Systematic Entomology, Gainesville, Insecta Mundi Florida 2-29-2012 Preliminary checklist of the Cerambycidae, Disteniidae, and Vesperidae (Coleoptera) of Peru Miguel A. Monné Universidade Federal do Rio de Janeiro, [email protected] Eugenio H. Nearns University of New Mexico, [email protected] Sarah C. Carbonel Carril Universidad Nacional Mayor de San Marcos, Peru, [email protected] Ian P. Swift California State Collection of Arthropods, [email protected] Marcela L. Monné Universidade Federal do Rio de Janeiro, [email protected] Follow this and additional works at: http://digitalcommons.unl.edu/insectamundi Part of the Entomology Commons Monné, Miguel A.; Nearns, Eugenio H.; Carbonel Carril, Sarah C.; Swift, Ian P.; and Monné, Marcela L., "Preliminary checklist of the Cerambycidae, Disteniidae, and Vesperidae (Coleoptera) of Peru" (2012). Insecta Mundi. Paper 717. http://digitalcommons.unl.edu/insectamundi/717 This Article is brought to you for free and open access by the Center for Systematic Entomology, Gainesville, Florida at DigitalCommons@University of Nebraska - Lincoln. It has been accepted for inclusion in Insecta Mundi by an authorized administrator of DigitalCommons@University of Nebraska - Lincoln. INSECTA MUNDI A Journal of World Insect Systematics 0213 Preliminary checklist of the Cerambycidae, Disteniidae, and Vesperidae (Coleoptera) of Peru Miguel A. Monné Museu Nacional Universidade Federal do Rio de Janeiro Quinta da Boa Vista São Cristóvão, 20940-040 Rio de Janeiro, RJ, Brazil Eugenio H. Nearns Department of Biology Museum of Southwestern Biology University of New Mexico Albuquerque, NM 87131-0001, USA Sarah C. Carbonel Carril Departamento de Entomología Museo de Historia Natural Universidad Nacional Mayor de San Marcos Avenida Arenales 1256, Lima, Peru Ian P.
    [Show full text]
  • Coleoptera, Cerambycidae, Lamiinae) with Description of a Species with Non‑Retractile Parameres
    ARTICLE Two new genera of Desmiphorini (Coleoptera, Cerambycidae, Lamiinae) with description of a species with non‑retractile parameres Francisco Eriberto de Lima Nascimento¹² & Antonio Santos-Silva¹³ ¹ Universidade de São Paulo (USP), Museu de Zoologia (MZUSP). São Paulo, SP, Brasil. ² ORCID: http://orcid.org/0000-0002-5047-8921. E-mail: [email protected] ³ ORCID: http://orcid.org/0000-0001-7128-1418. E-mail: [email protected] Abstract. In this study, two new genera of Desmiphorini (Lamiinae) are proposed: Cleidaria gen. nov., to include Cleidaria cleidae sp. nov. from the state of Chiapas in Mexico, and Obscenoides gen. nov. for Desmiphora (D.) compta Martins & Galileo, 2005. The shape of tarsal claws of Cleidaria cleidae sp. nov. (abruptly narrowed from basal half) is so far, not found in any current genera of the tribe. With respect to Obscenoides compta (Martins & Galileo, 2005) comb. nov., the genitalia of males have an unusual shape with non-retractile parameres. The character combination related to this genital structure is unknown to us in other species in the family, and hypotheses about its function are suggested. Key-Words. Genital morphology; Longhorned beetles; New taxa; Taxonomy. INTRODUCTION the current definitions of some tribes, especially based on the works of Breuning do not take into Lamiinae (Cerambycidae), also known as flat- account adaptive convergences and use superfi- faced longhorns, with more than 21,000 described cial characters to subordinate taxa. species in about 3,000 genera and 87 tribes is Among these tribes, Desmiphorini Thomson, the largest subfamily of Cerambycidae occurring 1860 is not an exception, and its “boundaries” are worldwide (Tavakilian & Chevillotte, 2019).
    [Show full text]
  • Taxonomic and Functional Structure of Phytophagous Insect Communities Associated with Grain Amaranth
    Taxonomic and Functional Structure of Phytophagous Insect Communities Associated with Grain Amaranth S Niveyro & A Salvo Neotropical Entomology ISSN 1519-566X Volume 43 Number 6 Neotrop Entomol (2014) 43:532-540 DOI 10.1007/s13744-014-0248-3 1 23 Your article is protected by copyright and all rights are held exclusively by Sociedade Entomológica do Brasil. This e-offprint is for personal use only and shall not be self- archived in electronic repositories. If you wish to self-archive your article, please use the accepted manuscript version for posting on your own website. You may further deposit the accepted manuscript version in any repository, provided it is only made publicly available 12 months after official publication or later and provided acknowledgement is given to the original source of publication and a link is inserted to the published article on Springer's website. The link must be accompanied by the following text: "The final publication is available at link.springer.com”. 1 23 Author's personal copy Neotrop Entomol (2014) 43:532–540 DOI 10.1007/s13744-014-0248-3 ECOLOGY, BEHAVIOR AND BIONOMICS Taxonomic and Functional Structure of Phytophagous Insect Communities Associated with Grain Amaranth 1 2 SNIVEYRO ,ASALVO 1Fac de Agronomía, Univ Nacional de La Pampa, Santa Rosa, La Pampa, Argentina 2Centro de Investigaciones Entomológicas de Córdoba, Instituto Multidisciplinario de Biología Vegetal, CONICET, Fac de Ciencias Exactas Físicas y Naturales, Univ Nacional de Córdoba, Córdoba, Argentina Keywords Abstract Amaranthus, herbivory, insect guilds, stem Amaranthus are worldwide attacked mainly by leaf chewers and sucker borer insects. Stem borers and leaf miners follow in importance, while minor Correspondence herbivores are leaf rollers, folders, and rasping-sucking insects.
    [Show full text]
  • Texto Completo (Pdf)
    e-ISSN 1983-0572 Publicação do Projeto Entomologistas do Brasil www.ebras.bio.br Distribuído através da Creative Commons Licence v3.0 (BY-NC-ND) Copyright © EntomoBrasilis Lista dos Cerambycidae, incluindo 12 Holótipos, Presentes no Museu de Zoologia da Universidade Estadual de Feira de Santana e o Primeiro Registro da espécie Chrysoprasis airi Napp & Martins para o Brasil Eliomar Cruz Menezes, Alberto Moreira Silva-Neto, Francisco Eriberto Lima Nascimento, Freddy Ruben Bravo Universidade Estadual de Feira de Santana, e-mail: [email protected] (Autor para correspondência), [email protected], [email protected], [email protected]. _____________________________________ EntomoBrasilis 5 (1): 49-58 (2012) Resumo. O Brasil é considerado uma das nações mais ricas em biodiversidade de insetos, porém possui uma grande desigualdade de estudos na área de zoologia ao longo de suas regiões geográficas, devido a desigual divisão de recursos e de mão de obra especializada. A falta de coleções zoológicas importantes na região nordeste, as dificuldades em obter os recursos necessários para arcar com os altos custos de manutenção destas coleções e a falta de divulgação de suas bases de dados são pontos chaves das causas dessa desigualdade. O objetivo deste trabalho é divulgar a lista das espécies da família Cerambicydae, incluindo 12 holótipos, presentes na coleção entomológica Professor Johann Becker do Museu de Zoologia da Universidade Estadual de Feira de Santana (MZFS) e fazer o primeiro registro da espécie Chrysoprasis airi Napp & Martins para o Brasil. Foram contabilizados mil e sessenta e quatro espécimes de Cerambycidae distribuídas em cento e cinqüenta e quatro espécies, cento e nove gêneros, quarenta e cinco tribos e três subfamílias, depositadas no MZFS.
    [Show full text]
  • THE IMMATURE STAGES of Eurymerus Eburioides AUDINET-SERVILLE, 1833 (COLEOPTERA: CERAMBYCIDAE: ECTENESSINI)
    IMMATURE STAGES OF Eurymerus eburioides AUDINET-SERVILLE, 1833 97 THE IMMATURE STAGES OF Eurymerus eburioides AUDINET-SERVILLE, 1833 (COLEOPTERA: CERAMBYCIDAE: ECTENESSINI) MORELLI, E.,1 SANCHEZ, A.2 and BIANCHI, M.2 1Sección Entomología, Facultad de Ciencias, Iguá, 4225, Montevideo 11400, Uruguay 2Protección Forestal, Facultad de Agronomía, Avda. Garzón, 780, Montevideo 12900, Uruguay Correspondence to: Enrique Morelli, Sección Entomología, Facultad de Ciencias, Iguá, 4225, Montevideo 11400, Uruguay, e-mail: [email protected] Received October 28, 2003 – Accepted July 16, 2004 – Distributed February 28, 2005 (With 13 figures) ABSTRACT Last instar larva and pupa of Eurymerus eburioides Audinet-Serville, 1833, are described and illus- trated based on specimens reared from neonate larvae on Eucalyptus globulus globulus logs in the laboratory. Characters of possible diagnostic value are presented in this work. Key words: Coleoptera, Cerambycidae, Eurymerus, larva, pupa. RESUMO Estágios imaturos de Eurymerus eburioides Audinet-serville, 1833 (Coleoptera: Cerambycidae: Ectenessini) Neste trabalho são descritas a larva do último instar e a pupa de Eurymerus eburioides Audinet-Serville, 1833, com base em espécimes criados em laboratório a partir de larvas neonatas de Eucalyptus globulus globulus. Apresentam-se, também, características com possível valor diagnóstico. Palavras-chave: Coleoptera, Cerambycidae, Eurymerus, larva, pupa. INTRODUCTION MATERIAL AND METHODS Eurymerus eburioides Audinet-Serville is a E. eburioides beetles were reared in the labo- native cerambicid often found attacking Eucalipt in ratory on one of their hosts (Eucalyptus globulus South America (Bosq, 1934; Costa, 1943; Hayward, globulus). Neonate larvae were manually transferred 1960; Bienzanko & Bosq, 1956; Berti Filho, 1985; to logs kept in a controlled-environment chamber Moraes & Berti-Filho, 1974; Monné et al., 2002).
    [Show full text]
  • Additions and Deletions to the Known Cerambycidae (Coleoptera) of Bolivia
    INSECTA MUNDI A Journal of World Insect Systematics 0150 Additions and deletions to the known Cerambycidae (Coleoptera) of Bolivia James E. Wappes American Coleoptera Museum 8734 Paisano Pass San Antonio, Texas 78255-3523 Steven W. Lingafelter Systematic Entomology Laboratory Plant Sciences Institute, Agriculture Research Service United States Department of Agriculture National Museum of Natural History Washington, DC 20013-7012 Robert Perger Escuela de Biología & Centro de Investigación en Ciencias del Mar y Limnología (CIMAR) Universidad de Costa Rica 2060 San José, Costa Rica Date of Issue: March 11, 2011 CENTER FOR SYSTEMATIC ENTOMOLOGY, INC., Gainesville, FL James E. Wappes, Steven W. Lingafelter, and Robert Perger Additions and deletions to the known Cerambycidae (Coleoptera) of Bolivia Insecta Mundi 0150: 1-8 Published in 2011 by Center for Systematic Entomology, Inc. P. O. Box 141874 Gainesville, FL 32614-1874 U. S. A. http://www.centerforsystematicentomology.org/ Insecta Mundi is a journal primarily devoted to insect systematics, but articles can be published on any non-marine arthropod. Topics considered for publication include systematics, taxonomy, nomencla- ture, checklists, faunal works, and natural history. Insecta Mundi will not consider works in the applied sciences (i.e. medical entomology, pest control research, etc.), and no longer publishes book re- views or editorials. Insecta Mundi publishes original research or discoveries in an inexpensive and timely manner, distributing them free via open access on the internet on the date of publication. Insecta Mundi is referenced or abstracted by several sources including the Zoological Record, CAB Abstracts, etc. Insecta Mundi is published irregularly throughout the year, with completed manu- scripts assigned an individual number.
    [Show full text]
  • Biosecurity Regulation 2016
    Queensland Biosecurity Act 2014 Biosecurity Regulation 2016 Current as at 14 August 2020 © State of Queensland 2020 This work is licensed under a Creative Commons Attribution 4.0 International License. Queensland Biosecurity Regulation 2016 Contents Page Chapter 1 Preliminary 1 Short title . 11 2 Commencement . 11 3 Definitions . 11 3A Measurement of position under regulation . 11 Chapter 2 Biosecurity obligations Part 2 Codes of practice Division 1 Labelling of fertilisers and contaminants in fertilisers 6 Code of practice about labelling of fertilisers and contaminants in fertilisers—Act, s 104(1) . 12 7 Effect of code of practice—Act, s 26(1) . 12 Division 2 Feed for food producing animals 8 Code of practice for feed about food producing animals—Act, s 104(1) 13 9 Effect of code of practice—Act, s 26(1) . 13 Part 3 Obligations relating to restricted matter Division 1 Category 3 restricted matter Subdivision 1 Ways for disposing category 3 restricted matter 10 Object of subdivision . 14 11 Ways of disposing of category 3 restricted matter—invasive plants 14 11A Ways of disposing of category 3 restricted matter—invasive animals 15 Subdivision 1A Purposes for disposing of category 3 restricted matter 11B Object of subdivision . 15 11C Disposing of category 3 restricted matter—purpose authorised under another law . 15 Subdivision 1B Ways for distributing category 3 restricted matter 11D Object of subdivision . 15 11E Distributing category 3 restricted matter—way authorised under another Biosecurity Regulation 2016 Contents law . 15 Subdivision 2 Purposes for distributing category 3 restricted matter 12 Object of subdivision . 16 13 Distributing category 3 restricted matter—biological control .
    [Show full text]
  • 0865 a New Genus Cicatrisphaerion, New Species, New Records, Page Count: 20 and Redescriptions of Neotropical Cerambycidae (Coleoptera) Steven W
    A journal of world insect systematics INSECTA MUNDI 0865 A new genus Cicatrisphaerion, new species, new records, Page Count: 20 and redescriptions of Neotropical Cerambycidae (Coleoptera) Steven W. Lingafelter Lingafelter et al. 8920 S. Bryerly Ct. Hereford, Arizona 85615, USA. Roy F. Morris II 2635 Ewell Road Lakeland, Florida 33811, USA [email protected] Frederick W. Skillman Jr. 7033 S. 19th St. Phoenix, Arizona 85042, USA Antonio Santos-Silva Museu de Zoologia, Universidade de São Paulo São Paulo, SP, Brazil Date of issue: April 30, 2021 Center for Systematic Entomology, Inc., Gainesville, FL Lingafelter SW, Morris RF II, Skillman FW Jr., Santos-Silva A. 2021. A new genus Cicatrisphaerion, new species, new records, and redescriptions of Neotropical Cerambycidae (Coleoptera). Insecta Mundi 0865: 1–20. Published on April 30, 2021 by Center for Systematic Entomology, Inc. P.O. Box 141874 Gainesville, FL 32614-1874 USA http://centerforsystematicentomology.org/ Insecta Mundi is a journal primarily devoted to insect systematics, but articles can be published on any non- marine arthropod. Topics considered for publication include systematics, taxonomy, nomenclature, checklists, faunal works, and natural history. Insecta Mundi will not consider works in the applied sciences (i.e. medi- cal entomology, pest control research, etc.), and no longer publishes book reviews or editorials. Insecta Mundi publishes original research or discoveries in an inexpensive and timely manner, distributing them free via open access on the internet on the date of publication. Insecta Mundi is referenced or abstracted by several sources, including the Zoological Record and CAB Abstracts. Insecta Mundi is published irregularly throughout the year, with completed manuscripts assigned an individual number.
    [Show full text]
  • Phasmid Studies ISSN 0966­0011 Volume 3, Numbers 1 & 2
    Phasmid Studies ISSN 0966­0011 volume 3, numbers 1 & 2. Contents A redefinition of the orientation ter minology of phasmid eggs J.T .C . Sellick . T he evolution and subsequent classification of the Phasmatodea Robert Lind . .. 3 PSG 149, Achrioptera sp. Frank Hennemann . .. 6 Reviews and Abstracts Book Reviews 12 Journal Review . .. 14 Phasmid Abstracts . 15 PSG 146, Centema hadrillus (Westwood) P.E . Bragg 23 A Check List of Type Species of Phasmid Genera P.E. Bragg 28 The Distribution of Asceles margaritatus in Borneo P.E. Bragg 39 The Phasmid Database: version 1.5 P.E. Bragg 4 1 Reviews and Abstracts Phasmid Abstracts . .. 43 Cover illustration : Echinoclonia exotica (Brunne r), by P. E. Bragg. A redefinition of the orientation terminology of phasmid eggs. J.T.C. Sellick, 31 Regem Street, Kdterin~. Nnrthanl~. U.K. Key words Phasmida, Egg Tanninology, Onemation. The article on Dinophasma gwrigera (Westwood) (Bragg 1993) raised the question of how one determines dorsal and ventral surfaces on eggs in which the micropylar plate circles the egg. In the case of this species (by comparison with other Aschiphasmatinae eggs) it would appear that the dorsal surface has been correetly identified as that bearing the micropyle, since it is typical in eggs of this group that the operculum should be lilted ventrally and the micropylar plate should bear a ventral central stripe. The orientation would be confirmed by examination of the internal plate as indicated below. a a d (0) p p 1 d (c) (d) (e) Figure 1. The egg of Ortttomcrio supcrba (Redtenbacher}, a) dorsal view, b) lateral view, c) internal micropylar plate tlattened out.
    [Show full text]
  • Zootaxa, Catalogue of Family-Group Names in Cerambycidae
    Zootaxa 2321: 1–80 (2009) ISSN 1175-5326 (print edition) www.mapress.com/zootaxa/ Monograph ZOOTAXA Copyright © 2009 · Magnolia Press ISSN 1175-5334 (online edition) ZOOTAXA 2321 Catalogue of family-group names in Cerambycidae (Coleoptera) YVES BOUSQUET1, DANIEL J. HEFFERN2, PATRICE BOUCHARD1 & EUGENIO H. NEARNS3 1Agriculture and Agri-Food Canada, Central Experimental Farm, Ottawa, Ontario K1A 0C6. E-mail: [email protected]; [email protected] 2 10531 Goldfield Lane, Houston, TX 77064, USA. E-mail: [email protected] 3 Department of Biology, Museum of Southwestern Biology, University of New Mexico, Albuquerque, NM 87131-0001, USA. E-mail: [email protected] Corresponding author: [email protected] Magnolia Press Auckland, New Zealand Accepted by Q. Wang: 2 Dec. 2009; published: 22 Dec. 2009 Yves Bousquet, Daniel J. Heffern, Patrice Bouchard & Eugenio H. Nearns CATALOGUE OF FAMILY-GROUP NAMES IN CERAMBYCIDAE (COLEOPTERA) (Zootaxa 2321) 80 pp.; 30 cm. 22 Dec. 2009 ISBN 978-1-86977-449-3 (paperback) ISBN 978-1-86977-450-9 (Online edition) FIRST PUBLISHED IN 2009 BY Magnolia Press P.O. Box 41-383 Auckland 1346 New Zealand e-mail: [email protected] http://www.mapress.com/zootaxa/ © 2009 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.
    [Show full text]